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PrimerDatabase.tab
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sr_ID Primer name Primer Sequence Designed By date ordered #bp GC% melting temp Organism Gene Gene Accession# full sequence location on reference pair w/sr_ID product size other notes IDT #
1710 P_gurneyi_2_fwd CGACATTATCCGCCGTTTCG JDA 10/5/2015 20 55 59.77 P. Gurneyi Luciferase RNA TTCAGGTGCATCTTCTTGCGAGAATATACATGGCATCGTCGGGCTCTGCCTCGCGTATCGATATGATTTGGTTGCCTACCCGCTTTTCCGGGTTTATTAATAAAGTTGAAATCTTACCATGTTTCCGGTCGGACCATCATTATGTGTTTATTGAGATGCATTTACCTTTTTCTGTTGTTCGCGGCAATGAGCTTTGGAAACTCAATTTTTCATTATTAAAAGACGAATGTTTATGCCAGAAAATTATGGACTTCTGGAAGATATGGAAGGTCCAAAAACATGTTTACCTTCCCTCCGTTTGGTGGGAACTTGGAAAAAAGCGTCTTATCGACATTATCCGCCGTTTCGGTCGAAGCCGTGCTAGCGCAGTGCGCGATCGTGTTGCTGATTTAACTGCCCAATTGAATTGCATGCAAAAACAAGTTTTACAAGGTAATGCCACTGCGGACCAGTTATCATCCGAGCGGACC 470 Created from consensus sequence
1709 P_gurneyi_2_rev CCGCTCGGATGATAACTGGT JDA 10/5/2015 20 55 59.77 P. Gurneyi Luciferase RNA TTCAGGTGCATCTTCTTGCGAGAATATACATGGCATCGTCGGGCTCTGCCTCGCGTATCGATATGATTTGGTTGCCTACCCGCTTTTCCGGGTTTATTAATAAAGTTGAAATCTTACCATGTTTCCGGTCGGACCATCATTATGTGTTTATTGAGATGCATTTACCTTTTTCTGTTGTTCGCGGCAATGAGCTTTGGAAACTCAATTTTTCATTATTAAAAGACGAATGTTTATGCCAGAAAATTATGGACTTCTGGAAGATATGGAAGGTCCAAAAACATGTTTACCTTCCCTCCGTTTGGTGGGAACTTGGAAAAAAGCGTCTTATCGACATTATCCGCCGTTTCGGTCGAAGCCGTGCTAGCGCAGTGCGCGATCGTGTTGCTGATTTAACTGCCCAATTGAATTGCATGCAAAAACAAGTTTTACAAGGTAATGCCACTGCGGACCAGTTATCATCCGAGCGGACC 470 Created from consensus sequence
1708 P_gurneyi_1_fwd TATACATGGCATCGTCGGGC JDA 10/5/2015 20 55 60.04 P. Gurneyi Luciferase RNA TTCAGGTGCATCTTCTTGCGAGAATATACATGGCATCGTCGGGCTCTGCCTCGCGTATCGATATGATTTGGTTGCCTACCCGCTTTTCCGGGTTTATTAATAAAGTTGAAATCTTACCATGTTTCCGGTCGGACCATCATTATGTGTTTATTGAGATGCATTTACCTTTTTCTGTTGTTCGCGGCAATGAGCTTTGGAAACTCAATTTTTCATTATTAAAAGACGAATGTTTATGCCAGAAAATTATGGACTTCTGGAAGATATGGAAGGTCCAAAAACATGTTTACCTTCCCTCCGTTTGGTGGGAACTTGGAAAAAAGCGTCTTATCGACATTATCCGCCGTTTCGGTCGAAGCCGTGCTAGCGCAGTGCGCGATCGTGTTGCTGATTTAACTGCCCAATTGAATTGCATGCAAAAACAAGTTTTACAAGGTAATGCCACTGCGGACCAGTTATCATCCGAGCGGACC 470 Created from consensus sequence
1707 P_gurneyi_1_rev TTTCCAAAGCTCATTGCCGC JDA 10/5/2015 20 50 60.04 P. Gurneyi Luciferase RNA TTCAGGTGCATCTTCTTGCGAGAATATACATGGCATCGTCGGGCTCTGCCTCGCGTATCGATATGATTTGGTTGCCTACCCGCTTTTCCGGGTTTATTAATAAAGTTGAAATCTTACCATGTTTCCGGTCGGACCATCATTATGTGTTTATTGAGATGCATTTACCTTTTTCTGTTGTTCGCGGCAATGAGCTTTGGAAACTCAATTTTTCATTATTAAAAGACGAATGTTTATGCCAGAAAATTATGGACTTCTGGAAGATATGGAAGGTCCAAAAACATGTTTACCTTCCCTCCGTTTGGTGGGAACTTGGAAAAAAGCGTCTTATCGACATTATCCGCCGTTTCGGTCGAAGCCGTGCTAGCGCAGTGCGCGATCGTGTTGCTGATTTAACTGCCCAATTGAATTGCATGCAAAAACAAGTTTTACAAGGTAATGCCACTGCGGACCAGTTATCATCCGAGCGGACC 470 Created from consensus sequence
1706 40s_FWD CATTGCTGAGTGCTTGGCTG JH 8/12/2015 20 55 60.11 O.lurida "40S ribosomal protein S5 [Cleaved into: 40S ribosomal protein S5, N-terminally processed]" P46782 tttttttttttgacttccggcaccttcacggtacaatggctgagaactgggatgaagctgccccggcagtagaactgccagaaatcaaactcttcggcaagtggtcttcagatgatgttcaagtgaacgacatcagtttaactgattacatagctgtcaaagagaagtatgcgaaatatttgcctcactctgcgggaagataccaagtaaaaagattccgaaaatctcagtgtccaattgtggagcgcctgacctgttcactgatgatgcgtggaaggaacaatggaaagaaactgttgacaactcgtatcgtcaagcacgccttcgaaatcattcacctgctcacaggagagaaccctctccaagtactggtgaatgcgatcatcaacagtggtcctcgtgaagactccacccgtatcggacgtgctggtacagtacgtcgtcaggcggtagacgtctctcctctccggcgggttaaccaggctatctggctgctgtgtaacggagctcgtgaggcttccttcaggaacatcaagaccattgctgagtgcttggctgatgagctaatcaatgctgcaaagggatcctccaattcccatgctatcaagaagaaggatgaacttgagcgtgtagccaagtccaaccgataaatgacattatgtgttatcagtgaactgaaaataaactgtcaggcaaaaagtggtatttcttgttcctcagcacaccagattttattgatattgggttatggaggctgaaacagatatgaaaattatttaaaagagagcttgagttgtagtatatttgctcctaaaagtttg 1705 103 Reference transcriptome Oly Transcriptome V3 135969753
1705 40s_REV GGACTTGGCTACACGCTCAA JH 8/12/2015 20 55 60.32 O.lurida "40S ribosomal protein S5 [Cleaved into: 40S ribosomal protein S5, N-terminally processed]" P46782 tttttttttttgacttccggcaccttcacggtacaatggctgagaactgggatgaagctgccccggcagtagaactgccagaaatcaaactcttcggcaagtggtcttcagatgatgttcaagtgaacgacatcagtttaactgattacatagctgtcaaagagaagtatgcgaaatatttgcctcactctgcgggaagataccaagtaaaaagattccgaaaatctcagtgtccaattgtggagcgcctgacctgttcactgatgatgcgtggaaggaacaatggaaagaaactgttgacaactcgtatcgtcaagcacgccttcgaaatcattcacctgctcacaggagagaaccctctccaagtactggtgaatgcgatcatcaacagtggtcctcgtgaagactccacccgtatcggacgtgctggtacagtacgtcgtcaggcggtagacgtctctcctctccggcgggttaaccaggctatctggctgctgtgtaacggagctcgtgaggcttccttcaggaacatcaagaccattgctgagtgcttggctgatgagctaatcaatgctgcaaagggatcctccaattcccatgctatcaagaagaaggatgaacttgagcgtgtagccaagtccaaccgataaatgacattatgtgttatcagtgaactgaaaataaactgtcaggcaaaaagtggtatttcttgttcctcagcacaccagattttattgatattgggttatggaggctgaaacagatatgaaaattatttaaaagagagcttgagttgtagtatatttgctcctaaaagtttg 1706 103 Reference transcriptome Oly Transcriptome V3 135969754
1704 60s_FWD GTACGAGGTGATGAGAGCGG JH 8/12/2015 20 60 59.97 O.lurida 60S ribosomal protein L10 (QM protein homolog) (dQM) O61231 gaggaagaaggccaaggctctttccggtagttctaattcaaaatgggacgccgaccagctcggtgttaccggtactgtaagaacaaaccttatccgaagtccagattttgtagaggtgtcccagatgcaaagatccgtatttttgatcttgggaggaagaaggccaaggtagatgacttccccctgtgtgtgcatctcgtatctgatgagtacgaacagctctcctcggaagctctagaagcaggacgtatctgtgccaacaagtatttggtcaagaactgtggtaaagatgctttccacatgcgaattcgagtgcaccccttccacgtcatcagaatcaacaagatgttgtcgtgcgctggagctgataggcttcagacgggaatgagaggagcttttggtaaaccacaaggcaccgtagcccgtgtacacataggacagccaatcatgtctgtacgtgctcgtgagagtcaccaggctgccgtgatagaagcactcaggagagccaagttcaagttccccggacgtcagaagatccacgtgtccaagaagtggggattcactaagtgggagaagcctcagtacgaggtgatgagagcggacgggcgcctgatccctgatggagttaccgtacaatataaacctaacaagggccccctgcgtgcatggaaggacagacagagggtctaaagctatttattgtgatctggacaatatgaataaaccatcatgtaggccttcaaaaaaaaaaaaaa 1703 105 Reference transcriptome Oly Transcriptome V3 135969755
1703 60s_REV ACCCTCTGTCTGTCCTTCCA JH 8/12/2015 20 55 59.89 O.lurida 60S ribosomal protein L10 (QM protein homolog) (dQM) O61231 gaggaagaaggccaaggctctttccggtagttctaattcaaaatgggacgccgaccagctcggtgttaccggtactgtaagaacaaaccttatccgaagtccagattttgtagaggtgtcccagatgcaaagatccgtatttttgatcttgggaggaagaaggccaaggtagatgacttccccctgtgtgtgcatctcgtatctgatgagtacgaacagctctcctcggaagctctagaagcaggacgtatctgtgccaacaagtatttggtcaagaactgtggtaaagatgctttccacatgcgaattcgagtgcaccccttccacgtcatcagaatcaacaagatgttgtcgtgcgctggagctgataggcttcagacgggaatgagaggagcttttggtaaaccacaaggcaccgtagcccgtgtacacataggacagccaatcatgtctgtacgtgctcgtgagagtcaccaggctgccgtgatagaagcactcaggagagccaagttcaagttccccggacgtcagaagatccacgtgtccaagaagtggggattcactaagtgggagaagcctcagtacgaggtgatgagagcggacgggcgcctgatccctgatggagttaccgtacaatataaacctaacaagggccccctgcgtgcatggaaggacagacagagggtctaaagctatttattgtgatctggacaatatgaataaaccatcatgtaggccttcaaaaaaaaaaaaaa 1704 105 Reference transcriptome Oly Transcriptome V3 135969756
1702 28s_3_FWD TAAGGCCAGTGTGGGAGAGA JH 8/12/2015 20 55 59.88 O.lurida "28S ribosomal protein S5, mitochondrial (MRP-S5) (S5mt)" Q5REJ1 gtgatatattcccggattgacgcagcatgagtttggcccgaatcggaactggacttcataatgcgacaaaaactttaagtttgacaaatatattgcaaggaacaggttgtccaaaatgtcccagcctactgtcggtatttgtactctcgcaccacaatcatttgcagtccaggaactacagttttgtcacaacagtctcgagtgatgaattatgggaaggtgtgacctccgtcagctcagcaggaaagaaacgaggccgagccaaatcaaccaagaaaaagattaatcttcatattggccaaagattaggacatggtaaggaaggcatgtctttccctggattaaacaccaaagttttcagcgagacttcacgagttaaatccactgttaaacgttctgaggaatttgatacaacacttgaggaacttcgacaacagcggaagtccacaaagaagacccgcagtacaacaaaatatgtcaatcctttgttaagaggttatactagtaatttcttaccaggaaccagtttaggaccaccagctcaagtacgagaggaaaactttgatggctttgattcaagattgttgcaaatcaagaaaatcaccaacattacagcggatcagggaaaggtgttctcatacagagctctggtagctgtcgggaatggaaatggtctggcaggttttgcagttgctaaagcaaagaaactaaatgctgctggaattaaggcgagagacaaagcagggcaacaactaatatttattgaaagatacaatggacatacattgtaccacaactcacattcacaagttcattgtacaaaggtgtttgccaaaagagcatatgaaggacatggagttgtggcacacagagtgattaaagacttgtgcctgctgtctggaattaaagatatttatgtcaagacagagggcaacacaaaaaataccatcaccatgacaatggctttcttcaatgcagttacacatcaggaaacacaccaagaattggccaaccgaaccaagatgcatgtactagagctctcagatgaacgaaatcagacaccagttgttgtggcatctccggaagatggaaagatacaagcaaaatactatggaagtgaaagggatgtgtatgacttagatactctgtacactaaaggcaaactccactggactcggcctaaaataaggccagtgtgggagagacttggttttacatcatttagaaggaagctagatcagcgggaaaggagacgagggcaacacgaggcacaaaaagtgaggcgattgtgtagactggagccctcgaaagaggagcggattcaacgcgatcaagctgggaaaaagaacgaggaataatgatgtgtgtgacttgttagatattattaaaataaatctatagaatatgaaatgca 1701 100 Reference transcriptome Oly Transcriptome V3 135969757
1701 28s_3_REV CGCCTCACTTTTTGTGCCTC JH 8/12/2015 20 55 60.04 O.lurida "28S ribosomal protein S5, mitochondrial (MRP-S5) (S5mt)" Q5REJ1 gtgatatattcccggattgacgcagcatgagtttggcccgaatcggaactggacttcataatgcgacaaaaactttaagtttgacaaatatattgcaaggaacaggttgtccaaaatgtcccagcctactgtcggtatttgtactctcgcaccacaatcatttgcagtccaggaactacagttttgtcacaacagtctcgagtgatgaattatgggaaggtgtgacctccgtcagctcagcaggaaagaaacgaggccgagccaaatcaaccaagaaaaagattaatcttcatattggccaaagattaggacatggtaaggaaggcatgtctttccctggattaaacaccaaagttttcagcgagacttcacgagttaaatccactgttaaacgttctgaggaatttgatacaacacttgaggaacttcgacaacagcggaagtccacaaagaagacccgcagtacaacaaaatatgtcaatcctttgttaagaggttatactagtaatttcttaccaggaaccagtttaggaccaccagctcaagtacgagaggaaaactttgatggctttgattcaagattgttgcaaatcaagaaaatcaccaacattacagcggatcagggaaaggtgttctcatacagagctctggtagctgtcgggaatggaaatggtctggcaggttttgcagttgctaaagcaaagaaactaaatgctgctggaattaaggcgagagacaaagcagggcaacaactaatatttattgaaagatacaatggacatacattgtaccacaactcacattcacaagttcattgtacaaaggtgtttgccaaaagagcatatgaaggacatggagttgtggcacacagagtgattaaagacttgtgcctgctgtctggaattaaagatatttatgtcaagacagagggcaacacaaaaaataccatcaccatgacaatggctttcttcaatgcagttacacatcaggaaacacaccaagaattggccaaccgaaccaagatgcatgtactagagctctcagatgaacgaaatcagacaccagttgttgtggcatctccggaagatggaaagatacaagcaaaatactatggaagtgaaagggatgtgtatgacttagatactctgtacactaaaggcaaactccactggactcggcctaaaataaggccagtgtgggagagacttggttttacatcatttagaaggaagctagatcagcgggaaaggagacgagggcaacacgaggcacaaaaagtgaggcgattgtgtagactggagccctcgaaagaggagcggattcaacgcgatcaagctgggaaaaagaacgaggaataatgatgtgtgtgacttgttagatattattaaaataaatctatagaatatgaaatgca 1702 100 Reference transcriptome Oly Transcriptome V3 135969758
1700 18s_2_FWD CTCGATTCCCTTTCCCCCAC JH 8/12/2015 20 60 60.11 O.conchaphila 18s Ribosomal RNA EF035117.1 1699 218 Genbank 18s ribosomal for O. conchaphila 135962637
1699 18s_2_REV GCCCGATCTCTTTCCACCTC JH 8/12/2015 20 60 60.18 O.conchaphila 18s Ribosomal RNA EF035117.1 1700 218 Genbank 18s ribosomal for O. conchaphila 135962638
1698 18s_1_FWD TTCCTTTTCCCCCACTCAGC JH 8/12/2015 20 55 59.89 O.conchaphila 18s Ribosomal RNA EF035118.1 1697 392 Genbank 18s ribosomal for O. conchaphila 135962639
1697 18s_1_REV CGCTTCACTCGCCGTTACTA JH 8/12/2015 20 55 60.18 O.conchaphila 18s Ribosomal RNA EF035118.1 1698 392 Genbank 18s ribosomal for O. conchaphila 135962640
1696 ILL-BC1 CAAGCAGAAGACGGCATACGAGAT-CGTGAT-GTGACTGGAGTTCAGACGTGTGCTCTTCCGATC http://people.oregonstate.edu/~meyere/docs/2bRAD_26Aug2014.pdf 9/18/2015 NA NA NA NA NA NA NA RAD library construction 137225862
1695 ILL-HT2 AATGATACGGCGACCACCGAGATCTACAC-CGTACG-ACACTCTTTCCCTACACGACGCTCTTCCGATCT http://people.oregonstate.edu/~meyere/docs/2bRAD_26Aug2014.pdf 9/18/2015 NA NA NA NA NA NA NA RAD library construction 137225861
1694 ILL-HT1 AATGATACGGCGACCACCGAGATCTACAC-ATGCAT-ACACTCTTTCCCTACACGACGCTCTTCCGATCT http://people.oregonstate.edu/~meyere/docs/2bRAD_26Aug2014.pdf 9/18/2015 NA NA NA NA NA NA NA RAD library construction 137225860
1693 ILL-Lib2 CAAGCAGAAGACGGCATACGA http://people.oregonstate.edu/~meyere/docs/2bRAD_26Aug2014.pdf 9/18/2015 NA NA NA NA NA NA NA RAD library construction 137225863
1692 ILL-Lib1 AATGATACGGCGACCACCGA http://people.oregonstate.edu/~meyere/docs/2bRAD_26Aug2014.pdf 9/18/2015 NA NA NA NA NA NA NA RAD library construction 137225866
1691 3ILL-NR CAGACGTGTGCTCTTCCGATCTNR http://people.oregonstate.edu/~meyere/docs/2bRAD_26Aug2014.pdf 9/18/2015 NA NA NA NA NA NA NA RAD library construction 137225865
1690 Anti-ILL AGATCGGAAGAGC/3InvdT/ http://people.oregonstate.edu/~meyere/docs/2bRAD_26Aug2014.pdf 9/18/2015 NA NA NA NA NA NA NA RAD library construction 137225859
1689 5ILL-NR CTACACGACGCTCTTCCGATCTNR http://people.oregonstate.edu/~meyere/docs/2bRAD_26Aug2014.pdf 9/18/2015 NA NA NA NA NA NA NA RAD library construction 137225864
1688 GAPDH_FWD TGCTCCTTGCATTTCCGTCA JH 7/22/2015 20 50 60 O.lurida Glyceraldehyde-3-phosphate dehydrogenase (GAPDH) (EC 1.2.1.12) Q6BMK0 caattgcattaatcgacaactatatccaaactcattatcataccaggatatcaacttgatcaatttatctccatctttacttgctatttcaatgcacgccttttcgtcaaccaaactactatgcgattcatccattaccccagccaatgtcaaagaatcggtgctatcaactttcaatatatccttcaactcattcttagacgcaacttttatagcttccataacttcattcaatcctaccttcgagttttctaatgtaagtgtcaagtcaacaacagacccacaaatcgttggaactctgaatgccattccggtaagtattccgtttacttcaggcagtacttttccgacagctttggcagcacctgtcgaagcaggaattatgtttgcagctccagagaagcccattcttatgctccttgcatttccgtcaacaataggctgagaaatagtcactgaatgcactgtggtcattaaacctgtttttattttgtacttatcattgacagccttcaccaatggtgctagacagttagtagtgcaggaagcgttgctgattatactctctcctttgtactctttgtcgttcacacctttaacaaacataggaatgtctggagacttggaaggagcgctgagtacaactttggtaacgtctgaagtttggttgtattctttgaggtggtttctagctgtctctgtggttaggaaaacccctgtgcaatctacgacaactttgacgcctgttaatttccagttgattaatgatggactcttctcgtgggtgattttgatagaagatacgagattttctttagtttccttgggattcgcacagcaacgattgtagatgtttaaggattgatttgcttcgtctgctgctgcgtgatatgcaaaacgaccatgag 1687 221 Reference transcriptome Oly Transcriptome V3
1687 GAPDH_REV CGCTCCTTCCAAGTCTCCAG JH 7/22/2015 20 60 60 O.lurida Glyceraldehyde-3-phosphate dehydrogenase (GAPDH) (EC 1.2.1.12) Q6BMK0 caattgcattaatcgacaactatatccaaactcattatcataccaggatatcaacttgatcaatttatctccatctttacttgctatttcaatgcacgccttttcgtcaaccaaactactatgcgattcatccattaccccagccaatgtcaaagaatcggtgctatcaactttcaatatatccttcaactcattcttagacgcaacttttatagcttccataacttcattcaatcctaccttcgagttttctaatgtaagtgtcaagtcaacaacagacccacaaatcgttggaactctgaatgccattccggtaagtattccgtttacttcaggcagtacttttccgacagctttggcagcacctgtcgaagcaggaattatgtttgcagctccagagaagcccattcttatgctccttgcatttccgtcaacaataggctgagaaatagtcactgaatgcactgtggtcattaaacctgtttttattttgtacttatcattgacagccttcaccaatggtgctagacagttagtagtgcaggaagcgttgctgattatactctctcctttgtactctttgtcgttcacacctttaacaaacataggaatgtctggagacttggaaggagcgctgagtacaactttggtaacgtctgaagtttggttgtattctttgaggtggtttctagctgtctctgtggttaggaaaacccctgtgcaatctacgacaactttgacgcctgttaatttccagttgattaatgatggactcttctcgtgggtgattttgatagaagatacgagattttctttagtttccttgggattcgcacagcaacgattgtagatgtttaaggattgatttgcttcgtctgctgctgcgtgatatgcaaaacgaccatgag 1688 221 Reference transcriptome Oly Transcriptome V3
1686 Act_FWD GTTCTCCTGTCGGGTGGAAG JH 7/22/2015 20 60 60 O.lurida Actin P53498 cgtcacaaactgggacgacatggaacagttatggcagtacatcttcacgggagtgctaggagtatctcccgaggaatacaatgtactgaattctgaaatctcctttataccaaaagcttgtaaggaagcaatgttacagttattaatggaaaagtttaatgtacaaggctacaacgcccagctgcagggtattttagctgccatggcctacggtcataccagcagcctcattctggaatgtggtgaaggcgttgcacaagcatttcctgtttatgagtcctacgcttttccggactcgataaaaagtatggagatcggtggaaaggacgtcacactgtcgctacagaaactcctatacgaaaagggatattcttttactacacattctgagattgatgcagtgagggagataaagggaaaatattgttctgtacgcccatataactttacttcggacaagatgtcgtcgcaatcagacggagaggacacatacacattaccagacggtcagcaaatagtcattggtgacgaaaggtttgaggctccggaagtcctttttcggtcatccttactaggttacgacacgggtgagcttggagggatccaggatttggtgcacgccgcaatccaggcctgcgattggtcctgccggcgagacctgtattggaatgttctcctgtcgggtggaagcaccttactgccaggttttaaagagaggctttcacaagaactgagcagtaaggcaccgtgtcgtgttaaagtgtgggcggatccaagtcggcgtttcatggtgtggattggcggatccatttacgcctctctgatgttttgtgagaataaatggataactaagagtgaatacaacgaatatggacccaatattattcaccgaaaatgtcaattggccgcgcagacaaacctaacttagtggactacaatactatattgtacatcatcttattttatataaaaaaaaaaaggaggg 1685 123 Reference transcriptome Oly Transcriptome V3
1685 Act_REV CACCATGAAACGCCGACTTG JH 7/22/2015 20 55 60 O.lurida Actin P53498 cgtcacaaactgggacgacatggaacagttatggcagtacatcttcacgggagtgctaggagtatctcccgaggaatacaatgtactgaattctgaaatctcctttataccaaaagcttgtaaggaagcaatgttacagttattaatggaaaagtttaatgtacaaggctacaacgcccagctgcagggtattttagctgccatggcctacggtcataccagcagcctcattctggaatgtggtgaaggcgttgcacaagcatttcctgtttatgagtcctacgcttttccggactcgataaaaagtatggagatcggtggaaaggacgtcacactgtcgctacagaaactcctatacgaaaagggatattcttttactacacattctgagattgatgcagtgagggagataaagggaaaatattgttctgtacgcccatataactttacttcggacaagatgtcgtcgcaatcagacggagaggacacatacacattaccagacggtcagcaaatagtcattggtgacgaaaggtttgaggctccggaagtcctttttcggtcatccttactaggttacgacacgggtgagcttggagggatccaggatttggtgcacgccgcaatccaggcctgcgattggtcctgccggcgagacctgtattggaatgttctcctgtcgggtggaagcaccttactgccaggttttaaagagaggctttcacaagaactgagcagtaaggcaccgtgtcgtgttaaagtgtgggcggatccaagtcggcgtttcatggtgtggattggcggatccatttacgcctctctgatgttttgtgagaataaatggataactaagagtgaatacaacgaatatggacccaatattattcaccgaaaatgtcaattggccgcgcagacaaacctaacttagtggactacaatactatattgtacatcatcttattttatataaaaaaaaaaaggaggg 1686 123 Reference transcriptome Oly Transcriptome V3
1684 EFG_FWD ACCCAAGGACAGGGAGAGTT JH 7/22/2015 20 55 60 O.lurida "Elongation factor G, mitochondrial (EF-Gmt) (Elongation factor G 1, mitochondrial) (mEF-G 1) (Elongation factor G1) (Protein iconoclast)" B3MK91 attttacgcacatgtatcgccggtggtgaatgtcaactctgccttatgatcttgtttttataacaggaaaatgacgatccttaaaagattttcaagtgttttacacctttcattaaaaaatggtatcatgttacaaaagttcacaccatgtgcagcctgttcagttaaaacatattcaacacggaaaatgggggatgtaaccttggattcctcaatgatcagaaacattggaatctcagcacacatagactcgggtaaaaccactcttacagagcgccttctgtattacaccgggaaactggcggaaatgcacgaagttcgagggaaagataacgtaggagctaaaatggacttcatggaattagaacgacagcgtggaatcacaattcaatcagcagcaacatatgtaaattggaaaggtacaaacattaacattattgacactcctgggcacgtggacttcacggtcgaggtggagcgtgctctccgcgtgttggacggtgctgtgcttgtgctttgtgcagttggaggagtgcaaagtcagaccattactgtgaatagacagatgaagagatacaacgtgccatgtttagccttcatcaataaactggatagaatgggatccaatcctgtcagagtcttaacacagctgaagtccaaactgaatcacaacgccgagttcatacagttacctataggactggaaaaagaccaagagggagtcgtagatcttattgaaatgaaggcattgtattttggagaaccctctggcctaaatattattgaagatgaaatcccagctcatttaagaacggaagccaaagagagaagacaaaggctaatagaggcagtgtctaatgtggatgatgttttgggagaaatgttcctggaagagaaagagcccacaaatgatgatatcaaggcagctatccgaagatcttgtattaagagggccttcacacccgtgttcctgggaacagctctgaagaacaagggggtacagccattattagatggggtgttagactacctcccgaaccccacagaggtccggaatgagtgtctgaacaacgatgaattggatgaaaatgggaatccatcaaaaatagtcctcagttcagagcgaacaacagataaaccatttgttggattagctttcaaactggaggctgggaagtttggtcagctgacctacatgagagtgtaccaaggggggatgaagaaaggagacaccatcatcaataccagaaacaacaaaaaagtccgggtgtccaggctggttcgaatgaacgctgatgaaatggaggacatcacagaagcctatgcgggagacatctgtgcgttgtttggagtggactgtgctgggggagatacttttgtcaacaaaggcaacacacaactctcattggagtccatgtatgtgccagaccctgttatttccatgtccatcaaactagctaacaaacaagaccaagaaaatttctccaaagggatctcaagatttaccaaggaggatccaacatttagagtggcatttgatccagagttaggagagaccattgccactggaatgggagagttacacctggatatttatgctcagagactggaaagagagtacaaaacaaagtgcattctgggaaaacctaaggtttctttcagagaaacattattacaaccttgcgagtttgattattggcataaaaagcaatcaggtggccgaggagagtacgcccgtgttattggaacagttgagcccttgcctccagacgaaaacacaaaacttatatttaaggaccacactacaggaacgaatattccaaagagctacatcccagccattgaaaggggtttcagaaagtgttatgaaaaaggacctttggcagaacaaaaagtatctggagtcttaatcaagttaaaagatggcgacgcccatgctgtggacagtagtgattgggcatttgaacaagctgccgttcaagcaggcctggacacctacacttacgactgggccatgttggagccgattatgacggtagaagttaacgcccctcaggagttccaaggttctgtcttagcaggacttaccaaaaggaatgctatatttctggggactgattctaacgaaggctacttcacctcctattgtgaggtaccactcaacatgatgttcggctattccacggaattgagaacaatgacccaaggacagggagagttcacaatggagtacagtaaatactgccccgcggcggaggacacggtcagacagctgaccgagagtctggaacaggagagcaacaaggggacacaggagaaaaagagaaagaaaaattaacaacagtgctcataggctcttaatgtttataaattatttatgttttatgaacttatgatgtgaaagatgtgatattgaatgtgtgcctgaatgaaagcaaatgcaagttaggttgttgagtctgagaacataagggatacgatacatgaaataaatggtaaaactatttag 1683 113 Reference transcriptome Oly Transcriptome V3
1683 EFG_REV TGTGTCCCCTTGTTGCTCTC JH 7/22/2015 20 55 60 O.lurida "Elongation factor G, mitochondrial (EF-Gmt) (Elongation factor G 1, mitochondrial) (mEF-G 1) (Elongation factor G1) (Protein iconoclast)" B3MK91 attttacgcacatgtatcgccggtggtgaatgtcaactctgccttatgatcttgtttttataacaggaaaatgacgatccttaaaagattttcaagtgttttacacctttcattaaaaaatggtatcatgttacaaaagttcacaccatgtgcagcctgttcagttaaaacatattcaacacggaaaatgggggatgtaaccttggattcctcaatgatcagaaacattggaatctcagcacacatagactcgggtaaaaccactcttacagagcgccttctgtattacaccgggaaactggcggaaatgcacgaagttcgagggaaagataacgtaggagctaaaatggacttcatggaattagaacgacagcgtggaatcacaattcaatcagcagcaacatatgtaaattggaaaggtacaaacattaacattattgacactcctgggcacgtggacttcacggtcgaggtggagcgtgctctccgcgtgttggacggtgctgtgcttgtgctttgtgcagttggaggagtgcaaagtcagaccattactgtgaatagacagatgaagagatacaacgtgccatgtttagccttcatcaataaactggatagaatgggatccaatcctgtcagagtcttaacacagctgaagtccaaactgaatcacaacgccgagttcatacagttacctataggactggaaaaagaccaagagggagtcgtagatcttattgaaatgaaggcattgtattttggagaaccctctggcctaaatattattgaagatgaaatcccagctcatttaagaacggaagccaaagagagaagacaaaggctaatagaggcagtgtctaatgtggatgatgttttgggagaaatgttcctggaagagaaagagcccacaaatgatgatatcaaggcagctatccgaagatcttgtattaagagggccttcacacccgtgttcctgggaacagctctgaagaacaagggggtacagccattattagatggggtgttagactacctcccgaaccccacagaggtccggaatgagtgtctgaacaacgatgaattggatgaaaatgggaatccatcaaaaatagtcctcagttcagagcgaacaacagataaaccatttgttggattagctttcaaactggaggctgggaagtttggtcagctgacctacatgagagtgtaccaaggggggatgaagaaaggagacaccatcatcaataccagaaacaacaaaaaagtccgggtgtccaggctggttcgaatgaacgctgatgaaatggaggacatcacagaagcctatgcgggagacatctgtgcgttgtttggagtggactgtgctgggggagatacttttgtcaacaaaggcaacacacaactctcattggagtccatgtatgtgccagaccctgttatttccatgtccatcaaactagctaacaaacaagaccaagaaaatttctccaaagggatctcaagatttaccaaggaggatccaacatttagagtggcatttgatccagagttaggagagaccattgccactggaatgggagagttacacctggatatttatgctcagagactggaaagagagtacaaaacaaagtgcattctgggaaaacctaaggtttctttcagagaaacattattacaaccttgcgagtttgattattggcataaaaagcaatcaggtggccgaggagagtacgcccgtgttattggaacagttgagcccttgcctccagacgaaaacacaaaacttatatttaaggaccacactacaggaacgaatattccaaagagctacatcccagccattgaaaggggtttcagaaagtgttatgaaaaaggacctttggcagaacaaaaagtatctggagtcttaatcaagttaaaagatggcgacgcccatgctgtggacagtagtgattgggcatttgaacaagctgccgttcaagcaggcctggacacctacacttacgactgggccatgttggagccgattatgacggtagaagttaacgcccctcaggagttccaaggttctgtcttagcaggacttaccaaaaggaatgctatatttctggggactgattctaacgaaggctacttcacctcctattgtgaggtaccactcaacatgatgttcggctattccacggaattgagaacaatgacccaaggacagggagagttcacaatggagtacagtaaatactgccccgcggcggaggacacggtcagacagctgaccgagagtctggaacaggagagcaacaaggggacacaggagaaaaagagaaagaaaaattaacaacagtgctcataggctcttaatgtttataaattatttatgttttatgaacttatgatgtgaaagatgtgatattgaatgtgtgcctgaatgaaagcaaatgcaagttaggttgttgagtctgagaacataagggatacgatacatgaaataaatggtaaaactatttag 1684 113 Reference transcriptome Oly Transcriptome V3
1682 EF1d_FWD GAACTGCCCACTGATTTGCC JH 7/22/2015 20 55 60 O.lurida Elongation factor 1-delta (EF-1-delta) A5D989 acaactgatctggagtttcctgataccatatccaataggcaccagtttcgattgaccccatagtagtccatctgcagtaatctttctgacttcctgatccatcttttccatatctgtttcatcatcccagggctttacatccaaaatcaaactggacttggcaataatagctggtttttttgcttttttggctgcataagctgctaatctttcctgtctgattctgtctgcttcttcatcctcctcatcactaccaaagaggtcgatatcatcatcatcctcctcatcttcggcaggagcagcagctgatttcttgggtacaggagcttgtgtagaaggggttgaacttcctccctcgagcttggatacacggttttctaatctttgaactaaactcttcatatcttccacaacctttttaagatctctgttttctttctctaaggattggactcgcttcatcatctgactactatctcccattgttcctccagatcctccagaattaagaactttttgaatttgttgtctggcttcagctatttcagttttgatagaactgcccactgatttgccactttttttgtccttagcagcttttccagaagagccagctttcgcggttcctgccaggaactcctgataatgtgtctcagcctcttcatacttctgtttgtttctccagactgaatcatgcattagaggattggccattttttggaggtttttttttaaggaaccggcgacgatacaacttcaacgtgtttcaccccacaattgctccaagtaa 1681 220 Reference transcriptome Oly Transcriptome V3
1681 EF1d_REV TGTGGGGTGAAACACGTTGA JH 7/22/2015 20 50 60 O.lurida Elongation factor 1-delta (EF-1-delta) A5D989 acaactgatctggagtttcctgataccatatccaataggcaccagtttcgattgaccccatagtagtccatctgcagtaatctttctgacttcctgatccatcttttccatatctgtttcatcatcccagggctttacatccaaaatcaaactggacttggcaataatagctggtttttttgcttttttggctgcataagctgctaatctttcctgtctgattctgtctgcttcttcatcctcctcatcactaccaaagaggtcgatatcatcatcatcctcctcatcttcggcaggagcagcagctgatttcttgggtacaggagcttgtgtagaaggggttgaacttcctccctcgagcttggatacacggttttctaatctttgaactaaactcttcatatcttccacaacctttttaagatctctgttttctttctctaaggattggactcgcttcatcatctgactactatctcccattgttcctccagatcctccagaattaagaactttttgaatttgttgtctggcttcagctatttcagttttgatagaactgcccactgatttgccactttttttgtccttagcagcttttccagaagagccagctttcgcggttcctgccaggaactcctgataatgtgtctcagcctcttcatacttctgtttgtttctccagactgaatcatgcattagaggattggccattttttggaggtttttttttaaggaaccggcgacgatacaacttcaacgtgtttcaccccacaattgctccaagtaa 1682 220 Reference transcriptome Oly Transcriptome V3
1680 Flk_HSP70_FWD GACCCGGATGTCCAGAGGAA JH 6/9/2015 20 60 O.lurida HSP70 Flanking ttctctatttaaataaatttattacaacaataaacataagtaacatttgtataatttgtaaacacattcttcaacacaatatcatccaacaaactaaacgctttgagacaataatttacaaataatcttcattgaaagtactatggcaacttcaaatactagtccacctcttctacagtgggcccctgacctgagtgacccggatgtccagaggaaccgttttggtgtagtttggccatgatgggggaacacactttctgaacctccttcagtttgaattcatactcgtctatttctgccaaggcgttgttgtcgagccaggacagagtttcgctgcacactttggaaatggtctctttgtcttcagactggagtttgtcgccattttcctcgctggcttgtttgatggagaacacgtaggattccagctgatttcgtgctcctatcctctgtcgttgtttttcatcttcttctttgtatttctcagcctcattcaccattctctcgatgtcagccttactaaggcgacctttgtcgttggtgatggtgattcggttgcatttgccagtactcttgtctttggctgagacattcaggattccgttggcatcgatgtcaaattccacttcgatctgtgggacacctcggggtgctggaggaattccgttcagttcaaaagtacccagtttgttattgtctttggtcatcgctcgttcgccctcaaatacctgaatggaaactccaggctggttatcagaataggtggtaaacgtctgagatgccttggttgggattttagcatttcgttcgatgattttggtcatgacacctccggcagtttcaatgcccagagataagggagtgacatctaccaggagaacatctttaatggcatcacttctgtctccctttaaaatggcagcctgaacagcagcaccgtatgccaccgcttcgtctggattaatggacttgttcaattctttgccgcccatgaaatcttgtagcagtttttggatcttaggaattcttgtcgatcctcctaccagaaccacttcgtgaattttggacttgtccaacttggcatccctcagagctttctctaccggctccagggtggcacggaacaaatcggaacacaattcctcgaatctggctcgtgtaattttactgtaaaagtcaattccctcgaagagagagtcaatctctatgttggcttctgcgctgctggacaaagttctcttggcacgttcacaagccgtcctgagtcgtctcagggaacggttgttcttagaaatatctttactgtacttgcgtttaaattcttgaacgaagtgattcaccattcgattgtcaaaatcctcccctcccaaatgagtgtctcctgccgttgaacgaacctcaaatatggatccctcgtctattgtgaggatagacacatcaaaagttccacctcccaggtcaaagatgaggacatttttctcaccagaaatgtttttgtctagtccataagccaaagcggcggccgtgggctcgttcacgatccggagaacgttgagaccggctatcactccggcatccttggtggcctctctctgggcgttattgaaataggcgggcacagtgatgacggcgtcccgaatggactgtcctaggtaggcttctgctgtctccttcatttttgtcagtaccatagaactgatttcctcgggtgtaaatctctttctctcacctttgtgctctacttgaagtctaggttttccaccgtcgttgatgacagtaaaaggccagtgcttcatatcagactgcacgttttcgtcgttgaatttgcgtccaatcagccttttagcgtcgaagattgtattggtggcgttcatggccacctggtttttggctggatccccgatgagtctctctgtgtctgtgaatgccacataactgggcgttgttctgtttccctgatcgttagcaatgatttccactttcccatgttgaaaaacaccgacacaggaaaacgttgttccgagatcaatgccgatcgctggagctttactagccatgattgtttgtaaacacgaaagtgaaagtagctgtccgatataatataatcactcactgtttctcgtgtatcctccttggaacgctttcttctctttgatagctctcgccgatttctgcgtttgtttgacattctagagtcagagctgctcttatatatactattatcgaaagttctggacactgcgagattcatcgctct 1679 1068 Flanking primers for primer SR_ID 133870013
1679 Flk_HSP70_REV TCAGGACGGCTTGTGAACG JH 6/9/2015 19 60 O.lurida 1680 1068 Flanking primers for primer SR_ID 133870014
1678 Flk_Actin_FWD TCGAGGGAGGAAGAGGAAGC JH 6/9/2015 20 59 O.lurida Actin Flanking ttttttttttaattttattggtttttaattggtgatttttttcacatttttttttttcagtacaaaaaaatatcaacgattggaatcttagacaacgtcagtgtaaatcagatcttgtcttcagatctacgcaccattatgatcagtcagcgcacccagcactgcaagggactttggcgaaaaatgaccgtttgtgtgactagaaaatattggcaaataagtctaaaaacacttcctgtggacaatggatggaccagattcatcgtattcctgtttgctgatccacatctgttggaaggtggagagagaagcaaggatggaaccaccgatccagacggagtatttcctctctggtggggcaatgatcttgatcttcatggtgcttggagcaagagcggtgatttccttctgcatacggtcagcaatacctgggaacatggtggtacctccggagaggacggtgttggcgtacagatccttacggatgtcgacgtcgcacttcatgatggaattgtaggtggtttcatggataccagcagattccatacccaagaaggatggctggaagagggactctgggcaacggaatctctcgttaccgatggtgatgacctgaccgtcgggaagctcgtagctcttctcgagggaggaagaggaagcggcggtggccatttcctgctcgaagtcgagggcgacatagcagagtttctccttgatgtctctgacgatctctctctcggcggtggttgtgaatgaataaccacgctcggtgaggatcttcatgaggtagtcagtaagatcacgaccagccaaatccagacgaaggatagcgtggggaagggcgtaaccttcgtagatggggacagtgtgggtgacaccatcaccggagtcaagcacgataccagtggtacgaccggaagcgtacagggacagcacggcctggatggcgacgtacatggcgggagcgttgaaggtctcgaacatgatctgtgtcatcttttctctgttggccttggggttgagtggggcctcggtcaggaggacggggtgttcctctggggccacacggagttcattgtagaaggtgtgatgccagattttctccatgtcgtcccagttggtgacgataccgtgttcaatggggtacttgagggtgaggattcctctcttgctctgggcctcgtctcctacatagctgtctttctgtcccataccaaccattacaccctgatgtctgggtcgtccaacaatggaggggaacacggccctgggggcatcgtctccggcgaatccggccttgcacattccagatccattgtcgataactaaagctgcaacgtcttcgtcacccattatgagttctgtgtgtttgattgtcaaaaggtaagacaggtaatcgtcactattcggtctctcgaatctaag 1677 479 Flanking primers for primer SR_ID 133870015
1677 Flk_Actin_REV AACTGGGACGACATGGAGAA JH 6/9/2015 20 61 O.lurida 1678 479 Flanking primers for primer SR_ID 133870016
1676 Flk_TLR_FWD GCAATAGCTTGTCACCGCC JH 6/1/2015 20 59 O.lurida TLR2.1 Flanking Q9DD78 1675 425 Flanking primers for primer SR_ID 1630 133561907
1675 Flk_TLR_REV TCTAGTATGCGCTTCGTTTGC JH 6/1/2015 20 59 O.lurida Q9DD78 1676 425 Flanking primers for primer SR_ID 1629 133561908
1674 Flk_CRAF_FWD GGACATCCAGTGGCAACATTC JH 6/1/2015 21 60 O.lurida CRAF1 Flanking Q60803 1673 423 Flanking primers for primer SR_ID 1636 133561909
1673 Flk_CRAF_REV CCAGGACATTAGGCTTGCTGA JH 6/1/2015 21 60 O.lurida Q60803 1674 423 Flanking primers for primer SR_ID 1635 133561910
1672 Flk_PGRP_FWD AGCTGGTGCAGTCCTATCAG JH 6/1/2015 20 59 O.lurida PGRP-S Flanking O75594 1671 450 Flanking primers for primer SR_ID 1632 133561911
1671 Flk_PGRP_REV TGTGTATGAAAAGTAATGAAGAGCA JH 6/1/2015 25 57 O.lurida O75594 1672 450 Flanking primers for primer SR_ID 1631 133561912
1670 Flk_CARM_FWD TTCACACAGCCCATTGTGGAT JH 6/1/2015 21 60 O.lurida CARM1 Flanking Q6DC04 1669 638 Flanking primers for primer SR_ID 1642 133561913
1669 Flk_CARM_REV TGGGATGGGTCAGATAAACCT JH 6/1/2015 21 58 O.lurida Q6DC04 1670 638 Flanking primers for primer SR_ID 1641 133561914
1668 Flk_BMP2_FWD GGCTGGCTGGATCGTCAT JH 6/1/2015 18 60 O.lurida BMP2 Flanking P12643 1667 676 Flanking primers for primer SR_ID 1640 133561915
1667 Flk_BMP2_REV ATGGAGTCTGTGGACGGTTTG JH 6/1/2015 21 60 O.lurida P12643 1668 676 Flanking primers for primer SR_ID 1639 133561916
1666 Flk_HSPb11_FWD AGAATTGTCTGTGGAATCGAGC JH 6/1/2015 22 59 O.lurida HSPb11 Flanking Q9Y547 1665 323 Flanking primers for primer SR_ID 1650 133561917
1665 Flk_HSPb11_REV ATCAACGCCAGGGGAACTTG JH 6/1/2015 20 61 O.lurida Q9Y547 1666 323 Flanking primers for primer SR_ID 1649 133561918
1664 Flk_PGE/EP4_FWD GCTCAACGAATTGCTCTACTCC JH 6/1/2015 22 59 O.lurida PGE/EP4 Flanking P32240 1663 654 Flanking primers for primer SR_ID 1638 133561919
1663 Flk_PGE/EP4_REV TCCGTCTGCTTTTTAGAATGGTA JH 6/1/2015 23 58 O.lurida P32240 1664 654 Flanking primers for primer SR_ID 1637 133561920
1662 Flk_GABABR_FWD GAGGAGGACACGAAACTCCG JH 6/1/2015 20 60 O.lurida GABABR Flanking Q9WV18 1661 558 Flanking primers for primer SR_ID 1620 133561921
1661 Flk_GABABR_REV TGCACCACACTCCTGATGAC JH 6/1/2015 20 60 O.lurida Q9WV18 1662 558 Flanking primers for primer SR_ID 1619 133561922
1660 Flk_GRB2_FWD TCAGAACTGGTTCAAAGCTGAGT JH 6/1/2015 23 60 O.lurida GRB2 Flanking P62994 1659 695 Flanking primers for primer SR_ID 1612 133561923
1659 Flk_GRB2_REV ACTGCGCTGACATACTGGAC JH 6/1/2015 20 60 O.lurida P62994 1660 695 Flanking primers for primer SR_ID 1611 133561924
1658 Flk_H3.3_FWD CCAATGACAAATGAGCCACACAA JH 6/1/2015 23 60 O.lurida H3.3 Flanking Q6P823 1657 552 Flanking primers for primer SR_ID 1610 133561925
1657 Flk_H3.3_REV TCGTACAAAGCAAACTGCACG JH 6/1/2015 21 60 O.lurida Q6P823 1658 552 Flanking primers for primer SR_ID 1609 133561926
1656 Flk_H2A.V_FWD GCGATGGAGTTGATGAGGTG JH 6/1/2015 20 59 O.lurida H2A.V Flanking P08991 1655 487 Flanking primers for primer SR_ID 1608 133561927
1655 Flk_H2A.V_REV CAAGGCAGTTTCTCGTTCGG JH 6/1/2015 20 59 O.lurida P08991 1656 487 Flanking primers for primer SR_ID 1607 133561928
1654 Flk_H2A_FWD TGCTGGGGTTTTTCTGGGTC JH 6/1/2015 20 60 O.lurida H2A Flanking P02270 1653 373 Flanking primers for primer SR_ID 1606 133561929
1653 Flk_H2A_REV TCAGGACGTGGTAAAGGAGGA JH 6/1/2015 21 60 O.lurida P02270 1654 373 Flanking primers for primer SR_ID 1605 133561930
1652 Flk_p29ING_FWD GTGGACACACATGCACTCCT JH 6/1/2015 20 60 O.lurida p29ING4 Flanking Q8C0D7 1651 514 Flanking primers for primer SR_ID 1624 133561931
1651 Flk_p29ING_REV AAGCAGACTCAGATTCAGGC JH 6/1/2015 20 58 O.lurida Q8C0D7 1652 514 Flanking primers for primer SR_ID 1623 133561932
1650 Hspb11_FWD ATGTTTCCTGGTCTCCGTCA JH 5/21/2015 20 55 O.lurida Heat shock protein beta-11 (Hspb11) (Placental protein 25) (PP25) Q9Y547 ttccataagcctcctattttattgtcaaataaatatgtttcctttccaaaatgaacaaacatgatgtagaaataatcataagggccacatcctttcactaacaattgacatcatattgacactttatttcaactttaaataccagtaaatgtatgtacacaaaacagatttctgacagaaatgaagaaagacggtatcttaaggtgtagaaatttgttcatccatgaacagcatttccagtgataccaagtctgtgcacagatacaaagtggtcataaccgctttcaatgatgactctcatgtgagtggctcttttattgtttgctgggaattcctcttgctgaagagaattgtctgtggaatcgagctctttttccaacaagtcttcaaaatttgttggatcagtttctttactggtttcaaatgatattttctttacattacaacacgctatttcaatacgctgtatactcatcatagaaggaaaggtgatgatgaattcttgtgggaaaagaccagtagatgcccaaaatgtttcctggtctccgtcaatgatgttttcaggtggatgattcccatcactagaagtcgctaagacaacctgcgctccagcacttttcagagcaacatcaaacatttcaatttgcaacaagttcccctggcgttgatggcaacaaaatatttcatcaatgttatttggg comp9638_c0_seq1 1649 139 Reference transcriptome Oly Transcriptome V3 133210733
1649 Hspb11_REV CATCAACGCCAGGGGAACTT JH 5/21/2015 20 55 O.lurida Heat shock protein beta-11 (Hspb11) (Placental protein 25) (PP25) Q9Y547 ttccataagcctcctattttattgtcaaataaatatgtttcctttccaaaatgaacaaacatgatgtagaaataatcataagggccacatcctttcactaacaattgacatcatattgacactttatttcaactttaaataccagtaaatgtatgtacacaaaacagatttctgacagaaatgaagaaagacggtatcttaaggtgtagaaatttgttcatccatgaacagcatttccagtgataccaagtctgtgcacagatacaaagtggtcataaccgctttcaatgatgactctcatgtgagtggctcttttattgtttgctgggaattcctcttgctgaagagaattgtctgtggaatcgagctctttttccaacaagtcttcaaaatttgttggatcagtttctttactggtttcaaatgatattttctttacattacaacacgctatttcaatacgctgtatactcatcatagaaggaaaggtgatgatgaattcttgtgggaaaagaccagtagatgcccaaaatgtttcctggtctccgtcaatgatgttttcaggtggatgattcccatcactagaagtcgctaagacaacctgcgctccagcacttttcagagcaacatcaaacatttcaatttgcaacaagttcccctggcgttgatggcaacaaaatatttcatcaatgttatttggg comp9638_c0_seq1 1650 139 Reference transcriptome Oly Transcriptome V3 133210734
1648 GDF-8_FWD CCGTGGATGTCGCAGAAAGA JH 5/21/2015 20 55 O.lurida Growth/differentiation factor 8 (GDF-8) (Myostatin) (Myostatin-1) (zfMSTN-1) (Myostatin-B) O42222 aacatactaagttaaattcagctcctacaaatgaagttgaaataaaaattttcagctataaccaaatagtagaaacattaatagaatccaggacaatagatgtgagtagagatggctgggaaatatttgacattacccaagtcgtcagagactgggtcgataacccagaattaaataatggagtagaaatttatgcaggcggtctcaatgccggtcaattactttttccctccgtggatgtcgcagaaagaaagagctcaaaatataatagaacagcaaccagacacaatgttgtggtaccaattctggaaatgaagactcatgaacgttcgatattaaaacgtgtcaaacgacaaaataacattgagaggagagattgtgtcaaaggggacggagaaagcagatgctgtcgctttacaacgacaattgacttcgctgatttgggctgggacgactggatactcgcaccacaacattatgaagcgcattattgcgatggaagttgtcccgatcgctttaaaatggccaacacgttcgcgggaatacaggccagacttcacgctttatatcctagcaaatttccgaaaccgtgttgcgttccatcaaaacttagcccacttacaattcttcataaagacagcgatggaaaatatcagttcacggactatcccgacatggtcgtcgaggactgcaagtgcgcatgacaggaaccttatgcttatttgtgaattatccttttgtgttcaataattaaagccaaaaacgttcccgactttgtgtgtcaacattgctttgactcaacttcatgctcgcacaaagggtaatgaatgtaataactttcaaaatgctactgttaaaaatcgcgcaagtcaacaatctactcaatgccttttttactttgttatttctatactctgctgttgagttccaagatggctgtgttaatttcgttagagggacaatttgcaagcccagtaaaaagcaacgatccttttcgtaggtgatattttacacaagtcaattactatgtggttttcgcatatttttcgcaaatgtaattttttttatgtgttcaaacgtacaagagtctatatctttactcgtaaagagcaatgaaagtgcatatggaccaattttcggagaccgaagagaatctcatgtttgtgcacgatatctgtgatcttgatatgcgtgtatttatatgtgtgaatgttatatgaatgctatatgtatgttcagt comp9524_c1_seq1 1647 172 Reference transcriptome Oly Transcriptome V3 133210735
1647 GDF-8_REV CTGCTTTCTCCGTCCCCTTT JH 5/21/2015 20 55 O.lurida Growth/differentiation factor 8 (GDF-8) (Myostatin) (Myostatin-1) (zfMSTN-1) (Myostatin-B) O42222 aacatactaagttaaattcagctcctacaaatgaagttgaaataaaaattttcagctataaccaaatagtagaaacattaatagaatccaggacaatagatgtgagtagagatggctgggaaatatttgacattacccaagtcgtcagagactgggtcgataacccagaattaaataatggagtagaaatttatgcaggcggtctcaatgccggtcaattactttttccctccgtggatgtcgcagaaagaaagagctcaaaatataatagaacagcaaccagacacaatgttgtggtaccaattctggaaatgaagactcatgaacgttcgatattaaaacgtgtcaaacgacaaaataacattgagaggagagattgtgtcaaaggggacggagaaagcagatgctgtcgctttacaacgacaattgacttcgctgatttgggctgggacgactggatactcgcaccacaacattatgaagcgcattattgcgatggaagttgtcccgatcgctttaaaatggccaacacgttcgcgggaatacaggccagacttcacgctttatatcctagcaaatttccgaaaccgtgttgcgttccatcaaaacttagcccacttacaattcttcataaagacagcgatggaaaatatcagttcacggactatcccgacatggtcgtcgaggactgcaagtgcgcatgacaggaaccttatgcttatttgtgaattatccttttgtgttcaataattaaagccaaaaacgttcccgactttgtgtgtcaacattgctttgactcaacttcatgctcgcacaaagggtaatgaatgtaataactttcaaaatgctactgttaaaaatcgcgcaagtcaacaatctactcaatgccttttttactttgttatttctatactctgctgttgagttccaagatggctgtgttaatttcgttagagggacaatttgcaagcccagtaaaaagcaacgatccttttcgtaggtgatattttacacaagtcaattactatgtggttttcgcatatttttcgcaaatgtaattttttttatgtgttcaaacgtacaagagtctatatctttactcgtaaagagcaatgaaagtgcatatggaccaattttcggagaccgaagagaatctcatgtttgtgcacgatatctgtgatcttgatatgcgtgtatttatatgtgtgaatgttatatgaatgctatatgtatgttcagt comp9524_c1_seq1 1648 172 Reference transcriptome Oly Transcriptome V3 133210736
1646 HSP70b_FWD AAGTACCTTGGGGAGCTTGC JH 5/21/2015 20 55 O.lurida Heat shock 70 kDa protein 12B Q96MM6 ctccgggctccaatcggaactcctcggaatgctcgtggcgagttccgatcgcttaggcctacgcgtacgtttgcatgggcatgttttcaaaaatttcaaaaatttccacagtaaaagtattagtcaaaataatttcttatcaaaaatgagcaggtgctaaagctttcttagcgaaaacttttattagatcgaagagggaagtatatttatgtaggtcagttggccttcctaccactctttgaaccagccttaccaggattaaaatgtcagatctaaatagttccgtgagatcaaaatgcagaaagctcttcgtagcagccatcgattttggaactacttactctggttatgcattttctgccacatctgattggtccaaagttttgaccagtaactggacaggagggaaggttgtcactctgaagacgccgacagctctgctgctggattcagacaaggagttcatggcatttggatatgaggccgaggatcagtatttagacttggctcgagatgacgaacacgaggattattatttctttcatcgatttaaaatgattcttcattcagaaaaagcaccaatcagtcgaaaaacaaagctaaaggatgccacaggtaaagaaattgaagctataaaagttttcaaactctcaataaaatatcttgtgggggacttgatgaaaactttgagaaacagctacccggatttaaaggactcagatgtggagtatattatcactgttccggctatttgggacgatcgatcaaagcagttcatgagggaagctgctcgagaggctgggattgacaaatcttccttgaccattgccttagaaccagaggctgcatccattcattgtcagtatttaccagccaaaaacctcaacctgtccacttccaagtaccttggggagcttgctgttggggacaaatatttagttgccgatttaggaggtggcaccgcagatataacagtgcatcacaaagttgatgacggatctttggaggaaatgatggaagcaagcggtggaccttggggaggaaagtctgtggatgacgaatttgagaattatattcaggaaattattggagaaaaatccatgaaggagttaaagaaatcctgtttcgatgattacttggaactaatgaggaacttcgaattcaagaagagatccgctaagcctggaaaagaaggcaatacacatctgtctgttccactgggtcttgtgcaaattgttaagaaagacaaatcacgaaaatctatggagaatgccattgaaaattctccacatgcaggaaaagtcactttcgagaactggaagttgaaatggaaaaatgaagatttccttcggttctttgaaagcacaatcaagaaaattaaagaccatatacggacaatattgttcgatagtgatatgggaagtgtagaaactattctaatggttgggggttttgccgaatgcgaagtggtccaaaagtcggtgagagagtctttcaagatgaaacgcgttgttgttccagaagatgctggtatttctgtattaaaaggcgccgtatattttggacacattccagatgcaatatctagacgaacagctcgatatacgtatggtatccaaagctggcccgcattcaacgcaaccaaacatcccgaaaacaagaaagttgaagtgaacggtaaagctagatgtaaagatgttttcttcaaatacataactaagggacaacatttaactgttggatatcagaaatcacagatttttcaagccttaaacccgaaagagaaaaaactggagtgtgcaatatacatctccgacagcaaagatccccaattcgtagacgatcctggatgtcatcgacttggcgttttggttatccccttgccggatctaccagatggcgcatcgatcgaattagaggaaagtatgatttttggcgaaacagaattgcaacttcaagctaaagatatatactctggaaagtcgtacgaagtacagttagatcttttagcagaaccttcagaggagaccgattagagatacagtattcaatatgaatttacacaatgttggagatttacgtgtctaacttagaattggcgagtttttgacatactaaaggcagtaaagactaataaatgttagctcattagaccaaaatcgttcaaactaaatatgtattcatagtatgcatgttctacctactattagaatacattgattgaatgtgctctatgtgaaataaatgtattaaatgttaaaacgtactgtttgtagtttgtctttcccatctttactagacgtattgttatagaaaattatttaaatgacgatgcatacaagaaaagttgcacattgtttattaataaagtggggtcttggtggagtggaggatacattgacttcacaattgttagaaaaatctttagagatgttataatccctaccctcaaaattgtaccttggaaaggggaggagaaggctcatattcctttactacataggtttaattcctctgttcaagcttaaatttgtaccattcaattctaatatg comp9280_c0_seq1 1645 155 Reference transcriptome Oly Transcriptome V3 133210737
1645 HSP70b_REV TCCACAGACTTTCCTCCCCA JH 5/21/2015 20 55 O.lurida Heat shock 70 kDa protein 12B Q96MM6 ctccgggctccaatcggaactcctcggaatgctcgtggcgagttccgatcgcttaggcctacgcgtacgtttgcatgggcatgttttcaaaaatttcaaaaatttccacagtaaaagtattagtcaaaataatttcttatcaaaaatgagcaggtgctaaagctttcttagcgaaaacttttattagatcgaagagggaagtatatttatgtaggtcagttggccttcctaccactctttgaaccagccttaccaggattaaaatgtcagatctaaatagttccgtgagatcaaaatgcagaaagctcttcgtagcagccatcgattttggaactacttactctggttatgcattttctgccacatctgattggtccaaagttttgaccagtaactggacaggagggaaggttgtcactctgaagacgccgacagctctgctgctggattcagacaaggagttcatggcatttggatatgaggccgaggatcagtatttagacttggctcgagatgacgaacacgaggattattatttctttcatcgatttaaaatgattcttcattcagaaaaagcaccaatcagtcgaaaaacaaagctaaaggatgccacaggtaaagaaattgaagctataaaagttttcaaactctcaataaaatatcttgtgggggacttgatgaaaactttgagaaacagctacccggatttaaaggactcagatgtggagtatattatcactgttccggctatttgggacgatcgatcaaagcagttcatgagggaagctgctcgagaggctgggattgacaaatcttccttgaccattgccttagaaccagaggctgcatccattcattgtcagtatttaccagccaaaaacctcaacctgtccacttccaagtaccttggggagcttgctgttggggacaaatatttagttgccgatttaggaggtggcaccgcagatataacagtgcatcacaaagttgatgacggatctttggaggaaatgatggaagcaagcggtggaccttggggaggaaagtctgtggatgacgaatttgagaattatattcaggaaattattggagaaaaatccatgaaggagttaaagaaatcctgtttcgatgattacttggaactaatgaggaacttcgaattcaagaagagatccgctaagcctggaaaagaaggcaatacacatctgtctgttccactgggtcttgtgcaaattgttaagaaagacaaatcacgaaaatctatggagaatgccattgaaaattctccacatgcaggaaaagtcactttcgagaactggaagttgaaatggaaaaatgaagatttccttcggttctttgaaagcacaatcaagaaaattaaagaccatatacggacaatattgttcgatagtgatatgggaagtgtagaaactattctaatggttgggggttttgccgaatgcgaagtggtccaaaagtcggtgagagagtctttcaagatgaaacgcgttgttgttccagaagatgctggtatttctgtattaaaaggcgccgtatattttggacacattccagatgcaatatctagacgaacagctcgatatacgtatggtatccaaagctggcccgcattcaacgcaaccaaacatcccgaaaacaagaaagttgaagtgaacggtaaagctagatgtaaagatgttttcttcaaatacataactaagggacaacatttaactgttggatatcagaaatcacagatttttcaagccttaaacccgaaagagaaaaaactggagtgtgcaatatacatctccgacagcaaagatccccaattcgtagacgatcctggatgtcatcgacttggcgttttggttatccccttgccggatctaccagatggcgcatcgatcgaattagaggaaagtatgatttttggcgaaacagaattgcaacttcaagctaaagatatatactctggaaagtcgtacgaagtacagttagatcttttagcagaaccttcagaggagaccgattagagatacagtattcaatatgaatttacacaatgttggagatttacgtgtctaacttagaattggcgagtttttgacatactaaaggcagtaaagactaataaatgttagctcattagaccaaaatcgttcaaactaaatatgtattcatagtatgcatgttctacctactattagaatacattgattgaatgtgctctatgtgaaataaatgtattaaatgttaaaacgtactgtttgtagtttgtctttcccatctttactagacgtattgttatagaaaattatttaaatgacgatgcatacaagaaaagttgcacattgtttattaataaagtggggtcttggtggagtggaggatacattgacttcacaattgttagaaaaatctttagagatgttataatccctaccctcaaaattgtaccttggaaaggggaggagaaggctcatattcctttactacataggtttaattcctctgttcaagcttaaatttgtaccattcaattctaatatg comp9280_c0_seq1 1646 155 Reference transcriptome Oly Transcriptome V3 133210738
1644 GRP-78_FWD GAGAAACCACGCAGGGAGAA JH 5/21/2015 20 55 O.lurida 78 kDa glucose-regulated protein (GRP-78) (Heat shock 70 kDa protein 5) (Immunoglobulin heavy chain-binding protein) (BiP) Q90593 atcaaccaaagacgaatttatagactaacttcaacgaaattaccaaattgttttccattgtccatttacagaacagataatacatatcaaactgaactatagctaggatacaatatacggcattaagttacaatcatcataaaaatgagaaaccacgcagggagaatggtggtcagcctaattctaacattggcgctgctaactgccgccgcatcaacgtcatcttccgacgatagggcggatcccgtgataggaatagacctgggaaccacatattcttgtgttggaatattcaaagacggccatgttgaaatccttccgaatgagcaaggaaaccgaataacgccatcttacgttgccttcgatgctgatggcgacagacttataggagacgccgctaaaaatcaactgacgtcaaaccccaaaaatacaatctttgacgttaaacgattcattggacgagaatgggacgatccaacagtacagaaagatgtgcaatattatccgttcagcctcttgaagaaacacaacaagccctacatccgagtacttgtaggcgaacaagaaagagtgtttgcaccagaagaaatttccgccatggtgctggggaaaatgaaggaaatagccgaggggtatctgaagcaaaacgtcacgcgtgctgtaatcaccgtcccggcgtattttaacgacgctcaacgtcaggcaacgaaggatgctggtacaatagcagggttagaggtgctccgaatcatcaatgaaccaaccgcggctgccatcgcttatggtctaaacaaaaacggaggagaaaagaccgtcttggtatttgacttgggaggaggtacgttcgatgtgtcgcttttgacaattgaccaaggagtgttcgaagttgttgcaaccaatggcaacaaccatcttggaggagaagacttcgaccagagagtaatggatttcctgatcaagaaacacaagaaatctacaaatatggatttacgaaaggacgcccgtgccctacagaagttacgccgagaggtagaaaaggccaagcgaacactctcctatcgtcacgaagcacgtattgaaatagagtctctaatgaatggcgaagacttcttttacactctcacgagagccaagtttgaggaactgaacatggatttattccgatcaactttaaatcccgttaaacaagttctgaaggacggtgatatgaaagcctccgatgttgatgaaatcatactcgtgggcggatccacacgtattcccaaaatacagcaacttgtcaaggaattcttcggcggaaaggagcccagtcgtggtgttaacccagacgaatcggtggcctatggtgctgctgttcagggggcagttctaagtggagcagatgaaactggtgacgtgcttgttgtggacgttaaccctctcaccctgggaatagagacagttggtggcgtcatgactaaactgattccacgtaactcccccattcctaaccggaagtcacaaatattttctacagcagccgacaaccagccaacagtgaccattcaggtattcgaaggtgaacgacccatgacaaaacataaccaccttttggggacattcgagttgactgggataccacctgctccgagaggagttcctcaaattgaagtcacttttgaaatagatgcaaacagtattttgacagtatcagcagaagacaaggggaccggaagtaagaataagattacaattcaaaatgacaacaatagaatatctccggatgaaatagaaaaaatgattaaagacgctgaaaagtttggcgacgaagacaaaaaagccaaagaaatcattgacgctaagaatgaactagagcattttgcatattcgcttaaaaaccagttaagtgataaagggcaactcaaagataaactcggtgatgaagataaaactacaatccgagaggcagtggagtctacgattggctggattgagtccaatcctgacgcggaacttgatgatctcaaggcaaagaaggccgagttagagaatatagtacaaccaatcacgagcaaactttaccaaggaaatccaagttcaaaggccgacgaccgagaggggctttaatgaaaggctttcctttatacaatcggctgggccctgatctgtgatattgataagaaaatgtcccgtcactatttattgccatatctcatttatatcattccgtgcaatgctgtacattgttgattttattgtttgttcagtattttttatattaataaataaaacggtgaa comp8243_c0_seq1 1643 227 Reference transcriptome Oly Transcriptome V3 133210739
1643 GRP-78_REV CATCAGCATCGAAGGCAACG JH 5/21/2015 20 55 O.lurida 78 kDa glucose-regulated protein (GRP-78) (Heat shock 70 kDa protein 5) (Immunoglobulin heavy chain-binding protein) (BiP) Q90593 atcaaccaaagacgaatttatagactaacttcaacgaaattaccaaattgttttccattgtccatttacagaacagataatacatatcaaactgaactatagctaggatacaatatacggcattaagttacaatcatcataaaaatgagaaaccacgcagggagaatggtggtcagcctaattctaacattggcgctgctaactgccgccgcatcaacgtcatcttccgacgatagggcggatcccgtgataggaatagacctgggaaccacatattcttgtgttggaatattcaaagacggccatgttgaaatccttccgaatgagcaaggaaaccgaataacgccatcttacgttgccttcgatgctgatggcgacagacttataggagacgccgctaaaaatcaactgacgtcaaaccccaaaaatacaatctttgacgttaaacgattcattggacgagaatgggacgatccaacagtacagaaagatgtgcaatattatccgttcagcctcttgaagaaacacaacaagccctacatccgagtacttgtaggcgaacaagaaagagtgtttgcaccagaagaaatttccgccatggtgctggggaaaatgaaggaaatagccgaggggtatctgaagcaaaacgtcacgcgtgctgtaatcaccgtcccggcgtattttaacgacgctcaacgtcaggcaacgaaggatgctggtacaatagcagggttagaggtgctccgaatcatcaatgaaccaaccgcggctgccatcgcttatggtctaaacaaaaacggaggagaaaagaccgtcttggtatttgacttgggaggaggtacgttcgatgtgtcgcttttgacaattgaccaaggagtgttcgaagttgttgcaaccaatggcaacaaccatcttggaggagaagacttcgaccagagagtaatggatttcctgatcaagaaacacaagaaatctacaaatatggatttacgaaaggacgcccgtgccctacagaagttacgccgagaggtagaaaaggccaagcgaacactctcctatcgtcacgaagcacgtattgaaatagagtctctaatgaatggcgaagacttcttttacactctcacgagagccaagtttgaggaactgaacatggatttattccgatcaactttaaatcccgttaaacaagttctgaaggacggtgatatgaaagcctccgatgttgatgaaatcatactcgtgggcggatccacacgtattcccaaaatacagcaacttgtcaaggaattcttcggcggaaaggagcccagtcgtggtgttaacccagacgaatcggtggcctatggtgctgctgttcagggggcagttctaagtggagcagatgaaactggtgacgtgcttgttgtggacgttaaccctctcaccctgggaatagagacagttggtggcgtcatgactaaactgattccacgtaactcccccattcctaaccggaagtcacaaatattttctacagcagccgacaaccagccaacagtgaccattcaggtattcgaaggtgaacgacccatgacaaaacataaccaccttttggggacattcgagttgactgggataccacctgctccgagaggagttcctcaaattgaagtcacttttgaaatagatgcaaacagtattttgacagtatcagcagaagacaaggggaccggaagtaagaataagattacaattcaaaatgacaacaatagaatatctccggatgaaatagaaaaaatgattaaagacgctgaaaagtttggcgacgaagacaaaaaagccaaagaaatcattgacgctaagaatgaactagagcattttgcatattcgcttaaaaaccagttaagtgataaagggcaactcaaagataaactcggtgatgaagataaaactacaatccgagaggcagtggagtctacgattggctggattgagtccaatcctgacgcggaacttgatgatctcaaggcaaagaaggccgagttagagaatatagtacaaccaatcacgagcaaactttaccaaggaaatccaagttcaaaggccgacgaccgagaggggctttaatgaaaggctttcctttatacaatcggctgggccctgatctgtgatattgataagaaaatgtcccgtcactatttattgccatatctcatttatatcattccgtgcaatgctgtacattgttgattttattgtttgttcagtattttttatattaataaataaaacggtgaa comp8243_c0_seq1 1644 227 Reference transcriptome Oly Transcriptome V3 133210740
1642 CARM1_FWD TGGTTATCAACAGCCCCGAC JH 5/21/2015 20 55 O.lurida Histone-arginine methyltransferase CARM1 (EC 2.1.1.-) (EC 2.1.1.125) (Coactivator-associated arginine methyltransferase 1) (Protein arginine N-methyltransferase 4) Q6DC04 gagaaaatggcgtcaacttttgacaacgtgcaagtcgccgttctcacagaaaagtacaatttcaagtttctcacagatgatccgctcattcttgatatatcacaccaaggagactgtgttatgctccagtttcacaaagacaaagttcctgtacacaccttgtcagtaaacaacgacacagaacatgccaggatgggatcacagagtatcatcttcacacgagacaaggacacaacactggtccattttcctagtgttcacaatatgaaacagtttcagtttcgactgaatgaactgaaagatggattaaaatctgtcttcagtgatagaacagatgcagcctcagcagttcaatatttccaattttatggatacctctcacagcaacagaacatgatgcaagactatatcagaacgtccacgtaccagagggcaatgctggcaaacttaatagatttccatgacaaggttgtgttagatgttggtgctggatcaggaattctgtcgttttttgccgtccaggctggagcaagaaaagtgtacgccatagaggccagcagtatggctacacactgtcagacactggttgcacagaataaattgtccgacaaaattgttgtgatccctggtaaggtggaagatgtggagatccctgagccggtggacaccattatatcagaacccatggggtacatgctgtttaacgagagaatgctggaaagctaccttcacgccaaaaaatggctgaagcccagaggaaagatgtttccttctcagggagatttacatatagctccgttcacagatgaagccctctatctggagcagttctctaaggctaatttttggtatcagcaatcattccatggaattgatttgtctagtttacgcagtgcagctgtcaaagaatacttcacacagcccattgtggatactttcgatgtaaggatatgtctggcaaaatctgtcaaacacaccgtggacttccagacggcggaggagactgacctacacaacattgagatccccctcacgttcagcatgcacgagtcggggctcgttcacggtctcgccttctggtttgatgtggcctttttgggatcagtagagcctgtttggttatcaacagccccgacagagactctgacacattggtatcaggttaggtgtctggtggaaacaccggtcctcgtcaaacaaggacagactctcaatggaaaatgtgtgctcaggtgcaacaaaagacagagttatgatgttgatattgaactgaacatcccaggaacaacctcaaagtccacaaacacactggatcttaaaaatccattttttcgttacacgggtcagacaccacctgctcctcctggggtcaacaactcttcccccacggaaacctactggaataatctggcgacaggccagactgtatacatgaatggactggttaatggggacaccaatgctgcacagcttctaagccaccagggagttattcaacaaaatctcatcccagtctgtacgttgatttcaggtttatctgacccatcccaaagactttattgaatactttacagaacaacagatttttacattacagaacaacagatttttatctgtttatttaataatgaaatacttgtacaatgtatatatgtgtatgaaaattttctatcaaataaag comp7220_c0_seq2 1641 261 Reference transcriptome Oly Transcriptome V3 133210741
1641 CARM1_REV GTTGTTGACCCCAGGAGGAG JH 5/21/2015 20 55 O.lurida Histone-arginine methyltransferase CARM1 (EC 2.1.1.-) (EC 2.1.1.125) (Coactivator-associated arginine methyltransferase 1) (Protein arginine N-methyltransferase 4) Q6DC04 gagaaaatggcgtcaacttttgacaacgtgcaagtcgccgttctcacagaaaagtacaatttcaagtttctcacagatgatccgctcattcttgatatatcacaccaaggagactgtgttatgctccagtttcacaaagacaaagttcctgtacacaccttgtcagtaaacaacgacacagaacatgccaggatgggatcacagagtatcatcttcacacgagacaaggacacaacactggtccattttcctagtgttcacaatatgaaacagtttcagtttcgactgaatgaactgaaagatggattaaaatctgtcttcagtgatagaacagatgcagcctcagcagttcaatatttccaattttatggatacctctcacagcaacagaacatgatgcaagactatatcagaacgtccacgtaccagagggcaatgctggcaaacttaatagatttccatgacaaggttgtgttagatgttggtgctggatcaggaattctgtcgttttttgccgtccaggctggagcaagaaaagtgtacgccatagaggccagcagtatggctacacactgtcagacactggttgcacagaataaattgtccgacaaaattgttgtgatccctggtaaggtggaagatgtggagatccctgagccggtggacaccattatatcagaacccatggggtacatgctgtttaacgagagaatgctggaaagctaccttcacgccaaaaaatggctgaagcccagaggaaagatgtttccttctcagggagatttacatatagctccgttcacagatgaagccctctatctggagcagttctctaaggctaatttttggtatcagcaatcattccatggaattgatttgtctagtttacgcagtgcagctgtcaaagaatacttcacacagcccattgtggatactttcgatgtaaggatatgtctggcaaaatctgtcaaacacaccgtggacttccagacggcggaggagactgacctacacaacattgagatccccctcacgttcagcatgcacgagtcggggctcgttcacggtctcgccttctggtttgatgtggcctttttgggatcagtagagcctgtttggttatcaacagccccgacagagactctgacacattggtatcaggttaggtgtctggtggaaacaccggtcctcgtcaaacaaggacagactctcaatggaaaatgtgtgctcaggtgcaacaaaagacagagttatgatgttgatattgaactgaacatcccaggaacaacctcaaagtccacaaacacactggatcttaaaaatccattttttcgttacacgggtcagacaccacctgctcctcctggggtcaacaactcttcccccacggaaacctactggaataatctggcgacaggccagactgtatacatgaatggactggttaatggggacaccaatgctgcacagcttctaagccaccagggagttattcaacaaaatctcatcccagtctgtacgttgatttcaggtttatctgacccatcccaaagactttattgaatactttacagaacaacagatttttacattacagaacaacagatttttatctgtttatttaataatgaaatacttgtacaatgtatatatgtgtatgaaaattttctatcaaataaag comp7220_c0_seq2 1642 261 Reference transcriptome Oly Transcriptome V3 133210742
1640 BMP-2_FWD TGAAGGAACGACCAAAGCCA JH 5/21/2015 20 55 O.lurida Bone morphogenetic protein 2 (BMP-2) (Bone morphogenetic protein 2A) (BMP-2A) P12643 aaattgacattaagggattatacgtgcaacgagtttttcattaataagtaaacgattatctcttttgaccggaacatataatgaagttttcaagaccaagtatttaaagtgttgttattttcaccagaaagtttaaaggaatcggagtgcagttagacgaggacagcgatactatataagctggaacttattaatacacacgtactctcgtctcagtataaaccacctgttccaccataaacatgatttattaatacggttatttaaaccttatccggttgagaatgtgtgtgcaatcagagctattttcgttgaggagcaaatttagaatcgggatttactgactgaacaagcggttgggaaaacaatctcttgcacacaaggatcatttactttcagtctatttggaatttatagaagaatgtgctatgacattaaataggggaattaacaaactaatggaagaccgtgcaggaaccaagctctatattcgtgcattttcacaatgagtttctgtcgatttggttttctactgttgctagcgtgcaccgggctggctggatcgtcatcgccttctcttctagaatcggcttttccttctcactacgacgaaaatcgaagaagagaaataatacaggcttttgagaaaaccttcttgcatctgtttggattgaaggaacgaccaaagccaaagaaagacacttttattccacaatatttgttagagttatatgaaaaacatagcgaggacccagattctcttggagatagcgtcaatgtcaaaagacgaggcgcgggttccgccaacactgttagaagttttcttcataaagaattgaccactgacgtcattagtatggcaggatgcggggagcacaactgtgcccatttctacttcaacgtatcatccattcctatggaggaatcattaactggtgctgagctaagactctttattgatcaaaataacgacacaaaaaatccagtcggaaacaggaaacagtttagacataaaatagaaattcacgaggttcttcaaccggaaacccaacattctgaagccataactaggctgctggatgtgcgtcacgtgggaggaagaaatgcatcttgggaatcttttgacattcacccagcagtattaaaatggaaaaagaatcctcatttaaaccatggattaaaagttcgtgtattacaatttaaaaacaaaccgtccacagactccattaaacatgtacgtttacgacgtgacgtagatagtgtggaggaagagaggcacacgagacctctgttggtgactttcacggacgataaccgtgggtcaaggactaaaagatccaccagtgataaaacaaaaaaaggtagaaaaaataggaaaaatagaaaaaataaaaagcgaaggagaaatagaaagaaaaacaatagaaagaataaaacaaagaggaaaaagtataacgaccagtgtcgcaggaaggagttaaatgtagattttaaagccgttgggtggaacgattggatattcgcgccacccggctataatgcgtattactgtgatggttcatgtcactggccttatgatgaccatatgaatgtgacaaaccatgcgatagtccaagacttagtgaactctatagaccctagggcggccccgaagccctgttgtgtacccacagaactcagttcgctttccttattatatactgacgaacatggcatagttgtgctgaaggtctatcaagacatggttgtagaaggatgcgggtgccggtagccatgataactctttaaattgttattgttatttgttgtgatattatttatttgcgaaaatggatgaaaaagtgtgtgtgttccgaaatatggctgttcggaagttagcttcatatttgctcatttccaatctcccattcattgacaatcatatcattattttcattttgcataaattgcat comp7183_c0_seq1 1639 373 Reference transcriptome Oly Transcriptome V3 133210743
1639 BMP-2_REV TCCGGTTGAAGAACCTCGTG JH 5/21/2015 20 55 O.lurida Bone morphogenetic protein 2 (BMP-2) (Bone morphogenetic protein 2A) (BMP-2A) P12643 aaattgacattaagggattatacgtgcaacgagtttttcattaataagtaaacgattatctcttttgaccggaacatataatgaagttttcaagaccaagtatttaaagtgttgttattttcaccagaaagtttaaaggaatcggagtgcagttagacgaggacagcgatactatataagctggaacttattaatacacacgtactctcgtctcagtataaaccacctgttccaccataaacatgatttattaatacggttatttaaaccttatccggttgagaatgtgtgtgcaatcagagctattttcgttgaggagcaaatttagaatcgggatttactgactgaacaagcggttgggaaaacaatctcttgcacacaaggatcatttactttcagtctatttggaatttatagaagaatgtgctatgacattaaataggggaattaacaaactaatggaagaccgtgcaggaaccaagctctatattcgtgcattttcacaatgagtttctgtcgatttggttttctactgttgctagcgtgcaccgggctggctggatcgtcatcgccttctcttctagaatcggcttttccttctcactacgacgaaaatcgaagaagagaaataatacaggcttttgagaaaaccttcttgcatctgtttggattgaaggaacgaccaaagccaaagaaagacacttttattccacaatatttgttagagttatatgaaaaacatagcgaggacccagattctcttggagatagcgtcaatgtcaaaagacgaggcgcgggttccgccaacactgttagaagttttcttcataaagaattgaccactgacgtcattagtatggcaggatgcggggagcacaactgtgcccatttctacttcaacgtatcatccattcctatggaggaatcattaactggtgctgagctaagactctttattgatcaaaataacgacacaaaaaatccagtcggaaacaggaaacagtttagacataaaatagaaattcacgaggttcttcaaccggaaacccaacattctgaagccataactaggctgctggatgtgcgtcacgtgggaggaagaaatgcatcttgggaatcttttgacattcacccagcagtattaaaatggaaaaagaatcctcatttaaaccatggattaaaagttcgtgtattacaatttaaaaacaaaccgtccacagactccattaaacatgtacgtttacgacgtgacgtagatagtgtggaggaagagaggcacacgagacctctgttggtgactttcacggacgataaccgtgggtcaaggactaaaagatccaccagtgataaaacaaaaaaaggtagaaaaaataggaaaaatagaaaaaataaaaagcgaaggagaaatagaaagaaaaacaatagaaagaataaaacaaagaggaaaaagtataacgaccagtgtcgcaggaaggagttaaatgtagattttaaagccgttgggtggaacgattggatattcgcgccacccggctataatgcgtattactgtgatggttcatgtcactggccttatgatgaccatatgaatgtgacaaaccatgcgatagtccaagacttagtgaactctatagaccctagggcggccccgaagccctgttgtgtacccacagaactcagttcgctttccttattatatactgacgaacatggcatagttgtgctgaaggtctatcaagacatggttgtagaaggatgcgggtgccggtagccatgataactctttaaattgttattgttatttgttgtgatattatttatttgcgaaaatggatgaaaaagtgtgtgtgttccgaaatatggctgttcggaagttagcttcatatttgctcatttccaatctcccattcattgacaatcatatcattattttcattttgcataaattgcat comp7183_c0_seq1 1640 373 Reference transcriptome Oly Transcriptome V3 133210744
1638 PGE/EP4_FWD ACAGCGACGGACGATTTTCT JH 5/21/2015 20 55 O.lurida Prostaglandin E2 receptor EP4 subtype (PGE receptor EP4 subtype) (PGE2 receptor EP4 subtype) (Prostanoid EP4 receptor) P32240 tggcgctggaaaatcgatagtcaagagcctgtacttcagtatttactttggacggggttaactagtccctagtgaccatatcgagagtgaatatgtattcaatggcaggcatacaacacggtagaagattcacgtcggattagcagatatatcattaaggacaattgttaccgccctcactgattacccacctttgttttgtgagcaaacatttattaagcaacacaccgccctacgccagaaacaaccaagattctatcatctatacaaaatcaatgcaccctgcgcatgtcacaaaacgttgccatgattttataatcatgcgacattaggaggcatggctctccacatgtaaactctggatcggggtaaaaaaaatctttttttaaaaagcaggaaactatgagtcttgtgtgcggattttccggacatattgaccgaaatgaaacgaatacctcaaattgctcaacgaattgctctactccaaattgggtgggcacggctctcatgagctggattagtacgaaaaatgtagttaattctggagtgatgtttgcctgtggattttttgggaatttgttagctttaattgtgttaataaggtctagtaaggaacagcgacggacgattttctaccgtttggttgctggactgaccatcacagatttaattggcaccaccttgacctctcctgtcgtgataacagtgtacgtaaagagacgctggatagggggcgacttcctgtgttcttactttggatttatgatgatcatggcgtgtttctccacgatgacaattgtatgtgctatgtctatagaacggatattgtgcataagacacccatatatctattatacccgattatcgaagaagcacgccaccattattttagcatcgtgttgggtaacgtctgccattatagcttcgttgcctcttttaggatttggggaaattgtcagaaaatacccaggaacgtggtgttattttgattattactcaaaagagccgatccatatagtatttaactatttcatcagtatcttagccatgagtattatcattgtgaccatttgctgtaatttgacagtcatttataccattctaaaaagcagacggaaacagggaatactccggaaagaggacggtacttcacgctccatccatggtgccagcaagcgttacgcagaatgtcagatgctgattcttttggtagggatcaccatcgttttcacctcctgctacactccgctatacgttcgagttatcatgaatcaaacaggcctcgtttgcaataccctcttggacttacaactgatccggctagcctcttataatcaaattctggatccttgggtttatatactcctccggagagaactcttgtggaagataatatctggcgtgaagtacatttgtaatcgaggtcagacagacctaaattcattaccccagaaacaatttgacgtagacaatgccaactgctgcgtgttttgtttccactgtttgtgcgaccctccggtgactgctagacagcgatgtgggtcaattttctctcaggacggccaatacatacatgcatgtccaggaagaagcacaatgaacgcctctagtttttcaaacctcaaaagcacctctctgacttctttgaacggaaggcaatcgggccctctgcgagtttgctctgcgaatgacgtccatatgctactgcttaataacacgctgaagaaacatggagtgacaaagagtacaagcacacgttttgtggatgacattgagaacgactgattcattcacaaatatttttacacgtgtttcatttccaatcaagtgatgtacaatcaatatttaaggattttatatacatttttactacttattagccttacaatttttcatactgtatgtgttatcatgtttatctaacattccacaatcttgaatgcgagatcatatattttaacactgatgaggcaaaacaacgtacatgagattactagaggattcccatttttattggcttgctttacttttgtggcaaccagtacatgtaccagtggattttttcaaattttgttgttgtgtaaaaaatcaacatattttccttactatcaaaactggca comp6939_c0_seq1 1637 303 Reference transcriptome Oly Transcriptome V3 133210745
1637 PGE/EP4_REV ATGGCAGACGTTACCCAACA JH 5/21/2015 20 55 O.lurida Prostaglandin E2 receptor EP4 subtype (PGE receptor EP4 subtype) (PGE2 receptor EP4 subtype) (Prostanoid EP4 receptor) P32240 tggcgctggaaaatcgatagtcaagagcctgtacttcagtatttactttggacggggttaactagtccctagtgaccatatcgagagtgaatatgtattcaatggcaggcatacaacacggtagaagattcacgtcggattagcagatatatcattaaggacaattgttaccgccctcactgattacccacctttgttttgtgagcaaacatttattaagcaacacaccgccctacgccagaaacaaccaagattctatcatctatacaaaatcaatgcaccctgcgcatgtcacaaaacgttgccatgattttataatcatgcgacattaggaggcatggctctccacatgtaaactctggatcggggtaaaaaaaatctttttttaaaaagcaggaaactatgagtcttgtgtgcggattttccggacatattgaccgaaatgaaacgaatacctcaaattgctcaacgaattgctctactccaaattgggtgggcacggctctcatgagctggattagtacgaaaaatgtagttaattctggagtgatgtttgcctgtggattttttgggaatttgttagctttaattgtgttaataaggtctagtaaggaacagcgacggacgattttctaccgtttggttgctggactgaccatcacagatttaattggcaccaccttgacctctcctgtcgtgataacagtgtacgtaaagagacgctggatagggggcgacttcctgtgttcttactttggatttatgatgatcatggcgtgtttctccacgatgacaattgtatgtgctatgtctatagaacggatattgtgcataagacacccatatatctattatacccgattatcgaagaagcacgccaccattattttagcatcgtgttgggtaacgtctgccattatagcttcgttgcctcttttaggatttggggaaattgtcagaaaatacccaggaacgtggtgttattttgattattactcaaaagagccgatccatatagtatttaactatttcatcagtatcttagccatgagtattatcattgtgaccatttgctgtaatttgacagtcatttataccattctaaaaagcagacggaaacagggaatactccggaaagaggacggtacttcacgctccatccatggtgccagcaagcgttacgcagaatgtcagatgctgattcttttggtagggatcaccatcgttttcacctcctgctacactccgctatacgttcgagttatcatgaatcaaacaggcctcgtttgcaataccctcttggacttacaactgatccggctagcctcttataatcaaattctggatccttgggtttatatactcctccggagagaactcttgtggaagataatatctggcgtgaagtacatttgtaatcgaggtcagacagacctaaattcattaccccagaaacaatttgacgtagacaatgccaactgctgcgtgttttgtttccactgtttgtgcgaccctccggtgactgctagacagcgatgtgggtcaattttctctcaggacggccaatacatacatgcatgtccaggaagaagcacaatgaacgcctctagtttttcaaacctcaaaagcacctctctgacttctttgaacggaaggcaatcgggccctctgcgagtttgctctgcgaatgacgtccatatgctactgcttaataacacgctgaagaaacatggagtgacaaagagtacaagcacacgttttgtggatgacattgagaacgactgattcattcacaaatatttttacacgtgtttcatttccaatcaagtgatgtacaatcaatatttaaggattttatatacatttttactacttattagccttacaatttttcatactgtatgtgttatcatgtttatctaacattccacaatcttgaatgcgagatcatatattttaacactgatgaggcaaaacaacgtacatgagattactagaggattcccatttttattggcttgctttacttttgtggcaaccagtacatgtaccagtggattttttcaaattttgttgttgtgtaaaaaatcaacatattttccttactatcaaaactggca comp6939_c0_seq1 1638 303 Reference transcriptome Oly Transcriptome V3 133210746
1636 CRAF1_FWD AGCAGGGCATCAAACTCTCC JH 5/21/2015 20 55 O.lurida TNF receptor-associated factor 3 (EC 6.3.2.-) (CD40 receptor-associated factor 1) (CRAF1) (TRAFAMN) Q60803 atggtaaccctgaaaggcaggttacccacgagttatttgcccctgatccaaaataaaattaagtcgtacgtgtgtcatttactcaaaccgtagaaactgcagtgtgtgcacagggactcgtcacgaattgacctcattaaaatatagaatagacggtgtcaaattttaataagacaaaaagttcgtgacgagcccctgtggccagagctcccatcccctttactagctccttcaacataactgtcagtataagaccctggtacttattatacttggaacttttgctaaactggtcagtatcttcattatatacatgcaatgagaatggatctaaatcatgcattgacatatagagtatccatactaaactacccctatactggcctatagtgaccagcccacctagtgtgacttctggtgaaatattgagcccgaatataaacgataaattttcttcaacacaattactgacgagcagatgtaccgaatacaactatcccataatagctagagttacgataactaatttgattttaaactgagaaggtatttctaaatgaggaaatttgacaaacatctatgattctgtacatgtttctgtttctttcatggaattggtatgttacttgtgtcaactttaactttgatgaatattgtatcttctttgagatatgtctttgtttcgagcacactatgggagataaaaagaggacatccagtggcaacattcatctctgtagttggtctcttgaagctgctacttgttgtgtcaggctggaaagtatcacagacatgtcttctgttgaagtcttgatccaacagcatcagggaaactttctgctggaaaggccatggaagcagggcatcaaactctcctctcatcaccacaaagaacaaggacagatgagtgcctttacccattccatccccattcaggtacactctggcacacatcttgtagccagtgcgacttgtgtaaaatggctggctgtacagggagagggttctcccacttttggcctcctcctttcttctggagtaatctcttatcttccacattaaaatgccatcataactagcagtctccagcacttggaatctcaggtctaactcagcaagcctaatgtcctggatcgccatctgcttctcattactcttcagttgattcctcacctcttgagacacccctgcctgtgaccctccacctccgggccccgctcgctctagctgagttatctgctcctgactgactcgcaagtcctctctcagcacatttaaaacttgctcctgcttttcaaggacttctcgctttggctggtgttcaatcaacctctccaaatttattaacctttctgtcaatgacactaacttttttttcatatcctttgtgatcgatttcactaagggtgtaatttcttcttttaacctttgattttcctgatgcaattcttgaacaattctttgcatttctactgcctctgtcttgcttttctcaatctcagtctgcagagcttgattctgatcgcttgtttgattggaaaatgacataactaacatcagatggtgatctgtcgctgttgtctgatgcttctccacttctttgactacatcaacaaactgacaccctatgcttttgtatccacaagggattgatcgttttgggcaagattgcaggtgactatccatctcacttcgacgcagtattatattttcacacccatttggacagttcagttgatattccaaacactcatggtcaatgtgactctgcatctgacagaagggaacatcccttgagcagtggctgcatacagcaattcgatggctgcactctaatttctgatgactggacagcttattctgaggtattttttcatgacattcaccacattccacgggtttaaactcgcattcctcagcgtgtatcataaggtttctccatattggtgtctctttacacccatgattgtgataggaacagaaaactggaagtaacatcatctctcgacgagtgcacatatctttatatatctcatttttggagaaagactccttacactcctcatccaactgtaggggacaggttgctgtgtcattttctccaaacaatggatcaatacaggactcacagatctgatgtccacactgtagttgcatggcattccttagtactgttccacacacagagcaaatgtatttatccgctactttattgacaaactgtggcaagtctgctgataataagcttgttcccaaagaagccatagaggaatccatgttgagatagcaaatttcagcttacgcggtattcaaaatattttaacaaaatacagagttttatatgcaaatgttttttaaatttacaagaatatttttttaagtcactgacagaagttgctatgtattcaaggttattattatatttcctattttttatcctatcacatctaatattctgtatagcaacagtaaaggaagaaatgatcaatatatcactccaaaaagaatcatgttttatccaatactgtagaaatacagttttttcatatagtgctgataatttacaacccatacacccctggctttgcaatcattttcatttttactgtatgtttctgcattcttaaacacaactcatctgaaataggcctacagtccgtgagccaagggcgtcgcttctaaaatggcgttgtactttactcattcggcgaa comp25313_c0_seq1 1635 119 Reference transcriptome Oly Transcriptome V3 133210747
1635 CRAF1_REV ACAAGTCGCACTGGCTACAA JH 5/21/2015 20 55 O.lurida TNF receptor-associated factor 3 (EC 6.3.2.-) (CD40 receptor-associated factor 1) (CRAF1) (TRAFAMN) Q60803 atggtaaccctgaaaggcaggttacccacgagttatttgcccctgatccaaaataaaattaagtcgtacgtgtgtcatttactcaaaccgtagaaactgcagtgtgtgcacagggactcgtcacgaattgacctcattaaaatatagaatagacggtgtcaaattttaataagacaaaaagttcgtgacgagcccctgtggccagagctcccatcccctttactagctccttcaacataactgtcagtataagaccctggtacttattatacttggaacttttgctaaactggtcagtatcttcattatatacatgcaatgagaatggatctaaatcatgcattgacatatagagtatccatactaaactacccctatactggcctatagtgaccagcccacctagtgtgacttctggtgaaatattgagcccgaatataaacgataaattttcttcaacacaattactgacgagcagatgtaccgaatacaactatcccataatagctagagttacgataactaatttgattttaaactgagaaggtatttctaaatgaggaaatttgacaaacatctatgattctgtacatgtttctgtttctttcatggaattggtatgttacttgtgtcaactttaactttgatgaatattgtatcttctttgagatatgtctttgtttcgagcacactatgggagataaaaagaggacatccagtggcaacattcatctctgtagttggtctcttgaagctgctacttgttgtgtcaggctggaaagtatcacagacatgtcttctgttgaagtcttgatccaacagcatcagggaaactttctgctggaaaggccatggaagcagggcatcaaactctcctctcatcaccacaaagaacaaggacagatgagtgcctttacccattccatccccattcaggtacactctggcacacatcttgtagccagtgcgacttgtgtaaaatggctggctgtacagggagagggttctcccacttttggcctcctcctttcttctggagtaatctcttatcttccacattaaaatgccatcataactagcagtctccagcacttggaatctcaggtctaactcagcaagcctaatgtcctggatcgccatctgcttctcattactcttcagttgattcctcacctcttgagacacccctgcctgtgaccctccacctccgggccccgctcgctctagctgagttatctgctcctgactgactcgcaagtcctctctcagcacatttaaaacttgctcctgcttttcaaggacttctcgctttggctggtgttcaatcaacctctccaaatttattaacctttctgtcaatgacactaacttttttttcatatcctttgtgatcgatttcactaagggtgtaatttcttcttttaacctttgattttcctgatgcaattcttgaacaattctttgcatttctactgcctctgtcttgcttttctcaatctcagtctgcagagcttgattctgatcgcttgtttgattggaaaatgacataactaacatcagatggtgatctgtcgctgttgtctgatgcttctccacttctttgactacatcaacaaactgacaccctatgcttttgtatccacaagggattgatcgttttgggcaagattgcaggtgactatccatctcacttcgacgcagtattatattttcacacccatttggacagttcagttgatattccaaacactcatggtcaatgtgactctgcatctgacagaagggaacatcccttgagcagtggctgcatacagcaattcgatggctgcactctaatttctgatgactggacagcttattctgaggtattttttcatgacattcaccacattccacgggtttaaactcgcattcctcagcgtgtatcataaggtttctccatattggtgtctctttacacccatgattgtgataggaacagaaaactggaagtaacatcatctctcgacgagtgcacatatctttatatatctcatttttggagaaagactccttacactcctcatccaactgtaggggacaggttgctgtgtcattttctccaaacaatggatcaatacaggactcacagatctgatgtccacactgtagttgcatggcattccttagtactgttccacacacagagcaaatgtatttatccgctactttattgacaaactgtggcaagtctgctgataataagcttgttcccaaagaagccatagaggaatccatgttgagatagcaaatttcagcttacgcggtattcaaaatattttaacaaaatacagagttttatatgcaaatgttttttaaatttacaagaatatttttttaagtcactgacagaagttgctatgtattcaaggttattattatatttcctattttttatcctatcacatctaatattctgtatagcaacagtaaaggaagaaatgatcaatatatcactccaaaaagaatcatgttttatccaatactgtagaaatacagttttttcatatagtgctgataatttacaacccatacacccctggctttgcaatcattttcatttttactgtatgtttctgcattcttaaacacaactcatctgaaataggcctacagtccgtgagccaagggcgtcgcttctaaaatggcgttgtactttactcattcggcgaa comp25313_c0_seq1 1636 119 Reference transcriptome Oly Transcriptome V3 133210748
1634 NFKBina_FWD GATGGCGGTGCATGTGTTAG JH 5/21/2015 20 55 O.lurida NF-kappa-B inhibitor alpha (I-kappa-B-alpha) (IkB-alpha) (IkappaBalpha) (REL-associated protein pp40) Q91974 gtaaattctatttcaccgtttccataaaatcggccaatggatcctaaaggaatagatacccacatcaataagctctcccatcttaatttggaaactgatggcggtgcatgtgttagcgaaagtaatagatatcaagaagaagcatatgattcagcgtatttttctgcttctttatctgagtttccttccactgagtccacaattaaaacagaaatcttaccacaagatcattatcccgtaccatccatcatttgctctccacatgtaagtgctcaggccacagaaactgcacaagccacagaaactgcacaaggttctcctcggtcttctcttcaactgcagacttcacgatgtcactttataccctatgttacgacacaagaaagaaactttcagaatatcaaaatttcggatccaaatgttcaaaaaatgatacatgctgacaaagacggcgatacacagctccatatggcgatcatcgaaaaccatgtttctgttgcaatttacataatacggtgtctggccgctgtagatgtcaatcttctgaaccatcaaaataacttacttgaaacacctctctggttggccatttacgaacaacaattagatgttgttgagatgttgattagaagtggcgcagatgttactgctgcagatagaaatggcgatactccgttgcatgttgcctgtaaatatggacgagatgaagcccttgatattcttcttcaaaatacaaaagcaacaactgtcaggcattgcctatctcttccaaattacggtggacaaacatgtctccatttagctgcagacagaatgcatttttctgtcataagacttctgtttagatatggaatggacgtaaatgaaaaagagaaagttcacggaatgacaattttacacaaggctgcaaaattagggaataaggtattgttagaattcattttgaatttacagggattagatttgaacacagaaacttatgctgggtatacccctattttgttagcttactttgaaggtcattttgatatcgttcttttactcaaacaagagggttgcgattttcaagatctgtcttagcaatgtgcaatgttttgcttttcactggaaatattacgtatttctatttgaatggctcggtaggagggaagttctttgggtaacaccgaaagacagagtgaaaagaagtatgtctattttgatatgctgccacttgaattgtaat comp24195_c0_seq1 1633 227 Reference transcriptome Oly Transcriptome V3 133210749
1633 NFKBina_REV CGAGGAGAACCTTGTGCAGT JH 5/21/2015 20 55 O.lurida NF-kappa-B inhibitor alpha (I-kappa-B-alpha) (IkB-alpha) (IkappaBalpha) (REL-associated protein pp40) Q91974 gtaaattctatttcaccgtttccataaaatcggccaatggatcctaaaggaatagatacccacatcaataagctctcccatcttaatttggaaactgatggcggtgcatgtgttagcgaaagtaatagatatcaagaagaagcatatgattcagcgtatttttctgcttctttatctgagtttccttccactgagtccacaattaaaacagaaatcttaccacaagatcattatcccgtaccatccatcatttgctctccacatgtaagtgctcaggccacagaaactgcacaagccacagaaactgcacaaggttctcctcggtcttctcttcaactgcagacttcacgatgtcactttataccctatgttacgacacaagaaagaaactttcagaatatcaaaatttcggatccaaatgttcaaaaaatgatacatgctgacaaagacggcgatacacagctccatatggcgatcatcgaaaaccatgtttctgttgcaatttacataatacggtgtctggccgctgtagatgtcaatcttctgaaccatcaaaataacttacttgaaacacctctctggttggccatttacgaacaacaattagatgttgttgagatgttgattagaagtggcgcagatgttactgctgcagatagaaatggcgatactccgttgcatgttgcctgtaaatatggacgagatgaagcccttgatattcttcttcaaaatacaaaagcaacaactgtcaggcattgcctatctcttccaaattacggtggacaaacatgtctccatttagctgcagacagaatgcatttttctgtcataagacttctgtttagatatggaatggacgtaaatgaaaaagagaaagttcacggaatgacaattttacacaaggctgcaaaattagggaataaggtattgttagaattcattttgaatttacagggattagatttgaacacagaaacttatgctgggtatacccctattttgttagcttactttgaaggtcattttgatatcgttcttttactcaaacaagagggttgcgattttcaagatctgtcttagcaatgtgcaatgttttgcttttcactggaaatattacgtatttctatttgaatggctcggtaggagggaagttctttgggtaacaccgaaagacagagtgaaaagaagtatgtctattttgatatgctgccacttgaattgtaat comp24195_c0_seq1 1634 227 Reference transcriptome Oly Transcriptome V3 133210750
1632 PGRP-S_FWD GAGACTTCACCTCGCACCAA JH 5/21/2015 20 55 O.lurida Peptidoglycan recognition protein 1 (Peptidoglycan recognition protein short) (PGRP-S) O75594 gtgaacgtatataaacgaacttcatttactcggctttaacagtggtatcagagcaaagtctgaagtttgtattgagtttcagcatgaaagcgattgccgcttctttccttcctgtatttctattgttcttggccaattcaaatgccgaggaatgcgcatgtgccactaccaacgttcacgtcagatccggtgctggtgtaggtcacggaattctgggaactttaagcacagattcttgcctcgccttcaaaggtcacctgacttctgtcaatggagctcattgggccaacgtagactataacggacaggatggttggatctcatctacctacctcgcattcaaaccatgctcgttatcaggatctcataacagcggcgcaggcacgcattctacttccggctgtcccccgatcgtaagtcgaagtgaatggcatgcgcgtgcgcctaagcatcacattggtcctcttccggcagtgcccggaaacgtatacattcaccatggcgccacgcacggctgtttcacaaaggcagactgcatcaagctggtgcagtcctatcagaattaccatatggacacccacggttggccagatatcggatacagcttcatcattggagaagacggaaatatctatgaggggcggggctggaacactataggggcgcatacatataaccacaattatgatggtctaggattctgcgtcatgggagacttcacctcgcaccaaccaaacgccctagctataaacgcagtgaagagcctgattagctgcggagtaaacagcggaaggataactcataactacgtgttgaaaggtcaccgtgatgtcgggcaaaccagttgtccaggggacaaattctatgcccttatcaagacatggccgcattatcatcattgagggattttcactgaagaccctatgattgtacaatgtaatttataaagcaatcaatgacacatttgctcttcattacttttcatacacag comp24065_c0_seq1 1631 135 Reference transcriptome Oly Transcriptome V3 133210751
1631 PGRP-S_REV AACTGGTTTGCCCGACATCA JH 5/21/2015 20 55 O.lurida Peptidoglycan recognition protein 1 (Peptidoglycan recognition protein short) (PGRP-S) O75594 gtgaacgtatataaacgaacttcatttactcggctttaacagtggtatcagagcaaagtctgaagtttgtattgagtttcagcatgaaagcgattgccgcttctttccttcctgtatttctattgttcttggccaattcaaatgccgaggaatgcgcatgtgccactaccaacgttcacgtcagatccggtgctggtgtaggtcacggaattctgggaactttaagcacagattcttgcctcgccttcaaaggtcacctgacttctgtcaatggagctcattgggccaacgtagactataacggacaggatggttggatctcatctacctacctcgcattcaaaccatgctcgttatcaggatctcataacagcggcgcaggcacgcattctacttccggctgtcccccgatcgtaagtcgaagtgaatggcatgcgcgtgcgcctaagcatcacattggtcctcttccggcagtgcccggaaacgtatacattcaccatggcgccacgcacggctgtttcacaaaggcagactgcatcaagctggtgcagtcctatcagaattaccatatggacacccacggttggccagatatcggatacagcttcatcattggagaagacggaaatatctatgaggggcggggctggaacactataggggcgcatacatataaccacaattatgatggtctaggattctgcgtcatgggagacttcacctcgcaccaaccaaacgccctagctataaacgcagtgaagagcctgattagctgcggagtaaacagcggaaggataactcataactacgtgttgaaaggtcaccgtgatgtcgggcaaaccagttgtccaggggacaaattctatgcccttatcaagacatggccgcattatcatcattgagggattttcactgaagaccctatgattgtacaatgtaatttataaagcaatcaatgacacatttgctcttcattacttttcatacacag comp24065_c0_seq1 1632 135 Reference transcriptome Oly Transcriptome V3 133210752
1630 TLR2.1_FWD ACAAAGATTCCACCCGGCAA JH 5/21/2015 20 55 O.lurida Toll-like receptor 2 type-1 Q9DD78 tcaaaacagattttggagtgtaacgtctttaaaaattactaatacagcaacaatgaaatcattttgccatgaattgcttcacgatttgccagaacagcttctggccatttctattcattgtccactctacatgagatgctgacttgagaagcaccttcagagattgattaatatgttcagaacgaatatcttgtaatatgatcagcaatagcttgtcaccgcctccgtcagccaaagtgtggttggcaatggcggcttcgtacttacaccattgatcgtccaagaaattattggacagcaccaaaatgaattttctgctgacttcaatgctttccagaaagtcatccacaaagattccacccggcaagatatctctctcgtgcaaacaaagcttgtacttgtttctctctaccatctgaacaagttcagacattatccacttcctgtcgttggtgttgtaagcaacaaaaccatcatagaggaattcatcatctgtaaatcttttataccccatgggttttctgtttttgcatgtgtatatataatacttaatgtcccaacgaaactttctcaacagaacaatggtcaaaatcaccaaggacactaatgcaaacgaagcgcatactagaatgacataggggcttattttgtgacattcggacgcaggatcaaagtgtgttatactttttcctttcaagtctgacggggaagcacagatgtattgatgaggatatccaacagtcctattttggttgttttcaacccagagtcggaaccattccagttggcatccacagtccaatggattcaaggacacatcaattcgaaaatcttttttcttccaaaggaaagcaggcagagaagattcattgatactgctcaaacgattgccacgaaaaatcaattcattcaatctagtcaaattttgaacaccgctctttcgaatttctgttattcggttaacactgtagtcaacggacgttagctgtgaaaaatcagtcagtgtagtcatttgatcgatttcgccattaacaatagccaaaactgacagatcctttagaggtgatagcatctctgcaacatcagtgttggatagatcggtgttcattattttcaatgcttttatatttctacattcagaaaagatgtatttgaagcctcctacgcttttttccaccatacgtccgatagagagtgttcggagggaattggatgataatgacctaccatctaaagcgactccatgcaagttatcaatgatcaaagtttgcaaacgattcatattcaaaaaggaatacaaggaaatgtcatgaattgatgtgtgtgaaacattaaaaaattcaagggatttcaggcagtagccctcttgtatgaaatttgttgtttcccgaataccattcactgccaggtgcaattgttgcaagtttgggaaggcggctatacgtttctcattggataaacaaaactcgggaatcttctcaaaagaattgttagtaaaatacagttcttttaaagaaggaactgagctatttggcaatttataccttgagattaggttgcttcctaaatcgattttgtggatattgattaatttagcgaaggatttaaaag comp23747_c0_seq1 1629 109 Reference transcriptome Oly Transcriptome V3 133210753
1629 TLR2.1_REV ACACCAACGACAGGAAGTGG JH 5/21/2015 20 55 O.lurida Toll-like receptor 2 type-1 Q9DD78 tcaaaacagattttggagtgtaacgtctttaaaaattactaatacagcaacaatgaaatcattttgccatgaattgcttcacgatttgccagaacagcttctggccatttctattcattgtccactctacatgagatgctgacttgagaagcaccttcagagattgattaatatgttcagaacgaatatcttgtaatatgatcagcaatagcttgtcaccgcctccgtcagccaaagtgtggttggcaatggcggcttcgtacttacaccattgatcgtccaagaaattattggacagcaccaaaatgaattttctgctgacttcaatgctttccagaaagtcatccacaaagattccacccggcaagatatctctctcgtgcaaacaaagcttgtacttgtttctctctaccatctgaacaagttcagacattatccacttcctgtcgttggtgttgtaagcaacaaaaccatcatagaggaattcatcatctgtaaatcttttataccccatgggttttctgtttttgcatgtgtatatataatacttaatgtcccaacgaaactttctcaacagaacaatggtcaaaatcaccaaggacactaatgcaaacgaagcgcatactagaatgacataggggcttattttgtgacattcggacgcaggatcaaagtgtgttatactttttcctttcaagtctgacggggaagcacagatgtattgatgaggatatccaacagtcctattttggttgttttcaacccagagtcggaaccattccagttggcatccacagtccaatggattcaaggacacatcaattcgaaaatcttttttcttccaaaggaaagcaggcagagaagattcattgatactgctcaaacgattgccacgaaaaatcaattcattcaatctagtcaaattttgaacaccgctctttcgaatttctgttattcggttaacactgtagtcaacggacgttagctgtgaaaaatcagtcagtgtagtcatttgatcgatttcgccattaacaatagccaaaactgacagatcctttagaggtgatagcatctctgcaacatcagtgttggatagatcggtgttcattattttcaatgcttttatatttctacattcagaaaagatgtatttgaagcctcctacgcttttttccaccatacgtccgatagagagtgttcggagggaattggatgataatgacctaccatctaaagcgactccatgcaagttatcaatgatcaaagtttgcaaacgattcatattcaaaaaggaatacaaggaaatgtcatgaattgatgtgtgtgaaacattaaaaaattcaagggatttcaggcagtagccctcttgtatgaaatttgttgtttcccgaataccattcactgccaggtgcaattgttgcaagtttgggaaggcggctatacgtttctcattggataaacaaaactcgggaatcttctcaaaagaattgttagtaaaatacagttcttttaaagaaggaactgagctatttggcaatttataccttgagattaggttgcttcctaaatcgattttgtggatattgattaatttagcgaaggatttaaaag comp23747_c0_seq1 1630 109 Reference transcriptome Oly Transcriptome V3 133210754
1628 GDF-8b_FWD AACTGATTCTGCTCGTCGCA JH 5/21/2015 20 55 O.lurida Growth/differentiation factor 8 (GDF-8) (Myostatin) Q8AVB2 cctttgtttggtttaaccagattttaaaaagccctgatttcatttttgaaatcagatgggtgttgtgaacatagatctttctagtctgatctatgacgaatgacctcaacagtttagtcggtgtcatattcaacaaactgaaagactcccagccttgtggatctttgatccagccacactacaaacgaaaacaaacgcgaccattttctccctctatccttttctctcgccatcttttgcctttaagagcaaccacaccgcacgactcgcattctcggtaatgttgttaactgtaatctagaagtatggtcaaagtacagcattcttaagtttgccattctaacgggtgaacaacaaggaccaggattatttccgatcattcttgactcgggaacctgttgtacaactgacgaatgtccgtggttactaagagcctcgtttcgacattctcccgcgcagtagtaggcgtcataccatttgggtgcaatgacgaaatcccaaccgaattctatgaagctaacggttaaaggatatcgacagcaagcctcaaactgattctgctcgtcgcacgtcaaagctgtcgatcgttttcgacgaacgtgggctgtggttgtcgtacgtaaatccaagttaggttcatatccttcgtttattccagtggtgggtggaagaacaattaaattttcattattagcatcgaacgcctccaccaccagccccaagttagtagaaggatccgaagcccacttatgggccaaaccagtaatatcaaaa comp23265_c1_seq1 1627 126 Reference transcriptome Oly Transcriptome V3 133210755
1627 GDF-8b_REV TGTTCTTCCACCCACCACTG JH 5/21/2015 20 55 O.lurida Growth/differentiation factor 8 (GDF-8) (Myostatin) Q8AVB2 cctttgtttggtttaaccagattttaaaaagccctgatttcatttttgaaatcagatgggtgttgtgaacatagatctttctagtctgatctatgacgaatgacctcaacagtttagtcggtgtcatattcaacaaactgaaagactcccagccttgtggatctttgatccagccacactacaaacgaaaacaaacgcgaccattttctccctctatccttttctctcgccatcttttgcctttaagagcaaccacaccgcacgactcgcattctcggtaatgttgttaactgtaatctagaagtatggtcaaagtacagcattcttaagtttgccattctaacgggtgaacaacaaggaccaggattatttccgatcattcttgactcgggaacctgttgtacaactgacgaatgtccgtggttactaagagcctcgtttcgacattctcccgcgcagtagtaggcgtcataccatttgggtgcaatgacgaaatcccaaccgaattctatgaagctaacggttaaaggatatcgacagcaagcctcaaactgattctgctcgtcgcacgtcaaagctgtcgatcgttttcgacgaacgtgggctgtggttgtcgtacgtaaatccaagttaggttcatatccttcgtttattccagtggtgggtggaagaacaattaaattttcattattagcatcgaacgcctccaccaccagccccaagttagtagaaggatccgaagcccacttatgggccaaaccagtaatatcaaaa comp23265_c1_seq1 1628 126 Reference transcriptome Oly Transcriptome V3 133210756
1626 HSP70c_FWD AGGAAAGGTCGGGAGAGGAA JH 5/21/2015 20 55 O.lurida Heat shock 70 kDa protein 12A Q8K0U4 gatcgccgtatgcgcatgtttgtttatttcgacaagcgacagcgacgtccacggtccagaactttgtctagaccaggcctatatacatttacacagagtgattatatgtgactggtattaagcatactacaatggcatgcgcacaagaggaccgccttatgacggccgccatagattttggcacgacatactcaggatactgcttctcgtttcgacatgatttcgagactgaccctctcaaagtgtcagccaacacgtggaccgcaggcactgcaggtcttgtgtccctaaaaacgcccaccactgttctcctggacggagatggaaaattagtgacgtttggttatgaagcagaagatcgctactcggagcttgcagacgatgacgaacatggcgactattattatttcagacggtttaagatgacacttttcaattcttcatcaagactaactagggataccatgttaaaagacataaccggaggaaaacagatgaaagccatcacggtttttgctcatgccatccggtacttaaaagaccacatgctgaaaaccctggatcagcgtggagccggaatcaaagccagggacatcaactgggtgctgacggttcccgccatctgggacgatcccgcgaaacagttcatgcgtgaagccgcagaggaggcaggtataaatcgagcgcagctgatgatttccctggaacccgaggcagcctcgctgttctgtaaatatctacctatagagaagttacagggcgtagataaaggaatcggcgcattcaaaccgggtagccgatacctcgtcttggatgctggaggtggcacggtcgacatcacagtccatgaggttcagttcaacggaactctgaaggaattggataaggccagtggtggcgcatggggaggtactcgagtcgatgaatccttcaaggaaatgctggaagaaattgtgggagcgggaatgctcgaggagtttgccttgtcacacacagcagactacatagatttgttccgagatttcgagacaaaaaagcgcaatgtgaaagacgacgccccaggaaagatcacaattcgtattccgataagtctgcaagagttgtacgaggaaaggtcgggagaggaaattaaaaagaaaattcgccagacgaaatacaaagatgatctcacttgggtcggcgatcgtctgcgcattaacaagccatgttttgtaaacttgttttctgcagcctgtgatggtatggtggatcacgtaaagaaattgttacgttcgtccaaagtccgaggtacaaataacatcctcatggttgggggtttttcagaatcccccttactacagaaaagaattcgtgatgaatttagtgattgtcgaataattattccacaagaagcagggttagccgtccttaaaggtgccgtcatatttggtcatcaaccagcaaccatcgcggcacgtgtagctagatgcacgtatggtatagaaaccaacacgtcctttgatgctagaaaacatcctcagtcaaagaaaaaagtggtagaaggcaaggagaaatgtaaagaagtgtttgacaggcacgtgtccattggacaagtgttggaagtagacgaagttcaaagtgaaaaaagctactggcctctctattcaaaccaaaccaaagtatcgctaccggtatattcatcctcaatggacaacccggacttcgtggacgaggctggatgtagttatctaggaaagctcacagtggatatcccgcaatacggttccgacaaagaagtgtcgacaaatttcatctttggtggtactgaactaaaagtgcaagctattgtgaaaagcacaggggaagttaccactgccaattttgactttttggaaggagacagttaagacctttcgatatgaattctactaatttttaagacatgtatatcaatatttaaaaatgatgcagcagtcataatgatagtcacagcaaatatgtaaacaacaccgctgattatcaaattacacttatttgtaaataggaaatgtaggatagtgtgtgtaatcttattaatataatacgagtaaaaaca comp22403_c0_seq1 1625 182 Reference transcriptome Oly Transcriptome V3 133210757
1625 HSP70c_REV ACCTCGGACTTTGGACGAAC JH 5/21/2015 20 55 O.lurida Heat shock 70 kDa protein 12A Q8K0U4 gatcgccgtatgcgcatgtttgtttatttcgacaagcgacagcgacgtccacggtccagaactttgtctagaccaggcctatatacatttacacagagtgattatatgtgactggtattaagcatactacaatggcatgcgcacaagaggaccgccttatgacggccgccatagattttggcacgacatactcaggatactgcttctcgtttcgacatgatttcgagactgaccctctcaaagtgtcagccaacacgtggaccgcaggcactgcaggtcttgtgtccctaaaaacgcccaccactgttctcctggacggagatggaaaattagtgacgtttggttatgaagcagaagatcgctactcggagcttgcagacgatgacgaacatggcgactattattatttcagacggtttaagatgacacttttcaattcttcatcaagactaactagggataccatgttaaaagacataaccggaggaaaacagatgaaagccatcacggtttttgctcatgccatccggtacttaaaagaccacatgctgaaaaccctggatcagcgtggagccggaatcaaagccagggacatcaactgggtgctgacggttcccgccatctgggacgatcccgcgaaacagttcatgcgtgaagccgcagaggaggcaggtataaatcgagcgcagctgatgatttccctggaacccgaggcagcctcgctgttctgtaaatatctacctatagagaagttacagggcgtagataaaggaatcggcgcattcaaaccgggtagccgatacctcgtcttggatgctggaggtggcacggtcgacatcacagtccatgaggttcagttcaacggaactctgaaggaattggataaggccagtggtggcgcatggggaggtactcgagtcgatgaatccttcaaggaaatgctggaagaaattgtgggagcgggaatgctcgaggagtttgccttgtcacacacagcagactacatagatttgttccgagatttcgagacaaaaaagcgcaatgtgaaagacgacgccccaggaaagatcacaattcgtattccgataagtctgcaagagttgtacgaggaaaggtcgggagaggaaattaaaaagaaaattcgccagacgaaatacaaagatgatctcacttgggtcggcgatcgtctgcgcattaacaagccatgttttgtaaacttgttttctgcagcctgtgatggtatggtggatcacgtaaagaaattgttacgttcgtccaaagtccgaggtacaaataacatcctcatggttgggggtttttcagaatcccccttactacagaaaagaattcgtgatgaatttagtgattgtcgaataattattccacaagaagcagggttagccgtccttaaaggtgccgtcatatttggtcatcaaccagcaaccatcgcggcacgtgtagctagatgcacgtatggtatagaaaccaacacgtcctttgatgctagaaaacatcctcagtcaaagaaaaaagtggtagaaggcaaggagaaatgtaaagaagtgtttgacaggcacgtgtccattggacaagtgttggaagtagacgaagttcaaagtgaaaaaagctactggcctctctattcaaaccaaaccaaagtatcgctaccggtatattcatcctcaatggacaacccggacttcgtggacgaggctggatgtagttatctaggaaagctcacagtggatatcccgcaatacggttccgacaaagaagtgtcgacaaatttcatctttggtggtactgaactaaaagtgcaagctattgtgaaaagcacaggggaagttaccactgccaattttgactttttggaaggagacagttaagacctttcgatatgaattctactaatttttaagacatgtatatcaatatttaaaaatgatgcagcagtcataatgatagtcacagcaaatatgtaaacaacaccgctgattatcaaattacacttatttgtaaataggaaatgtaggatagtgtgtgtaatcttattaatataatacgagtaaaaaca comp22403_c0_seq1 1626 182 Reference transcriptome Oly Transcriptome V3 133210758
1624 p29ING4_FWD TACCTTTGGGCTTCACCGTC JH 5/21/2015 20 55 O.lurida Inhibitor of growth protein 4 (p29ING4) Q8C0D7 tatctgatagctcgtgtagaaggaaaagtgttcacaagctattttacatcctccacccctctgggatccaccataacattaaagaaaattattggatcctcctgcctcaacaatatatgcacatctacaaatggttatgaaacactgcacaaagtttcaagtttatcctataagtcattaaggaggagaagacatacttttctaaagtatggccttgttagaaggtatacacatatgaaatatgaaagccctagcattgaacattcaaaataaatggccaaggttaaagtttttgtagacaaaatctccaatgcaatttattaagaaaggaatcggtttaaatgccatttgttttcagtgacaatgtacagtggttcatctgataatgatcaaattaactgactgcttccaatattcatacctctcagatctaaagaaaacagtattgtttaatacatttcttaataacatctaattctgccatcaaaagcttgatctttgatcaagtgttggtaacaaataaatagaataagttatcaagttacatggatatgtggacacacatgcactccttgtcaactcccctttttctgaagatgttcagtctgagtcggtgtaagaacgagacttacaatcactatacaattttttatttccaattcagttttgcatgcactctgatgttgatccatttcattttttctttctttcttctgtgcatcgtggacagaaccatttacctttgggcttcaccgtcaacccaacacaagcgaagtggaaccactcaatggggcaatccgggttatcacagccaatcatttcgccataagacacttggtgacaaagacagtaggttggttcattgggatcaacaggcatgtccagaacatctgaggggtgtgtgatggacaatgtcgacaagattggtattgatgataccacctcttctggaggactttgctggcctttcttctttttctttttgggaatttcatcatcatattcttcctttttccttttctttttgtctttatctttgttctttttgcctgaatctgagtctgctttgagcttagcagctgagctcttgtctttcagatctgcttcaaaccttgccaagtcagcatctagctttcgtatatgtttgtcaaccatttcatatgtctgcatggctagctgtactttgtcatcaccatattccctgcttttggagaatttgccttctatagttgttagtttttgggaccgtttctctgatgacattcctctgacattttttaagtattcttcagataagtggtcaatgtctttcaaaagatcttgagtgcgctggtctaaatctctcataaggttgaagtttctttgcaactctgtgggcaatgtttcaagactgtccaagtagtgttccaagtacattgctgtcgccatatttgctgtttaagagg comp22144_c0_seq1 1623 173 Reference transcriptome Oly Transcriptome V3 133210759
1623 p29ING4_REV GTCCATCACACACCCCTCAG JH 5/21/2015 20 55 O.lurida Inhibitor of growth protein 4 (p29ING4) Q8C0D7 tatctgatagctcgtgtagaaggaaaagtgttcacaagctattttacatcctccacccctctgggatccaccataacattaaagaaaattattggatcctcctgcctcaacaatatatgcacatctacaaatggttatgaaacactgcacaaagtttcaagtttatcctataagtcattaaggaggagaagacatacttttctaaagtatggccttgttagaaggtatacacatatgaaatatgaaagccctagcattgaacattcaaaataaatggccaaggttaaagtttttgtagacaaaatctccaatgcaatttattaagaaaggaatcggtttaaatgccatttgttttcagtgacaatgtacagtggttcatctgataatgatcaaattaactgactgcttccaatattcatacctctcagatctaaagaaaacagtattgtttaatacatttcttaataacatctaattctgccatcaaaagcttgatctttgatcaagtgttggtaacaaataaatagaataagttatcaagttacatggatatgtggacacacatgcactccttgtcaactcccctttttctgaagatgttcagtctgagtcggtgtaagaacgagacttacaatcactatacaattttttatttccaattcagttttgcatgcactctgatgttgatccatttcattttttctttctttcttctgtgcatcgtggacagaaccatttacctttgggcttcaccgtcaacccaacacaagcgaagtggaaccactcaatggggcaatccgggttatcacagccaatcatttcgccataagacacttggtgacaaagacagtaggttggttcattgggatcaacaggcatgtccagaacatctgaggggtgtgtgatggacaatgtcgacaagattggtattgatgataccacctcttctggaggactttgctggcctttcttctttttctttttgggaatttcatcatcatattcttcctttttccttttctttttgtctttatctttgttctttttgcctgaatctgagtctgctttgagcttagcagctgagctcttgtctttcagatctgcttcaaaccttgccaagtcagcatctagctttcgtatatgtttgtcaaccatttcatatgtctgcatggctagctgtactttgtcatcaccatattccctgcttttggagaatttgccttctatagttgttagtttttgggaccgtttctctgatgacattcctctgacattttttaagtattcttcagataagtggtcaatgtctttcaaaagatcttgagtgcgctggtctaaatctctcataaggttgaagtttctttgcaactctgtgggcaatgtttcaagactgtccaagtagtgttccaagtacattgctgtcgccatatttgctgtttaagagg comp22144_c0_seq1 1624 173 Reference transcriptome Oly Transcriptome V3 133210760
1622 CerS2_FWD TTGTCGGTCTCCTCCTGCTA JH 5/21/2015 20 55 O.lurida Ceramide synthase 2 (CerS2) (LAG1 longevity assurance homolog 2) Q3ZBF8 tggagatgatatggagcgagaagttttggtttcccgagggcgtgacatgggcagagttacagaatgtgaacccaaaggtgtacctcccacagattgaagatatcggatttttatccatatttgtcggtctcctcctgctaatcacacgatttctgacggagaggttgttagtgatacctttggctaagtgcttgggagttaaagttagaaaacatctgcatcttgcaaaagttccggagttagagcagctttacaagtcaaagaaaactgatgtcaaatctatcagggaggttgtgaaaaagacggatttatctgaacgtcaggttgaacgatggctcagaagacgggtcaagttagacacgccaagcaccatgcaaaaattcaccgagtgcagctaccatttcttattctactgtgcgatgtttttctatgggctttacatactctgggataaatcttggttctgg comp20292_c2_seq1 1621 227 Reference transcriptome Oly Transcriptome V3 133210761
1621 CerS2_REV CCGTCTTCTGAGCCATCGTT JH 5/21/2015 20 55 O.lurida Ceramide synthase 2 (CerS2) (LAG1 longevity assurance homolog 2) Q3ZBF8 tggagatgatatggagcgagaagttttggtttcccgagggcgtgacatgggcagagttacagaatgtgaacccaaaggtgtacctcccacagattgaagatatcggatttttatccatatttgtcggtctcctcctgctaatcacacgatttctgacggagaggttgttagtgatacctttggctaagtgcttgggagttaaagttagaaaacatctgcatcttgcaaaagttccggagttagagcagctttacaagtcaaagaaaactgatgtcaaatctatcagggaggttgtgaaaaagacggatttatctgaacgtcaggttgaacgatggctcagaagacgggtcaagttagacacgccaagcaccatgcaaaaattcaccgagtgcagctaccatttcttattctactgtgcgatgtttttctatgggctttacatactctgggataaatcttggttctgg comp20292_c2_seq1 1622 227 Reference transcriptome Oly Transcriptome V3 133210762
1620 GABABR1_FWD CCGAGGAGGACACGAAACTC JH 5/21/2015 20 55 O.lurida Gamma-aminobutyric acid type B receptor subunit 1 (GABA-B receptor 1) (GABA-B-R1) (GABA-BR1) (GABABR1) (Gb1) Q9WV18 atttagacagttgcgtacctttgatcttgaggatcccgccaacaccgaggaggacacgaaactccgcccacagctggaactttgtgttgcgaaacacatggcaatttggcttggtatcacccttggtttcaatgggatcattctgctgtttggtatatttctaaccttcgaaacaagaaaagtgaaattagaaaattataacgactcccgattcgttggaatggcaatctacaatattacggtgcttggttccattacagtaccattatgcctcatcatcagcaagcaacatgtagcaaactttatctttgtggcaggttgcatccttctctcttgctatttgtcaatgggtcttctgtttcttccaaagatattacatgtattgcggaatccagaacctgtccgagatgaaagatttctagatgatttcgggaccccaaggggagaggtggacactatccatcagagacttatacgtgaaaatgaagatttgaaaagacgtatacagatgatggagaacagagtggcattgttgaataaacaactgataaataaatcgtataaaagagtttatctatcagctggtcatcaggagtgtggtgcacataaaagcagctgattgacttaattaattcggcgtttca comp19002_c0_seq1 1619 361 Reference transcriptome Oly Transcriptome V3 133210763
1619 GABABR1_REV CGGACAGGTTCTGGATTCCG JH 5/21/2015 20 55 O.lurida Gamma-aminobutyric acid type B receptor subunit 1 (GABA-B receptor 1) (GABA-B-R1) (GABA-BR1) (GABABR1) (Gb1) Q9WV18 atttagacagttgcgtacctttgatcttgaggatcccgccaacaccgaggaggacacgaaactccgcccacagctggaactttgtgttgcgaaacacatggcaatttggcttggtatcacccttggtttcaatgggatcattctgctgtttggtatatttctaaccttcgaaacaagaaaagtgaaattagaaaattataacgactcccgattcgttggaatggcaatctacaatattacggtgcttggttccattacagtaccattatgcctcatcatcagcaagcaacatgtagcaaactttatctttgtggcaggttgcatccttctctcttgctatttgtcaatgggtcttctgtttcttccaaagatattacatgtattgcggaatccagaacctgtccgagatgaaagatttctagatgatttcgggaccccaaggggagaggtggacactatccatcagagacttatacgtgaaaatgaagatttgaaaagacgtatacagatgatggagaacagagtggcattgttgaataaacaactgataaataaatcgtataaaagagtttatctatcagctggtcatcaggagtgtggtgcacataaaagcagctgattgacttaattaattcggcgtttca comp19002_c0_seq1 1620 361 Reference transcriptome Oly Transcriptome V3 133210764
1618 HSP70d_FWD TTTGTCTCACCGGCTTTGTG JH 5/21/2015 20 55 O.lurida Heat shock 70 kDa protein 6 (Heat shock 70 kDa protein B') P17066 gaatatcaaaacgtttcgctctttctttgtctcaccggctttgtgcttgtctaacccataagcaattgcagcggctgttggctcgttgattattctgagcacgttgatgcctgcaactttggcggcgtctttggtctcatgtctctgggagtcgttgaaatatgcagggactgtgataacagctcctcctattttctgaccgaggtagtcctctgctgtct comp16752_c2_seq1 1617 118 Reference transcriptome Oly Transcriptome V3 133210765
1617 HSP70d_REV GACATGAGACCAAAGACGCC JH 5/21/2015 20 55 O.lurida Heat shock 70 kDa protein 6 (Heat shock 70 kDa protein B') P17066 gaatatcaaaacgtttcgctctttctttgtctcaccggctttgtgcttgtctaacccataagcaattgcagcggctgttggctcgttgattattctgagcacgttgatgcctgcaactttggcggcgtctttggtctcatgtctctgggagtcgttgaaatatgcagggactgtgataacagctcctcctattttctgaccgaggtagtcctctgctgtct comp16752_c2_seq1 1618 118 Reference transcriptome Oly Transcriptome V3 133210766
1616 THRa_FWD GACACTATCCTCACTCGGCG JH 5/21/2015 20 55 O.lurida Thyroid hormone receptor alpha (Nuclear receptor subfamily 1 group A member 1) Q9W6N4 agcagcaatcaattcagaaacaaacattcattagcaaatgtactgcagcagcaatcaaccacggaaagaaacatggacactggtttctaataaaaacaccaatggtaaaggtcttgattaaaaccgaaacaagtgtttgtggcatgaaaccaagggcgaaggcagtgctagctccaaaacacgtgaccactattttactgtaaaaagtaacaccggttcttgttaataaatacatcaacaatgttctatgtggaaagagagtattgcatctcaatcaacaaattctaagctccaaacgggtttgatagatttgtgttttggaactcttcttataaaaaaaaataaataaataaataacttgcagtttttgtcttaccaaaatcacttaacataatttacagagagatgcaaacgtttcacattaaggactcgtgggaaatggtttgttacatataataattactaacatacatgaacaaaataacaatgataaacatactattaatttagcagggccttatgtaagcgactaaatgaccggggcatcacttctcacgttcggtatatgacatcataatacgtttcacaaacttacaactaccatctatagttggtcaaatgaattaagaaggtctaacacatctccatattataacgttgacctcgttttgaaacactgaatgaaaatatgcatatttgcaatacttatataatccttaaaaatataattacacgtgtacttagccgagtgcgtaaccgagcccactactggtgtgtaaatctacaattcggatctaacagggcttctattcccaaactttctttcctccaaaattgtgtttttccactaaatggtaaacaagacagttttcaagtttaaaatagcattgtgcatatccttcatttctcaatccacagaagatttttcaggtgtgtcatccctccttaaaatacaggaccgcacgaaatgaaaatctcccatacagtgaataaaaaaatcgaccctgggctggtacggtatggaaggtagcatgtaaccatagtacaataacaaccaatatacaatatggaacagtaaaatgtttacaacaacgataacaattcattctctatggacctaacggggggagggggggggggcattgatcaacaacacaaaagacccgtaattcttcgtacacactcgggagatttctattttgtgcatggctacagtgagttacctacaatcctggatacattagcactaaccattagacactaccagctgcttgcactaacgtagacagcgaagttatacttcgtcaggatacagcgaaacaaatatgactggcaaaggtacaaaagaattccccactgttaccagtgctattcggctactaggatatatgttcatgttattatggcttctttcacaaatccaaatgctatggtacactttcccaatggcaattacctatggcaacagtagaccacggagaaccaaggtttcctactataacatcaaccattgaattactggggagacaatatattgtttaaaaacccttggatttcacgtatcggtatcaatactacaaattaaaatcttcagttatatacagcacctgtgaagtttaaaacactatgtcgaggtatatataaatatttttccatgtgaatcgtttcagctataatatgactgtccctcattaaacaaatccaatagctgcggaggaatatcaccttggtgatctagtcggatgcacaacacgcgctctgcatgacgggtactaatagtgcgcagatccgtcactttcatcagtatcttagcccagtgcactggttggtgtgggcgtttggtcgctatgtaacgtttaaatgctcccagaatggaatcctgaagtttttccacagcttccggttcctttaaacctgaacgatccgactgcatgagcaacacagaagcaagtaatgcgagctcagttttatccagttttagtttagaaaggccaacagcaaattcaaatattggttcaacaaggagacctaaaccttctgatttgagttgtgatttgtgtagacagacgccattatgcatggttatggtctctttttccggatcgtaccgacaggcggcacgcaaacacatgatctccatgcagcacgactttaatagcaggatctggtcgtccacgaacaattgaataaatcctggtacatttttggcaaattctacaactttgacaatagagggcgtcatggcttccgctaactgttgccaagcttcaggatctgaggggggtaagccatcttgggtagcagactctttcattggcactttgacaacagtttgttcataagctgacgtaacttccgctataatcgtcttgtctgtttctgtcagggtgtcatggttacacccttctgtcggctttggttttactttcatagtctcttgttttcttttttctctattgtcttctatcagtttccgtttggcttttctttgtttttcattcaaaacaagatccgttgccatgccaacgtttaagcattttctaaatctacactcttggcactggttacgagagtttttatcgatcgaacacattttattccacttgcagtgatattgaagattcttctgtattgtgcgacgaaagaagcccttgcagccttcacaggtcatacatcgataatggtatcctgtggccgcgtcaccacaaacaacacacggctctggtccattagtgaggtccatgtagctgggaatgtagggagtccctttcctcttgttggccgccgcaagatcccctccccccgcgtctgacgaagcctgtgacgatgaaggcgatggcgaggagttaaaagcactgatgggagaaggcatggatgagttgtccggactggacatggaaacagaggacagtccagcatacgatttggccccagcttcacagacactatcctcactcggcgatggtctctgtggcaacactgcataagatggagtaggtcctgttggcatcatggcagattgaaagtatggcaaaaatcctcgattcattccgtccacaaattcattctcctcactacctaactgaatgtccattgtgaaaaactaaatcgttcaaggtaaatgtgtagctgtttacactcacgaatgatatcactacctatccacacaatccgaaactgaccaactcaatgtccgttctcatcgatcgagagtttacgccattaataaacacacatgtaacattgttcattcgggttgaatttcaagggggtggtggtggggaatattctatatccttgtttactcggcaccccacatttgtgcgtctacgacatggtcaacaactatagaatgtgactagccgatgtgatgtaacgccccagcagttcaacgctggtcggatccactatagagcgaaggggaaatagcatttttcctgacctgatcattcctcgactttctgtcctgattccatgcaccatacagcctggtcactgttat comp16251_c0_seq1 1615 373 Reference transcriptome Oly Transcriptome V3 133210767
1615 THRa_REV GGGTGCCGAGTAAACAAGGA JH 5/21/2015 20 55 O.lurida Thyroid hormone receptor alpha (Nuclear receptor subfamily 1 group A member 1) Q9W6N4 agcagcaatcaattcagaaacaaacattcattagcaaatgtactgcagcagcaatcaaccacggaaagaaacatggacactggtttctaataaaaacaccaatggtaaaggtcttgattaaaaccgaaacaagtgtttgtggcatgaaaccaagggcgaaggcagtgctagctccaaaacacgtgaccactattttactgtaaaaagtaacaccggttcttgttaataaatacatcaacaatgttctatgtggaaagagagtattgcatctcaatcaacaaattctaagctccaaacgggtttgatagatttgtgttttggaactcttcttataaaaaaaaataaataaataaataacttgcagtttttgtcttaccaaaatcacttaacataatttacagagagatgcaaacgtttcacattaaggactcgtgggaaatggtttgttacatataataattactaacatacatgaacaaaataacaatgataaacatactattaatttagcagggccttatgtaagcgactaaatgaccggggcatcacttctcacgttcggtatatgacatcataatacgtttcacaaacttacaactaccatctatagttggtcaaatgaattaagaaggtctaacacatctccatattataacgttgacctcgttttgaaacactgaatgaaaatatgcatatttgcaatacttatataatccttaaaaatataattacacgtgtacttagccgagtgcgtaaccgagcccactactggtgtgtaaatctacaattcggatctaacagggcttctattcccaaactttctttcctccaaaattgtgtttttccactaaatggtaaacaagacagttttcaagtttaaaatagcattgtgcatatccttcatttctcaatccacagaagatttttcaggtgtgtcatccctccttaaaatacaggaccgcacgaaatgaaaatctcccatacagtgaataaaaaaatcgaccctgggctggtacggtatggaaggtagcatgtaaccatagtacaataacaaccaatatacaatatggaacagtaaaatgtttacaacaacgataacaattcattctctatggacctaacggggggagggggggggggcattgatcaacaacacaaaagacccgtaattcttcgtacacactcgggagatttctattttgtgcatggctacagtgagttacctacaatcctggatacattagcactaaccattagacactaccagctgcttgcactaacgtagacagcgaagttatacttcgtcaggatacagcgaaacaaatatgactggcaaaggtacaaaagaattccccactgttaccagtgctattcggctactaggatatatgttcatgttattatggcttctttcacaaatccaaatgctatggtacactttcccaatggcaattacctatggcaacagtagaccacggagaaccaaggtttcctactataacatcaaccattgaattactggggagacaatatattgtttaaaaacccttggatttcacgtatcggtatcaatactacaaattaaaatcttcagttatatacagcacctgtgaagtttaaaacactatgtcgaggtatatataaatatttttccatgtgaatcgtttcagctataatatgactgtccctcattaaacaaatccaatagctgcggaggaatatcaccttggtgatctagtcggatgcacaacacgcgctctgcatgacgggtactaatagtgcgcagatccgtcactttcatcagtatcttagcccagtgcactggttggtgtgggcgtttggtcgctatgtaacgtttaaatgctcccagaatggaatcctgaagtttttccacagcttccggttcctttaaacctgaacgatccgactgcatgagcaacacagaagcaagtaatgcgagctcagttttatccagttttagtttagaaaggccaacagcaaattcaaatattggttcaacaaggagacctaaaccttctgatttgagttgtgatttgtgtagacagacgccattatgcatggttatggtctctttttccggatcgtaccgacaggcggcacgcaaacacatgatctccatgcagcacgactttaatagcaggatctggtcgtccacgaacaattgaataaatcctggtacatttttggcaaattctacaactttgacaatagagggcgtcatggcttccgctaactgttgccaagcttcaggatctgaggggggtaagccatcttgggtagcagactctttcattggcactttgacaacagtttgttcataagctgacgtaacttccgctataatcgtcttgtctgtttctgtcagggtgtcatggttacacccttctgtcggctttggttttactttcatagtctcttgttttcttttttctctattgtcttctatcagtttccgtttggcttttctttgtttttcattcaaaacaagatccgttgccatgccaacgtttaagcattttctaaatctacactcttggcactggttacgagagtttttatcgatcgaacacattttattccacttgcagtgatattgaagattcttctgtattgtgcgacgaaagaagcccttgcagccttcacaggtcatacatcgataatggtatcctgtggccgcgtcaccacaaacaacacacggctctggtccattagtgaggtccatgtagctgggaatgtagggagtccctttcctcttgttggccgccgcaagatcccctccccccgcgtctgacgaagcctgtgacgatgaaggcgatggcgaggagttaaaagcactgatgggagaaggcatggatgagttgtccggactggacatggaaacagaggacagtccagcatacgatttggccccagcttcacagacactatcctcactcggcgatggtctctgtggcaacactgcataagatggagtaggtcctgttggcatcatggcagattgaaagtatggcaaaaatcctcgattcattccgtccacaaattcattctcctcactacctaactgaatgtccattgtgaaaaactaaatcgttcaaggtaaatgtgtagctgtttacactcacgaatgatatcactacctatccacacaatccgaaactgaccaactcaatgtccgttctcatcgatcgagagtttacgccattaataaacacacatgtaacattgttcattcgggttgaatttcaagggggtggtggtggggaatattctatatccttgtttactcggcaccccacatttgtgcgtctacgacatggtcaacaactatagaatgtgactagccgatgtgatgtaacgccccagcagttcaacgctggtcggatccactatagagcgaaggggaaatagcatttttcctgacctgatcattcctcgactttctgtcctgattccatgcaccatacagcctggtcactgttat comp16251_c0_seq1 1616 373 Reference transcriptome Oly Transcriptome V3 133210768
1614 Defensin_FWD TCTAGCGGAGTTTGTTGGGG JH 5/21/2015 20 55 O.lurida Big defensin P80957 gaacagagactgcaaaagacaagaaacaggccgcagcagccctgctccctctagcggagtttgttggggccaccgtgtcagcgccgttatttttggccctagtggcagcctacgggctatcagctgttctggctcaccacattacacaatcctcctccgacagccattcctgtgctaataatcggggctggtgccgatcgcaatgtttctctcacgaatacgttgatcactaccacagtattgtttgtgggttttacgtatgctgtagaccaggcaa comp10930_c0_seq1 1613 118 Reference transcriptome Oly Transcriptome V3 133210769
1613 Defensin_REV ATGGCTGTCGGAGGAGGATT JH 5/21/2015 20 55 O.lurida Big defensin P80957 gaacagagactgcaaaagacaagaaacaggccgcagcagccctgctccctctagcggagtttgttggggccaccgtgtcagcgccgttatttttggccctagtggcagcctacgggctatcagctgttctggctcaccacattacacaatcctcctccgacagccattcctgtgctaataatcggggctggtgccgatcgcaatgtttctctcacgaatacgttgatcactaccacagtattgtttgtgggttttacgtatgctgtagaccaggcaa comp10930_c0_seq1 1614 118 Reference transcriptome Oly Transcriptome V3 133210770
1612 GRB2_FWD AACTTTGTCCACCCAGACGG JH 5/21/2015 20 55 O.lurida Growth factor receptor-bound protein 2 (Adapter protein GRB2) (Protein Ash) (SH2/SH3 adapter GRB2) P62994 aaaataggaactacacaacaacgcggaggtaaatatcagggtcaagatggaggcgatagcgaaacatgatttcagagcaactgctgatgatgaattaagcttttccaaaactaacattttaaagatcttgagcatggatgatgatcagaactggttcaaagctgagttagatggtaaagagggatacgtaccaaataattatatagaaatgaaaccacacccttggtttgctggaaagattcctcgattagaagcagaaagacgattattggagaaagactgtcgagggaactttgtccacccagacggggcattcctgctcaggaatagtgagagtgccccgggggaattctcaatatcagtaaagtttcaagaaaatatccagcattttaaagtattaagggatggagcagggaaatatttcctatgggttgtcaagttcaactctataaacgaactgatcgaatatcatcggatgtcatctgtcaatcgtggacagaccattgtactcaaagatatggcgactaacaggggaaagaaagcgtcggcaatgtacgaattcaaaccagaaaccgttggggagctagcactcagcagaggtgatatcataacagttctagaggaagtggactgcaactggtggaaaggagaacgcaacggcgaggaggggttgtttcctgctgcatatgtcaaaaagcttgattgacctgcaattgtgtcgcgaatcttgcttgtggaaaattagcttgaaaaaaaaatcgtttgtaatgtcatctttgatcgggacaagcttctcatcctgtctattctgatggattggtccagtatgtcagcgcagtgtttgatatatattggcactcacgaaaaaactactatttgttagccatagtgtgccagccttattacgtatacccatcttctaactgtgtaccacgggagaccttccgtcagtagtctcagaaaacgattctctttccaatcaactagttataaagattttttttttccaaaaagatcaaagatgtacacatgtatttgtataaatttcattttcatatatagatactcattgtacataactgaacattttgcagaagtatatatgtggcttaattcatatttttaagcatttctgtgcaagataataagaaagctcttcatttgaatagaagtagaataggaccataaggtacaggagagaaaacataacaatccaaaagaatcgtgtcctcaaatgtgagaacttgcaaattgcttggagattcaacaagaaaccatagacaccattaggagctgttggacgtaagcgcagtaacacttcagacactgttgaagctgcaagtagatctgatgacatgagaattatagatttgtgtgtataaccattttgaatttctatatcctggttctagaataatatacattctgttggaagttccatatactaattttcagttatggttatattgatgcttgaatggtctccttattcactaaatatcaaatgttctgcgtatatttttttaatgtgtacaaattttagatgtatgttttttgaagggattcttgcataatgatttgtactcagagactgaaatctgtatggaccggtttgcggtttagtaatttccaggcatagattacagaggctaatgatgagttattgattgaaatcgcaggttattgacatgtttatgttgatgttgatgtatggatatatatatttatatactataactacaatttcttgtgatcttgtttttgtactttcactttcattcttaaaaacaattgcatgactatcttcttggcatcaaacaagttttgaaaagacaaccgctttcacattctttctgcagtttgtgtggcaattttgtctgttaagctaatatgatgctttaaatttctgcgttcttcctctaaacacatatacttccaatgtcattatgctggtcaagacatttttgcacttaatagtaatataacttaacagtggcactggtggtatatgagttagtttctgagaaacagtgtgtcctctgccatattttatgaaatgttaacaagattgtcaatatgtcatgaataaatttagcaatttttaaaaaaaaaaaaaaa comp10127_c0_seq1 1611 351 Reference transcriptome Oly Transcriptome V3 133210771
1611 GRB2_REV CCAGTTGCAGTCCACTTCCT JH 5/21/2015 20 55 O.lurida Growth factor receptor-bound protein 2 (Adapter protein GRB2) (Protein Ash) (SH2/SH3 adapter GRB2) P62994 aaaataggaactacacaacaacgcggaggtaaatatcagggtcaagatggaggcgatagcgaaacatgatttcagagcaactgctgatgatgaattaagcttttccaaaactaacattttaaagatcttgagcatggatgatgatcagaactggttcaaagctgagttagatggtaaagagggatacgtaccaaataattatatagaaatgaaaccacacccttggtttgctggaaagattcctcgattagaagcagaaagacgattattggagaaagactgtcgagggaactttgtccacccagacggggcattcctgctcaggaatagtgagagtgccccgggggaattctcaatatcagtaaagtttcaagaaaatatccagcattttaaagtattaagggatggagcagggaaatatttcctatgggttgtcaagttcaactctataaacgaactgatcgaatatcatcggatgtcatctgtcaatcgtggacagaccattgtactcaaagatatggcgactaacaggggaaagaaagcgtcggcaatgtacgaattcaaaccagaaaccgttggggagctagcactcagcagaggtgatatcataacagttctagaggaagtggactgcaactggtggaaaggagaacgcaacggcgaggaggggttgtttcctgctgcatatgtcaaaaagcttgattgacctgcaattgtgtcgcgaatcttgcttgtggaaaattagcttgaaaaaaaaatcgtttgtaatgtcatctttgatcgggacaagcttctcatcctgtctattctgatggattggtccagtatgtcagcgcagtgtttgatatatattggcactcacgaaaaaactactatttgttagccatagtgtgccagccttattacgtatacccatcttctaactgtgtaccacgggagaccttccgtcagtagtctcagaaaacgattctctttccaatcaactagttataaagattttttttttccaaaaagatcaaagatgtacacatgtatttgtataaatttcattttcatatatagatactcattgtacataactgaacattttgcagaagtatatatgtggcttaattcatatttttaagcatttctgtgcaagataataagaaagctcttcatttgaatagaagtagaataggaccataaggtacaggagagaaaacataacaatccaaaagaatcgtgtcctcaaatgtgagaacttgcaaattgcttggagattcaacaagaaaccatagacaccattaggagctgttggacgtaagcgcagtaacacttcagacactgttgaagctgcaagtagatctgatgacatgagaattatagatttgtgtgtataaccattttgaatttctatatcctggttctagaataatatacattctgttggaagttccatatactaattttcagttatggttatattgatgcttgaatggtctccttattcactaaatatcaaatgttctgcgtatatttttttaatgtgtacaaattttagatgtatgttttttgaagggattcttgcataatgatttgtactcagagactgaaatctgtatggaccggtttgcggtttagtaatttccaggcatagattacagaggctaatgatgagttattgattgaaatcgcaggttattgacatgtttatgttgatgttgatgtatggatatatatatttatatactataactacaatttcttgtgatcttgtttttgtactttcactttcattcttaaaaacaattgcatgactatcttcttggcatcaaacaagttttgaaaagacaaccgctttcacattctttctgcagtttgtgtggcaattttgtctgttaagctaatatgatgctttaaatttctgcgttcttcctctaaacacatatacttccaatgtcattatgctggtcaagacatttttgcacttaatagtaatataacttaacagtggcactggtggtatatgagttagtttctgagaaacagtgtgtcctctgccatattttatgaaatgttaacaagattgtcaatatgtcatgaataaatttagcaatttttaaaaaaaaaaaaaaa comp10127_c0_seq1 1612 351 Reference transcriptome Oly Transcriptome V3 133210772
1610 H3.3_FWD CACGCTCTCCTCGAATCCTC JH 5/21/2015 20 55 O.lurida Histone H3.3 Q6P823 tttttttttttattaagagactacatttattgttaaaataagatacttgcacaaatctaaaatattacaaaaagacaacacaatgggggacacctgtataaaaaaaacttttgtgaaagtcaagagtttcaagatttgaacagatagaaataagacagtccagaacaagaatacataaaaattgacatatttccctgactattcatgatagaatgaccagcatggttcaatgcaagaaatcaaaagtgttaatcaagaaaaccatggaattaactttctcaatcacatttctatgcatgcatataatggacattatcaaaaccaacgactgttgatctgcattaaataagaggtgtcttacagaacataaattaaaaaaaatccaatgacaaatgagccacacaatgagaatttgtctggaatggaaactaaattaccatgccatgtcctgaaaatgtctgctgcattcacgataaaaatttcaatgtctatatgaaagtaagtttgtgtgatgaaacagaaacgagatcatgcacgctctcctcgaatcctcctagccaactgaatgtctttgggcatgattgtgactctctttgcatggatggcgcacaagttagtgtcctcaaataatccaaccaggtaagcttcactggcctcttgcaaggctccaatagctgcactttggaatctcaagtcagtcttgaagtcttgagcaatttctctcaccagacgctggaaaggcaacttcctgatgagcaactcggttgatttctggtacctacggatttctctgagggcgactgttcctggcctgtatctatgaggtttcttcactcctccagtggacggggcactcttacgtgcagcctttgtggccagctgtttacgaggggctttacctcctgtacttttacgtgcagtttgctttgtacgagccattctgtcaaatttacttcttacaccgactaaccgatccgacgtttgtgaatattttaactcttgtcaagtttgtatgttatatt comp19571_c0_seq1 1609 214 Reference transcriptome Oly Transcriptome V3 133210773
1609 H3.3_REV AAGTTGCCTTTCCAGCGTCT JH 5/21/2015 20 55 O.lurida Histone H3.3 Q6P823 tttttttttttattaagagactacatttattgttaaaataagatacttgcacaaatctaaaatattacaaaaagacaacacaatgggggacacctgtataaaaaaaacttttgtgaaagtcaagagtttcaagatttgaacagatagaaataagacagtccagaacaagaatacataaaaattgacatatttccctgactattcatgatagaatgaccagcatggttcaatgcaagaaatcaaaagtgttaatcaagaaaaccatggaattaactttctcaatcacatttctatgcatgcatataatggacattatcaaaaccaacgactgttgatctgcattaaataagaggtgtcttacagaacataaattaaaaaaaatccaatgacaaatgagccacacaatgagaatttgtctggaatggaaactaaattaccatgccatgtcctgaaaatgtctgctgcattcacgataaaaatttcaatgtctatatgaaagtaagtttgtgtgatgaaacagaaacgagatcatgcacgctctcctcgaatcctcctagccaactgaatgtctttgggcatgattgtgactctctttgcatggatggcgcacaagttagtgtcctcaaataatccaaccaggtaagcttcactggcctcttgcaaggctccaatagctgcactttggaatctcaagtcagtcttgaagtcttgagcaatttctctcaccagacgctggaaaggcaacttcctgatgagcaactcggttgatttctggtacctacggatttctctgagggcgactgttcctggcctgtatctatgaggtttcttcactcctccagtggacggggcactcttacgtgcagcctttgtggccagctgtttacgaggggctttacctcctgtacttttacgtgcagtttgctttgtacgagccattctgtcaaatttacttcttacaccgactaaccgatccgacgtttgtgaatattttaactcttgtcaagtttgtatgttatatt comp19571_c0_seq1 1610 214 Reference transcriptome Oly Transcriptome V3 133210774
1608 H2A.V_FWD TGCTTTCTGTGTGCCCTTCT JH 5/21/2015 20 55 O.lurida Histone H2A.V (H2A.F/Z) (Fragment) P08991 ttttttttcagttttgtaatctacatttattcttcaacttcactttgagattaccactacaataggcaaccttactaagtctcccaaagttataaaagagagatggtttttaaaatttatttatgataaatggacatgaaaataataaaactcgacacaaacattgacgctgtactattaaaaccaaaagcgatggagttgatgaggtgaaagatgaggataaaaaatgtcttctaagttatatgacagtcatagtctctatatataaacttttacacaacattcaggtagagtcttttgttcagctcccagaattttctcaccatgaacactttaagctgctttctgtgtgcccttctttccaatgagagatttgtgaatatgtggaatgacaccaccaccggcaattgttgctttgattaaagaatccaactcttcatctcctctgatggcaagctgcaagtgacggggtgtgatacgctttaccttcagatctttactggcgtttcctgccaactccaacacttcagctgtcaagtactccagaatagcggcactgtacacggcagctgtggctccaacacgtccatgacttgtggtcctgttcttcaaatgtcgatgaatacgtcctacgggaaactgaagacctgctctggccgaacgagaaactgccttggccttcgcttttccggaatctttacctgctttacctcctgccatctttgctgcctgatgaaatcaatctcaaaccgacgctaacgaaggccgccaaagtatatgccagttcaaggtcacgtgataaaataaaccaatgggtacaccgcaaatgaaaacaaagga comp25000_c0_seq1 1607 139 Reference transcriptome Oly Transcriptome V3 133210775
1607 H2A.V_REV TATCACACCCCGTCACTTGC JH 5/21/2015 20 55 O.lurida Histone H2A.V (H2A.F/Z) (Fragment) P08991 ttttttttcagttttgtaatctacatttattcttcaacttcactttgagattaccactacaataggcaaccttactaagtctcccaaagttataaaagagagatggtttttaaaatttatttatgataaatggacatgaaaataataaaactcgacacaaacattgacgctgtactattaaaaccaaaagcgatggagttgatgaggtgaaagatgaggataaaaaatgtcttctaagttatatgacagtcatagtctctatatataaacttttacacaacattcaggtagagtcttttgttcagctcccagaattttctcaccatgaacactttaagctgctttctgtgtgcccttctttccaatgagagatttgtgaatatgtggaatgacaccaccaccggcaattgttgctttgattaaagaatccaactcttcatctcctctgatggcaagctgcaagtgacggggtgtgatacgctttaccttcagatctttactggcgtttcctgccaactccaacacttcagctgtcaagtactccagaatagcggcactgtacacggcagctgtggctccaacacgtccatgacttgtggtcctgttcttcaaatgtcgatgaatacgtcctacgggaaactgaagacctgctctggccgaacgagaaactgccttggccttcgcttttccggaatctttacctgctttacctcctgccatctttgctgcctgatgaaatcaatctcaaaccgacgctaacgaaggccgccaaagtatatgccagttcaaggtcacgtgataaaataaaccaatgggtacaccgcaaatgaaaacaaagga comp25000_c0_seq1 1608 139 Reference transcriptome Oly Transcriptome V3 133210776
1606 H2A_FWD GCTGGGGTTTTTCTGGGTCT JH 5/21/2015 20 55 O.lurida Histone H2A P02270 tggccgtgaaaacggccgtttgttattataggttcctgcaagcagactttttacttgctggggtttttctgggtcttcttggggaggagcacagcctggatgttgggcaggacaccaccctgggcgatggtcacgccggacagaagtttgttcaactcctcgtcgttgcggatggccagctgcaaatgacggggaatgattctggtcttcttgttgtcacgggcggcgttgcctgccaattccaagacttcggcggccaagtactccagaacggcggccaggtacacgggggcgccggctcccactctctcggcgtagttccccttcctcagcagacggtggatacgacccacgggaaactgaagtcccgcacgggatgatcggctctttgcctttcccttcacttttcctcctttaccacgtcctgacatcttgtttttactgttgtgcgctgatgaattcaaa comp23253_c0_seq1 1605 266 Reference transcriptome Oly Transcriptome V3 133210777
1605 H2A_REV GGAACTACGCCGAGAGAGTG JH 5/21/2015 20 55 O.lurida Histone H2A P02270 tggccgtgaaaacggccgtttgttattataggttcctgcaagcagactttttacttgctggggtttttctgggtcttcttggggaggagcacagcctggatgttgggcaggacaccaccctgggcgatggtcacgccggacagaagtttgttcaactcctcgtcgttgcggatggccagctgcaaatgacggggaatgattctggtcttcttgttgtcacgggcggcgttgcctgccaattccaagacttcggcggccaagtactccagaacggcggccaggtacacgggggcgccggctcccactctctcggcgtagttccccttcctcagcagacggtggatacgacccacgggaaactgaagtcccgcacgggatgatcggctctttgcctttcccttcacttttcctcctttaccacgtcctgacatcttgtttttactgttgtgcgctgatgaattcaaa comp23253_c0_seq1 1606 266 Reference transcriptome Oly Transcriptome V3 133210778
1604 Rr_46_65F CGGATGATAACTGGTCCGCA JDA 8/20/2014 20 55 Renilla reniformis Luciferase M63501 46-65 1603 822 http://www.ncbi.nlm.nih.gov/nuccore/M63501.1 124903282
1603 Rr_887_868R TCAGGTGCATCTTCTTGCGA JDA 8/20/2014 20 50 Renilla reniformis Luciferase M63501 887-868 1604 822 http://www.ncbi.nlm.nih.gov/nuccore/M63501.1 124903283
1602 Pg_1_PP6_53_72F CGGCAAAAGCTAGCGTTGAA JDA 8/18/2014 20 50 Ptilosarcus gurneyi Ptilosarcus Green Fluorescent Protein (GFP) HV097611 GACAAAATGAACCGCAACGTATTAAAGAACACTGGACTGAAAGAGATTATGTCGGCAAAAGCTAGCGTTG AAGGAATCGTGAACAATCACGTTTTTTCCATGGAAGGATTTGGAAAAGGCAATGTATTATTTGGAAACCA ATTGATGCAAATCCGGGTTACAAAGGGAGGTCCGTTGCCATTCGCTTTCGACATTGTTTCCATAGCTTTC CAATACGGGAATCGCACTTTCACGAAATACCCAGACGACATTGCGGACTACTTTGTTCAATCATTTCCGG CTGGATTTTTCTACGAAAGAAATCTACGCTTTGAAGATGGCGCCATTGTTGACATTCGTTCAGATATAAG TTTAGAAGATGATAAGTTCCACTACAAAGTGGAGTATAGAGGCAACGGTTTCCCTAGTAACGGACCCGTG ATGCAAAAAGCCATCCTCGGCATGGAGCCATCGTTTGAGGTGGTCTACATGAACAGCGGCGTTCTGGTGG GCGAAGTAGATCTCGTTTACAAACTCGAGTCAGGGAACTATTACTCGTGCCACATGAAAACGTTTTACAG ATCCAAAGGTGGAGTGAAAGAATTCCCGGAATATCACTTTATCCATCATCGTCTGGAGAAAACCTACGTG GAAGAAGGAAGCTTCGTGGAACAACACGAGACGGCCATTGCACAACTGACCACAATTGGAAAACCTCTGG GCTCCCTTCATGAATGGGTGTAGAAAATGACCAATATACTGGGGAAAATCACCAATATACTGGGGAAAAT GACCAATTTACTGGGGAAAATGACCAATATACTGTAGAAAATCACCAATATACTGGGGAAAATGACCAAT TTACTGGGGAAATGACCAATTTACTGTAGAAAATCACCAATATACTGTGGAAAATGACCAAAATACTGTA GAAATGTTCACACTGGGTTGATAACCGTTTCGATAACCGTTTGGAAGCTTGTGTATACAAGTTATTTGGG GTCATTTTGTAATGTGTATGTGTGTTGTATGATCTATAGACGTCGTCATTCATAGCTTGAATCCTTCAGC AAAAGAAACCTCGAAGCATATTGAAACCTCGACGGAGAGCATAAAGAGACCGCACGTACACAAATTATAA TACCAGCAGTTGGAATCTTTAAACCGATCAAAACTATTAATATATATATACACCCTGTATAACATATATA TATATATATATCTACATAGTTTGATATTGATTAAATCTGTTCTTGATCACTAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAA 53-72 1601 1054 124817505
1601 Pg_2_PP9_1107_1088R ACGTGCGGTCTCTTTATGCT JDA 8/18/2014 20 50 Ptilosarcus gurneyi Ptilosarcus Green Fluorescent Protein (GFP) HV097611 GACAAAATGAACCGCAACGTATTAAAGAACACTGGACTGAAAGAGATTATGTCGGCAAAAGCTAGCGTTG AAGGAATCGTGAACAATCACGTTTTTTCCATGGAAGGATTTGGAAAAGGCAATGTATTATTTGGAAACCA ATTGATGCAAATCCGGGTTACAAAGGGAGGTCCGTTGCCATTCGCTTTCGACATTGTTTCCATAGCTTTC CAATACGGGAATCGCACTTTCACGAAATACCCAGACGACATTGCGGACTACTTTGTTCAATCATTTCCGG CTGGATTTTTCTACGAAAGAAATCTACGCTTTGAAGATGGCGCCATTGTTGACATTCGTTCAGATATAAG TTTAGAAGATGATAAGTTCCACTACAAAGTGGAGTATAGAGGCAACGGTTTCCCTAGTAACGGACCCGTG ATGCAAAAAGCCATCCTCGGCATGGAGCCATCGTTTGAGGTGGTCTACATGAACAGCGGCGTTCTGGTGG GCGAAGTAGATCTCGTTTACAAACTCGAGTCAGGGAACTATTACTCGTGCCACATGAAAACGTTTTACAG ATCCAAAGGTGGAGTGAAAGAATTCCCGGAATATCACTTTATCCATCATCGTCTGGAGAAAACCTACGTG GAAGAAGGAAGCTTCGTGGAACAACACGAGACGGCCATTGCACAACTGACCACAATTGGAAAACCTCTGG GCTCCCTTCATGAATGGGTGTAGAAAATGACCAATATACTGGGGAAAATCACCAATATACTGGGGAAAAT GACCAATTTACTGGGGAAAATGACCAATATACTGTAGAAAATCACCAATATACTGGGGAAAATGACCAAT TTACTGGGGAAATGACCAATTTACTGTAGAAAATCACCAATATACTGTGGAAAATGACCAAAATACTGTA GAAATGTTCACACTGGGTTGATAACCGTTTCGATAACCGTTTGGAAGCTTGTGTATACAAGTTATTTGGG GTCATTTTGTAATGTGTATGTGTGTTGTATGATCTATAGACGTCGTCATTCATAGCTTGAATCCTTCAGC AAAAGAAACCTCGAAGCATATTGAAACCTCGACGGAGAGCATAAAGAGACCGCACGTACACAAATTATAA TACCAGCAGTTGGAATCTTTAAACCGATCAAAACTATTAATATATATATACACCCTGTATAACATATATA TATATATATATCTACATAGTTTGATATTGATTAAATCTGTTCTTGATCACTAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAA 1107-1088 1602 1054 124817506
1600 CgBS_44098_295365Seq AGTGTTATTTTTTGAGGG MG 7/2/2014 18 C. gigas Src kinase-associated phosphoprotein 2-B-bisulfite treated 123256802
1599 CgBS_748_187112Seq TTTTTTTTGAAAATAGATAGAATA MG 7/2/2014 24 C. gigas neuronal acetylcholine receptor - bisulfite treated 123256803
1598 CgBS_733_26796Seq GATGTTGGAAAAGAGAATT MG 7/2/2014 19 C. gigas corticotropin releasing hormone - bisulfite treated 123256804
1597 CgBS_733_26796F GGTGTAGGATTAGTATGGTTATTAATAGG MG 5/23/2014 29 34 59 C. gigas corticotropin releasing hormone - bisulfite treated CGI_10025861 121959796
1596 CgBS_733_26796R_5'biotin /5BiosG/TTTTTATTTATCTTCTACCCTTTAAATCT MG 5/23/2014 29 21 56 C. gigas corticotropin releasing hormone - bisulfite treated CGI_10025861 121959797
1595 CgBS_748_187112F GATTATAAAAGAGTGTGGGGGTGT MG 5/23/2014 24 42 61 C. gigas neuronal acetylcholine receptor - bisulfite treated CGI_10012645 121959798
1594 CgBS_748_187112R_5'biotin /5BiosG/AAATTTTTCATATCAACCAAATAATACATC MG 5/23/2014 30 20 57 C. gigas neuronal acetylcholine receptor - bisulfite treated CGI_10012645 121959799
1593 CgBS_44098_295365F TAGTGGTTTAAAGATGGAGTGTTAT MG 5/23/2014 25 32 59 C. gigas Src kinase-associated phosphoprotein 2-B-bisulfite treated CGI_10017713 121959800
1592 CgBS_44098_295365R_5'biotin /5BiosG/CAACTTACACCACACATAAACAAACTT MG 5/23/2014 27 33 61 C. gigas Src kinase-associated phosphoprotein 2-B-bisulfite treated CGI_10017713 121959801
1591 Rp_dlgCG1725_F GAAGAACCGGAAGGTGCTGA Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum dlg1 l(1)dlg1 CG1725 JO103631.1 52567 1590 162 determination of adult life span 121180851
1590 Rp_dlgCG1726_R CGGGAACTCTGCAATGAGGT Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum dlg1 l(1)dlg1 CG1726 JO103631.1 52567 1591 162 121180852
1589 Rp_diaCG1768_F ATAGTAGCTGGGGAGGCACA Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum dia CG1768 JO105397.1 1699 1588 373 multicellular organismal development 121180853
1588 Rp_diaCG1769_R CGGGCAAGTCAACTTTGTGG Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum dia CG1769 JO105397.1 1699 1589 373 121180854
1587 Rp_RNF66_F GATACCTCTTCAGCCGTGGG Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum MNAT1 CAP35 MAT1 RNF66 JO108524.1 2337 1586 951 multicellular organismal development 121180855
1586 Rp_RNF67_R TCACGGTCATGGAAAGCTCC Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum MNAT1 CAP35 MAT1 RNF67 JO108524.1 2337 1587 951 121180856
1585 Rp_flilCG1484_F CAAATGGACGTGGGCCAATC Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum fliI CG1484 JO112480.1 1584 527 muscle fiber development 121180857
1584 Rp_flilCG1485_R GGCTGGTCATGCTGTAGTGT Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum fliI CG1485 JO112480.1 1585 527 121180858
1583 Mm_flilCG1484_F GCCAAGACATCAGGGTGTGA Huan et al 2012 4/28/2014 20 Meretrix meretrix fliI CG1484 JI288613.1 Contig31173 1582 319 nematode larval development 121180859
1582 Mm_flilCG1485_R GTACAGGGACAGCACAGCTT Huan et al 2012 4/28/2014 20 Meretrix meretrix fliI CG1485 JI288613.1 Contig31,173 1583 319 121180860
1581 Rp_skoCG3937a_F AGACACGCTGAATGAACGGT Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum cher cheerio sko CG3937 JO109535.1 2559 1580 332 nervous system development 121180861
1580 Rp_skoCG3937a_R CCAGCACTTCTTGCTCCTGA Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum cher cheerio sko CG3938 JO109535.1 2559 1581 332 121180862
1579 Rp_skoCG3937b_F TCCGTGTCGAACCGAGTTTT Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum cher cheerio sko CG3937 JO114576.1 393 1578 346 post-embryonic development 121180863
1578 Rp_skoCG3937b_R TTGATGCCGCGGAGAGATAC Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum cher cheerio sko CG3938 JO114576.1 393 1579 346 121180864
1577 Rp_ACVR_F CTGCTTCCATTTCGCGTAGC Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum ACVR1 JO119656.1 605 1576 874 sarcomere organization 121180865
1576 Rp_ACVR_R CTGGAGGCTCAACTTGCAGA Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum ACVR2 JO119656.1 605 1577 874 121180866
1575 Mm_HCA57_F ATGCTGGAGATCCAAAGCCC Huan et al 2012 4/28/2014 20 Meretrix meretrix DNAJA3 HCA57 TID1 JI264496.1 Contig6926 1574 610 embryonic development ending in birth or egg hatching 121180867
1574 Mm_HCA57_R ACAGCAACTCTCACCACAGG Huan et al 2012 4/28/2014 20 Meretrix meretrix DNAJA3 HCA57 TID2 JI264496.1 Contig6,926 1575 610 121180868
1574 Ll_actin_592-611_F aacgagcgcttcaggtgccc SJW 7/15/2010 20 L.littorina 592 Designed for FHL
1573 Rp_CSRP2BP_F GTCCAGCTGACGGTTGATGA Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum CSRP2BP JO109412.1 2528 1572 425 embryonic development ending in birth or egg hatching 121180869
1573 Ll_actin_761-742_R ccggggaacatggtggtgcc SJW 7/15/2010 20 L.littorina 761 Designed for FHL
1572 Rp_CSRP2BP_R GCAGAAGCTTGTCGACCTCT Ghiselli et al 2011 4/28/2014 20 Ruditapes philippinarum CSRP2BP JO109412.1 2528 1573 425 121180870
1572 Ll_anox_let_263-282_F ccacgccttcaccgaggcag SJW 7/15/2010 20 L.littorina 263 Designed for FHL
1571 Cg_HAT_F TCTATGCCCGTGATCGGAGA Dheilly et al. 2012 3/11/2014 20 C. gigas Histone Acetyltransferase AM856009 1570 119764875
1571 Ll_anox_let_389-370_R gtccttgcgggcacactccc SJW 7/15/2010 20 L.littorina 389 Designed for FHL
1570 Cg_HAT_R TCCACCCACTCATCCAAACG Dheilly et al. 2012 3/11/2014 20 C. gigas Histone Acetyltransferase AM856009 1571 119764876
1570 Ll_cjunk_203-184_R aaacctgtcccggctgtgcg SJW 7/15/2010 20 L.littorina 203 Designed for FHL
1569 Cg_HATHaP2_F ATGGCAAAGGTAACGATCGATGAA David et al. 2005 3/5/2014 24 C. gigas Histone Acetyltransferase HaP2 CX069224 1568 119603443
1569 Ll_cjunk_87-106_F cctgcactccgcaggcatca SJW 7/15/2010 20 L.littorina 87 Designed for FHL
1568 Cg_HATHaP2_R CACTTCTTCAGGACTTCGCCA David et al. 2005 3/5/2014 21 C. gigas Histone Acetyltransferase HaP2 CX069224 1569 119603444
1568 Ll_cyclinD_178-159_R agcagggtcaagcggcaacc SJW 7/15/2010 20 L.littorina 178 Designed for FHL
1567 Cg_MeCP2_F ATGCAACCCTCAACCCAATA Riviere et al. 2013 3/5/2014 20 C. gigas Methyl-CpG-binding Protein 2 FP004144 1566 119603445
1567 Ll_cyclinD_18-38_F cggccgaacagctggtcatgt SJW 7/15/2010 20 L.littorina 18 Designed for FHL
1566 Cg_MeCP2_R GCCAAACTCATCGCCTGTAT Riviere et al. 2013 3/5/2014 20 C. gigas Methyl-CpG-binding Protein 2 FP004144 1567 119603446
1566 Ll_ferritinHC_44-63_F ggcagcggcctgggagagta SJW 7/15/2010 20 L.littorina 44 Designed for FHL
1565 Cg_MBD2_F TGACTTCCGCAGTGGTAGAA Riviere et al. 2013 3/3/2014 20 C. gigas Methyl-CpG-binding domain CU988032 1564 119537029
1565 Ll_ferrtinHC_324-215_R ccgaggccagaccgcacaaa SJW 7/15/2010 20 L.littorina 324 Designed for FHL
1564 Cg_MBD2_R ACTGTCGTGCCTCATTCCTC Riviere et al. 2013 3/3/2014 20 C. gigas Methyl-CpG-binding domain CU988032 1565 119537030
1563 Cg_IL17_F ACTGAGGCTCGATGCAAGTG Roberts et al. 2008 3/3/2014 20 C. gigas Interleukin-17 1562 119527242
1563 Ll_Gprot_rec_1129-1110_R ctcctttgaccgccgcagca SJW 7/15/2010 20 L.littorina 1129 Designed for FHL
1562 Cg_IL17_R AGCCTTCTTGCTTCATGTGG Roberts et al. 2008 3/3/2014 20 C. gigas Interleukin-17 1563 119527243
1562 Ll_Gprot_rec_946-965_F ctgtctgcgctatggccggg SJW 7/15/2010 20 L.littorina 946 Designed for FHL
1561 Le_HSP70A_F CTGTCTTGAGCGATGGTGGC Clark et al 2008-- Antarctic molluscs have HSP70 response 3/3/2014 20 Laternula elliptica HSP70 1560 500 119527244
1561 Ll_metallothionein_202-183_R tgtgtccgtgcaacccgctc SJW 7/15/2010 20 L.littorina 202 Designed for FHL
1560 Le_HSP70A_R TTTGTTACGGTCTTTCCTAAGTA Clark et al 2008-- Antarctic molluscs have HSP70 response 3/3/2014 23 Laternula elliptica HSP70 1561 500 119527245
1560 Ll_metallothionein_99-118_F acgtgtgcaagcagacgcca SJW 7/15/2010 20 L.littorina 99 Designed for FHL
1559 Le_HSP70B_F AAGCTTGTCAACCACGGCGG Clark et al 2008-- Antarctic molluscs have HSP70 response 3/3/2014 20 Laternula elliptica HSP70 1558 119527246
1559 Ll_p38MAPK_1003-984_R gaaccatgctggggtcgggc SJW 7/15/2010 20 L.littorina 1003 Designed for FHL
1558 Le_HSP70B_R CCTTGACCCTTTGGCCAAGG Clark et al 2008-- Antarctic molluscs have HSP70 response 3/3/2014 20 Laternula elliptica HSP70 1559 119527247
1558 Ll_p38MAPK_882-901_F gcccaccgctctgccttacg SJW 7/15/2010 20 L.littorina 882 Designed for FHL
1557 Le_HSC70_F CAATGACAACACTCGCCCCA Clark et al 2008-- Antarctic molluscs have HSP70 response 3/3/2014 20 Laternula elliptica HSC70 1556 119527248
1556 Le_HSC70_R TGTTGACAGTCTTTCCGAGGTA Clark et al 2008-- Antarctic molluscs have HSP70 response 3/3/2014 22 Laternula elliptica HSC70 1557 119527249
1555 C1qBS_R_2010 TAAATTTCCCTCTTATTAATTAATA SJW 10/18/2013 25 36 50.7 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 2010-1986 1553 742 Designed using MethPrimer 116084660
1554 C1qBS_R_2132 CTAAAAAACATACAACAAAATCATCC SJW 9/26/2013 26 42 57 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 2132-2107 1553 745 Designed using Geneious on BS converted C1q seq 115561158
1553 C1qBS_F_1388 AAATAATATTTTTTGATATTTAAGAATTTT SJW 9/26/2013 30 30 54 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 1388-1417 1554 745 Designed using Geneious on BS converted C1q seq 115561159
1552 C1q_F_1446 CACACAGATATAGCTCCTAC SJW 9/16/2013 20 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 1446-1465 1551 561 115225145
1551 C1q_R_2005 TTCCCTCTTGTTAGTTAGTAC SJW 9/16/2013 21 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 2005-1985 1552 561 115225146
1550 Meth_F1 TGGTTCGTCAGATGGTTCCC CHE 8/19/2013 20 55 59.7 C. gigas Methylated area of genome 114451854
1549 Meth_F2 TCCCCTCCGCGATTAGATGA CHE 8/19/2013 20 55 60.2 C. gigas Methylated area of genome 114451855
1548 Meth_R TTGGCATAGGCGAGTCTTGG CHE 8/19/2013 20 55 60.1 C. gigas Methylated area of genome 114451856
1547 Unmeth_F3 CCTTCGCCTTTAGGTCGAGG CHE 8/19/2013 20 60 60.2 C. gigas Unmethylated area of genome 114451857
1546 Unmeth_R3 CTTTCGCCTTCGCATCTTCG CHE 8/19/2013 20 55 60 C. gigas Unmethylated area of genome 114451858
1545 Unmeth_F4 TTCGCCTTTAGGTCGAGGTG CHE 8/19/2013 20 55 59.8 C. gigas Unmethylated area of genome 114451859
1544 Unmeth_R4 TCTTCGCACTTTCGCTCCTT CHE 8/19/2013 20 50 60 C. gigas Unmethylated area of genome 114451860
1543 Ba_HSP70_R CTCACCCTCGTAGACCTGGA ETS 7/8/2013 20 60 57.8 Balanus amphitrite heat shock protein 70 AY150182 ATTTGAAGTTTGGCGACTGGTGCGCGAAGTTCACGAAGAGCGTTTGAAGCTGTGGATATCGCATAAGCTAACAGAATGGCGAAAGCTCCAGCGATTGGAATTGATCTCGGGACTACGTACTCCTGTGTAGGAGTATTCCAGCATGGCAAGGTGGAAATCATTGCCAATGACCAGGGCAACCTGACGACGCCCAGCTATGTGACCTTCACCGACACGGAGCGGCTGATCGGAGACGCCGCCAAGAACCAGGTGGCCATGAACCCCAGCAACACGGTGTTCGATGCAAAGCGGTTGATCGGCCGGCGATTCGACGACACTGCCGTGCAGTCCGACATGAAGCACTGGCCTTTCAAGGTCATCAGCGACAGCGGCAAGCCCAAGATCCGCGTCGAGTACAAGAACGAGGACAAGACGTTCGCGCCGGAGGAGATCAGCTCGATGGTGCTGACCAAGATGAAGGAGACGGCCGAGGCGTACCTGGGCAAGACCGTCACCGATGCCGTCATCACCGTGCCGGCCTACTTCAACGACTCTCAGCGTCGGGCGACCAAGGACGCCGGCGCGATCGCCGGTCTGAACGTACTGCGCATCATCAACGAGCCCACCGCGGCGGCCATCGCCTACGGCCTCGACAAGAAGGTCGGCGGCGAGCGCAACGTGCTCATCTTCGACCTGGGCGGCGGCACCTTCGATGTGTCGATCCTTACCATCGAGGACGGCATCTTCGAGGTGAAGTCGACCGCCGGAGACACCCATCTCGGCGGAGAGGACTTCGACAACCGCATGGTCAACTTCTTCGTCCAAGAGTTCAAGCGCAAGCACAAGAAGGATCTCTCAACCAACAAGCGCGCGCTGCGTCGTCTTCGGACGGCCTGCGAACGGGCGAAGCGGACTCTGTCGTCGTCATCCCAAGCTTCGATCGAGATCGACTCGCTGATGGAAGGCATCGACTTCTACACGTCCATCACCCGCGCCCGGTTCGAGGAGATGAACGCCGACCTGTTCCGCGGCACCCTCGAGCCCGTCGAGAAGGCGCTGCGTGATGCTAAGATGGACAAGGGCGCCGTCCACGACATCGTCTTGGTCGGCGGCTCAACACGCATTCCTAAGATCCAGAAACTCCTGCAGGACTTCTTCAATGGGAAGGAGCTCAACAAGTCCATCAACCCCGACGAGGCCGTGGCGTACGGCGCTGCCGTTCAGGCTGCCATCCTGCACGGCGACAAGTCTGAGGCGGTGCAGGACCTGCTGCTCCTGGACGTGACGCCCCTCTCGCTCGGTATCGAGACGGCCGGAGGCGTGATGACCGCCCCCATCAAGCGGAACACCACGATCCCGACCAAGCAGACGCAGACCTTCACGACGTACTCCGACAACCAGCCGGGTGTGCTCATCCAGGTCTACGAGGGTGAGCGAGCCATGACCAAGGATAACAACCTCCTGGGCAAGTTCGAGCTGACCGGCATCCCGCCGGCACCGCGCGGCTTGCCCCAGATCGAGGTCACCTTGGACATTGACGCCAACGGCATCTTGAACGTCAGCGCGGCCGACAAGTCGACCGGCAAGGCCAGCAACATCACCATCACCAACGACAAGGGTCGCCTCACCAAGGAGGAGATCGAGCGGATGGTTAACGAGGCCGAGCAGTTCAATCAGGAGGACGAGGGCCAGCGGGAGAAGATATCCCCCAAGAACGCTCTGGAGTCGTATTGCTTCAACATGAAGTCGACCGTCGAGGATGACAAGGTCAAAGACAAGATCTCCGAGTCCGACAAGACGACCATCATCGATAAGTGCAACGACACCATCAAGTGGTTGGACGGCAACCAGCTGGCGGAGAAGGACGAGTTCGAGCGCAAGCAGAAGGAGTTGGAGCAGATCTGCAACCCCATCATCAGCAAGCTGTACCAGGGCGCGGGTGGCGCCGCTCCCGGTGGTATGCCCGGTGGTATGCCGGGAGGCATGCCCGGCGGTGACGCCCCCAAGGGAGGCGCCGGCGGCCCGACCATCGAGGAGGTCGACTAAACCGACTGATAGCCGATTGATGAGGGCTCTGCTCACTGTCCGTTGCCGTCAATCTGCGGCCTGCGCTTTCCAATTTATCGTTCATTGTGTACATCGTTTGTCATCGCTGGCCAGTGGCCGTATTGTGGTATATGCTTGTCCCAGAAGTGATATATTATTTCGCGTATGTGGAAATCTGAGGTGAAATACAGAGTTGTGAGCTAAAAAAAAAAAAAAAAAAAAAAAAA 1413-1394 1542 99 95439293
1542 Ba_HSP70_F ATCAAGCGGAACACCACGAT ETS 7/8/2013 20 50 57 Balanus amphitrite heat shock protein 70 AY150182 ATTTGAAGTTTGGCGACTGGTGCGCGAAGTTCACGAAGAGCGTTTGAAGCTGTGGATATCGCATAAGCTAACAGAATGGCGAAAGCTCCAGCGATTGGAATTGATCTCGGGACTACGTACTCCTGTGTAGGAGTATTCCAGCATGGCAAGGTGGAAATCATTGCCAATGACCAGGGCAACCTGACGACGCCCAGCTATGTGACCTTCACCGACACGGAGCGGCTGATCGGAGACGCCGCCAAGAACCAGGTGGCCATGAACCCCAGCAACACGGTGTTCGATGCAAAGCGGTTGATCGGCCGGCGATTCGACGACACTGCCGTGCAGTCCGACATGAAGCACTGGCCTTTCAAGGTCATCAGCGACAGCGGCAAGCCCAAGATCCGCGTCGAGTACAAGAACGAGGACAAGACGTTCGCGCCGGAGGAGATCAGCTCGATGGTGCTGACCAAGATGAAGGAGACGGCCGAGGCGTACCTGGGCAAGACCGTCACCGATGCCGTCATCACCGTGCCGGCCTACTTCAACGACTCTCAGCGTCGGGCGACCAAGGACGCCGGCGCGATCGCCGGTCTGAACGTACTGCGCATCATCAACGAGCCCACCGCGGCGGCCATCGCCTACGGCCTCGACAAGAAGGTCGGCGGCGAGCGCAACGTGCTCATCTTCGACCTGGGCGGCGGCACCTTCGATGTGTCGATCCTTACCATCGAGGACGGCATCTTCGAGGTGAAGTCGACCGCCGGAGACACCCATCTCGGCGGAGAGGACTTCGACAACCGCATGGTCAACTTCTTCGTCCAAGAGTTCAAGCGCAAGCACAAGAAGGATCTCTCAACCAACAAGCGCGCGCTGCGTCGTCTTCGGACGGCCTGCGAACGGGCGAAGCGGACTCTGTCGTCGTCATCCCAAGCTTCGATCGAGATCGACTCGCTGATGGAAGGCATCGACTTCTACACGTCCATCACCCGCGCCCGGTTCGAGGAGATGAACGCCGACCTGTTCCGCGGCACCCTCGAGCCCGTCGAGAAGGCGCTGCGTGATGCTAAGATGGACAAGGGCGCCGTCCACGACATCGTCTTGGTCGGCGGCTCAACACGCATTCCTAAGATCCAGAAACTCCTGCAGGACTTCTTCAATGGGAAGGAGCTCAACAAGTCCATCAACCCCGACGAGGCCGTGGCGTACGGCGCTGCCGTTCAGGCTGCCATCCTGCACGGCGACAAGTCTGAGGCGGTGCAGGACCTGCTGCTCCTGGACGTGACGCCCCTCTCGCTCGGTATCGAGACGGCCGGAGGCGTGATGACCGCCCCCATCAAGCGGAACACCACGATCCCGACCAAGCAGACGCAGACCTTCACGACGTACTCCGACAACCAGCCGGGTGTGCTCATCCAGGTCTACGAGGGTGAGCGAGCCATGACCAAGGATAACAACCTCCTGGGCAAGTTCGAGCTGACCGGCATCCCGCCGGCACCGCGCGGCTTGCCCCAGATCGAGGTCACCTTGGACATTGACGCCAACGGCATCTTGAACGTCAGCGCGGCCGACAAGTCGACCGGCAAGGCCAGCAACATCACCATCACCAACGACAAGGGTCGCCTCACCAAGGAGGAGATCGAGCGGATGGTTAACGAGGCCGAGCAGTTCAATCAGGAGGACGAGGGCCAGCGGGAGAAGATATCCCCCAAGAACGCTCTGGAGTCGTATTGCTTCAACATGAAGTCGACCGTCGAGGATGACAAGGTCAAAGACAAGATCTCCGAGTCCGACAAGACGACCATCATCGATAAGTGCAACGACACCATCAAGTGGTTGGACGGCAACCAGCTGGCGGAGAAGGACGAGTTCGAGCGCAAGCAGAAGGAGTTGGAGCAGATCTGCAACCCCATCATCAGCAAGCTGTACCAGGGCGCGGGTGGCGCCGCTCCCGGTGGTATGCCCGGTGGTATGCCGGGAGGCATGCCCGGCGGTGACGCCCCCAAGGGAGGCGCCGGCGGCCCGACCATCGAGGAGGTCGACTAAACCGACTGATAGCCGATTGATGAGGGCTCTGCTCACTGTCCGTTGCCGTCAATCTGCGGCCTGCGCTTTCCAATTTATCGTTCATTGTGTACATCGTTTGTCATCGCTGGCCAGTGGCCGTATTGTGGTATATGCTTGTCCCAGAAGTGATATATTATTTCGCGTATGTGGAAATCTGAGGTGAAATACAGAGTTGTGAGCTAAAAAAAAAAAAAAAAAAAAAAAAA 1315-1334 1543 99 95439292
1541 Bg_EF_R TGTCAACCGACTGGACGAAG ETS 7/8/2013 20 55 57.1 Balanus glandula elongation factor AY543685 CGCGTGGCCGCCTACACCGCCAAGAAGTCCAAAAAGCCCACCATCATCGCCAAGTCCTCGGTCCTGCTGGACNTGAAGCCCTGGGACGACGAGACCGACATGAAGGCCCTCGAGGTGGAAGTCCGCAAGATCCAGATGGACGGTCTCACCTGGGGAGCCGGCAAACTGGTGCCGCTGGCGTTCGGTATCAAGAAGCTGACCATCATGTGCACCGTTGAGGACGACAAGGTCTCCATCGAGGAGTTGACCGAGAAGATCGAGGCGTACGAGGACTTCGTCCAGTCGGTTGACATTGCCGCCTTCAACAAGATCTAA 292-273 1540 178 95439291
1540 Bg_EF_F GTGGAAGTCCGCAAGATCCA ETS 7/8/2013 20 55 57.3 Balanus glandula elongation factor AY543685 CGCGTGGCCGCCTACACCGCCAAGAAGTCCAAAAAGCCCACCATCATCGCCAAGTCCTCGGTCCTGCTGGACNTGAAGCCCTGGGACGACGAGACCGACATGAAGGCCCTCGAGGTGGAAGTCCGCAAGATCCAGATGGACGGTCTCACCTGGGGAGCCGGCAAACTGGTGCCGCTGGCGTTCGGTATCAAGAAGCTGACCATCATGTGCACCGTTGAGGACGACAAGGTCTCCATCGAGGAGTTGACCGAGAAGATCGAGGCGTACGAGGACTTCGTCCAGTCGGTTGACATTGCCGCCTTCAACAAGATCTAA 115-134 1541 178 95439290
1539 Bg_argkinase_R CGATGATGGGGTCGAAGAGG ETS 7/8/2013 20 60 57.4 Balanus glandula arginine kinase AY543686 ACCATGGTTGACGCCGCCACCATGCAGAAGCTGGACGCCGGCTTCAAGAAGTTGCAGGCCGCCACCGACNGCAAGTCGCTGCTGAGGAAGTACCTCACCAAGGAGGTGTACGACAAACTNAAGGATAAGAAGACCTCCTTCGGCTCCACCCTGCTCGACGTCATCCAGTCGGGTGTGGAGAACCTGGACTCTGGCGTGGGCGTGTACGCTCCCGATGACGAGGCCTACCGCGTGTTCTCCGGCCTCTTCGACCCCATCATCGAGGACTACCACGGCGGCTTCAAGAAGACCGACAAGC 262-243 1538 221 95439289
1538 Bg_argkinase_F CTTCAAGAAGTTGCGGCCG ETS 7/8/2013 20 55 56.8 Balanus glandula arginine kinase AY543686 ACCATGGTTGACGCCGCCACCATGCAGAAGCTGGACGCCGGCTTCAAGAAGTTGCAGGCCGCCACCGACNGCAAGTCGCTGCTGAGGAAGTACCTCACCAAGGAGGTGTACGACAAACTNAAGGATAAGAAGACCTCCTTCGGCTCCACCCTGCTCGACGTCATCCAGTCGGGTGTGGAGAACCTGGACTCTGGCGTGGGCGTGTACGCTCCCGATGACGAGGCCTACCGCGTGTTCTCCGGCCTCTTCGACCCCATCATCGAGGACTACCACGGCGGCTTCAAGAAGACCGACAAGC 42-61 1539 221 95439288
1537 Cg_myc_R CAACATTTACCTGGGGCAGGTGGGTTCAG ETS 7/8/2013 29 55.1 64.4 C. gigas myc homolog CX069136 CX069141 ACAAAAATTGAGGATAAGAGTTATGTTTATCCCAGCCACACGCCCCCCTGAAATTAGCAGAATCCTTTACAGCTAACCATCCAAGATCCCTATGGCATCCTCCGTAGTTTTTGTTGATGAAAAAGTGTCTGTAATACCTTGATTCTTTGTCGATTGAGAAAAAATTGTAAGTTTGACTTTTATGCATATCATTCCAACTTGACTTCAAAATCCTGCTGTTGTGAAACCAGTTTAGATAGTTCGAATTTCTTCCATCAAATTCAATAAAAGCCACTGTTTTCCCCCGAACTTTCAACTCAAATTTGACCTTCTTGATTTTTAGGCAATCCCAGTAATCTATAAAGGGACTTCTTAAAGTTTCTGTAGCTGATTTGAGGCATTCAATTCTGGCATTAGGCGGCAGACAGCCATCACTGATCGAACATGGACAGATTTGAGATACGATATCACAGTTGTTGTGTCTGGTTTTCCATGCTTGTAAGACATTTTTGCCATTTCCGCTTCGTGCATGGAAAATCAACACCCAATTATCTTTGCAATAATTGGATCCAGCAGAAAAACCAATACCAAACATCACTATCAAACTAACAGTCACATGAAAAACAAAATTCATTTTCTCTGCTTC From David et al. 2005 1536 http://onlinelibrary.wiley.com/store/10.1111/j.1742-4658.2005.04960.x/asset/j.1742-4658.2005.04960.x.pdf?v=1&t=hjgagr7r&s=737c28f620721908d4c08931038178a2e830b6b7 95439287
1536 Cg_myc_F TTCTATAACGGAACATTATACCAACAAGG ETS 7/8/2013 29 34.4 55 C. gigas myc homolog CX069136 CX069141 ACAAAAATTGAGGATAAGAGTTATGTTTATCCCAGCCACACGCCCCCCTGAAATTAGCAGAATCCTTTACAGCTAACCATCCAAGATCCCTATGGCATCCTCCGTAGTTTTTGTTGATGAAAAAGTGTCTGTAATACCTTGATTCTTTGTCGATTGAGAAAAAATTGTAAGTTTGACTTTTATGCATATCATTCCAACTTGACTTCAAAATCCTGCTGTTGTGAAACCAGTTTAGATAGTTCGAATTTCTTCCATCAAATTCAATAAAAGCCACTGTTTTCCCCCGAACTTTCAACTCAAATTTGACCTTCTTGATTTTTAGGCAATCCCAGTAATCTATAAAGGGACTTCTTAAAGTTTCTGTAGCTGATTTGAGGCATTCAATTCTGGCATTAGGCGGCAGACAGCCATCACTGATCGAACATGGACAGATTTGAGATACGATATCACAGTTGTTGTGTCTGGTTTTCCATGCTTGTAAGACATTTTTGCCATTTCCGCTTCGTGCATGGAAAATCAACACCCAATTATCTTTGCAATAATTGGATCCAGCAGAAAAACCAATACCAAACATCACTATCAAACTAACAGTCACATGAAAAACAAAATTCATTTTCTCTGCTTC From David et al. 2005 1537 http://onlinelibrary.wiley.com/store/10.1111/j.1742-4658.2005.04960.x/asset/j.1742-4658.2005.04960.x.pdf?v=1&t=hjgagr7r&s=737c28f620721908d4c08931038178a2e830b6b7 95439286
1535 Cg_CYP1A1_R TGCAATAATTTTTGAAGCCCCGG ETS 7/8/2013 23 43.4 56.7 C. gigas Cytochrome P4501A1-like protein CB617404 ACAGTGCTGCCCCATTCCTCCGGTTTCTCCCGCTACCAATKTCATTGATTTTTCATKAAGTCAAAAGCGTGCATCAAAGAATTTTGGATACTCTGGAAACATTATCGAAAGAGGATTGCGAAGAAAAAGGAATCTATCATACGCTTAAAGAAGCGACGGAGGAAAAAGACGAAAATGGGGAACCGTGTATAAATGAGGATAACATATATGGAATACTTTTTAATCTTGCTGGAGCTGGATATTTAACAACACGGGGAACTCTATTATCCGTAATTCAGATCCTTGCAAAAAGACCGGGGCTTCAAAAATTATTGCAAAAAGAAGTAGACGAATCATTGGACGGGACCGGAATCCAAGACTCTCAGACCGGAGTAAGTGTCCACTGTTGGAAGCCGTCGTCATGGAAACACTGCGTTATATCTCCCATGTTCCTGTATTTGT From Boutet et al. 2004 1534 http://www.sciencedirect.com/science/article/pii/S037811190400006X 95439285
1534 Cg_CYP1A1_F GTGCATCAAAGAATTTTGGATAC ETS 7/8/2013 23 34.7 50.8 C. gigas Cytochrome P4501A1-like protein CB617404 ACAGTGCTGCCCCATTCCTCCGGTTTCTCCCGCTACCAATKTCATTGATTTTTCATKAAGTCAAAAGCGTGCATCAAAGAATTTTGGATACTCTGGAAACATTATCGAAAGAGGATTGCGAAGAAAAAGGAATCTATCATACGCTTAAAGAAGCGACGGAGGAAAAAGACGAAAATGGGGAACCGTGTATAAATGAGGATAACATATATGGAATACTTTTTAATCTTGCTGGAGCTGGATATTTAACAACACGGGGAACTCTATTATCCGTAATTCAGATCCTTGCAAAAAGACCGGGGCTTCAAAAATTATTGCAAAAAGAAGTAGACGAATCATTGGACGGGACCGGAATCCAAGACTCTCAGACCGGAGTAAGTGTCCACTGTTGGAAGCCGTCGTCATGGAAACACTGCGTTATATCTCCCATGTTCCTGTATTTGT From Boutet et al. 2004 1535 http://www.sciencedirect.com/science/article/pii/S037811190400006X 95439284
1533 Cg_Hsp90_R GTT ACG ATA CAG CAA GGA GAT G ETS 7/8/2013 22 45.4 53.1 C. gigas heat shock protein 90 CB617443 TGCCGATGCAGACGCTTGTGTCTTGTCTTGCAAGTTTCCTCATAAGCACATAATCTAAAGATGCCTGAACCCGAACACATGGAGGAAGGTGAAGTTGAAACCTTTGCCTTTCAGGCTGAGATTGCTCAGTTGATGAGCTTGATCATCAACACATTTTATTCAAACAAAGAAATCTTCTTGAGAGAATTGATTTCCAATGCCTCTGATGCTCTTGACAAAATCCGTTATGAAAGTCTCACAGATCCTTCAAAGTTGGACTCTGGGAAAGATCTTGAAATCCGCATCGTCCCAGACAAGGAGAGCAAAACCCTCACCATCATGGACACGGGCATTGGAATGACAAAGGCTGATCTTGTTAACAACCTTGGAACCATTGCCAAATCTGGAACCAAAGCTTTTATGGAAGCTCTGCAGGCTGGAGCTGACATTTCCATGATTGGACAGTTTGGTGTGGGTTTCTACTCCGCCTACTTGGTTGCAGACAGAGTTGTTGTGGAGACAAAACACAATGATGATGAGCAGT From Choi et al. 2008 1532 http://www.sciencedirect.com/science/article/pii/S1532045607002323 95439283
1532 Cg_Hsp90_F GGTGAATGTTACCAAGGAAGG ETS 7/8/2013 21 47.6 53.4 C. gigas heat shock protein 90 CB617443 TGCCGATGCAGACGCTTGTGTCTTGTCTTGCAAGTTTCCTCATAAGCACATAATCTAAAGATGCCTGAACCCGAACACATGGAGGAAGGTGAAGTTGAAACCTTTGCCTTTCAGGCTGAGATTGCTCAGTTGATGAGCTTGATCATCAACACATTTTATTCAAACAAAGAAATCTTCTTGAGAGAATTGATTTCCAATGCCTCTGATGCTCTTGACAAAATCCGTTATGAAAGTCTCACAGATCCTTCAAAGTTGGACTCTGGGAAAGATCTTGAAATCCGCATCGTCCCAGACAAGGAGAGCAAAACCCTCACCATCATGGACACGGGCATTGGAATGACAAAGGCTGATCTTGTTAACAACCTTGGAACCATTGCCAAATCTGGAACCAAAGCTTTTATGGAAGCTCTGCAGGCTGGAGCTGACATTTCCATGATTGGACAGTTTGGTGTGGGTTTCTACTCCGCCTACTTGGTTGCAGACAGAGTTGTTGTGGAGACAAAACACAATGATGATGAGCAGT From Choi et al. 2008 1533 http://www.sciencedirect.com/science/article/pii/S1532045607002323 95439282
1531 Cg_MAPK_MeDIP_F GAAAAGCAAAGATCGAGTGG JLR 5/10/2013 20 45 55 C.gigas Mitogen-activated protein kinase 7 CGI_10020574 CCATTAAAAAGATTCCCTATATCTTTGATGATAAAAGAATAGCTACCAGAACATACAGAGAAATAAAAATTTTAAAACATTTCAAACATGATAACATTATTTCCATTAGAGACATTTTAAAACCTAAAGAAACCATTGACAAATTCAGAGATGTGTATGTTGTGTTTGATTTAATGGAAAGTGATCTTCATAAGATTATATACTCCAAACAAGAGCTGACTGAGGAACATGTCCGATACTTCTTATACCAGTTGCTGAGGGGACTAAAATAC 123-142 1530 272 Designed for MeDIP to amplify at least 1 CG dinucleotide 94026990
1530 Cg_MAPK_MeDIP_R ATGACATTGGCTGAGTGAAT JLR 5/10/2013 20 40 55 C.gigas Mitogen-activated protein kinase 7 CGI_10020574 CCATTAAAAAGATTCCCTATATCTTTGATGATAAAAGAATAGCTACCAGAACATACAGAGAAATAAAAATTTTAAAACATTTCAAACATGATAACATTATTTCCATTAGAGACATTTTAAAACCTAAAGAAACCATTGACAAATTCAGAGATGTGTATGTTGTGTTTGATTTAATGGAAAGTGATCTTCATAAGATTATATACTCCAAACAAGAGCTGACTGAGGAACATGTCCGATACTTCTTATACCAGTTGCTGAGGGGACTAAAATAC 434-415 1531 272 Designed for MeDIP to amplify at least 1 CG dinucleotide 94026991
1529 Cg_CATHB_MeDIP_F GAAGGTGCTTTCACAGTCTA JLR 5/10/2013 20 45 55 C.gigas Cathepsin B CGI_10027022 CGCTGACTTCCCACAATACAAATCTGGTGTATACAAGCATACTACTGGACAGCCCTTAGGAGGTCATGCTATCAAGATCCTCGGGTGGGGAACTGAGAACGGAGATGATTACTGGCTGGTGGCCAACTCCTGGAACCCCGACTGGGGAGATCAAGGTTTCTTCAAGATCTTAAGAGGACAAGATGAATGTGGAATCGAGTCCCAGATCAGTGCTG 772-791 1528 215 Designed for MeDIP to amplify at least 1 CG dinucleotide 94026992
1528 Cg_CATHB_MeDIP_R TTAACTGAGTTTGGGCTCTC JLR 5/10/2013 20 45 55 C.gigas Cathepsin B CGI_10027022 CGCTGACTTCCCACAATACAAATCTGGTGTATACAAGCATACTACTGGACAGCCCTTAGGAGGTCATGCTATCAAGATCCTCGGGTGGGGAACTGAGAACGGAGATGATTACTGGCTGGTGGCCAACTCCTGGAACCCCGACTGGGGAGATCAAGGTTTCTTCAAGATCTTAAGAGGACAAGATGAATGTGGAATCGAGTCCCAGATCAGTGCTG 1026-1007 1529 215 Designed for MeDIP to amplify at least 1 CG dinucleotide 94026993
1527 Cg_CATA_MeDIP_F TGAATGCACCCATGACATTA JLR 5/10/2013 20 40 55 C.gigas Catalase CGI_10003355 CTAAATACACAAAAGCGAAGCCCTTTGAATTTGTTGGCAAGAAAACACCCCTGGCTGTTAGATTCTCCACTGTTGGTGGAGAGAGCGGATCTGCTGACACAGCCCGTGACCCCCGGGGCTTCGCTGTAAAAATGTACACAGAAGAAGGAAACTGGGACATAGTGGGCAACAACACCCCTATCTTTTTTATCAGAGACCCCATGTTGTTTCCCAGCTTTATT 246-265 1526 221 Designed for MeDIP to amplify at least 1 CG dinucleotide 94026994
1526 Cg_CATA_MeDIP_R GGGTTTCTCTTTTGTGTGTG JLR 5/10/2013 20 45 55 C.gigas Catalase CGI_10003355 CTAAATACACAAAAGCGAAGCCCTTTGAATTTGTTGGCAAGAAAACACCCCTGGCTGTTAGATTCTCCACTGTTGGTGGAGAGAGCGGATCTGCTGACACAGCCCGTGACCCCCGGGGCTTCGCTGTAAAAATGTACACAGAAGAAGGAAACTGGGACATAGTGGGCAACAACACCCCTATCTTTTTTATCAGAGACCCCATGTTGTTTCCCAGCTTTATT 506-487 1527 221 Designed for MeDIP to amplify at least 1 CG dinucleotide 94026995
1525 Cg_CAP_MeDIP_F GAACACACCTTCTCCTTGAT JLR 5/10/2013 20 45 55 C.gigas Caspase - 3 CGI_10015439 TTACTAGACGAAAACCGATGTAAAGCGCTACAAGGCAAACCCAAACTATTCTTTGTGCAGGCCTGCAGAAGCCGATTTGATCCAGGAGCAGAGCGATTTGATAGAGGTGCTGACATACCTACCGACCATAGTTTGAAAGAGCATTCAAAACCTAAACGAGGTCGTGACAAAACCGAGAGCATGTCAGATGATTCAGCATCACAACCCACAGAAGTGGCTGATGGCAGTGTGGACCAAGTTGTCGAGAGATGCAGATACTCTCTGGATCAATCCGACAATGCACACGATTCAAATCCAATGTCAGCCGGTGACACGGCCACCAATGATGAAAGTGAACACAACTTTGAAGAAGGCGTGTACATGGAAA 167-186 1524 367 Designed for MeDIP to amplify at least 1 CG dinucleotide 94026996
1524 Cg_CAP_MeDIP_R TGTATGCTGACTTGCTTCAT JLR 5/10/2013 20 45 55.1 C.gigas Caspase - 3 CGI_10015439 TTACTAGACGAAAACCGATGTAAAGCGCTACAAGGCAAACCCAAACTATTCTTTGTGCAGGCCTGCAGAAGCCGATTTGATCCAGGAGCAGAGCGATTTGATAGAGGTGCTGACATACCTACCGACCATAGTTTGAAAGAGCATTCAAAACCTAAACGAGGTCGTGACAAAACCGAGAGCATGTCAGATGATTCAGCATCACAACCCACAGAAGTGGCTGATGGCAGTGTGGACCAAGTTGTCGAGAGATGCAGATACTCTCTGGATCAATCCGACAATGCACACGATTCAAATCCAATGTCAGCCGGTGACACGGCCACCAATGATGAAAGTGAACACAACTTTGAAGAAGGCGTGTACATGGAAA 573-554 1525 367 Designed for MeDIP to amplify at least 1 CG dinucleotide 94026997
1523 Cg_SOD_MeDIP_F ACAGAACCAAAGTCAAACCT JLR 5/10/2013 20 40 55 C.gigas Superoxide dismutase [Cu-Zn], chloroplastic CGI_10025077 CTAACGATCACAACTGGCATGTTCACGAAAACCAGGTCACATCTGACTGCATGTCCACAGGGGGTCACTACAATCCATTCCAAGTCAATGTCGCGCAAAATTACGATGAATGTGGTTTTGCGAACCCCCTCCGCTGCGAATTAGGAGACCAGGCGAAGAAATTGGGCAAATATGACGTAGGGAAGGGGAGGCGATTTTATACCGATGTTTATCTCCCTCTCATGGGCCAGTTCGGAGTAATTGGCCGGTCATTTGTCCTTCACGCTGAAAACGCGGGCGGCGCTCGTATTGCGTGCGCAGACATAATGCCGATGGATGGAATGACGATGCAGATGAATTTTCCAGTTATGTCTAATTTCAATAAAGAAACAATGAGAACCCAGATCGCCAGTGCTTTGGGGACTCAGCCATACAACCTAATGGTGGAACAAGTGTCGTCTGGTACCGCAGCCAGCGAAGGCTGTATGCAAGCC 2295-2314 1522 473 Designed for MeDIP to amplify at least 1 CG dinucleotide 94026998
1522 Cg_SOD_MeDIP_R GAACCAATGAAAAACACCGT JLR 5/10/2013 20 40 55 C.gigas Superoxide dismutase [Cu-Zn], chloroplastic CGI_10025077 CTAACGATCACAACTGGCATGTTCACGAAAACCAGGTCACATCTGACTGCATGTCCACAGGGGGTCACTACAATCCATTCCAAGTCAATGTCGCGCAAAATTACGATGAATGTGGTTTTGCGAACCCCCTCCGCTGCGAATTAGGAGACCAGGCGAAGAAATTGGGCAAATATGACGTAGGGAAGGGGAGGCGATTTTATACCGATGTTTATCTCCCTCTCATGGGCCAGTTCGGAGTAATTGGCCGGTCATTTGTCCTTCACGCTGAAAACGCGGGCGGCGCTCGTATTGCGTGCGCAGACATAATGCCGATGGATGGAATGACGATGCAGATGAATTTTCCAGTTATGTCTAATTTCAATAAAGAAACAATGAGAACCCAGATCGCCAGTGCTTTGGGGACTCAGCCATACAACCTAATGGTGGAACAAGTGTCGTCTGGTACCGCAGCCAGCGAAGGCTGTATGCAAGCC 2807-2788 1523 473 Designed for MeDIP to amplify at least 1 CG dinucleotide 94026999
1521 CG_HK_CDS_2132-2158 GAAAACCTAGTTCGTCCATTCATTCTG SJW 3/18/2013 27 40 56 C.gigas hexokinase AM076954 TACAGTGTACTAGCAATCTGACAAAACTTTCTGAACACTAGCTTGATTTGAACCTAGAAATCTTTATTAAAAAATCATGTTTCTATAAATAAGCCTGCATGGTTATTTTTAAATTATTATTTTTATTTTATCACTTTGTCAAATTTAATTAAAACTGCAAAAATGAGACTTTGTAAGAAATAAAAAATTAAAGTGAAATACATGCATCCCTCTTTCTGTAAATGAAAGTACATGTACCAGATTTCAAATAATATTTCATCATACTCTTTAACAGAAAAAAATGAATTACAAAAAAAATACAACGTGGATGTGCAATGAAAATATAAACAGAGAGAATCTCTATAGCTTTTGTTACACAATTGTTTCGGTGCATACACACTGAATTCTTAATTTCAGTGTGTATGTCTTTTAATTACTAAACAAACTTCTGCAGGATGAATACATTGTACGGTATCTACTAGGTAGAAAACATTGGTTTATTTTTTAATAGTCAAAACCTTTTTTGCAAGTATTTTTAAAACATATTATTTTGAGGAATATCAGAAGATATACCCATGACAAAATCAGATCATTATCTTCGAACTTCTCAGATATTTATAAAAACTTTAGGTGTTCTTTTGTTTTATTCAAACTATTTATAGGTACATGTACTATGGGTATGTTTTTTTTTATGGCAAGATATTTTTATTGGTATAAGAAATATTTACAATTTGTAAGAACTTGTTTATGATCTTCCTCAATACATGAGCTGATGAACAAATATGTTAAAAAAGGGGCCTCAAAAAGAAAAACCCAAGACCCTTAGATTTTATTTTTTCTTTTCCTTATTGTGTTATGACAAAAGTAACGGTACACATATATATATATGATACATCTCAAGTGATACATTATTCCACAAGATATATAGCCAATAATTATAGGAATCCCCATCCTCTAACCTAATTCTTCTTGTATCCTATGTTAAGATGAGTTCAGTTGTACTATCTGCCTGGAAAGAATTTCATTTTATGATCACCATAGAAACAAAAGCCTTTGGTGAGCAATGTGGCTCATGGGCCTCTTTTTCTCCCAACCCTCACTGCTCAAAAAACTCCTGACAAAACTATTACTTTTCTCTTTAAAATAGTATGAAATTATCACAAGGATTGTCTATTTAGTGTAATTAATAACAGTGAGGTTGTTGCGTAGTTTTTCATGTAAATACATGTAACTCAGGTCAGCACGTTTTTGAATGCCAAGGCTTTAGAAAAAACTCAGATTAAGAAAAACAATTTCATTTGTTCTCTCTCCTCCCCATCTATTTTGCTGTTTGTCAATTTATTTCATTCATGTACAAATACCGATATCGCAGTACTTCTCCCATGGGCAATATCATTGTCTACACACAAGATAAATTTTTTGTTAAAAGTGTTTTTCAGTAATGAAAAAAAAAAAAAAATGGAACAATATTATGTTTTCAGAGAAAAAAAAATGTTATCTATATGTAATAAAGTCCATGAATTATCATTTATGTGACAGCTTTTAAGTTTCTAAAAATTACTTATATACATCCAAATACTGCTTTCTCAATCTTCTCCACATGGCCTCTGAGCAGAACAGATTCTAGCTGCTCTGTATAGTTTCAGTTGAGTGGATTTATCGACCTGCAAGCCTTCAAATGATAATTGTCATACATAAATTGATTTTCTTTCATGTTTTAGCTCTGTATAGAGAAACAGCTAGCTAGCCTTCATTGAATTCAGGATTTGTTTTGTGTTGGTCCACCAAGCTAGTCATGTGACTATGAGTGACGTTTTTCAGTTGTATACGGTACATATATAGGATTGTTAAGAACAGTAATCCTTCCTTTAAATACAAGCTGAGCTTGGCCGTGGTGTGTGTGTGAAGTGTTACAAGACTCTTTAACTCCCGTCTAAAGAAGAATTTAACCCACAAGGACTTTTTGTGTAACAAACACATATACACACAAAATTCAAAAATGTCTGCTGGTGTCAAAGTGAGTGAGCCGGGAATGGAGGGAAGCGTGAAGAACGAGGAGGTCTTTGAGGCGGCAAAGAAGATGGGCCGGGAATTCCAGACCGTACTGGCTGCCCTCCTCAAAATCCTCCCTGACTATGAGGATATGCTGGTAGAAAACCTAGTTCGTCCATTCATTCTGAAAGATGAGGACTACAAACTGCTCATGGACATCATGCTGGGGGAGTTCAACAAAGGGCTCGGGAAGGAGACCAACCCCACCGCCAAGGTCAAGATGTACCCCACCTACGTCAGGGACGTCCCCGACGGATCAGAAAATGGGAATTTCTTAGCATTGGATTTGGGTGGGACAAACTTCCGGGTTTTACTCATAAACCTGAATGGTCAGGAAGTGACCATGGAGAGCAAGATCTACCTGATCCCCCAGCACATCATGACCGGCACCGGTGAACAATTGTTTGACCACATCGCAAAATGCATCCACAAATTCATGAGCAACCACGATCTACTGAAGGAGAAAATTCCCCTGGGATTCACCTTCTCCTTCCCCTGTAAACAGATAGGTTTGAACCACGCCATCCTGACACAGTGGACAAAAGGCTTCAAATGTGAGGGGGTGGAGGGGGAGGATGTGGTCAGACTCCTCCACGAAGCAATCAAAAGGAGGGGGGATATAGATGTGGAATGCTTAGCTGTGATAAACGATACAGTTGGTGCACTGATGTCATGTGCACACAGTGACCGAGATTGTGCAATAGGTCTAATTCTAGGCACAGGAACTAATGCTTGCTACATTGAAAAACTAGAAAATGTGGGATTATGGGATGGGGACTACAATGAACCAAACCAGGTCATGATCAACACAGAGTGGGGGGCGCTGGGAGACGACGGGTGTCTGGACTTTGTCAAGACCGAGTATGACCGACAGGTGGACAAACACTCCATCAACCCAGGCAGACAAATATATGAAAAAATGATCTCTGGTATGTACATGGGAGAAATCGTCAGACTGGCCCTGGAAAAGCTACGGAAGCATGGACTTCTGTTCGGCGGGAAAGGATCAGAAGAATTATCCACCAGGGGGCGCTTCTACACAAAATATGTTTCAGAAATTGAAAGTGATGTAGATGATCACTTCAAAAACACCAAACAGGTGTTTGAGGAATTGGCTCTAGAGAAATATTCTGATGAGGACTGTCGGATCGCTCAGTACGTCTGTTCCTTGGTGTCCACGCGGGCAGCTTTCCTAGCCTCCGTTGGCGTGGCCGCTCTTCTGAATAAGATGGACCGACAGGATGTGACGGTGGCAGTTGATGGGTCCCTGTACAGATTCCACCCCCACTTTCATGATCTCATGGAGGAAAAAATTCAGCAACTTGTAAAACCAGGAATTAAGTTTAAACTAATGTTGTCACATGACGGCAGTGGAAAGGGGGCAGCCATTGTAACAGCTGTAGCTAATCGACTACGAGATTCGGGGAAAGAGAGTATAGGAGAAAATGGACTAGAAAACTAA 249-275 1519 1349
1520 Cg_HK_Exon1_R TACCAGCATATCCTCATAGTCAGGG SJW 3/18/2013 25 48 58 C.gigas hexokinase AM076954 TACAGTGTACTAGCAATCTGACAAAACTTTCTGAACACTAGCTTGATTTGAACCTAGAAATCTTTATTAAAAAATCATGTTTCTATAAATAAGCCTGCATGGTTATTTTTAAATTATTATTTTTATTTTATCACTTTGTCAAATTTAATTAAAACTGCAAAAATGAGACTTTGTAAGAAATAAAAAATTAAAGTGAAATACATGCATCCCTCTTTCTGTAAATGAAAGTACATGTACCAGATTTCAAATAATATTTCATCATACTCTTTAACAGAAAAAAATGAATTACAAAAAAAATACAACGTGGATGTGCAATGAAAATATAAACAGAGAGAATCTCTATAGCTTTTGTTACACAATTGTTTCGGTGCATACACACTGAATTCTTAATTTCAGTGTGTATGTCTTTTAATTACTAAACAAACTTCTGCAGGATGAATACATTGTACGGTATCTACTAGGTAGAAAACATTGGTTTATTTTTTAATAGTCAAAACCTTTTTTGCAAGTATTTTTAAAACATATTATTTTGAGGAATATCAGAAGATATACCCATGACAAAATCAGATCATTATCTTCGAACTTCTCAGATATTTATAAAAACTTTAGGTGTTCTTTTGTTTTATTCAAACTATTTATAGGTACATGTACTATGGGTATGTTTTTTTTTATGGCAAGATATTTTTATTGGTATAAGAAATATTTACAATTTGTAAGAACTTGTTTATGATCTTCCTCAATACATGAGCTGATGAACAAATATGTTAAAAAAGGGGCCTCAAAAAGAAAAACCCAAGACCCTTAGATTTTATTTTTTCTTTTCCTTATTGTGTTATGACAAAAGTAACGGTACACATATATATATATGATACATCTCAAGTGATACATTATTCCACAAGATATATAGCCAATAATTATAGGAATCCCCATCCTCTAACCTAATTCTTCTTGTATCCTATGTTAAGATGAGTTCAGTTGTACTATCTGCCTGGAAAGAATTTCATTTTATGATCACCATAGAAACAAAAGCCTTTGGTGAGCAATGTGGCTCATGGGCCTCTTTTTCTCCCAACCCTCACTGCTCAAAAAACTCCTGACAAAACTATTACTTTTCTCTTTAAAATAGTATGAAATTATCACAAGGATTGTCTATTTAGTGTAATTAATAACAGTGAGGTTGTTGCGTAGTTTTTCATGTAAATACATGTAACTCAGGTCAGCACGTTTTTGAATGCCAAGGCTTTAGAAAAAACTCAGATTAAGAAAAACAATTTCATTTGTTCTCTCTCCTCCCCATCTATTTTGCTGTTTGTCAATTTATTTCATTCATGTACAAATACCGATATCGCAGTACTTCTCCCATGGGCAATATCATTGTCTACACACAAGATAAATTTTTTGTTAAAAGTGTTTTTCAGTAATGAAAAAAAAAAAAAAATGGAACAATATTATGTTTTCAGAGAAAAAAAAATGTTATCTATATGTAATAAAGTCCATGAATTATCATTTATGTGACAGCTTTTAAGTTTCTAAAAATTACTTATATACATCCAAATACTGCTTTCTCAATCTTCTCCACATGGCCTCTGAGCAGAACAGATTCTAGCTGCTCTGTATAGTTTCAGTTGAGTGGATTTATCGACCTGCAAGCCTTCAAATGATAATTGTCATACATAAATTGATTTTCTTTCATGTTTTAGCTCTGTATAGAGAAACAGCTAGCTAGCCTTCATTGAATTCAGGATTTGTTTTGTGTTGGTCCACCAAGCTAGTCATGTGACTATGAGTGACGTTTTTCAGTTGTATACGGTACATATATAGGATTGTTAAGAACAGTAATCCTTCCTTTAAATACAAGCTGAGCTTGGCCGTGGTGTGTGTGTGAAGTGTTACAAGACTCTTTAACTCCCGTCTAAAGAAGAATTTAACCCACAAGGACTTTTTGTGTAACAAACACATATACACACAAAATTCAAAAATGTCTGCTGGTGTCAAAGTGAGTGAGCCGGGAATGGAGGGAAGCGTGAAGAACGAGGAGGTCTTTGAGGCGGCAAAGAAGATGGGCCGGGAATTCCAGACCGTACTGGCTGCCCTCCTCAAAATCCTCCCTGACTATGAGGATATGCTGGTAGAAAACCTAGTTCGTCCATTCATTCTGAAAGATGAGGACTACAAACTGCTCATGGACATCATGCTGGGGGAGTTCAACAAAGGGCTCGGGAAGGAGACCAACCCCACCGCCAAGGTCAAGATGTACCCCACCTACGTCAGGGACGTCCCCGACGGATCAGAAAATGGGAATTTCTTAGCATTGGATTTGGGTGGGACAAACTTCCGGGTTTTACTCATAAACCTGAATGGTCAGGAAGTGACCATGGAGAGCAAGATCTACCTGATCCCCCAGCACATCATGACCGGCACCGGTGAACAATTGTTTGACCACATCGCAAAATGCATCCACAAATTCATGAGCAACCACGATCTACTGAAGGAGAAAATTCCCCTGGGATTCACCTTCTCCTTCCCCTGTAAACAGATAGGTTTGAACCACGCCATCCTGACACAGTGGACAAAAGGCTTCAAATGTGAGGGGGTGGAGGGGGAGGATGTGGTCAGACTCCTCCACGAAGCAATCAAAAGGAGGGGGGATATAGATGTGGAATGCTTAGCTGTGATAAACGATACAGTTGGTGCACTGATGTCATGTGCACACAGTGACCGAGATTGTGCAATAGGTCTAATTCTAGGCACAGGAACTAATGCTTGCTACATTGAAAAACTAGAAAATGTGGGATTATGGGATGGGGACTACAATGAACCAAACCAGGTCATGATCAACACAGAGTGGGGGGCGCTGGGAGACGACGGGTGTCTGGACTTTGTCAAGACCGAGTATGACCGACAGGTGGACAAACACTCCATCAACCCAGGCAGACAAATATATGAAAAAATGATCTCTGGTATGTACATGGGAGAAATCGTCAGACTGGCCCTGGAAAAGCTACGGAAGCATGGACTTCTGTTCGGCGGGAAAGGATCAGAAGAATTATCCACCAGGGGGCGCTTCTACACAAAATATGTTTCAGAAATTGAAAGTGATGTAGATGATCACTTCAAAAACACCAAACAGGTGTTTGAGGAATTGGCTCTAGAGAAATATTCTGATGAGGACTGTCGGATCGCTCAGTACGTCTGTTCCTTGGTGTCCACGCGGGCAGCTTTCCTAGCCTCCGTTGGCGTGGCCGCTCTTCTGAATAAGATGGACCGACAGGATGTGACGGTGGCAGTTGATGGGTCCCTGTACAGATTCCACCCCCACTTTCATGATCTCATGGAGGAAAAAATTCAGCAACTTGTAAAACCAGGAATTAAGTTTAAACTAATGTTGTCACATGACGGCAGTGGAAAGGGGGCAGCCATTGTAACAGCTGTAGCTAATCGACTACGAGATTCGGGGAAAGAGAGTATAGGAGAAAATGGACTAGAAAACTAA 248-224 1518 2131
1519 Cg_Hk_CDS_3'_no_stop GTTTTCTAGTCCATTTTCTCCTATAC SJW 2/13/2013 26 C.gigas hexokinase AM076954 TACAGTGTACTAGCAATCTGACAAAACTTTCTGAACACTAGCTTGATTTGAACCTAGAAATCTTTATTAAAAAATCATGTTTCTATAAATAAGCCTGCATGGTTATTTTTAAATTATTATTTTTATTTTATCACTTTGTCAAATTTAATTAAAACTGCAAAAATGAGACTTTGTAAGAAATAAAAAATTAAAGTGAAATACATGCATCCCTCTTTCTGTAAATGAAAGTACATGTACCAGATTTCAAATAATATTTCATCATACTCTTTAACAGAAAAAAATGAATTACAAAAAAAATACAACGTGGATGTGCAATGAAAATATAAACAGAGAGAATCTCTATAGCTTTTGTTACACAATTGTTTCGGTGCATACACACTGAATTCTTAATTTCAGTGTGTATGTCTTTTAATTACTAAACAAACTTCTGCAGGATGAATACATTGTACGGTATCTACTAGGTAGAAAACATTGGTTTATTTTTTAATAGTCAAAACCTTTTTTGCAAGTATTTTTAAAACATATTATTTTGAGGAATATCAGAAGATATACCCATGACAAAATCAGATCATTATCTTCGAACTTCTCAGATATTTATAAAAACTTTAGGTGTTCTTTTGTTTTATTCAAACTATTTATAGGTACATGTACTATGGGTATGTTTTTTTTTATGGCAAGATATTTTTATTGGTATAAGAAATATTTACAATTTGTAAGAACTTGTTTATGATCTTCCTCAATACATGAGCTGATGAACAAATATGTTAAAAAAGGGGCCTCAAAAAGAAAAACCCAAGACCCTTAGATTTTATTTTTTCTTTTCCTTATTGTGTTATGACAAAAGTAACGGTACACATATATATATATGATACATCTCAAGTGATACATTATTCCACAAGATATATAGCCAATAATTATAGGAATCCCCATCCTCTAACCTAATTCTTCTTGTATCCTATGTTAAGATGAGTTCAGTTGTACTATCTGCCTGGAAAGAATTTCATTTTATGATCACCATAGAAACAAAAGCCTTTGGTGAGCAATGTGGCTCATGGGCCTCTTTTTCTCCCAACCCTCACTGCTCAAAAAACTCCTGACAAAACTATTACTTTTCTCTTTAAAATAGTATGAAATTATCACAAGGATTGTCTATTTAGTGTAATTAATAACAGTGAGGTTGTTGCGTAGTTTTTCATGTAAATACATGTAACTCAGGTCAGCACGTTTTTGAATGCCAAGGCTTTAGAAAAAACTCAGATTAAGAAAAACAATTTCATTTGTTCTCTCTCCTCCCCATCTATTTTGCTGTTTGTCAATTTATTTCATTCATGTACAAATACCGATATCGCAGTACTTCTCCCATGGGCAATATCATTGTCTACACACAAGATAAATTTTTTGTTAAAAGTGTTTTTCAGTAATGAAAAAAAAAAAAAAATGGAACAATATTATGTTTTCAGAGAAAAAAAAATGTTATCTATATGTAATAAAGTCCATGAATTATCATTTATGTGACAGCTTTTAAGTTTCTAAAAATTACTTATATACATCCAAATACTGCTTTCTCAATCTTCTCCACATGGCCTCTGAGCAGAACAGATTCTAGCTGCTCTGTATAGTTTCAGTTGAGTGGATTTATCGACCTGCAAGCCTTCAAATGATAATTGTCATACATAAATTGATTTTCTTTCATGTTTTAGCTCTGTATAGAGAAACAGCTAGCTAGCCTTCATTGAATTCAGGATTTGTTTTGTGTTGGTCCACCAAGCTAGTCATGTGACTATGAGTGACGTTTTTCAGTTGTATACGGTACATATATAGGATTGTTAAGAACAGTAATCCTTCCTTTAAATACAAGCTGAGCTTGGCCGTGGTGTGTGTGTGAAGTGTTACAAGACTCTTTAACTCCCGTCTAAAGAAGAATTTAACCCACAAGGACTTTTTGTGTAACAAACACATATACACACAAAATTCAAAAATGTCTGCTGGTGTCAAAGTGAGTGAGCCGGGAATGGAGGGAAGCGTGAAGAACGAGGAGGTCTTTGAGGCGGCAAAGAAGATGGGCCGGGAATTCCAGACCGTACTGGCTGCCCTCCTCAAAATCCTCCCTGACTATGAGGATATGCTGGTAGAAAACCTAGTTCGTCCATTCATTCTGAAAGATGAGGACTACAAACTGCTCATGGACATCATGCTGGGGGAGTTCAACAAAGGGCTCGGGAAGGAGACCAACCCCACCGCCAAGGTCAAGATGTACCCCACCTACGTCAGGGACGTCCCCGACGGATCAGAAAATGGGAATTTCTTAGCATTGGATTTGGGTGGGACAAACTTCCGGGTTTTACTCATAAACCTGAATGGTCAGGAAGTGACCATGGAGAGCAAGATCTACCTGATCCCCCAGCACATCATGACCGGCACCGGTGAACAATTGTTTGACCACATCGCAAAATGCATCCACAAATTCATGAGCAACCACGATCTACTGAAGGAGAAAATTCCCCTGGGATTCACCTTCTCCTTCCCCTGTAAACAGATAGGTTTGAACCACGCCATCCTGACACAGTGGACAAAAGGCTTCAAATGTGAGGGGGTGGAGGGGGAGGATGTGGTCAGACTCCTCCACGAAGCAATCAAAAGGAGGGGGGATATAGATGTGGAATGCTTAGCTGTGATAAACGATACAGTTGGTGCACTGATGTCATGTGCACACAGTGACCGAGATTGTGCAATAGGTCTAATTCTAGGCACAGGAACTAATGCTTGCTACATTGAAAAACTAGAAAATGTGGGATTATGGGATGGGGACTACAATGAACCAAACCAGGTCATGATCAACACAGAGTGGGGGGCGCTGGGAGACGACGGGTGTCTGGACTTTGTCAAGACCGAGTATGACCGACAGGTGGACAAACACTCCATCAACCCAGGCAGACAAATATATGAAAAAATGATCTCTGGTATGTACATGGGAGAAATCGTCAGACTGGCCCTGGAAAAGCTACGGAAGCATGGACTTCTGTTCGGCGGGAAAGGATCAGAAGAATTATCCACCAGGGGGCGCTTCTACACAAAATATGTTTCAGAAATTGAAAGTGATGTAGATGATCACTTCAAAAACACCAAACAGGTGTTTGAGGAATTGGCTCTAGAGAAATATTCTGATGAGGACTGTCGGATCGCTCAGTACGTCTGTTCCTTGGTGTCCACGCGGGCAGCTTTCCTAGCCTCCGTTGGCGTGGCCGCTCTTCTGAATAAGATGGACCGACAGGATGTGACGGTGGCAGTTGATGGGTCCCTGTACAGATTCCACCCCCACTTTCATGATCTCATGGAGGAAAAAATTCAGCAACTTGTAAAACCAGGAATTAAGTTTAAACTAATGTTGTCACATGACGGCAGTGGAAAGGGGGCAGCCATTGTAACAGCTGTAGCTAATCGACTACGAGATTCGGGGAAAGAGAGTATAGGAGAAAATGGACTAGAAAACTAA 3490 1518, 1521 3491, 1349 For cloning promoter and CDS into pBAD TOPO to incorporate V5 epitope nucleotide tag 91785466
1518 Cg_Hk_Prom_pBAD_-2059 CACCTACAGTGTACTAGCAATCTGA SJW 2/13/2013 25 C.gigas hexokinase AM076954 TACAGTGTACTAGCAATCTGACAAAACTTTCTGAACACTAGCTTGATTTGAACCTAGAAATCTTTATTAAAAAATCATGTTTCTATAAATAAGCCTGCATGGTTATTTTTAAATTATTATTTTTATTTTATCACTTTGTCAAATTTAATTAAAACTGCAAAAATGAGACTTTGTAAGAAATAAAAAATTAAAGTGAAATACATGCATCCCTCTTTCTGTAAATGAAAGTACATGTACCAGATTTCAAATAATATTTCATCATACTCTTTAACAGAAAAAAATGAATTACAAAAAAAATACAACGTGGATGTGCAATGAAAATATAAACAGAGAGAATCTCTATAGCTTTTGTTACACAATTGTTTCGGTGCATACACACTGAATTCTTAATTTCAGTGTGTATGTCTTTTAATTACTAAACAAACTTCTGCAGGATGAATACATTGTACGGTATCTACTAGGTAGAAAACATTGGTTTATTTTTTAATAGTCAAAACCTTTTTTGCAAGTATTTTTAAAACATATTATTTTGAGGAATATCAGAAGATATACCCATGACAAAATCAGATCATTATCTTCGAACTTCTCAGATATTTATAAAAACTTTAGGTGTTCTTTTGTTTTATTCAAACTATTTATAGGTACATGTACTATGGGTATGTTTTTTTTTATGGCAAGATATTTTTATTGGTATAAGAAATATTTACAATTTGTAAGAACTTGTTTATGATCTTCCTCAATACATGAGCTGATGAACAAATATGTTAAAAAAGGGGCCTCAAAAAGAAAAACCCAAGACCCTTAGATTTTATTTTTTCTTTTCCTTATTGTGTTATGACAAAAGTAACGGTACACATATATATATATGATACATCTCAAGTGATACATTATTCCACAAGATATATAGCCAATAATTATAGGAATCCCCATCCTCTAACCTAATTCTTCTTGTATCCTATGTTAAGATGAGTTCAGTTGTACTATCTGCCTGGAAAGAATTTCATTTTATGATCACCATAGAAACAAAAGCCTTTGGTGAGCAATGTGGCTCATGGGCCTCTTTTTCTCCCAACCCTCACTGCTCAAAAAACTCCTGACAAAACTATTACTTTTCTCTTTAAAATAGTATGAAATTATCACAAGGATTGTCTATTTAGTGTAATTAATAACAGTGAGGTTGTTGCGTAGTTTTTCATGTAAATACATGTAACTCAGGTCAGCACGTTTTTGAATGCCAAGGCTTTAGAAAAAACTCAGATTAAGAAAAACAATTTCATTTGTTCTCTCTCCTCCCCATCTATTTTGCTGTTTGTCAATTTATTTCATTCATGTACAAATACCGATATCGCAGTACTTCTCCCATGGGCAATATCATTGTCTACACACAAGATAAATTTTTTGTTAAAAGTGTTTTTCAGTAATGAAAAAAAAAAAAAAATGGAACAATATTATGTTTTCAGAGAAAAAAAAATGTTATCTATATGTAATAAAGTCCATGAATTATCATTTATGTGACAGCTTTTAAGTTTCTAAAAATTACTTATATACATCCAAATACTGCTTTCTCAATCTTCTCCACATGGCCTCTGAGCAGAACAGATTCTAGCTGCTCTGTATAGTTTCAGTTGAGTGGATTTATCGACCTGCAAGCCTTCAAATGATAATTGTCATACATAAATTGATTTTCTTTCATGTTTTAGCTCTGTATAGAGAAACAGCTAGCTAGCCTTCATTGAATTCAGGATTTGTTTTGTGTTGGTCCACCAAGCTAGTCATGTGACTATGAGTGACGTTTTTCAGTTGTATACGGTACATATATAGGATTGTTAAGAACAGTAATCCTTCCTTTAAATACAAGCTGAGCTTGGCCGTGGTGTGTGTGTGAAGTGTTACAAGACTCTTTAACTCCCGTCTAAAGAAGAATTTAACCCACAAGGACTTTTTGTGTAACAAACACATATACACACAAAATTCAAAAATGTCTGCTGGTGTCAAAGTGAGTGAGCCGGGAATGGAGGGAAGCGTGAAGAACGAGGAGGTCTTTGAGGCGGCAAAGAAGATGGGCCGGGAATTCCAGACCGTACTGGCTGCCCTCCTCAAAATCCTCCCTGACTATGAGGATATGCTGGTAGAAAACCTAGTTCGTCCATTCATTCTGAAAGATGAGGACTACAAACTGCTCATGGACATCATGCTGGGGGAGTTCAACAAAGGGCTCGGGAAGGAGACCAACCCCACCGCCAAGGTCAAGATGTACCCCACCTACGTCAGGGACGTCCCCGACGGATCAGAAAATGGGAATTTCTTAGCATTGGATTTGGGTGGGACAAACTTCCGGGTTTTACTCATAAACCTGAATGGTCAGGAAGTGACCATGGAGAGCAAGATCTACCTGATCCCCCAGCACATCATGACCGGCACCGGTGAACAATTGTTTGACCACATCGCAAAATGCATCCACAAATTCATGAGCAACCACGATCTACTGAAGGAGAAAATTCCCCTGGGATTCACCTTCTCCTTCCCCTGTAAACAGATAGGTTTGAACCACGCCATCCTGACACAGTGGACAAAAGGCTTCAAATGTGAGGGGGTGGAGGGGGAGGATGTGGTCAGACTCCTCCACGAAGCAATCAAAAGGAGGGGGGATATAGATGTGGAATGCTTAGCTGTGATAAACGATACAGTTGGTGCACTGATGTCATGTGCACACAGTGACCGAGATTGTGCAATAGGTCTAATTCTAGGCACAGGAACTAATGCTTGCTACATTGAAAAACTAGAAAATGTGGGATTATGGGATGGGGACTACAATGAACCAAACCAGGTCATGATCAACACAGAGTGGGGGGCGCTGGGAGACGACGGGTGTCTGGACTTTGTCAAGACCGAGTATGACCGACAGGTGGACAAACACTCCATCAACCCAGGCAGACAAATATATGAAAAAATGATCTCTGGTATGTACATGGGAGAAATCGTCAGACTGGCCCTGGAAAAGCTACGGAAGCATGGACTTCTGTTCGGCGGGAAAGGATCAGAAGAATTATCCACCAGGGGGCGCTTCTACACAAAATATGTTTCAGAAATTGAAAGTGATGTAGATGATCACTTCAAAAACACCAAACAGGTGTTTGAGGAATTGGCTCTAGAGAAATATTCTGATGAGGACTGTCGGATCGCTCAGTACGTCTGTTCCTTGGTGTCCACGCGGGCAGCTTTCCTAGCCTCCGTTGGCGTGGCCGCTCTTCTGAATAAGATGGACCGACAGGATGTGACGGTGGCAGTTGATGGGTCCCTGTACAGATTCCACCCCCACTTTCATGATCTCATGGAGGAAAAAATTCAGCAACTTGTAAAACCAGGAATTAAGTTTAAACTAATGTTGTCACATGACGGCAGTGGAAAGGGGGCAGCCATTGTAACAGCTGTAGCTAATCGACTACGAGATTCGGGGAAAGAGAGTATAGGAGAAAATGGACTAGAAAACTAA 1 1519, 1520 3491, 2131 For cloning promoter and CDS into pBAD TOPO to incorporate V5 epitope nucleotide tag 91785467
1517 ILL_Index_2 AATGATACGGCGACCACCGA Eli Meyer 8/7/2012 20 N/A N/A N/A This is a custom primer designed (and provided) by Eli Meyer's group specifically for the 2nd index (i.e. barcode) read for Illumina HiSeq sequencing. 87351060
1516 EcoRIprimer_6FAM_AAC 6FAM_GACTGCGTACCAATTCAAC MG 7/30/2012 19 47 NA (MSAP) 87131838
1515 EcoRIprimer_6FAM_ACA 6FAM_GACTGCGTACCAATTCACA MG 7/30/2012 19 47 NA (MSAP) 87131837
1514 EcoRIprimers_6FAM_ACG 6FAM_GACTGCGTACCAATTCACG MG 7/30/2012 19 53 NA (MSAP) 87131836
1513 Cg_vtg6_F GAAGTTTACGTGAGAAGAC Dheilly 2012 7/14/2012 19 42 60.7 C.gigas vitellogenin6 AB084783 98 87001028
1512 Cg_vtg6_R TAGAAGTCTCTGAAGAACAG Dheilly 2012 7/14/2012 20 40 60.7 C.gigas vitellogenin6 AB084783 98 87001029
1511 Cg_DNMT1_F ATTGAGGTCCGTCTCTCCGA MG 7/14/2012 20 55 60 C.gigas DNMT1 Mac's notebook 3/9/11 132 qPCR primers 87001030
1510 Cg_DNMT1_R CTCACACGCCTTACCCTCAG MG 7/14/2012 20 60 60 C.gigas DNMT1 132 qPCR primers 87001031
1509 Ol_Ef1a_F TCCTTGTTCAAACCCTTCATGT BC 6/13/2012 22 40.9 58.1 O.lurida Elongation factor 1-alpha qPCR primers 85989023
1508 Ol_Ef1a_R CAAACCCTTGCCTCGGTAAG BC 6/13/2012 20 55 58.8 O.lurida Elongation factor 1-alpha qPCR primers 85989024
1507 Ol_Gapdh_F AGAAAGGTGAGTGCCGTCAG BC 6/13/2012 20 55 60 O.lurida Glyceraldehyde-3-phosphate dehydrogenase qPCR primers 85989025
1506 Ol_Gapdh_R ATGCGGGAGTTTATGGCCTC BC 6/13/2012 20 55 60.2 O.lurida Glyceraldehyde-3-phosphate dehydrogenase qPCR primers 85989026
1505 Ol_Act_F GACCAGCCAAATCCAGACGA BC 6/13/2012 20 55 60 O.lurida Actin, adductor muscle qPCR primers 85989027
1504 Ol_Act_R CGGTCGTACCACTGGTATCG 6/13/2012 20 60 60 O.lurida Actin, adductor muscle qPCR primers 85989028
1503 Ol_Arp_F AGGAGGTCTTCTCAGGTCCC BC 6/13/2012 20 60 60 O.lurida 60S acidic ribosomal protein P0 qPCR primers 85989029
1502 Ol_Arp_R GAGACCTTCTCCTGGCCAAC BC 6/13/2012 20 60 60 O.lurida 60S acidic ribosomal protein P0 qPCR primers 85989030
1501 Ol_Pygm_F TCACCAGTGTTGCCAAGGTT BC 5/11/2012 20 60 O.lurida muscle glycogen phosphorylase qPCR primers 85148730
1500 Ol_Pygm_R GATCTGCTCACTCAGGTCCG BC 5/11/2012 20 59.9 O.lurida muscle glycogen phosphorylase qPCR primers 85148731
1499 Ol_Hsp90ab1_F GTCACGCTCTTTCTCCACCA BC 5/11/2012 20 60 O.lurida heat shock protein 90kDa alpha (cytosolic), class B member 1 qPCR primers 85148732
1498 Ol_Hsp90ab1_R GCACTATGGGTCGTGGAACA BC 5/11/2012 20 60 O.lurida heat shock protein 90kDa alpha (cytosolic), class B member 1 qPCR primers 85148733
1497 Ol_Igf1r_F CTTCCTTCCCGAACAGGTCC BC 5/11/2012 20 60 O.lurida insulin-like growth factor 1 receptor qPCR primers 85148734
1496 Ol_Igf1r_R GGAAGTGGAGCGTGACAAGA BC 5/11/2012 20 60 O.lurida insulin-like growth factor 1 receptor qPCR primers 85148735
1493 Ol_U2af1l4_F GACGTAGCAGGAGTCGTAGC BC 5/11/2012 20 60 O.lurida U2 small nuclear RNA auxiliary factor 1-like 4 qPCR primers 85148736
1492 Ol_U2af1l4_R GCCTCGACTCAGTATCTGCC BC 5/11/2012 20 60 O.lurida U2 small nuclear RNA auxiliary factor 1-like 4 qPCR primers 85148737
1491 Ol_Prkg1_F ACGGGCTGGGATAGAGACTT BC 5/11/2012 20 60 O.lurida protein kinase, cGMP-dependent, type I qPCR primers 85148738
1490 Ol_Prkg1_R CTCGCATTCTGTTGTAGCGC BC 5/11/2012 20 60 O.lurida protein kinase, cGMP-dependent, type I qPCR primers 85148739
1489 Ol_Crim1_F CAGGAGAGTGCTGTCCAGTG BC 5/11/2012 20 60 O.lurida cysteine rich transmembrane BMP regulator 1 qPCR primers 85148740
1488 Ol_Crim1_R TCTGGACCTCTCTCTGCCTC BC 5/11/2012 20 60 O.lurida cysteine rich transmembrane BMP regulator 1 qPCR primers 85148741
1487 Ol_Bag2_F TGAAGCCATGGCGGAAAGAT BC 5/11/2012 20 60 O.lurida BCL2-associated athanogene 2 qPCR primers 85148742
1486 Ol_Bag2_R TCACTTTGTCCAGAGCTGTCTC BC 5/11/2012 22 60 O.lurida BCL2-associated athanogene 2 qPCR primers 85148743
1484 Rp_Prefoldin_F TGGCTGGGAAAAATATGCCAGTTGAC DM 3/28/2012 R.philippinarum Prefoldin ruditapes2_c693 84039488
1483 Rp_Prefoldin_R TGCTGAGTGGTATTGATAAGCTTGCCT DM 3/28/2012 R.philippinarum Prefoldin ruditapes2_c693 84039489
1482 Rp_NADHOxiRed_F GCATGTGAACCAGTTTGGGACGAGT DM 3/28/2012 R.philippinarum NADH Oxidoreductase ruditapes_lrc35717 84039490
1481 Rp_NADHOxiRed_R TCTCTTTTGCCTGGCACGCAGT DM 3/28/2012 R.philippinarum NADH Oxidoreductase ruditapes_lrc35717 84039491
1480 Rp_Perlucin6_R2 ACAGTATGCCATAGCCTCCCACCA DM 3/28/2012 R.philippinarum Perlucin-6 ruditapes_lrc29501 84039492
1479 Rp_Calreticulin_F AGCAAAAGCAAAGGAAGCTGGAGGT DM 3/28/2012 R.philippinarum Calreticulin ruditapes2_c183 84039493
1478 Rp_Calreticulin_R TGGGTATGGTTACAACTCGTCATGGGG DM 3/28/2012 R.philippinarum Calreticulin ruditapes2_c183 84039494
1477 Rp_Crumbs_F GCGAGAGTCCACACTCTGCATATCAC DM 3/28/2012 R.philippinarum Crumbs ruditapes_c13771 84039495
1476 Rp_Crumbs_R TCACCCTTACGATATGTGGCCTGCT DM 3/28/2012 R.philippinarum Crumbs ruditapes_c13771 84039496
1475 Rp_BetaActin_R3 TGGATGGTCCTGCCTCGTCGTATT DM 3/28/2012 R.philippinarum Beta Actin ruditapes_lrc32914 Pair with F2 84039497
1474 Rp_ef1a_R2 TGTAGCCTTTTGGGCAGCTTTGGT DM 3/28/2012 R.philippinarum Elongation factor 1-alpha 84039498
1473 Rp_Cathepsin_R2 TCCTACTGTTGCTACAGCGGCTTG DM 3/28/2012 R.philippinarum Cathepsin ruditapes_lrc34795, ruditapes_lrc32628 84039499
1472 Rp_EF2_R2 TGTCCACCACCTCTGTGGATAGCA DM 3/28/2012 R.philippinarum Elongation factor 2 84039500
1471 Rp_hsp90_R2 TCATCATCACCTTCCAATGGGGGCA DM 3/28/2012 R.philippinarum Heat shock protein 90 ruditapes_c1528, ruditapes_c4265, ruditapes2_c258, ruditapes_c3931 84039501
1470 Rp_hsp70_R2 ACCACCAGCTCCAAAGTCTGGCAT DM 3/28/2012 R.philippinarum Heat shock protein 70 ruditapes_c34318, ruditapes2_c147 84039502
1469 Rp_GPX3_R2 TAGTTGTCGGCCGGCTCTTGCATT DM 3/28/2012 R.philippinarum Glutathione peroxidase 3 ruditapes2_c3709 84039503
1468 Rp_f0ATPsubC_R2 TCACGTTTGGCTACACTGGTCTGGA DM 3/28/2012 R.philippinarum atp h+ mitochondrial f0 subunit c (subunit 9) ruditapes2_lrc5332 84039504
1467 Rp_Calmodulin_R2 AGTACAGGCACTGGATGGTGCGTA DM 3/28/2012 R.philippinarum Calmodulin ruditapes_c670 84039505
1466 Rp_f1ATPepsilon_R2 GCACTTCTGACTGCTCTGGCACAT DM 3/28/2012 R.philippinarum h+ transporting f1 atp synthase epsilon ruditapes_lrc33849, ruditapes_c3961, ruditapes_lrc35753 84039506
1465 Rp_BetaActin_F2 TGGATCGGTGGCTCTATCCTTGCT DM 3/8/2012 R.philippinarum Beta Actin ruditapes_lrc32914 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582258
1464 Rp_BetaActin_R2 AATACGACGAGGCAGGACCATCCA DM 3/8/2012 R.philippinarum Beta Actin ruditapes_lrc32914 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582259
1463 Rp_ef1a_F ACGCTCCACTTGGACGTTTTGCT DM 3/8/2012 R.philippinarum Elongation factor 1 alpha Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582260
1462 Rp_ef1a_R ACCAAAGCTGCCCAAAAGGCTACA DM 3/8/2012 R.philippinarum Elongation factor 1 alpha Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582261
1461 Rp_Cathepsin_F AGCCAAAGAACGGCCGATGTGA DM 3/8/2012 R.philippinarum Cathepsin ruditapes_lrc34795, ruditapes_lrc32628 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582262
1460 Rp_Cathepsin_R CAAGCCGCTGTAGCAACAGTAGGA DM 3/8/2012 R.philippinarum Cathepsin ruditapes_lrc34795, ruditapes_lrc32628 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582263
1459 Rp_EF2_F GACAGTGTTGTTGCTGGCTTCCAGT DM 3/8/2012 R.philippinarum Elongation factor 2 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582264
1458 Rp_EF2_R TGCTATCCACAGAGGTGGTGGACA DM 3/8/2012 R.philippinarum Elongation factor 2 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582265
1457 Rp_hsp90_F2 TCTCCCTTGAAGAGCCAACAACCCA DM 3/8/2012 R.philippinarum heat shock protein 90 ruditapes_c1528, ruditapes_c4265, ruditapes2_c258, ruditapes_c3931 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582266
1456 Rp_hsp90_R2 TGCCCCCATTGGAAGGTGATGATGA DM 3/8/2012 R.philippinarum heat shock protein 90 ruditapes_c1528, ruditapes_c4265, ruditapes2_c258, ruditapes_c3931 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582267
1455 Rp_hsp70_F ATCAGCTGGCCGAGAAGGAAGAGT DM 3/8/2012 R.philippinarum heat shock protein 70 ruditapes_c34318, ruditapes2_c147 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582268
1454 Rp_hsp70_R ATGCCAGACTTTGGAGCTGGTGGT DM 3/8/2012 R.philippinarum heat shock protein 70 ruditapes_c34318, ruditapes2_c147 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582269
1453 Rp_GPX3_F ATTCTCGAGCGCTGGGGTAAAAGTG DM 3/8/2012 R.philippinarum Glutathione peroxidase 3 ruditapes2_c3709 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582270
1452 Rp_GPX3_R AATGCAAGAGCCGGCCGACAACTA DM 3/8/2012 R.philippinarum Glutathione peroxidase 3 ruditapes2_c3709 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582271
1451 Rp_f0ATPsubC_R TCGAGTGGGAGCAAAGCCATCAGA DM 3/8/2012 R.philippinarum atp h+ mitochondrial f0 subunit c (subunit 9) ruditapes2_lrc5332 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582272
1450 Rp_f0ATPsubC_R TCCAGACCAGTGTAGCCAAACGTGA DM 3/8/2012 R.philippinarum atp h+ mitochondrial f0 subunit c (subunit 9) ruditapes2_lrc5332 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582273
1449 Rp_Calmodulin_F ACGACCAAGTGGACGAGATGTTGC DM 3/8/2012 R.philippinarum Calmodulin ruditapes_c670 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582274
1448 Rp_Calmodulin_R TACGCACCATCCAGTGCCTGTACT DM 3/8/2012 R.philippinarum Calmodulin ruditapes_c670 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582275
1447 Rp_f1ATPepsilon_F TGTCGTCATTTTGGAGACAGGCGG DM 3/8/2012 R.philippinarum h+ transporting f1 atp synthase epsilon ruditapes_lrc33849, ruditapes_c3961, ruditapes_lrc35753 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582276
1446 Rp_f1ATPepsilon_R ATGTGCCAGAGCAGTCAGAAGTGC DM 3/8/2012 R.philippinarum h+ transporting f1 atp synthase epsilon ruditapes_lrc33849, ruditapes_c3961, ruditapes_lrc35753 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582277
1445 Rp_Perlucin6_F GCAGACGTCGACAGGATGTCCAAT DM 3/8/2012 R.philippinarum Perlucin 6 ruditapes_lrc29501 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582278
1444 Rp_Perlucin6_R TGGTGGGAGGCTATGGCATACTGT DM 3/8/2012 R.philippinarum Perlucin 6 ruditapes_lrc29501 Primers deigned from Ruphibase sequences. Genbank IDs are actual Ruphibase IDs. 83582279
1443 Cg_hexkinBS_out_F TGTGGGTGTTTGATATTATATATG MG 1/10/2012 24 57 C. gigas hexokinase - bisulfite primer EU342886 82182505
1442 Cg_hexkinBS_out_R ACAAATCTATTCCTAACATTCC MG 1/10/2012 22 57.1 C. gigas hexokinase - bisulfite primer EU342886 82182506
1441 Cg_hexkinBS_inA_F GTTAAGATGGGATATTTGATATAG MG 1/10/2012 24 56.8 C. gigas hexokinase - bisulfite primer EU342886 82182507
1440 Cg_hexkinBS_inA_R TCACAAACTTTTTTCAACAAT MG 1/10/2012 21 56.9 C. gigas hexokinase - bisulfite primer EU342886 82182508
1439 Cg_hexkinBS_inB_F GTTATGTTATTTTTTGTTGAGTG MG 1/10/2012 23 57.3 C. gigas hexokinase - bisulfite primer EU342886 82182509
1438 Cg_hexkinBS_inB_R CACATATATTTCCCCCAATAAAA MG 1/10/2012 23 58.8 C. gigas hexokinase - bisulfite primer EU342886 82182510
1437 Cg_vtypeHtrans_R TTGACTGGGTCCTTGAACTT ETS 12/12/2011 20 45 49.73 C. gigas v-type proton transporter AM855436 GGTCGGGGGAGACATGGCAACCATTCAGGTCTACGAGGAAACCTCTGGTGTGACGGTGGGTGACCCTGTGATGAGGACCGGGAAACTCCTGTTAGTGGAACTGGGGCCCGGAATTATGGGCTCCATCTTTGATGGTATTCAGCGTCCACTGGAGGAAATTAACAAAATGACCCAGAGTATCTACATTCCAAAAGGTGTGAACACACCTGCTCTAGACAGAGTGAAGACGTGGGAGTTTGAACCATTTGGCAATGTCAGGGTTGGCAGTCATGTGACGGGAGGTGATGTGTACGGAATGGTGTACGAGAACATCCTGGTCAAACACAAGATCATGCTCCCTCCCAAAACCCGCGGAACGTGACCTGGATCGCAGACCCTGGGGAGTACACAGTCAATGATGTGGTGCTGGAGACAGAGTTTGACGGAGAGAAGTCCAAGTACACCATGTTACAGGTGTGGCCCGTCCGTCAGCTCCGACCGGTCACTGAGAAACTGGCCGGCAACCACCCCCTCCTGACCGGACAGAGGGTGCTGGACGCCCTGTTCCCATGTGTACAGGGAGGGACAACAGCTATCCCCGGAGCCTTTGGGTGTGGTAAAACTGTCATCTCCCAGTCCTTGTCCAAGTACTCCAACAGTGATGTCATCATCTACGTCGGGTGTGGGGAGCGTGGGAATGAAATGTCCGAAGTATTGAGAGACTTCCCCGAGCTGACCATGGAGGTTGAGGGTAAACCTGAGAGCATCATGAAGAGAACCGCCCTTGTGGCCAACACATCCAACATGCCTGTCGCTGCCAGAGAGGCCTCCATTTACACTGGTATTACTTTGTCTGAGTATTTCCGTGATATGGGTTACAACGTATCCATGATGGCTGACTCCACTTCTCGATGGGCTGAAGCCTTGAGAGAAATCTCGGGTCGTCTCGCTGAAATGCCTGCCGATTACGGTTACCCTGCCTATTTGGGAGCTCGTCTGGCCTCCTTCTACGAGCGAGCTGGGCGTGTCAAATGTATTGGAAATCCTGAGAGAGAGGGCAGTGTCAGCATTGTAGGAGCTGTGTCGCCCCCTGGTGGTGACTTCTCTGACCCTGTGACCTCTGCCACACTGGGTATTGTACAAGTGTTTTGGGGTCTGGAAAAGAAGCTGGCCCAGAGGAAACATTTCCCAGCCATCAACTGGCTCATCTCCTACAGCAAGTACACGAGGGCTCTCGAGGAGTTCTACGACAAAAACTTCCCAGACTTCACTCCCCTAAGAACAAAGTGCAAAGAAATTTTACAAGAAGAGGAAGATCTGTCAGAAATTGTACAACTAGTCGGAAAGGGATCTCTGGCAGAGGCAGACAAGATCACGCTAGAGGTGGCCAAACTGATCAAGGATGATTTCCTCCAACAGAATGGATACACACCTTACGACAGATTCTGTCCATTCTACAAGACAGTAGGAATGTTGAAAAACATCATTGCTTTCTATGACATGGCCAGACACTCGGTGGAGAGCACGGCTCAGAGTGAGAACAAGATTACCTGGGCCATCATCCGTGACCAGATGAACGATATCATCTACAAGCTCAGCAGTATGAAGTTCAAGGACCCAGTCAAAGATGGTGAGAGGAAAATCAAACAGGATTACGATGATTTACACGAAGAAATGCAGACAGCTTTCAGGAATCTGGAGGACTGAGAACAATTAGTAGCAAATTAGGACCTAAAAATGTAGACTAAACGTGTTAGGACAGTATGTACGTGGAAATTGTATTGAAAATTGTGAAACTCTGCAGACATTATTATTCTAGTCAAATTTTGCTTGATAGTGTCAGATCCTTCCATGACAAAGGTTACTGTGTATGATTGGTGTTAATAGTCCCAGGTGTGATCAGCAAGAGTTGAAGGTTCACTACTGATAAGATAATGAATACAGTTGTCCCAATGGTTTCATTCATTAGGAATTCTTATTTTGTATATTGCAGAGTTCTCTAAAATTAAGAAATTCATATTATGGACATTGCAGAGTCCTCTAAGTTCATAGAGTAAAACAATGTGTCCACTTCAGCATGGGTTGATGGGCATTTTGGATTAATTGTACATTAGTAGATTTATTATATTACTGTACATCTGTTGTTGGAGTCTAAAACTACATATTTAGATTTATCAGTAAAACATTCCATGTTTACCTCGTGTGTGCTTCATTTAGTGCTGACCATTCAACAATGAACAAATACATTTTACTGATGCAGCCATATCATCTTTAGTTGAGTTATACCCTGACACTGATTATTTATTACTATACACTTCTGTTTATTAATTGATAAAAATATTGTAAAACTAAATTATTGCATGGGAAATAACATAGGTTGAGTCTTTATATATTTATGGTTTAATTTAAATATATGTTTGTAATTTCTTTTAGAACTTTTCTTGCGTATTGAAGTTTTCATAGATAATGTATTGGGTT 1604-1585 1436 156 spans intron/exon boundary at bp 1592 81694331
1436 Cg_vtypeHtrans_F ACCTTACGACAGATTCTGTC ETS 12/12/2011 20 45 49.73 C. gigas v-type proton transporter AM855436 GGTCGGGGGAGACATGGCAACCATTCAGGTCTACGAGGAAACCTCTGGTGTGACGGTGGGTGACCCTGTGATGAGGACCGGGAAACTCCTGTTAGTGGAACTGGGGCCCGGAATTATGGGCTCCATCTTTGATGGTATTCAGCGTCCACTGGAGGAAATTAACAAAATGACCCAGAGTATCTACATTCCAAAAGGTGTGAACACACCTGCTCTAGACAGAGTGAAGACGTGGGAGTTTGAACCATTTGGCAATGTCAGGGTTGGCAGTCATGTGACGGGAGGTGATGTGTACGGAATGGTGTACGAGAACATCCTGGTCAAACACAAGATCATGCTCCCTCCCAAAACCCGCGGAACGTGACCTGGATCGCAGACCCTGGGGAGTACACAGTCAATGATGTGGTGCTGGAGACAGAGTTTGACGGAGAGAAGTCCAAGTACACCATGTTACAGGTGTGGCCCGTCCGTCAGCTCCGACCGGTCACTGAGAAACTGGCCGGCAACCACCCCCTCCTGACCGGACAGAGGGTGCTGGACGCCCTGTTCCCATGTGTACAGGGAGGGACAACAGCTATCCCCGGAGCCTTTGGGTGTGGTAAAACTGTCATCTCCCAGTCCTTGTCCAAGTACTCCAACAGTGATGTCATCATCTACGTCGGGTGTGGGGAGCGTGGGAATGAAATGTCCGAAGTATTGAGAGACTTCCCCGAGCTGACCATGGAGGTTGAGGGTAAACCTGAGAGCATCATGAAGAGAACCGCCCTTGTGGCCAACACATCCAACATGCCTGTCGCTGCCAGAGAGGCCTCCATTTACACTGGTATTACTTTGTCTGAGTATTTCCGTGATATGGGTTACAACGTATCCATGATGGCTGACTCCACTTCTCGATGGGCTGAAGCCTTGAGAGAAATCTCGGGTCGTCTCGCTGAAATGCCTGCCGATTACGGTTACCCTGCCTATTTGGGAGCTCGTCTGGCCTCCTTCTACGAGCGAGCTGGGCGTGTCAAATGTATTGGAAATCCTGAGAGAGAGGGCAGTGTCAGCATTGTAGGAGCTGTGTCGCCCCCTGGTGGTGACTTCTCTGACCCTGTGACCTCTGCCACACTGGGTATTGTACAAGTGTTTTGGGGTCTGGAAAAGAAGCTGGCCCAGAGGAAACATTTCCCAGCCATCAACTGGCTCATCTCCTACAGCAAGTACACGAGGGCTCTCGAGGAGTTCTACGACAAAAACTTCCCAGACTTCACTCCCCTAAGAACAAAGTGCAAAGAAATTTTACAAGAAGAGGAAGATCTGTCAGAAATTGTACAACTAGTCGGAAAGGGATCTCTGGCAGAGGCAGACAAGATCACGCTAGAGGTGGCCAAACTGATCAAGGATGATTTCCTCCAACAGAATGGATACACACCTTACGACAGATTCTGTCCATTCTACAAGACAGTAGGAATGTTGAAAAACATCATTGCTTTCTATGACATGGCCAGACACTCGGTGGAGAGCACGGCTCAGAGTGAGAACAAGATTACCTGGGCCATCATCCGTGACCAGATGAACGATATCATCTACAAGCTCAGCAGTATGAAGTTCAAGGACCCAGTCAAAGATGGTGAGAGGAAAATCAAACAGGATTACGATGATTTACACGAAGAAATGCAGACAGCTTTCAGGAATCTGGAGGACTGAGAACAATTAGTAGCAAATTAGGACCTAAAAATGTAGACTAAACGTGTTAGGACAGTATGTACGTGGAAATTGTATTGAAAATTGTGAAACTCTGCAGACATTATTATTCTAGTCAAATTTTGCTTGATAGTGTCAGATCCTTCCATGACAAAGGTTACTGTGTATGATTGGTGTTAATAGTCCCAGGTGTGATCAGCAAGAGTTGAAGGTTCACTACTGATAAGATAATGAATACAGTTGTCCCAATGGTTTCATTCATTAGGAATTCTTATTTTGTATATTGCAGAGTTCTCTAAAATTAAGAAATTCATATTATGGACATTGCAGAGTCCTCTAAGTTCATAGAGTAAAACAATGTGTCCACTTCAGCATGGGTTGATGGGCATTTTGGATTAATTGTACATTAGTAGATTTATTATATTACTGTACATCTGTTGTTGGAGTCTAAAACTACATATTTAGATTTATCAGTAAAACATTCCATGTTTACCTCGTGTGTGCTTCATTTAGTGCTGACCATTCAACAATGAACAAATACATTTTACTGATGCAGCCATATCATCTTTAGTTGAGTTATACCCTGACACTGATTATTTATTACTATACACTTCTGTTTATTAATTGATAAAAATATTGTAAAACTAAATTATTGCATGGGAAATAACATAGGTTGAGTCTTTATATATTTATGGTTTAATTTAAATATATGTTTGTAATTTCTTTTAGAACTTTTCTTGCGTATTGAAGTTTTCATAGATAATGTATTGGGTT 1410-1429 1437 156 spans intron/exon boundary at bp 1419 81694332
1435 Cg_Vtgbs_lastout_F AGAGAGTTTGAGTAGTAAAT MG 12/6/2011 20 55 C. gigas vitellogenin -bisulfite seq. primer AB084783 81564273
1434 Cg_Vtgbs_lastout_R CTAAAAATATCCTAAACCAC MG 12/6/2011 20 55 C. gigas vitellogenin -bisulfite seq. primer AB084783 81564274
1433 Cg_Vtgbs_lastin_F GAGTGTAGGATATAAAAGTAAAG MG 12/6/2011 23 57 C. gigas vitellogenin -bisulfite seq. primer AB084783 81564275
1432 Cg_Vtgbs_lastin_R ATCTTTCCTAACACTCTCTAA MG 12/6/2011 21 57 C. gigas vitellogenin -bisulfite seq. primer AB084783 81564276
1431 Cg_Vtgbs_B_R TCCAACATACTAAACAAACCTTTCTT MG 11/23/2011 26 59 C. gigas vitellogenin -bisulfite seq. primer AB084783 81310014
1430 Cg_Vtgbs_B_F TTTTGAGAAGAGGAAGGAATTTAGA MG 11/23/2011 25 59 C. gigas vitellogenin -bisulfite seq. primer AB084783 81310015
1429 Cg_Vtgbs_A_R AACTAATCTTCACATCCTCCTCTTTA MG 11/23/2011 26 58 C. gigas vitellogenin -bisulfite seq. primer AB084783 81310016
1428 Cg_Vtgbs_A_F AGGAATATTTGTATGAGTATGAAATATAAG MG 11/23/2011 30 56 C. gigas vitellogenin -bisulfite seq. primer AB084783 81310017
1427 Cg_ERbs_B_R CCTTATTTAAAACCTAAAAAATAATCACTA MG 11/23/2011 30 57 C. gigas estrogen receptor -bisulfite seq. primer AB259818 81310018
1426 Cg_ERbs_B_F TATGAAGTTGGAATGAATAAAGGGAGTTA MG 11/23/2011 29 63 C. gigas estrogen receptor -bisulfite seq. primer AB259818 81310019
1425 Cg_ERbs_A_R AAAAATCTTATACATCTAACATTTCCTTCA MG 11/23/2011 30 59 C. gigas estrogen receptor -bisulfite seq. primer AB259818 81310020
1424 Cg_ERbs_A_F TAGGGTTTGTTTGATTTAGGAGGTA MG 11/23/2011 25 59 C. gigas estrogen receptor -bisulfite seq. primer AB259818 81310021
1423 Cg_AY660003_R acttgagcaggattcagtcct SR 11/21/2011 21 47.6 52.4 C. gigas aspartate aminotransferase ay660003 AGTGGTGGATCACTCGGCTCGGGGGTCGATGAAGAGCGCAGCCAGCTGCGTGAATTAATGTGAATTGCAG 1422 155 primer spans intron 81238323
1422 Cg_AY660003_F tgtagcctcagtactcaac SR 11/21/2011 19 47.4 48.93 C. gigas aspartate aminotransferase AY660003 AGTGGTGGATCACTCGGCTCGGGGGTCGATGAAGAGCGCAGCCAGCTGCGTGAATTAATGTGAATTGCAG 1423 155 primer spans intron 81238324
1421 Cg_MTIV_R2 ACAGCAGCACTTGGCTTTGC ETS 11/14/2011 20 55 53.83 C. gigas metallothioneine IV AM265551 AGCGTTGGACAAGAAACAGTCACTGGTTACCTTTTTCTGTGCCTTTCCCCCCACAGCCACGCGACAAGGC 798-817 1406 134 replacement for 1407 81101710
1420 Cg_phosphogluc_R2 CAGAGCAGGGAAGTCGATTA ETS 11/14/2011 20 50 51.78 C. gigas phosphoglucomutase AJ512213 AGGATCCTGGTATGAACGTTTCACGTATATCAATAGTTTTGGCCTAATTGGCAAAGCGGGGAGCACTCCT 1730-1749 1402 200 replacement for 1403 81101711
1419 Cg_aspaminotrans_R2 TCAGTGACAGCTGCGTGAAT ETS 11/14/2011 20 50 51.78 C. gigas aspartate aminotransferase AY660003 AGTGGTGGATCACTCGGCTCGGGGGTCGATGAAGAGCGCAGCCAGCTGCGTGAATTAATGTGAATTGCAG 249-268 1400 103 replacement for 1401 81101712
1418 Cg_Tld_R2 GGCTTTTTGGTGGGCTGTAA ETS 11/9/2011 20 50 51.78 C. gigas Toll-like protein AJ543432 AGGCTCCGTCGCCTTAAATGCAGACGAGCTCGATTGTCGGCGACCCCGCCGAGCTCTTCCCTTTCCCCTT 3457-3755 1404 199 reverse complement of 1405 80987704
1417 Cg_glutsyn_R2 AGTAGTAGGGTCCTTGGGGT ETS 11/9/2011 20 55 53.83 c. gigas glutamine synthetase AJ564739 TGAGGGTCGGCGAAACTATCAATCGGACAAATCTTTTGTCCGCCTTGGGCCGTCGTAGCCGCATAGGCTC 1016-1023 + 1300-1311 1398 134 reverse complement of 1399 80987705
1416 Cg_hsc70_R2 GTCTGCGTCTGTTTGGTTGG ETS 11/9/2011 20 55 53.83 C. gigas heat shock cognate 70 HS119891 GCTGTCTCGAACGTCTGCTCGGTCGGATGGCGAGAGAGGACGGGGAGGGCGCGGACGGTAACGCGGTCTG 734-715 1396 135 reverse complement of 1397 80987706
1415 Cg_Vitellogenin_R AGCGGTTCCGACTGCTCCCT MM 10/31/2011 20 65 59.9 C.gigas Vitellogenin AB084783 ATGTTGCTTCTGCTTGCGGTCTCAACAGCCCTGGTGGCGGCAGCCGCCCAGACTCCCAGTCAAGCCTATGAAAGCAATAAGGAATACCTGTATGAGTATGAAACACAAGCACTTACCGGAATACCTATGGGGAGCACGATTTATTCCGGAATGAAAATGAAGTCCGACGTCAGGATCCAGTTCCGGTCCCGCTCGTCCGCTACCTTGAAGATGGACAAGTTGACCTTTGCAAAGATCAACGACCCTATAGAGTCGGTGGACCCGACCCAGCAGCAGGTGCCCGCGGAGATGTTCCAGCCCCTTACGGGGAGGGATGCCGAGCAGATGCTGACGGACCTGTCCAGACCTATCAACTTCAGGTACGTCCGCGGCAACGTTAAGGATATCCACCACGAAGCAGACGATCCGGAATGGTCCGTTAACGTGAAGAAAGGTCTGCTCAGTATGCTGGAGATGAACCTTGAGAAGAGGAAGGAACTCAGAAAAAGCGGCGTGATTCCGCAAGTTCTCCGTCCGCAGTCTTCTGACGAAGGTTCAATGTTCACAGTCATGGAGCCCAGCATCGTCGGGGAGTGTGAGACGCTGTACAGAATCAGTCCTTGGACCTCCACCAGTGCTAATCCATGGATGCATATCACAAAAGTCCGGAATTACCAACACTGTCTGGACAGGCCAAAGTACTTCGGCTCTATGTTCCATTTACGACAGTGCGCCGAATGTGTCAGGGAGCAGTCGGAACCGCTGAGATCCGCCTCACAGATCAGATACACCCTCCGTGGAAACATGCGACAGTTCCAGATCCAAAGCGCCATTGCAGAGAGCCAACACGTGTTCACACCGTACTCCGCCAAAGGAGGACATGTTGCTACCTATCTCAATCAGACCCTGAATTTAGTCAAAGAGGAGGATGTGAAGACCAGTCTCTCAGAGCCGCAAAGCCCAACAAAAGTCAAGTCTGGATTGCAGTACACGTCCCGCGAGCTGGAGATGAGAGACTCCTCGAGCATCTTGCAGCAGTCCAGTGACAGCCTGTCCACGGACAAGTCGTCTCCAGAGTCGCCACAACATTCATCGTCATCATCCAATCATCATCCATCACCCCAGCCTCCCAGTCCGCAGCCAAAAACGACGAGCAATCAGGCGGCGGATAGGATTAGAAAGTTGTTGAAAATGTTGGAGGTGTTTATGAAACCAACCATACAACCCGAAGCAGGTCCGCTCTTGATGTCACTATTAGAGGAGATCCGAACGGCTGATTCTGAGAGCCTAAGAGCGGTATATCGAGAATGTTCCAACGGCGAAACAGCAGCAACAGTTCAAGATGCTGATGGACATCCTTCCATCTGCGGAACTACTTCCGCTACAGAAGTCCTGGTGGACTCCATCCTCAACGACCAGCTCCCACAGTCCGAGGCTGTCGTGGCTCTGGGCATTCTGTCTCTCTCTGCCAGGCCAGATGTTCTGATTGCCAAGAAACTTCTGGATCTGACAAGAAGCAGCCAAGTTTCAAAGGACAGATATTTAAAAAGAGCTGCTTTCTTATGCTTGGGATCAGTAGCTGGAATGCTGAGAGAAGAAGGATGGAGAAGATCTCGTGAAATTTCACGCCAAGAGGAAATTGTCAAAACACTGATTTCCCAGGAATCGCGGTCACAGACTAGGAATGAATTAAAATCAAAGAAAAGAGAGTTAGAAGACTTGAAGAAGCGAGAACATAGTATCAAGACAAAAATAAAGCAGGAAATTGTGAAGGAATTACAAATGTTGATGAGGTCTACTGTTTTTGACGACAAAATACTGAGCTTCAAGACAATTGGTAACGCTGGACTTTGGGAAATGATCCCAACCATTCGAACATATATACAGGATAAATCTCAGCCGCAGGTGCTCAGAACCCAAGCTATTTACAGCTTGCGAAAACTTGCCCGTCATTACCCAGACGATATTCAGACAACGTTGCTGCCTCTTTATTTCGACCAATCAGAGAAGGAGGAGGTGCGGATTGGTTCTTACCTCGTGATGACGTTCACCGAGCCCTCCCGCCAGCTTCTGGAGATGGTGGCTCAGTCCCTCCACAGGGAGAGGAATCCCCACGTCGGAACATTCGTCTACACACATCTAGAACAAATGTCCAACAGTACTTACCCGTGCCTCATGTCCTGGGCAAAGAACGCTAGCTTTGCTATGAGATTTGCCAAGAAGTTCAGCCCCATGTATCATTACTCGAGGTTCATGCATCTTTCTGGATTTAATGAAATGCACAAGATGGGAGCAGCAGCCGAACTTGGTCTTGTTACCACCCCGGAAGAATTCATCCCACGTGCTGGTGCCGTTAATCTCCACACTTATGTTTTTGGACGTTCTGTAAACTTTGCAGAGATAGGATTCAATACAGAGGGGCTACAAACACTGGTGTCTAAACTGGTGGGTCCTCTCGGTGAACTAACAAAGGGCAAGTCACTCGTAGACGTTCTGAAACAGCGAGTAAGACGAAGCGCTGAATCCTCGCAACCTTCCGATCCTATAAGTCAGATCCACAAACAGTTGAAGGTGTCTCCAAGGACAAGTCCTACACCAAAAGGTCACATGTACATGAAAATGATGGGCAATGAACTCCAGTATATAACTCTTGATGGTACTTTGGTGGACACCCTACTTAGAGAAGGAAAGCTGTTGTCAGGTGTTTCAGAACAAGATTTGAAGACTGGACTAAACGTTGAGGTACATAGGTCAACGATGCCACTTGAAGCTGAAATAATGATTCCTTCCGAGTGTGGCCTTCCCCTGCGTCTAAAACTCCATGGAACCGCTGCTATCAAAGTAACGGGCAAAGTGGGAGTAACAGGAATGCCATCAATCTTTGAAATCAATCGTCCTGGAAAACAAGCAAAGGAACTCAGCTTTAATTTTGAGCTCAGACCAAGTGTTTTGTTTCAACTACGAGGAGAAATGGAAATGGATGCGGAGTACTTCAAAATGGGAGTTGCTTTGAAAACAATGGCGCATATGGAAACTCCACTTTCTCTTACCGCATCAGCCAATTTACCTAAGGCTAAATTTTACACGAAATTCAATATTGAAAAACTCAGTGAGAAAATTGCCAGGCTGGAAGTTTCCCCATACACATATTTCAAAGAAGATCCATCAGAAATAACCAAATATCCTTTGCCAAGAGAAACGCAAGAAATCAGTGTAGCGAAAAATGCAAAGGTTTTCCCGATGTCAATGGCTTATGGAAAACAAACTTTAGGACTTGAAATCAAACTAAGCGGGCAAGCTGTCGTTCGTGACTTTGAAATGGACGTTCCATACTATCCTATGATCGGGAAGCAAGAAATGATCGTCACTCTTTCTCCTGGAACTGATCCTCAGAAATATGTTGAGATTCAGTTTCAGTTAATGAAACGTATGTCGCAATCCAAACAACAACCAACCTCCGAGGAGAGTTCTAGTTCGACCGGTTTATTATCATGGGTCTCTAGTTTGATTGGAAGCGATCAATCCGACCAGAGCTCACCCTCCTCTTCATCATCTTCCTCTACTTCTCCCCCAAAAGACATCCGATCAAAGGATACATCTTTAAAGGATCTTCTAGAACATCTAAAAGAGTCGCAGTCTGTTCATCCCGATGGATCTGTAGTCACGCGAAACAACAGCATGGGATTAATTTTCAATGTCATCGGGATTGACCAATCTAGGTCTATTAAACGACACTTTCACATCAGCATGGCCGCTGGTATGAACCCTAGCCCAAAGACCACATCCATTCTTCTCCGGATGAATAGATCCCCTATTCCGACGATGGAAACTAAACCATGGAATATGGACGTTGCTGTCAACGTTAACTTACCAAGCAGACTCGCTGACCCGTCAGAATTGTTGTCAGACGCTTATCAAAGAGAGCTTGAGCAGCAAATAGAAGTTTACGTGAGAAGACATGGAGAATCCGACTACCACAGGTGGATTATGCTTGAAGAACCACGCTGGGAATCCTCTGTTCTTCAGAGACTTCTAAGCTTATCTGACACTCAGGAGGTCATCGATGAGGTCATGAACTCTGAACTTTCCAAATCCGAAGAGTCGGGAACCCCAGAAGACAGGAACATTATTGATCTCATTAGAAAACAAAAACAAATTCTTAAAGAAGCACGAAAGATTTGGCAAAGATCTTATGATTCCTTACGAGTGCAGGATATAAAAGCAAAGTTATCTTCCCTGATCAAAAGGTCAGAGAGTGTCAGGAAAGATCTAGAGAAGGATTCAGCATCAGTTTCAAAAAGTGAAAAATCAGACGCACTTCGCAAATACTGTGCACTACTTCAACAGCTGATTGACCAAAGATTGGACGAAGCTGTTCGTTCTTCAAGAAGGTCACTTTCATCAAAGGAAAGACAAGATATTGCAAAATCATTAGAGTCTAGCAAGGAATCTTTGAGAAAGATTTTACAACAGCAGCATCGTTCTCCTTCCAAAGTAGATTCATCTATTCACCACCTAGCTCTGTTCAAATCGATTCTTCATCGGTCAGTGAAAGTGATTCTGAAGAAATTAAAGAATCTAAGAACCCAGAACAAAAAGATAAATCCCAGCAACAACAACAGCCTTCTCAACAGTCCCAGGACACCGTGTCTAGCAATCAACCTTCCAAAGTGTCTAGTAGTTCGTCTTTGTCAAAGTCAGTGTCAGACCTTTTGCAAAAACAGAAAGATGTGGTTCAGGATATTTCCAGGTCAAAGGAATCAGAGGGATTGA 1415 723 Interval 755-736 80740439
1414 Cg_Vitellogenin_F CTCAACAGCCCTGGTGGCGG MM 10/31/2011 20 70 59.97 C.gigas Vitellogenin AB084783 ATGTTGCTTCTGCTTGCGGTCTCAACAGCCCTGGTGGCGGCAGCCGCCCAGACTCCCAGTCAAGCCTATGAAAGCAATAAGGAATACCTGTATGAGTATGAAACACAAGCACTTACCGGAATACCTATGGGGAGCACGATTTATTCCGGAATGAAAATGAAGTCCGACGTCAGGATCCAGTTCCGGTCCCGCTCGTCCGCTACCTTGAAGATGGACAAGTTGACCTTTGCAAAGATCAACGACCCTATAGAGTCGGTGGACCCGACCCAGCAGCAGGTGCCCGCGGAGATGTTCCAGCCCCTTACGGGGAGGGATGCCGAGCAGATGCTGACGGACCTGTCCAGACCTATCAACTTCAGGTACGTCCGCGGCAACGTTAAGGATATCCACCACGAAGCAGACGATCCGGAATGGTCCGTTAACGTGAAGAAAGGTCTGCTCAGTATGCTGGAGATGAACCTTGAGAAGAGGAAGGAACTCAGAAAAAGCGGCGTGATTCCGCAAGTTCTCCGTCCGCAGTCTTCTGACGAAGGTTCAATGTTCACAGTCATGGAGCCCAGCATCGTCGGGGAGTGTGAGACGCTGTACAGAATCAGTCCTTGGACCTCCACCAGTGCTAATCCATGGATGCATATCACAAAAGTCCGGAATTACCAACACTGTCTGGACAGGCCAAAGTACTTCGGCTCTATGTTCCATTTACGACAGTGCGCCGAATGTGTCAGGGAGCAGTCGGAACCGCTGAGATCCGCCTCACAGATCAGATACACCCTCCGTGGAAACATGCGACAGTTCCAGATCCAAAGCGCCATTGCAGAGAGCCAACACGTGTTCACACCGTACTCCGCCAAAGGAGGACATGTTGCTACCTATCTCAATCAGACCCTGAATTTAGTCAAAGAGGAGGATGTGAAGACCAGTCTCTCAGAGCCGCAAAGCCCAACAAAAGTCAAGTCTGGATTGCAGTACACGTCCCGCGAGCTGGAGATGAGAGACTCCTCGAGCATCTTGCAGCAGTCCAGTGACAGCCTGTCCACGGACAAGTCGTCTCCAGAGTCGCCACAACATTCATCGTCATCATCCAATCATCATCCATCACCCCAGCCTCCCAGTCCGCAGCCAAAAACGACGAGCAATCAGGCGGCGGATAGGATTAGAAAGTTGTTGAAAATGTTGGAGGTGTTTATGAAACCAACCATACAACCCGAAGCAGGTCCGCTCTTGATGTCACTATTAGAGGAGATCCGAACGGCTGATTCTGAGAGCCTAAGAGCGGTATATCGAGAATGTTCCAACGGCGAAACAGCAGCAACAGTTCAAGATGCTGATGGACATCCTTCCATCTGCGGAACTACTTCCGCTACAGAAGTCCTGGTGGACTCCATCCTCAACGACCAGCTCCCACAGTCCGAGGCTGTCGTGGCTCTGGGCATTCTGTCTCTCTCTGCCAGGCCAGATGTTCTGATTGCCAAGAAACTTCTGGATCTGACAAGAAGCAGCCAAGTTTCAAAGGACAGATATTTAAAAAGAGCTGCTTTCTTATGCTTGGGATCAGTAGCTGGAATGCTGAGAGAAGAAGGATGGAGAAGATCTCGTGAAATTTCACGCCAAGAGGAAATTGTCAAAACACTGATTTCCCAGGAATCGCGGTCACAGACTAGGAATGAATTAAAATCAAAGAAAAGAGAGTTAGAAGACTTGAAGAAGCGAGAACATAGTATCAAGACAAAAATAAAGCAGGAAATTGTGAAGGAATTACAAATGTTGATGAGGTCTACTGTTTTTGACGACAAAATACTGAGCTTCAAGACAATTGGTAACGCTGGACTTTGGGAAATGATCCCAACCATTCGAACATATATACAGGATAAATCTCAGCCGCAGGTGCTCAGAACCCAAGCTATTTACAGCTTGCGAAAACTTGCCCGTCATTACCCAGACGATATTCAGACAACGTTGCTGCCTCTTTATTTCGACCAATCAGAGAAGGAGGAGGTGCGGATTGGTTCTTACCTCGTGATGACGTTCACCGAGCCCTCCCGCCAGCTTCTGGAGATGGTGGCTCAGTCCCTCCACAGGGAGAGGAATCCCCACGTCGGAACATTCGTCTACACACATCTAGAACAAATGTCCAACAGTACTTACCCGTGCCTCATGTCCTGGGCAAAGAACGCTAGCTTTGCTATGAGATTTGCCAAGAAGTTCAGCCCCATGTATCATTACTCGAGGTTCATGCATCTTTCTGGATTTAATGAAATGCACAAGATGGGAGCAGCAGCCGAACTTGGTCTTGTTACCACCCCGGAAGAATTCATCCCACGTGCTGGTGCCGTTAATCTCCACACTTATGTTTTTGGACGTTCTGTAAACTTTGCAGAGATAGGATTCAATACAGAGGGGCTACAAACACTGGTGTCTAAACTGGTGGGTCCTCTCGGTGAACTAACAAAGGGCAAGTCACTCGTAGACGTTCTGAAACAGCGAGTAAGACGAAGCGCTGAATCCTCGCAACCTTCCGATCCTATAAGTCAGATCCACAAACAGTTGAAGGTGTCTCCAAGGACAAGTCCTACACCAAAAGGTCACATGTACATGAAAATGATGGGCAATGAACTCCAGTATATAACTCTTGATGGTACTTTGGTGGACACCCTACTTAGAGAAGGAAAGCTGTTGTCAGGTGTTTCAGAACAAGATTTGAAGACTGGACTAAACGTTGAGGTACATAGGTCAACGATGCCACTTGAAGCTGAAATAATGATTCCTTCCGAGTGTGGCCTTCCCCTGCGTCTAAAACTCCATGGAACCGCTGCTATCAAAGTAACGGGCAAAGTGGGAGTAACAGGAATGCCATCAATCTTTGAAATCAATCGTCCTGGAAAACAAGCAAAGGAACTCAGCTTTAATTTTGAGCTCAGACCAAGTGTTTTGTTTCAACTACGAGGAGAAATGGAAATGGATGCGGAGTACTTCAAAATGGGAGTTGCTTTGAAAACAATGGCGCATATGGAAACTCCACTTTCTCTTACCGCATCAGCCAATTTACCTAAGGCTAAATTTTACACGAAATTCAATATTGAAAAACTCAGTGAGAAAATTGCCAGGCTGGAAGTTTCCCCATACACATATTTCAAAGAAGATCCATCAGAAATAACCAAATATCCTTTGCCAAGAGAAACGCAAGAAATCAGTGTAGCGAAAAATGCAAAGGTTTTCCCGATGTCAATGGCTTATGGAAAACAAACTTTAGGACTTGAAATCAAACTAAGCGGGCAAGCTGTCGTTCGTGACTTTGAAATGGACGTTCCATACTATCCTATGATCGGGAAGCAAGAAATGATCGTCACTCTTTCTCCTGGAACTGATCCTCAGAAATATGTTGAGATTCAGTTTCAGTTAATGAAACGTATGTCGCAATCCAAACAACAACCAACCTCCGAGGAGAGTTCTAGTTCGACCGGTTTATTATCATGGGTCTCTAGTTTGATTGGAAGCGATCAATCCGACCAGAGCTCACCCTCCTCTTCATCATCTTCCTCTACTTCTCCCCCAAAAGACATCCGATCAAAGGATACATCTTTAAAGGATCTTCTAGAACATCTAAAAGAGTCGCAGTCTGTTCATCCCGATGGATCTGTAGTCACGCGAAACAACAGCATGGGATTAATTTTCAATGTCATCGGGATTGACCAATCTAGGTCTATTAAACGACACTTTCACATCAGCATGGCCGCTGGTATGAACCCTAGCCCAAAGACCACATCCATTCTTCTCCGGATGAATAGATCCCCTATTCCGACGATGGAAACTAAACCATGGAATATGGACGTTGCTGTCAACGTTAACTTACCAAGCAGACTCGCTGACCCGTCAGAATTGTTGTCAGACGCTTATCAAAGAGAGCTTGAGCAGCAAATAGAAGTTTACGTGAGAAGACATGGAGAATCCGACTACCACAGGTGGATTATGCTTGAAGAACCACGCTGGGAATCCTCTGTTCTTCAGAGACTTCTAAGCTTATCTGACACTCAGGAGGTCATCGATGAGGTCATGAACTCTGAACTTTCCAAATCCGAAGAGTCGGGAACCCCAGAAGACAGGAACATTATTGATCTCATTAGAAAACAAAAACAAATTCTTAAAGAAGCACGAAAGATTTGGCAAAGATCTTATGATTCCTTACGAGTGCAGGATATAAAAGCAAAGTTATCTTCCCTGATCAAAAGGTCAGAGAGTGTCAGGAAAGATCTAGAGAAGGATTCAGCATCAGTTTCAAAAAGTGAAAAATCAGACGCACTTCGCAAATACTGTGCACTACTTCAACAGCTGATTGACCAAAGATTGGACGAAGCTGTTCGTTCTTCAAGAAGGTCACTTTCATCAAAGGAAAGACAAGATATTGCAAAATCATTAGAGTCTAGCAAGGAATCTTTGAGAAAGATTTTACAACAGCAGCATCGTTCTCCTTCCAAAGTAGATTCATCTATTCACCACCTAGCTCTGTTCAAATCGATTCTTCATCGGTCAGTGAAAGTGATTCTGAAGAAATTAAAGAATCTAAGAACCCAGAACAAAAAGATAAATCCCAGCAACAACAACAGCCTTCTCAACAGTCCCAGGACACCGTGTCTAGCAATCAACCTTCCAAAGTGTCTAGTAGTTCGTCTTTGTCAAAGTCAGTGTCAGACCTTTTGCAAAAACAGAAAGATGTGGTTCAGGATATTTCCAGGTCAAAGGAATCAGAGGGATTGA 1414 723 Interval 33-52 80740440
1413 Cg_EF1a_F2 AACAAGGAGCAACGATGGGT ETS 10/28/2011 20 50 54 C. gigas elongation factor 1a AB122066 AGCAACGATGGGTAAGGAAAAGACTCACATCAACATTGTCGTCATTGGTCATGTCGACTCTGGAAAATCAACTTCCACTGGCCATCTCATTTACAAATGTGGTGGTATTGACCAGAGAACCATCCAAAAGTTCGAGAAGGAAGCTGCTGAGATGGGAAAGGGTTCTTTCAAATACGCCTGGGTGTTGGACAAACTGAAGGCAGAGCGTGAACGTGGTATCACCATTGACATTGCTCTGTGGAAGTTCGAAACCACCAAGTACCATGTCACCATTATTGATGCTCCCGGCCACAGAGATTTCATCAAGAACATGATTACAGGAACTTCACAGGCTGACTGTGCTGTGTTGATCATTGCTGCTGGTACTGGTGAATTTGAAACTGGTATCTCTGCTAACGGACAAACCCGTGAACACGCCTTGTTGGCTTTCACTTTGGGAGTAAAGCAGCTCATCATTGGTGTCAACAAAATGGACAGCACTGAACCACCATACAGTGAGGCTCGATTCAACGAAATCAAGGGTGAAGTAGAGAAGTACATCAAGAAGATTGGGTACAACCCCAAGGCTGTCCCCTTCGTCCCCATCTCTGGATGGCACGGAGATAACATGATTGAGGCTTCCACAAAGATGGAATGGTTCAAGGGATGGGCCATTGAGAGGAAAGAGGGAAATGCCAGCGGAAAGACCCTTTTGGAAGCTTTGGATTCTATCCTGCCACCAAAGAGACCAACTGACTTACCTCTTCGTCTTCCACTTCAGGATGTCTACAAGATTGGAGGTATTGGAACAGTGCCAGTTGGTAGAGTGGAAACTGGTATTATCAAACCAGGTATGGTTGTCACCTTTGCTCCACCCAACATCACCACTGAGGTAAAATCTGTGGAAATGCACCACGAATCTCTCCCAGAGGCTGTCCCTGGTGACAATGTTGGCTTCAACATCAAGAACGTGTCCGTAAAGGAAATCCGTCGTGGAAATGTCTGTGGAGACAGCAAAAATGATCCACCAAAGGGCGCCAAGAACTTCCTTGCCCAGGTCATCATCTTGAACCACCCTGGTGAGATCAAGAATGGATATGCGCCTGTCCTTGATTGCCACACTGCTCACATTGCCTGCAAGTTTGTTGAAATTAAAGAGAAATGCGATCGTCGTAGTGGAAAAGTCTTGGAAGAGGCACCAAAATGCATCAAGAACGGAGATGCTGGTATGGTCCTCATGGTTCCCAGCAAGCCTATGTGTGTTGAAGCTTTCTCTAAATATGCACCCCTGGGACGTTTTGCTGTCCGTGACATGAGGCAGACCGTGGCTGTTGGTGTCATCAAGGAGGTTGAGAAGGCTGAGCCATCACAGGGCAAAGTCACCAAGGCTGCACAGAAAGCCGGTGGAAAGAAGTGAAAGTTACTGAACATAGGAACTCTACAATCCCATCAGCTTCTATCTTGTTTTGATTTAAAGAGAATAAATGACAACGTGCCACTATTTTATTTTGTAAGACCACAGCAGGTCATTTATTGGACGATTTGGAACAATATACATCGCAAAGAAATACGTCGGAAAGAACCGATTGGATGTAGTAACAACTCTAATTATGTCAAATAAAAATGGTCATTTTAAAAAAAAAAAAAAAAAA 160-179 1412 211 designed to test presence of intron 80707129
1412 Cg_EF1a_R2 GGTGATACCACGTTCACGCT ETS 12/7/2011 20 55 54.67 C. gigas elongation factor 1a AB122066 AGCAACGATGGGTAAGGAAAAGACTCACATCAACATTGTCGTCATTGGTCATGTCGACTCTGGAAAATCAACTTCCACTGGCCATCTCATTTACAAATGTGGTGGTATTGACCAGAGAACCATCCAAAAGTTCGAGAAGGAAGCTGCTGAGATGGGAAAGGGTTCTTTCAAATACGCCTGGGTGTTGGACAAACTGAAGGCAGAGCGTGAACGTGGTATCACCATTGACATTGCTCTGTGGAAGTTCGAAACCACCAAGTACCATGTCACCATTATTGATGCTCCCGGCCACAGAGATTTCATCAAGAACATGATTACAGGAACTTCACAGGCTGACTGTGCTGTGTTGATCATTGCTGCTGGTACTGGTGAATTTGAAACTGGTATCTCTGCTAACGGACAAACCCGTGAACACGCCTTGTTGGCTTTCACTTTGGGAGTAAAGCAGCTCATCATTGGTGTCAACAAAATGGACAGCACTGAACCACCATACAGTGAGGCTCGATTCAACGAAATCAAGGGTGAAGTAGAGAAGTACATCAAGAAGATTGGGTACAACCCCAAGGCTGTCCCCTTCGTCCCCATCTCTGGATGGCACGGAGATAACATGATTGAGGCTTCCACAAAGATGGAATGGTTCAAGGGATGGGCCATTGAGAGGAAAGAGGGAAATGCCAGCGGAAAGACCCTTTTGGAAGCTTTGGATTCTATCCTGCCACCAAAGAGACCAACTGACTTACCTCTTCGTCTTCCACTTCAGGATGTCTACAAGATTGGAGGTATTGGAACAGTGCCAGTTGGTAGAGTGGAAACTGGTATTATCAAACCAGGTATGGTTGTCACCTTTGCTCCACCCAACATCACCACTGAGGTAAAATCTGTGGAAATGCACCACGAATCTCTCCCAGAGGCTGTCCCTGGTGACAATGTTGGCTTCAACATCAAGAACGTGTCCGTAAAGGAAATCCGTCGTGGAAATGTCTGTGGAGACAGCAAAAATGATCCACCAAAGGGCGCCAAGAACTTCCTTGCCCAGGTCATCATCTTGAACCACCCTGGTGAGATCAAGAATGGATATGCGCCTGTCCTTGATTGCCACACTGCTCACATTGCCTGCAAGTTTGTTGAAATTAAAGAGAAATGCGATCGTCGTAGTGGAAAAGTCTTGGAAGAGGCACCAAAATGCATCAAGAACGGAGATGCTGGTATGGTCCTCATGGTTCCCAGCAAGCCTATGTGTGTTGAAGCTTTCTCTAAATATGCACCCCTGGGACGTTTTGCTGTCCGTGACATGAGGCAGACCGTGGCTGTTGGTGTCATCAAGGAGGTTGAGAAGGCTGAGCCATCACAGGGCAAAGTCACCAAGGCTGCACAGAAAGCCGGTGGAAAGAAGTGAAAGTTACTGAACATAGGAACTCTACAATCCCATCAGCTTCTATCTTGTTTTGATTTAAAGAGAATAAATGACAACGTGCCACTATTTTATTTTGTAAGACCACAGCAGGTCATTTATTGGACGATTTGGAACAATATACATCGCAAAGAAATACGTCGGAAAGAACCGATTGGATGTAGTAACAACTCTAATTATGTCAAATAAAAATGGTCATTTTAAAAAAAAAAAAAAAAAA 370-389 1411 86 primers designed on RNA to span intron; correction to primer 1412 81588062
1411 Cg_EF1a_R AGCGTGAACGTGGTATCACC ETS 10/24/2011 20 55 54.67 C. gigas elongation factor 1a AB122066 AGCAACGATGGGTAAGGAAAAGACTCACATCAACATTGTCGTCATTGGTCATGTCGACTCTGGAAAATCAACTTCCACTGGCCATCTCATTTACAAATGTGGTGGTATTGACCAGAGAACCATCCAAAAGTTCGAGAAGGAAGCTGCTGAGATGGGAAAGGGTTCTTTCAAATACGCCTGGGTGTTGGACAAACTGAAGGCAGAGCGTGAACGTGGTATCACCATTGACATTGCTCTGTGGAAGTTCGAAACCACCAAGTACCATGTCACCATTATTGATGCTCCCGGCCACAGAGATTTCATCAAGAACATGATTACAGGAACTTCACAGGCTGACTGTGCTGTGTTGATCATTGCTGCTGGTACTGGTGAATTTGAAACTGGTATCTCTGCTAACGGACAAACCCGTGAACACGCCTTGTTGGCTTTCACTTTGGGAGTAAAGCAGCTCATCATTGGTGTCAACAAAATGGACAGCACTGAACCACCATACAGTGAGGCTCGATTCAACGAAATCAAGGGTGAAGTAGAGAAGTACATCAAGAAGATTGGGTACAACCCCAAGGCTGTCCCCTTCGTCCCCATCTCTGGATGGCACGGAGATAACATGATTGAGGCTTCCACAAAGATGGAATGGTTCAAGGGATGGGCCATTGAGAGGAAAGAGGGAAATGCCAGCGGAAAGACCCTTTTGGAAGCTTTGGATTCTATCCTGCCACCAAAGAGACCAACTGACTTACCTCTTCGTCTTCCACTTCAGGATGTCTACAAGATTGGAGGTATTGGAACAGTGCCAGTTGGTAGAGTGGAAACTGGTATTATCAAACCAGGTATGGTTGTCACCTTTGCTCCACCCAACATCACCACTGAGGTAAAATCTGTGGAAATGCACCACGAATCTCTCCCAGAGGCTGTCCCTGGTGACAATGTTGGCTTCAACATCAAGAACGTGTCCGTAAAGGAAATCCGTCGTGGAAATGTCTGTGGAGACAGCAAAAATGATCCACCAAAGGGCGCCAAGAACTTCCTTGCCCAGGTCATCATCTTGAACCACCCTGGTGAGATCAAGAATGGATATGCGCCTGTCCTTGATTGCCACACTGCTCACATTGCCTGCAAGTTTGTTGAAATTAAAGAGAAATGCGATCGTCGTAGTGGAAAAGTCTTGGAAGAGGCACCAAAATGCATCAAGAACGGAGATGCTGGTATGGTCCTCATGGTTCCCAGCAAGCCTATGTGTGTTGAAGCTTTCTCTAAATATGCACCCCTGGGACGTTTTGCTGTCCGTGACATGAGGCAGACCGTGGCTGTTGGTGTCATCAAGGAGGTTGAGAAGGCTGAGCCATCACAGGGCAAAGTCACCAAGGCTGCACAGAAAGCCGGTGGAAAGAAGTGAAAGTTACTGAACATAGGAACTCTACAATCCCATCAGCTTCTATCTTGTTTTGATTTAAAGAGAATAAATGACAACGTGCCACTATTTTATTTTGTAAGACCACAGCAGGTCATTTATTGGACGATTTGGAACAATATACATCGCAAAGAAATACGTCGGAAAGAACCGATTGGATGTAGTAACAACTCTAATTATGTCAAATAAAAATGGTCATTTTAAAAAAAAAAAAAAAAAA 370-389 1411 86 primers designed on RNA to span intron 80542578
1410 Cg_EF1a_F AGGAAGCTGCTGAGATGGGA ETS 12/7/2011 20 55 54.62 C. gigas elongation factor 1a AB122066 AGCAACGATGGGTAAGGAAAAGACTCACATCAACATTGTCGTCATTGGTCATGTCGACTCTGGAAAATCAACTTCCACTGGCCATCTCATTTACAAATGTGGTGGTATTGACCAGAGAACCATCCAAAAGTTCGAGAAGGAAGCTGCTGAGATGGGAAAGGGTTCTTTCAAATACGCCTGGGTGTTGGACAAACTGAAGGCAGAGCGTGAACGTGGTATCACCATTGACATTGCTCTGTGGAAGTTCGAAACCACCAAGTACCATGTCACCATTATTGATGCTCCCGGCCACAGAGATTTCATCAAGAACATGATTACAGGAACTTCACAGGCTGACTGTGCTGTGTTGATCATTGCTGCTGGTACTGGTGAATTTGAAACTGGTATCTCTGCTAACGGACAAACCCGTGAACACGCCTTGTTGGCTTTCACTTTGGGAGTAAAGCAGCTCATCATTGGTGTCAACAAAATGGACAGCACTGAACCACCATACAGTGAGGCTCGATTCAACGAAATCAAGGGTGAAGTAGAGAAGTACATCAAGAAGATTGGGTACAACCCCAAGGCTGTCCCCTTCGTCCCCATCTCTGGATGGCACGGAGATAACATGATTGAGGCTTCCACAAAGATGGAATGGTTCAAGGGATGGGCCATTGAGAGGAAAGAGGGAAATGCCAGCGGAAAGACCCTTTTGGAAGCTTTGGATTCTATCCTGCCACCAAAGAGACCAACTGACTTACCTCTTCGTCTTCCACTTCAGGATGTCTACAAGATTGGAGGTATTGGAACAGTGCCAGTTGGTAGAGTGGAAACTGGTATTATCAAACCAGGTATGGTTGTCACCTTTGCTCCACCCAACATCACCACTGAGGTAAAATCTGTGGAAATGCACCACGAATCTCTCCCAGAGGCTGTCCCTGGTGACAATGTTGGCTTCAACATCAAGAACGTGTCCGTAAAGGAAATCCGTCGTGGAAATGTCTGTGGAGACAGCAAAAATGATCCACCAAAGGGCGCCAAGAACTTCCTTGCCCAGGTCATCATCTTGAACCACCCTGGTGAGATCAAGAATGGATATGCGCCTGTCCTTGATTGCCACACTGCTCACATTGCCTGCAAGTTTGTTGAAATTAAAGAGAAATGCGATCGTCGTAGTGGAAAAGTCTTGGAAGAGGCACCAAAATGCATCAAGAACGGAGATGCTGGTATGGTCCTCATGGTTCCCAGCAAGCCTATGTGTGTTGAAGCTTTCTCTAAATATGCACCCCTGGGACGTTTTGCTGTCCGTGACATGAGGCAGACCGTGGCTGTTGGTGTCATCAAGGAGGTTGAGAAGGCTGAGCCATCACAGGGCAAAGTCACCAAGGCTGCACAGAAAGCCGGTGGAAAGAAGTGAAAGTTACTGAACATAGGAACTCTACAATCCCATCAGCTTCTATCTTGTTTTGATTTAAAGAGAATAAATGACAACGTGCCACTATTTTATTTTGTAAGACCACAGCAGGTCATTTATTGGACGATTTGGAACAATATACATCGCAAAGAAATACGTCGGAAAGAACCGATTGGATGTAGTAACAACTCTAATTATGTCAAATAAAAATGGTCATTTTAAAAAAAAAAAAAAAAAA 304-323 1412 86 primers designed on RNA to span intron 81588061
1409 Cg_18s_R AGAGAGGACGAACGCGGTCT ETS 10/17/2011 20 60 55.88 C. gigas 18s EF035120 GTCGTAACAAGGTTTCCGTTGGTGAACCTGCGGAAGGATCATTAACAAAAACACAGCGTCTCGTTGGCAG 803-812 + 830-839 1408 80 primers designed on RNA to span intron 80400307
1408 Cg_18s_F CTATCAATCGCGCCTTGGGC ETS 10/17/2011 20 60 55.88 C. gigas 18s EF035120 GTCGTAACAAGGTTTCCGTTGGTGAACCTGCGGAAGGATCATTAACAAAAACACAGCGTCTCGTTGGCAG 665-655 + 671-679 1409 80 primers designed on RNA to span intron 80400308
1407 Cg_MTIV_R GCAAAGCCAAGTGCTGCTGT ETS 10/17/2011 20 55 53.83 C. gigas metallothioneine IV AM265551 AGCGTTGGACAAGAAACAGTCACTGGTTACCTTTTTCTGTGCCTTTCCCCCCACAGCCACGCGACAAGGC 798-817 1406 134 primers designed on RNA to span intron 80400309
1406 Cg_MTIV_F CAGCTCACACAGTCCCTTCA ETS 10/17/2011 20 55 53.83 C. gigas metallothioneine IV AM265551 CGCGTGGAGGGGGGAGAAGAGTTACACCTCGCCGCCACGGGAGCGGCGCCTTGGGCCGTCGTAGCCGAAC 42-53 + 157-164 1407 134 primers designed on RNA to span intron 80400310
1405 Cg_Tld_R TTACAGCCCACCAAAAAGCC ETS 10/17/2011 20 50 51.78 C. gigas Toll-like protein AJ543432 AGGCTCCGTCGCCTTAAATGCAGACGAGCTCGATTGTCGGCGACCCCGCCGAGCTCTTCCCTTTCCCCTT 3457-3755 1404 199 primers designed on RNA to span intron 80400311
1404 Cg_Tld_F CAAGCAAAGCAGCTTACCGA ETS 10/17/2011 20 50 51.78 C. gigas Toll-like protein AJ543432 TCAGGGATTGGGAAAGTGCGGGGCCGCCAAACTACCGCCAGGCGTCGTCGGTCGTGGGGCCGATGTTGTA 1412-1423 + 2336-2343 1405 199 primers designed on RNA to span intron 80400312
1403 Cg_phosphogluc_R TAATCGACTTCCCTGCTCTG ETS 10/17/2011 20 50 51.78 C. gigas phosphoglucomutase AJ512213 AGGATCCTGGTATGAACGTTTCACGTATATCAATAGTTTTGGCCTAATTGGCAAAGCGGGGAGCACTCCT 1730-1749 1402 200 primers designed on RNA to span intron 80400313
1402 Cg_phosphogluc_F TGAAAATGGAGTCCAGCTCC ETS 10/17/2011 20 50 51.78 C. gigas phosphoglucomutase AJ512213 CGCGGTCGTGTCCGGCGTTCTCGTTGCGCGCCGCGACCGACCGAATTTGGCATCTTTTTTGACAACTCTA 689-698 + 1541-1550 1403 200 primers designed on RNA to span intron 80400314
1401 Cg_aspaminotrans_R ATTCACGCAGCTGTCACTGA ETS 10/17/2011 20 50 51.78 C. gigas aspartate aminotransferase AY660003 AGTGGTGGATCACTCGGCTCGGGGGTCGATGAAGAGCGCAGCCAGCTGCGTGAATTAATGTGAATTGCAG 249-268 1400 103 primers designed on RNA to span intron 80400315
1400 Cg_aspaminotrans_F AGGACTGAATCCTGCTCAAG ETS 10/17/2011 20 50 51.78 C. gigas aspartate aminotransferase AY660003 GACACATTTGAACATCGACATTCTTGAACGCACATGGCGGCCTCGGGTAACTCCCGAGGCCACGTCTGTC 128-147 1401 103 primers designed on RNA to span intron 80400316
1399 Cg_glutsyn_R ACCCCAAGGACCCTACTACT ETS 10/17/2011 20 55 53.83 C. gigas glutamine synthetase AJ564739 TGAGGGTCGGCGAAACTATCAATCGGACAAATCTTTTGTCCGCCTTGGGCCGTCGTAGCCGCATAGGCTC 1016-1023 + 1300-1311 1398 134 primers designed on RNA to span intron 80400317
1398 Cg_glutsyn_F GGCAAACCCGCAGAATCCAA ETS 10/17/2011 20 55 53.83 C. gigas glutamine synthetase AJ564739 CGTCGCCTTAAATGCAGACCGACGCAGGGTCTTGGAGCGTCGCTGGTCTCGATTCCTTTTCCCCCACTCA 738-750 + 877-883 1399 134 primers designed on RNA to span intron 80400318
1397 Cg_hsc70_R CCAACCAAACAGACGCAGAC ETS 10/17/2011 20 55 53.83 C. gigas heat shock cognate 70 AJ305315 gDNA, HS119891 RNA GCTGTCTCGAACGTCTGCTCGGTCGGATGGCGAGAGAGGACGGGGAGGGCGCGGACGGTAACGCGGTCTG 1396 135 primers designed on RNA to span intron 80400319
1396 Cg_hsc70_F GCTTATGGAGCAGCTGTCCA ETS 10/17/2011 20 55 53.83 C. gigas heat shock cognate 70 AJ305315 gDNA, HS119891 RNA GTGTACCAGAGAGCGTGCCGGAAGCCCCTCGCATACATCCCGTCGTCTCGCATTCGCTTTGGCCTTGCGG 1397 135 primers designed on RNA to span intron 80400320
1395 Ok_18s_R GTCGGGAGTGGGTAATTTGC ATT 20 O.kisutch 18s RNA AF030250 AGCATATGCTTGTCTCAAAGATTAAGCCATGCAAGTCTAAGTACACACGGCCGGTACAGTGAAACTGCGAATGGCTCATTAAATCAGTTATGGTTCCTTTGATCGCTCAAACGTTACTTGGATAACTGTGGCAATTCTAGAGCTAATACATGCAAACGAGCGCTGACCTCCGGGGATGCGTGCATTTATCAGACCCAAAACCCATGCGGCCAATCTCGGTTGCCCCGGCCGCTTTGGTGACTCTAGATACTTGGAGCCGATCGCGCGCCCTTTGTGGCGGTGACGTCTCATTCGAATGTCTGCCCTATCAACTTTCGATGGTACTTTCTGTGCCATCCATGGATGCCAACGGGTAACGGGGAATCAGGGTTCGATTCCGGAGAGGGAGCCTGAGAAACGGCTACCACATCCAAGGAAGGCAGCAGGCGCGCAAATTACCCACTCCCGACTCGGGAGGTAGTGACGAAAATAACAATACAGGACTCTTTCGAGGCCCTGTAATTGGAATGAGTACACTTTAAATCCNTTAACGAGGATCCATTGGAGGGCAAGTCTGGTGCCAGCAGCCGCGTAATTCCAGCTCCAATAGCGTATCTTAAAGTTGCTGCAGTTAAAAAGCTCGTAGTTGGATCTCGGGATCGAGCTGGCGGTCCGCGCGAGGCAGCTACCGCTGTCCCAGCCCCTGCCTCTCGGCGCCCCCTCGATGCTCTAACTGAGTGTCCCGCGGGGTCCGAAGCGTTTACTTTGAAAAAATTAGAGTGTTCAAAGCAGGCCCGGTCGCCTGAATACCGCAGCTAGGAATAATGGAATAGGACTCCGGTTCTATTTTGTGGGTTTTTCTTCTGAACTGGGGCCATGATTAAGAGGGACGGCCGGGGGCATTCGTATTGTGCCGCTAGAGGTGAAATTCTTGGACCGGCGCAAGACGACGAAAGCGAAACAGTTTGCCAATAATGTTTTCATTAATCAAGAGCGAAAGTCGGAGGTTCGAAGACGATTCAGATACCGTCGTAGTTCCGACCATAAACGATGCCAACTAGCGATCCGGCGGCGTTATTCCCATGACCGCCGGGCAGCGTCCGGAAACCAAAGTCTTTGGGTTCCGGGGGGAGTATGGTTGCAAAGCTGAAACTTAAAGGAATTGACGGAAGGGCACCACCAGGAGTGGCAGTGCGGCTTAATTTGACTCAACACGGGAAACCTCACCCGGCCCGGACACGGAAAGGATTGACAGATGATAGCTCTTTCTCGATTCTGTGGGTGGTGGTGCATGGCCGTTCTTAGTTGGTGGAGCGATTTGTCTGGTTAATTCCGATAACGAACGAGACTCCGGCATGCTAACTAGTTATGCGGCCCCGAGCGGTCGGTGTCCAACTTCTTAGAGGACAAGTGGCGTTCAGCCACACGAGATTGAGCAATAACAGGTCTGTGATGCCCTTAGATGTCCGGGGCTGCACGCGCGCCACACTGAGCGGATCAGCGTGTGTCTACCCTTGCCGAGAGGCGTGGGTAACCCGATGAACCCCACTCGTGATAGGATTGGGATTGCAATTATATCCCATGAACGAGGAATTCCCAGTAAGCGCGGGTCATAAGCTCGCGTTGATTAAGTCCCTGCCCTTTGTA 430-449 1394 278 http://jeb.biologists.org/content/207/21/3741.full 80396255
1394 Ok_18s_F GCTTTGGTGACTCTAGATAAC ATT 21 O.kisutch 18s RNA AF030250 AGCATATGCTTGTCTCAAAGATTAAGCCATGCAAGTCTAAGTACACACGGCCGGTACAGTGAAACTGCGAATGGCTCATTAAATCAGTTATGGTTCCTTTGATCGCTCAAACGTTACTTGGATAACTGTGGCAATTCTAGAGCTAATACATGCAAACGAGCGCTGACCTCCGGGGATGCGTGCATTTATCAGACCCAAAACCCATGCGGCCAATCTCGGTTGCCCCGGCCGCTTTGGTGACTCTAGATACTTGGAGCCGATCGCGCGCCCTTTGTGGCGGTGACGTCTCATTCGAATGTCTGCCCTATCAACTTTCGATGGTACTTTCTGTGCCATCCATGGATGCCAACGGGTAACGGGGAATCAGGGTTCGATTCCGGAGAGGGAGCCTGAGAAACGGCTACCACATCCAAGGAAGGCAGCAGGCGCGCAAATTACCCACTCCCGACTCGGGAGGTAGTGACGAAAATAACAATACAGGACTCTTTCGAGGCCCTGTAATTGGAATGAGTACACTTTAAATCCNTTAACGAGGATCCATTGGAGGGCAAGTCTGGTGCCAGCAGCCGCGTAATTCCAGCTCCAATAGCGTATCTTAAAGTTGCTGCAGTTAAAAAGCTCGTAGTTGGATCTCGGGATCGAGCTGGCGGTCCGCGCGAGGCAGCTACCGCTGTCCCAGCCCCTGCCTCTCGGCGCCCCCTCGATGCTCTAACTGAGTGTCCCGCGGGGTCCGAAGCGTTTACTTTGAAAAAATTAGAGTGTTCAAAGCAGGCCCGGTCGCCTGAATACCGCAGCTAGGAATAATGGAATAGGACTCCGGTTCTATTTTGTGGGTTTTTCTTCTGAACTGGGGCCATGATTAAGAGGGACGGCCGGGGGCATTCGTATTGTGCCGCTAGAGGTGAAATTCTTGGACCGGCGCAAGACGACGAAAGCGAAACAGTTTGCCAATAATGTTTTCATTAATCAAGAGCGAAAGTCGGAGGTTCGAAGACGATTCAGATACCGTCGTAGTTCCGACCATAAACGATGCCAACTAGCGATCCGGCGGCGTTATTCCCATGACCGCCGGGCAGCGTCCGGAAACCAAAGTCTTTGGGTTCCGGGGGGAGTATGGTTGCAAAGCTGAAACTTAAAGGAATTGACGGAAGGGCACCACCAGGAGTGGCAGTGCGGCTTAATTTGACTCAACACGGGAAACCTCACCCGGCCCGGACACGGAAAGGATTGACAGATGATAGCTCTTTCTCGATTCTGTGGGTGGTGGTGCATGGCCGTTCTTAGTTGGTGGAGCGATTTGTCTGGTTAATTCCGATAACGAACGAGACTCCGGCATGCTAACTAGTTATGCGGCCCCGAGCGGTCGGTGTCCAACTTCTTAGAGGACAAGTGGCGTTCAGCCACACGAGATTGAGCAATAACAGGTCTGTGATGCCCTTAGATGTCCGGGGCTGCACGCGCGCCACACTGAGCGGATCAGCGTGTGTCTACCCTTGCCGAGAGGCGTGGGTAACCCGATGAACCCCACTCGTGATAGGATTGGGATTGCAATTATATCCCATGAACGAGGAATTCCCAGTAAGCGCGGGTCATAAGCTCGCGTTGATTAAGTCCCTGCCCTTTGTA 172-191 1395 278 http://jeb.biologists.org/content/207/21/3741.full 80396256
1393 Ok_Vtg_Rdes GTTCACAAGCTTCAGCAAGTA ATT 10/10/2011 21 O.kisutch Vitellogenin AF454747.1 GCCATGAGAGCAGTAGTACTTGCACTGACTCTAGCCCTTGTGGGTAAGTACAGTTTTTCTGTCTTATACTAGTGCAGATATTATAACTAACTTCATGTAAATATAACTAAGTTATGTAAATATAGAAATGTACAATTCTGTATCTATGACATTTTTTGAAAAACATTCAGTAACATATTGTGACAATAATTTTTGTTTTATCTTGTAGCGAGTCAATCTGTTAACTTTGGTAAGTACATATTATTTTTATGGATTTTTACTTATGTTTATTAGGTAGTTTCACTTCTGCATTTTTTTCGAGTTGAATAAATTAAGTAAAACCAGTTCTCAGATCACAAGATCATCAAATATGTTTTGATTGTTATTACAGCCCCTGATTTTGAAGCCAGTAAGACCTATGTGTACAAGTATGAGGCACTGCTCCTGGGTGGTCTGCCAGAGGAGGGTCTGGCTAGAGCTGGAGTAAAAGTAATCAGCAAAGTTCTTATCAGTGCAGTTGCAGAGAATACCTACTTGCTGAAGGTATTTATTATACATGAAGTTCCCACACCAACAATATCTTAATGTAATGTCCATTACATTGACTAATACATCAATTGATATCTTCTTGTAGCTTGTGAACCCTGAGATCTTTGAGTACAGTGGTGTGTGGCCCAACGATCCTTTCGTCCCAGCTGCAAAACTCACTTCAGCCCTGGCTGCTCAGTTCTCGATTCCCATCAAGTTTGAGTATGCCAAGGGTGTTGTGGGTAAGGTACTTGCCCCCACTGCTGTCTCTGAAACAGTGCTGAATGTCCATAGAGGTATCCTGAACATTCTTCAGCTCAACATCAAGAAGACACAAAATGTCTATGAGTTGCAGGAGGTAAAACTTGTATATGTACATATAGATGCAAAACATGTTTCAGTAAGCAATGTTTGAATTCCTCACTCATGCTCTCTTTTGTGTTAGGCTGGAGCTCAGGGAGTGTGCAAGACCCACTATGTGATCAGGGAAGATGCCAAGGCAGAACGCATCCATTTGACCAAGAGCAAGGATCTCAATAACTGCCAGCAGAGAATCATGAAGGACTTTGGTCTGGCTTACACAGAGAAGTGTGTAGAGTGCCGGCAGGTATGAGCATAAGTATCTATTTTGGGGGTTGGAAAAACATAACCAGAAACACTTCACATGACAATACAACTCTGTGTTTTGTCTAAACAGAGAGGGGAGGCCCTGATGGGAGCTGCCACTTACAACTACCTCATGAAGCCCGCTGACAATGGTGCTCTGATCTTGGAGGCCACTGTTACTGAGCTCCATCAGTTCACACCATTCAATGAGATGTCAGGAGCTGCCCAAATGGAAGCAAAGTATGTTGACTGATTTGTGGTATAAAAGGAAAACATTTTCATTTTATTAAGCTTATAGGTTTAACAGTTTCCCATGAACATCCTTTCACAGACAAATGTTGACTTTCGTTGAGATCAAGAAGGC 511-522, intron, 614-622 1389 204 primer designed to span intron 3 80221349
1392 Ok_Vtg_R3 AGCTCCCATCAGGGCCTCCC ATT 10/10/2011 20 70 59.67 O.kisutch Vitellogenin AF454747.1 GCCATGAGAGCAGTAGTACTTGCACTGACTCTAGCCCTTGTGGGTAAGTACAGTTTTTCTGTCTTATACTAGTGCAGATATTATAACTAACTTCATGTAAATATAACTAAGTTATGTAAATATAGAAATGTACAATTCTGTATCTATGACATTTTTTGAAAAACATTCAGTAACATATTGTGACAATAATTTTTGTTTTATCTTGTAGCGAGTCAATCTGTTAACTTTGGTAAGTACATATTATTTTTATGGATTTTTACTTATGTTTATTAGGTAGTTTCACTTCTGCATTTTTTTCGAGTTGAATAAATTAAGTAAAACCAGTTCTCAGATCACAAGATCATCAAATATGTTTTGATTGTTATTACAGCCCCTGATTTTGAAGCCAGTAAGACCTATGTGTACAAGTATGAGGCACTGCTCCTGGGTGGTCTGCCAGAGGAGGGTCTGGCTAGAGCTGGAGTAAAAGTAATCAGCAAAGTTCTTATCAGTGCAGTTGCAGAGAATACCTACTTGCTGAAGGTATTTATTATACATGAAGTTCCCACACCAACAATATCTTAATGTAATGTCCATTACATTGACTAATACATCAATTGATATCTTCTTGTAGCTTGTGAACCCTGAGATCTTTGAGTACAGTGGTGTGTGGCCCAACGATCCTTTCGTCCCAGCTGCAAAACTCACTTCAGCCCTGGCTGCTCAGTTCTCGATTCCCATCAAGTTTGAGTATGCCAAGGGTGTTGTGGGTAAGGTACTTGCCCCCACTGCTGTCTCTGAAACAGTGCTGAATGTCCATAGAGGTATCCTGAACATTCTTCAGCTCAACATCAAGAAGACACAAAATGTCTATGAGTTGCAGGAGGTAAAACTTGTATATGTACATATAGATGCAAAACATGTTTCAGTAAGCAATGTTTGAATTCCTCACTCATGCTCTCTTTTGTGTTAGGCTGGAGCTCAGGGAGTGTGCAAGACCCACTATGTGATCAGGGAAGATGCCAAGGCAGAACGCATCCATTTGACCAAGAGCAAGGATCTCAATAACTGCCAGCAGAGAATCATGAAGGACTTTGGTCTGGCTTACACAGAGAAGTGTGTAGAGTGCCGGCAGGTATGAGCATAAGTATCTATTTTGGGGGTTGGAAAAACATAACCAGAAACACTTCACATGACAATACAACTCTGTGTTTTGTCTAAACAGAGAGGGGAGGCCCTGATGGGAGCTGCCACTTACAACTACCTCATGAAGCCCGCTGACAATGGTGCTCTGATCTTGGAGGCCACTGTTACTGAGCTCCATCAGTTCACACCATTCAATGAGATGTCAGGAGCTGCCCAAATGGAAGCAAAGTATGTTGACTGATTTGTGGTATAAAAGGAAAACATTTTCATTTTATTAAGCTTATAGGTTTAACAGTTTCCCATGAACATCCTTTCACAGACAAATGTTGACTTTCGTTGAGATCAAGAAGGC 1214-1233 1391 276 80221350
1391 Ok_Vtg_F3 GCTGGAGCTCAGGGAGTGTGC ATT 10/10/2011 21 66.67 59.45 O.kisutch Vitellogenin AF454747.1 GCCATGAGAGCAGTAGTACTTGCACTGACTCTAGCCCTTGTGGGTAAGTACAGTTTTTCTGTCTTATACTAGTGCAGATATTATAACTAACTTCATGTAAATATAACTAAGTTATGTAAATATAGAAATGTACAATTCTGTATCTATGACATTTTTTGAAAAACATTCAGTAACATATTGTGACAATAATTTTTGTTTTATCTTGTAGCGAGTCAATCTGTTAACTTTGGTAAGTACATATTATTTTTATGGATTTTTACTTATGTTTATTAGGTAGTTTCACTTCTGCATTTTTTTCGAGTTGAATAAATTAAGTAAAACCAGTTCTCAGATCACAAGATCATCAAATATGTTTTGATTGTTATTACAGCCCCTGATTTTGAAGCCAGTAAGACCTATGTGTACAAGTATGAGGCACTGCTCCTGGGTGGTCTGCCAGAGGAGGGTCTGGCTAGAGCTGGAGTAAAAGTAATCAGCAAAGTTCTTATCAGTGCAGTTGCAGAGAATACCTACTTGCTGAAGGTATTTATTATACATGAAGTTCCCACACCAACAATATCTTAATGTAATGTCCATTACATTGACTAATACATCAATTGATATCTTCTTGTAGCTTGTGAACCCTGAGATCTTTGAGTACAGTGGTGTGTGGCCCAACGATCCTTTCGTCCCAGCTGCAAAACTCACTTCAGCCCTGGCTGCTCAGTTCTCGATTCCCATCAAGTTTGAGTATGCCAAGGGTGTTGTGGGTAAGGTACTTGCCCCCACTGCTGTCTCTGAAACAGTGCTGAATGTCCATAGAGGTATCCTGAACATTCTTCAGCTCAACATCAAGAAGACACAAAATGTCTATGAGTTGCAGGAGGTAAAACTTGTATATGTACATATAGATGCAAAACATGTTTCAGTAAGCAATGTTTGAATTCCTCACTCATGCTCTCTTTTGTGTTAGGCTGGAGCTCAGGGAGTGTGCAAGACCCACTATGTGATCAGGGAAGATGCCAAGGCAGAACGCATCCATTTGACCAAGAGCAAGGATCTCAATAACTGCCAGCAGAGAATCATGAAGGACTTTGGTCTGGCTTACACAGAGAAGTGTGTAGAGTGCCGGCAGGTATGAGCATAAGTATCTATTTTGGGGGTTGGAAAAACATAACCAGAAACACTTCACATGACAATACAACTCTGTGTTTTGTCTAAACAGAGAGGGGAGGCCCTGATGGGAGCTGCCACTTACAACTACCTCATGAAGCCCGCTGACAATGGTGCTCTGATCTTGGAGGCCACTGTTACTGAGCTCCATCAGTTCACACCATTCAATGAGATGTCAGGAGCTGCCCAAATGGAAGCAAAGTATGTTGACTGATTTGTGGTATAAAAGGAAAACATTTTCATTTTATTAAGCTTATAGGTTTAACAGTTTCCCATGAACATCCTTTCACAGACAAATGTTGACTTTCGTTGAGATCAAGAAGGC 1000-1020 1392 276 80221351
1390 Ok_Vtg_R1 CGTTGGGCCACACACCACTGT ATT 10/10/2011 21 61.9 59.78 O.kisutch Vitellogenin AF454747.1 GCCATGAGAGCAGTAGTACTTGCACTGACTCTAGCCCTTGTGGGTAAGTACAGTTTTTCTGTCTTATACTAGTGCAGATATTATAACTAACTTCATGTAAATATAACTAAGTTATGTAAATATAGAAATGTACAATTCTGTATCTATGACATTTTTTGAAAAACATTCAGTAACATATTGTGACAATAATTTTTGTTTTATCTTGTAGCGAGTCAATCTGTTAACTTTGGTAAGTACATATTATTTTTATGGATTTTTACTTATGTTTATTAGGTAGTTTCACTTCTGCATTTTTTTCGAGTTGAATAAATTAAGTAAAACCAGTTCTCAGATCACAAGATCATCAAATATGTTTTGATTGTTATTACAGCCCCTGATTTTGAAGCCAGTAAGACCTATGTGTACAAGTATGAGGCACTGCTCCTGGGTGGTCTGCCAGAGGAGGGTCTGGCTAGAGCTGGAGTAAAAGTAATCAGCAAAGTTCTTATCAGTGCAGTTGCAGAGAATACCTACTTGCTGAAGGTATTTATTATACATGAAGTTCCCACACCAACAATATCTTAATGTAATGTCCATTACATTGACTAATACATCAATTGATATCTTCTTGTAGCTTGTGAACCCTGAGATCTTTGAGTACAGTGGTGTGTGGCCCAACGATCCTTTCGTCCCAGCTGCAAAACTCACTTCAGCCCTGGCTGCTCAGTTCTCGATTCCCATCAAGTTTGAGTATGCCAAGGGTGTTGTGGGTAAGGTACTTGCCCCCACTGCTGTCTCTGAAACAGTGCTGAATGTCCATAGAGGTATCCTGAACATTCTTCAGCTCAACATCAAGAAGACACAAAATGTCTATGAGTTGCAGGAGGTAAAACTTGTATATGTACATATAGATGCAAAACATGTTTCAGTAAGCAATGTTTGAATTCCTCACTCATGCTCTCTTTTGTGTTAGGCTGGAGCTCAGGGAGTGTGCAAGACCCACTATGTGATCAGGGAAGATGCCAAGGCAGAACGCATCCATTTGACCAAGAGCAAGGATCTCAATAACTGCCAGCAGAGAATCATGAAGGACTTTGGTCTGGCTTACACAGAGAAGTGTGTAGAGTGCCGGCAGGTATGAGCATAAGTATCTATTTTGGGGGTTGGAAAAACATAACCAGAAACACTTCACATGACAATACAACTCTGTGTTTTGTCTAAACAGAGAGGGGAGGCCCTGATGGGAGCTGCCACTTACAACTACCTCATGAAGCCCGCTGACAATGGTGCTCTGATCTTGGAGGCCACTGTTACTGAGCTCCATCAGTTCACACCATTCAATGAGATGTCAGGAGCTGCCCAAATGGAAGCAAAGTATGTTGACTGATTTGTGGTATAAAAGGAAAACATTTTCATTTTATTAAGCTTATAGGTTTAACAGTTTCCCATGAACATCCTTTCACAGACAAATGTTGACTTTCGTTGAGATCAAGAAGGC 640-660 1389 241 80221352
1389 Ok_Vtg_F1 TGCTCCTGGGTGGTCTGCCA ATT 10/10/2011 20 65 59.75 O.kisutch Vitellogenin AF454747.1 GCCATGAGAGCAGTAGTACTTGCACTGACTCTAGCCCTTGTGGGTAAGTACAGTTTTTCTGTCTTATACTAGTGCAGATATTATAACTAACTTCATGTAAATATAACTAAGTTATGTAAATATAGAAATGTACAATTCTGTATCTATGACATTTTTTGAAAAACATTCAGTAACATATTGTGACAATAATTTTTGTTTTATCTTGTAGCGAGTCAATCTGTTAACTTTGGTAAGTACATATTATTTTTATGGATTTTTACTTATGTTTATTAGGTAGTTTCACTTCTGCATTTTTTTCGAGTTGAATAAATTAAGTAAAACCAGTTCTCAGATCACAAGATCATCAAATATGTTTTGATTGTTATTACAGCCCCTGATTTTGAAGCCAGTAAGACCTATGTGTACAAGTATGAGGCACTGCTCCTGGGTGGTCTGCCAGAGGAGGGTCTGGCTAGAGCTGGAGTAAAAGTAATCAGCAAAGTTCTTATCAGTGCAGTTGCAGAGAATACCTACTTGCTGAAGGTATTTATTATACATGAAGTTCCCACACCAACAATATCTTAATGTAATGTCCATTACATTGACTAATACATCAATTGATATCTTCTTGTAGCTTGTGAACCCTGAGATCTTTGAGTACAGTGGTGTGTGGCCCAACGATCCTTTCGTCCCAGCTGCAAAACTCACTTCAGCCCTGGCTGCTCAGTTCTCGATTCCCATCAAGTTTGAGTATGCCAAGGGTGTTGTGGGTAAGGTACTTGCCCCCACTGCTGTCTCTGAAACAGTGCTGAATGTCCATAGAGGTATCCTGAACATTCTTCAGCTCAACATCAAGAAGACACAAAATGTCTATGAGTTGCAGGAGGTAAAACTTGTATATGTACATATAGATGCAAAACATGTTTCAGTAAGCAATGTTTGAATTCCTCACTCATGCTCTCTTTTGTGTTAGGCTGGAGCTCAGGGAGTGTGCAAGACCCACTATGTGATCAGGGAAGATGCCAAGGCAGAACGCATCCATTTGACCAAGAGCAAGGATCTCAATAACTGCCAGCAGAGAATCATGAAGGACTTTGGTCTGGCTTACACAGAGAAGTGTGTAGAGTGCCGGCAGGTATGAGCATAAGTATCTATTTTGGGGGTTGGAAAAACATAACCAGAAACACTTCACATGACAATACAACTCTGTGTTTTGTCTAAACAGAGAGGGGAGGCCCTGATGGGAGCTGCCACTTACAACTACCTCATGAAGCCCGCTGACAATGGTGCTCTGATCTTGGAGGCCACTGTTACTGAGCTCCATCAGTTCACACCATTCAATGAGATGTCAGGAGCTGCCCAAATGGAAGCAAAGTATGTTGACTGATTTGTGGTATAAAAGGAAAACATTTTCATTTTATTAAGCTTATAGGTTTAACAGTTTCCCATGAACATCCTTTCACAGACAAATGTTGACTTTCGTTGAGATCAAGAAGGC 413-432 1390 241 80221353
1388 Cg_IMSP5_R ATGTGGACCTGATGGCAGAG ETS 9/14/2011 20 55 53.83 C. gigas IMSP-5 HS208448 CCCCCCCTCGAAGGATCAGGCGCCTTATGGCCTTTTTTTTTTTTTTTGGAAATTTTCTTTTTTTTTATTATCAAAATAACAACAAAACAAACAAAAATACTGAATTCTTTGGATCAATACACTTACACGTCTGTCATTGTTATTTCACATAATCATGAAGGAATTTGTACATTAGAGTATTAAGTGTTATAGTTGCAAACATTAAGTGTTCTTGTTTAATTACAACCAATTTCATTTGGACTGCAATTCTTTCTACGAGGATATTGAGAGCTTTTCCTGAAGAAATACTTAGGAAGTGACAAAGGCTTAACCTGACAACCTGGTCCTTTCCCATCTGGGCCACAACCATTTGCAGAATAGACATTTGATCCCGACACCACTTGACCATACGACGACAGCGTGCCGGCACTGGATACACTGTTACAACCTGGTCCTTTTCCGTCTGGCCCACATCCGTTTCCGTTACCATTGCCATTTCCATAGCCATTGCCATTACCATTGCCATTGCCGTTACCATTGCCGTTACCATTGCCATTTCCGTATCCATAGTTGCCATTTCCATTATTTTCATTTCCACATCCTGGGTCCTCTGCCATCAGGTCCACATCCGTTTCCGTTACCATTGCCATTTCCATTACCATTGCCGTTACCATTGCCATTTC 1387 102 79706319
1387 Cg_IMSP5_F CGTTTCCGTTACCATTGCCA ETS 9/14/2011 20 50 51.78 C. gigas IMSP-5 HS208448 CCCCCCCTCGAAGGATCAGGCGCCTTATGGCCTTTTTTTTTTTTTTTGGAAATTTTCTTTTTTTTTATTATCAAAATAACAACAAAACAAACAAAAATACTGAATTCTTTGGATCAATACACTTACACGTCTGTCATTGTTATTTCACATAATCATGAAGGAATTTGTACATTAGAGTATTAAGTGTTATAGTTGCAAACATTAAGTGTTCTTGTTTAATTACAACCAATTTCATTTGGACTGCAATTCTTTCTACGAGGATATTGAGAGCTTTTCCTGAAGAAATACTTAGGAAGTGACAAAGGCTTAACCTGACAACCTGGTCCTTTCCCATCTGGGCCACAACCATTTGCAGAATAGACATTTGATCCCGACACCACTTGACCATACGACGACAGCGTGCCGGCACTGGATACACTGTTACAACCTGGTCCTTTTCCGTCTGGCCCACATCCGTTTCCGTTACCATTGCCATTTCCATAGCCATTGCCATTACCATTGCCATTGCCGTTACCATTGCCGTTACCATTGCCATTTCCGTATCCATAGTTGCCATTTCCATTATTTTCATTTCCACATCCTGGGTCCTCTGCCATCAGGTCCACATCCGTTTCCGTTACCATTGCCATTTCCATTACCATTGCCGTTACCATTGCCATTTC 1388 102 primer designed to amplify only cDNA; shell matrix protein 79706320
1386 Cg_ATPsynthase_R CCAAAGACGACAACACCAAC ETS 9/14/2011 20 50 51.78 C. gigas ATP synthase EE677774 TGCGACACTGCAGGAGGACTTCTCCCGTGAAACATGTTAACAGCACGATTTGCAGCAAATTTGTCAAGGCATATCCCAAGACTTGCCACCCAGGTGAGCAAAAATGCGTGGGCAGCCGGATGTGTAGCTTCTAAAAACTTCTCAACAACACCTTGGAAAAATGCTGCTGGTGGTGCAGCTGAAGTGTCTTCAATCTTGGAGGAGAAAATTCTGGGGGCCTCTTCCCAATCAAATCTGGAAGAAACAGGAAGAGTGCTGTCCATTGGAGATGGTATTGCTCGTGTCTATGGATTGAAAAATATCCAAGCAGAAGAAATGGTGGAATTCTCCAGTGGATTAAAGGGTATGGCCTTGAACTTGGAGAGGGACAATGTTGGTGTTGTCGTCTTTGGTAATGACAAATTGATCAAGGAGGGAGATGTAGTCAAAAGGACAGGCGCCATTGTGGATGTGCCAGTTGGAAGAGAAATGCTCGGCCGTGTAGTTGATGCTTTAGGGAACCCTATTGATGGAAGGGGACCTGTCAACACTGGTGGACGTGCTCGTGTGGGAGTGAAAGCTCCTGGTATCATTCCACGTATCTCTGTAAAGGAACCTATGCAGACTGGAATCAAGGCTGTAGATAGTTTGGC 373-392 1385 105 79706321
1385 Cg_ATPsynthase_F AGAGTGCTGTCCATTGGAGA ETS 9/14/2011 20 50 51.78 C. gigas ATP synthase EE677774 TGCGACACTGCAGGAGGACTTCTCCCGTGAAACATGTTAACAGCACGATTTGCAGCAAATTTGTCAAGGCATATCCCAAGACTTGCCACCCAGGTGAGCAAAAATGCGTGGGCAGCCGGATGTGTAGCTTCTAAAAACTTCTCAACAACACCTTGGAAAAATGCTGCTGGTGGTGCAGCTGAAGTGTCTTCAATCTTGGAGGAGAAAATTCTGGGGGCCTCTTCCCAATCAAATCTGGAAGAAACAGGAAGAGTGCTGTCCATTGGAGATGGTATTGCTCGTGTCTATGGATTGAAAAATATCCAAGCAGAAGAAATGGTGGAATTCTCCAGTGGATTAAAGGGTATGGCCTTGAACTTGGAGAGGGACAATGTTGGTGTTGTCGTCTTTGGTAATGACAAATTGATCAAGGAGGGAGATGTAGTCAAAAGGACAGGCGCCATTGTGGATGTGCCAGTTGGAAGAGAAATGCTCGGCCGTGTAGTTGATGCTTTAGGGAACCCTATTGATGGAAGGGGACCTGTCAACACTGGTGGACGTGCTCGTGTGGGAGTGAAAGCTCCTGGTATCATTCCACGTATCTCTGTAAAGGAACCTATGCAGACTGGAATCAAGGCTGTAGATAGTTTGGC 250-269 1386 105 primer designed to amplify only cDNA 79706322
1384 Cg_citratesynthase_R CTGGGATACGATGAGCCCGA ETS 9/14/2011 20 60 55.88 C. gigas citrate synthase EE677716 ACCCAGGAACCACCTTTCCTGACTGTAGCGTGTTCCAGACAAAGTCACGGAGTTTTTCGTCGGACACAGAGTCTCCCAATTCTCTCTGGACCTGGGTCAACCAGACCAGGACTTCCTGATTGGCCAGTCCATGGAGCGGTCCAGCGAGGCCATTCATTCCCCCGGCAAAGCTGATGTAGGGGTCAGAGAGGGCACTACCGATCAGGTGGGTGGTGTGGGCACTCACATTACCCCCCTCGTGGTCACTGTGAATGGTGAGGTAAAGACGCATGAGTTCAGTGAAATCGGGCTCATCGTATCCCAGCATGCTTGTGAAGTTGTAGCTCCAGTCTTTGTCCATGTCTACAACACCGACGGAGGTCCCGGCACGGT 285-304 1383 79706323
1383 Cg_citratesynthase_F CAGCGAGGCCATTCATTCCC ETS 9/14/2011 20 60 55.88 C. gigas citrate synthase EE677716 ACCCAGGAACCACCTTTCCTGACTGTAGCGTGTTCCAGACAAAGTCACGGAGTTTTTCGTCGGACACAGAGTCTCCCAATTCTCTCTGGACCTGGGTCAACCAGACCAGGACTTCCTGATTGGCCAGTCCATGGAGCGGTCCAGCGAGGCCATTCATTCCCCCGGCAAAGCTGATGTAGGGGTCAGAGAGGGCACTACCGATCAGGTGGGTGGTGTGGGCACTCACATTACCCCCCTCGTGGTCACTGTGAATGGTGAGGTAAAGACGCATGAGTTCAGTGAAATCGGGCTCATCGTATCCCAGCATGCTTGTGAAGTTGTAGCTCCAGTCTTTGTCCATGTCTACAACACCGACGGAGGTCCCGGCACGGT 142-161 1384 125 primer designed to amplify only cDNA 79706324
1382 Cg_Prx6_R CTCGGGTGTTGCGACTTTTT ETS 9/14/2011 20 50 51.78 C. gigas peroxiredoxin 6 AM265552 AGTATATTCCATAGCAAGCGACAAGACTCAGTTCATAATGGTGAATCTTGGAGATACTTTCCCAAACTTTGAGGCTGACACAACAATTGGAAAGATTAAATTCCATGACTTTATTGGGGACAGGTAAGTTATGCAATGACGGGGAGGATGTACACTTATTACGCAATTGCCACTATCGGTTGTAACAATGATGAGCTCAACTTGTGCACACTAGTGTAAAGTAAGAATAAGTATTTTTTTTAAAGTAAGCAGTGCATGTAATATTGACCGGGTAATTATGTAATCCTTACTAAACGTCCTACATTGCGACACGCGAATTTAAATGCAATTTTTAGATTTATCTCCACTGCAGAAACGGACCACAGGTTCTGCACGGATTATTGCTGCGACTAGCTGGGAGATTATGTAACGAATGGAAATATGTTACTTCAGTATTGATTTTTGTGTTTTAAAAAGCGTTTATCTTGTCTCGTTGTAATTAATTAATAACACTGTACGAGACGGGTAACTTAGAAAAGGTAAACAATTAATTTGGACTTGGAGTGCAATAATAGAAATGGCTGCCGTGTATCGTGTTGTTTTGGTTTTTTTTTTCAATGGAGAGACAGACTAAACAAACTTCAAGTTAACTCAACCAGGCATTCCAAATAAGTGTGTAACTGATAACATTTAATATTGATCGACTGCGGCCCGTAATCTATATGAATCTATATATATTTTATTAAATATAAAGCCTCCACCCCACCTATCCATATAGCAATTCTTTTCAAAATGATCAAAATGGACAAAAAACACGAACGTCACGCAATAATAATTCCTACATATTACAGAAAGTAGGCCAACGTGATGTACCTGAACAATTACTATAAAGAGAATGCAAGCATTCCACGTATATTTCTTTGTATTTGTCGTTTCAGTTGGTGCATCCTGTTTTCCCACCCCGCGGATTACACCCCTGTCTGCACGACCGAGCTGGGGAAATGCGTGGAGCTGGAGCCAGAGTTCAAGAAGAGGGGGGTTAAGATGATCGCCCTGTCCTGTGATGACGTCCCCAGTCATGAGGGGTGGTCAAAGGTAAAGCTAGGACTAAGATCATTCATTTTGACCTACTTTGAAAGTACCGTAGATACGCATGTATAGACCCATCTCCGGCTCTTATATTTAAAATGAAACGAAATGTCTCCGGCCGTATAGATTAATTTTGGTGTAAATTGCCTGAAACGAAGGATGGCAAAAGTGTGCGTTCACAACATTTACAACCGAAAGCAAATTTAAACTCACGAGAAAGGAATGCGAASGAAAAACATTTTATTTCTATTTTTAAAAAAAGTACAATATACGAGAATAAAGCGAAAATGTTACGTACAATTAAAGCACACTTTCAGATTGCAAAACTTTAAATTGCAGAACCATTTAGTTTTGACAATTCTAGAGTGAATTCTTTTTATTGATTGTTAGGAAATTCTCGATCTATACTACCCCGATGCCATTTTTTTCCAGTGAAATTGATACGCGTATTTACCACAATTCGTAGGTCTATCCATTACCCTGTTTTTAGGTCACCGATCTTAGGTAAGACCTGTAGATCCGGACTTCAAGTCCACACAAATGACCTTGAATATGGTGGAAAACCACTATCATGTTCGATGACTAAAGCGAATGACGAGTACTATACTGTATCAGTCGCACTAACAACTTTGGGTGCTTGGCGTACTGGGTTTTATCGGATTGCTTAAGGAGGTATAGGACACCTCCATGTTGTGACTACTTTCTGTCGAAATCAACAAAAACAAAATATACATAACTTTATACATTATTTAAAAAAGCCGTGTCAGCTACTGACATGCAACTGATGAATTCGATACTTTTGTGGCTTTTACATATTTTTTTTTCCCGTTATAACAATTTTCAAAATGCATTTCACTGTAAAATATCAATACATACTCAATACTTTAAAACTATTAATCTATTTGAAATATGACGTAACTCCGTTCCCATATCAACTTATACACGTTTTCTGTCAAACGGTTACAAGTATACAAGATGTACAGAATCAAAATGATAAAATGTCTGCTCATTTTTTTTTTCAGGATATCATAGATTACGTCAAATGCTCGTCAGACAAACTCCCATACCCCATCATTTCCGACAAAAGCCGAGATTTGGCCGTAAAACTGGGCATGGTTGATCCAGCCGAAAAGGACAATGCAGGCCTTCCACTTACTTGTCGTGCAGTAAGTATATATGTCGTGCTACAAGCGCATTTAAGTCGTGCAATAAGTGCATATGTCGTGTAATAACTTAATATATCGTGCAGTAAGTGAACATTATCTGCAGTATTAAGTTCACATGTGTTGGATACTCCGGAAATTACTTTTAAATATTAGTCTACATGTATATGATTACGGACATCTGATGAATAGGGTTCTTTGAATCCGCCTCTGATCTTTTTACCTATAATGTCACATATATCACAAGGTGAATGGCTCGATATGAAGAACAATGTCTTTATATCATAAACATGTTATCATGTAAACGTATAGTACCATGTACGTGTGTCATTCAAAATACCATTACAAGCAGTACACTGTGTATGCCGTTCAATCCTTTATATAAAGATTTTTGAATTTTATTTTTTCCTATATTAAAATGTCGTATGACCCTATTTGAAACAAAATCTTGCAATTGGACGGCGTGTAATTGCAGTAGCAATTTCTCGGAAAAGCCCAAAATTTTTCGATAGAAATATCTGATAATCTTACTCTTACTTTGTAGTCTCCTTAGCATTTTAGTTTCTAGCACTTGTCCCAAAAAAAAAATCGAGATTAAAATCACGTGTTGTGCGTAGAAGCAACAAAATTGAAATGTTTGTAAATATAATGATTAAATTATATGAATTAAAAAAAAATACCCCACACACATATGAATTGTAAACTGAATTTGAATTGCAGGTATTCATCATTGGCCCCGATAAGAAACTGAAACTGTCAATGCTTTACCCAGCAACCACTGGCCGAAATTTCGCGTGAGTTATGAAGACATTTAGAGTTGAAAATCCATGAATTAAAATGTATTCATATTACAAGGAATATTTTAAACTTTATTTCTAGTAGTCCAAAGTTTTTTTTTTCTATACAGGAATTTGTAAGGTCATGCTTTAATTAAGTACACAATGTCAAATGCTTTCAGTGAAATTTTGAGAGTCATCGATTCCCTCCAGCTGACAATGAACAAAAAAGTCGCAACACCCGAGGGATGGCAGGTTTGTGTGCTGCATACATTTTTAACTTGTCTTGGTAAATGTAATTGAAAGTTATAGTTTATTTAATGAAAATCGTCTCTAAATTTCAGCAAGGAGGCAAGTGTATGGTCTTACCCTCCATCCCCCAAGAGGGCATAGAAAAGGTGTTCCCTAAGGGTGTCACCGTCCAGCCCGTACCCTCGGGCAAGGCCTACTTGAGGTTCACCCCACAGCCAGAGTAAATAGATTTGGCTTCCATAAAGACCATTCTGGAAAACAGAAAAATAATTCGTGTATTTGGACATTATACCATGTACGCAGTATGTAACAACGCGATGCTTTCAGTTGTATTGTTCAAATCATGTATTTTTGTTATGAATGGAAATAATTTTTGTTCATTAAATTTCATAT 3234 1381 103 79706325
1381 Cg_Prx6_F GCAGTATTCATCATTGGCCC ETS 9/14/2011 20 50 51.78 C. gigas peroxiredoxin 6 AM265552 AGTATATTCCATAGCAAGCGACAAGACTCAGTTCATAATGGTGAATCTTGGAGATACTTTCCCAAACTTTGAGGCTGACACAACAATTGGAAAGATTAAATTCCATGACTTTATTGGGGACAGGTAAGTTATGCAATGACGGGGAGGATGTACACTTATTACGCAATTGCCACTATCGGTTGTAACAATGATGAGCTCAACTTGTGCACACTAGTGTAAAGTAAGAATAAGTATTTTTTTTAAAGTAAGCAGTGCATGTAATATTGACCGGGTAATTATGTAATCCTTACTAAACGTCCTACATTGCGACACGCGAATTTAAATGCAATTTTTAGATTTATCTCCACTGCAGAAACGGACCACAGGTTCTGCACGGATTATTGCTGCGACTAGCTGGGAGATTATGTAACGAATGGAAATATGTTACTTCAGTATTGATTTTTGTGTTTTAAAAAGCGTTTATCTTGTCTCGTTGTAATTAATTAATAACACTGTACGAGACGGGTAACTTAGAAAAGGTAAACAATTAATTTGGACTTGGAGTGCAATAATAGAAATGGCTGCCGTGTATCGTGTTGTTTTGGTTTTTTTTTTCAATGGAGAGACAGACTAAACAAACTTCAAGTTAACTCAACCAGGCATTCCAAATAAGTGTGTAACTGATAACATTTAATATTGATCGACTGCGGCCCGTAATCTATATGAATCTATATATATTTTATTAAATATAAAGCCTCCACCCCACCTATCCATATAGCAATTCTTTTCAAAATGATCAAAATGGACAAAAAACACGAACGTCACGCAATAATAATTCCTACATATTACAGAAAGTAGGCCAACGTGATGTACCTGAACAATTACTATAAAGAGAATGCAAGCATTCCACGTATATTTCTTTGTATTTGTCGTTTCAGTTGGTGCATCCTGTTTTCCCACCCCGCGGATTACACCCCTGTCTGCACGACCGAGCTGGGGAAATGCGTGGAGCTGGAGCCAGAGTTCAAGAAGAGGGGGGTTAAGATGATCGCCCTGTCCTGTGATGACGTCCCCAGTCATGAGGGGTGGTCAAAGGTAAAGCTAGGACTAAGATCATTCATTTTGACCTACTTTGAAAGTACCGTAGATACGCATGTATAGACCCATCTCCGGCTCTTATATTTAAAATGAAACGAAATGTCTCCGGCCGTATAGATTAATTTTGGTGTAAATTGCCTGAAACGAAGGATGGCAAAAGTGTGCGTTCACAACATTTACAACCGAAAGCAAATTTAAACTCACGAGAAAGGAATGCGAASGAAAAACATTTTATTTCTATTTTTAAAAAAAGTACAATATACGAGAATAAAGCGAAAATGTTACGTACAATTAAAGCACACTTTCAGATTGCAAAACTTTAAATTGCAGAACCATTTAGTTTTGACAATTCTAGAGTGAATTCTTTTTATTGATTGTTAGGAAATTCTCGATCTATACTACCCCGATGCCATTTTTTTCCAGTGAAATTGATACGCGTATTTACCACAATTCGTAGGTCTATCCATTACCCTGTTTTTAGGTCACCGATCTTAGGTAAGACCTGTAGATCCGGACTTCAAGTCCACACAAATGACCTTGAATATGGTGGAAAACCACTATCATGTTCGATGACTAAAGCGAATGACGAGTACTATACTGTATCAGTCGCACTAACAACTTTGGGTGCTTGGCGTACTGGGTTTTATCGGATTGCTTAAGGAGGTATAGGACACCTCCATGTTGTGACTACTTTCTGTCGAAATCAACAAAAACAAAATATACATAACTTTATACATTATTTAAAAAAGCCGTGTCAGCTACTGACATGCAACTGATGAATTCGATACTTTTGTGGCTTTTACATATTTTTTTTTCCCGTTATAACAATTTTCAAAATGCATTTCACTGTAAAATATCAATACATACTCAATACTTTAAAACTATTAATCTATTTGAAATATGACGTAACTCCGTTCCCATATCAACTTATACACGTTTTCTGTCAAACGGTTACAAGTATACAAGATGTACAGAATCAAAATGATAAAATGTCTGCTCATTTTTTTTTTCAGGATATCATAGATTACGTCAAATGCTCGTCAGACAAACTCCCATACCCCATCATTTCCGACAAAAGCCGAGATTTGGCCGTAAAACTGGGCATGGTTGATCCAGCCGAAAAGGACAATGCAGGCCTTCCACTTACTTGTCGTGCAGTAAGTATATATGTCGTGCTACAAGCGCATTTAAGTCGTGCAATAAGTGCATATGTCGTGTAATAACTTAATATATCGTGCAGTAAGTGAACATTATCTGCAGTATTAAGTTCACATGTGTTGGATACTCCGGAAATTACTTTTAAATATTAGTCTACATGTATATGATTACGGACATCTGATGAATAGGGTTCTTTGAATCCGCCTCTGATCTTTTTACCTATAATGTCACATATATCACAAGGTGAATGGCTCGATATGAAGAACAATGTCTTTATATCATAAACATGTTATCATGTAAACGTATAGTACCATGTACGTGTGTCATTCAAAATACCATTACAAGCAGTACACTGTGTATGCCGTTCAATCCTTTATATAAAGATTTTTGAATTTTATTTTTTCCTATATTAAAATGTCGTATGACCCTATTTGAAACAAAATCTTGCAATTGGACGGCGTGTAATTGCAGTAGCAATTTCTCGGAAAAGCCCAAAATTTTTCGATAGAAATATCTGATAATCTTACTCTTACTTTGTAGTCTCCTTAGCATTTTAGTTTCTAGCACTTGTCCCAAAAAAAAAATCGAGATTAAAATCACGTGTTGTGCGTAGAAGCAACAAAATTGAAATGTTTGTAAATATAATGATTAAATTATATGAATTAAAAAAAAATACCCCACACACATATGAATTGTAAACTGAATTTGAATTGCAGGTATTCATCATTGGCCCCGATAAGAAACTGAAACTGTCAATGCTTTACCCAGCAACCACTGGCCGAAATTTCGCGTGAGTTATGAAGACATTTAGAGTTGAAAATCCATGAATTAAAATGTATTCATATTACAAGGAATATTTTAAACTTTATTTCTAGTAGTCCAAAGTTTTTTTTTTCTATACAGGAATTTGTAAGGTCATGCTTTAATTAAGTACACAATGTCAAATGCTTTCAGTGAAATTTTGAGAGTCATCGATTCCCTCCAGCTGACAATGAACAAAAAAGTCGCAACACCCGAGGGATGGCAGGTTTGTGTGCTGCATACATTTTTAACTTGTCTTGGTAAATGTAATTGAAAGTTATAGTTTATTTAATGAAAATCGTCTCTAAATTTCAGCAAGGAGGCAAGTGTATGGTCTTACCCTCCATCCCCCAAGAGGGCATAGAAAAGGTGTTCCCTAAGGGTGTCACCGTCCAGCCCGTACCCTCGGGCAAGGCCTACTTGAGGTTCACCCCACAGCCAGAGTAAATAGATTTGGCTTCCATAAAGACCATTCTGGAAAACAGAAAAATAATTCGTGTATTTGGACATTATACCATGTACGCAGTATGTAACAACGCGATGCTTTCAGTTGTATTGTTCAAATCATGTATTTTTGTTATGAATGGAAATAATTTTTGTTCATTAAATTTCATAT spans 3rd intron/exon boundary at bp 1074/1075 1382 103 primer designed to amplify only cDNA 79706326
1380 Rp_BetaActin_R AACGCATGATGGCGTGAGGAAGT DM 8/23/2011 Ruditapes philippinarum Beta Actin EF520696.1 1379 79277753
1379 Rp_BetaActin_F TATGTACGTCGCCATCCAGGCTGT DM 8/23/2011 Ruditapes philippinarum Beta Actin EF520696.1 1380 79277754
1378 Cg_PGS1_3'UTR_R CACACTCACAGTACAATATCAGTCAAATTTC SJW 8/23/2011 31 C.gigas prostaglandin synthase-1/cyclooxygenase-1 PGS1/COX1 FJ375303 GAGTTCTTCACAGGTTGTATTTCACGTGGGTGTTTCTGTTTTAGATCTTAGGAACGTGGTTAAAAAGTGTGCAATCGGACGGACTGATATATCTATTTGAAGGTGTTTCTCGATCACTGTACCTTTCATCGGCACATTTAGTAGGTGTGAGGACTCACGTTTTTGAGGATTGTGTCCCCCACTAGGCACCCAAAGAAATCCGTGAAGCTGACCGGCTGTCCCTGGCGCCTCTTCTGGACAATTCTGGAGACATAAGTGTACAGACTCTGTGGTTTCAGCAGCCAAAAAGGACTGTGTTCTATATTTCTACCTAGCTCCTCTCGGAGTTCCCCTGGTGTTTTCTGTGGCCAGTCTGGGTGAGAGTAAAGCTGAGACAAATACCTGCCAAATAAAAGTACCGATACAGTACATTAAAATGTGGTGGAGGGCAGTTTTACTGGTCAGTTTCATAGCTCCTGCACTAGTTTCAGGTGGCCATAACCCTTGTTGTTCATACCCTTGTGAAAACAATGGAGTATGCATGACCCAAGGAGGAAATTATTACTGCGACTGTGCAAATCTGGACTTCTATGGCAAACACTGTGAAATTCCTACCTTTATGAAGAAGATCAAGCTGTTTTTAAAACCAAGTCAAAGCACTCTTCATAACCTGCTGACATCCAAAAAATGGCTGTGGAATATCGTCAACAGCGTTCCATTTCTGGCCAATGCAGTGATGAAAAAAGTTTATACCATGAGGTCAGATATGATAGACAGTCCACCAACCTATACCTCTGAGCACGAATACATCACAGTGGATGCTAATTTCAACTATAGTGTCTACACACGTACCTTGCCTCCAGTACCAAAGGAATGCCCGACACCTATGGGAGTATGGGGAAAGAAGGTGCTACCTCCTGCTGAAGACATTGTGAAGGCTTTCTTCATCAGAAAGGAATTCATTCCCGAGCCGTTAGGGACGAGTGCCTTATTTCCTTACTTTGCTCAGCACTTCACTCACATGTTCTTCAAGACTGACCTAAAGAAAGGGCCGCAGTTTCAGTGGGGAGGACATGGGGTAGACGTTTCTCATGTATATGGAAAGGACAGAGATTCTGAGAATAACCTAAGATCTTTCAAAGATGGGAAACTCAAATTCCAGATCATAGATGGAGAAGAGTGGCCCCCCTTGACTTCTGAAGCAGATGTTCCAATGGGATATCCAAAGGGAATGGAAAAGACCAAGCAATTTGCTCTGGGACACTCCTTCTTTGGTCTACTACCAGGATTGTTTATGTATGGCACAATCTGGTTACGAGAACATAACAGAGTGTGTGACATCTTGAAAAAGGAGCATCCAGAATGGAATGATGAGAGATTATTTCAAACTGCCAAGCTGGTGATTCTAGGAGAGACCATTAAAATTGTTATAGAGGACTATGTAAAACATCTCAGCAACTATAATTATGATTTGATCTTTAATCCTGAATTGCTGTTTGGCGAGCCATTCCAGTATCAGAACAGGATTGCTTTAGAATTCAACCATCTTTATCACTGGCATCCCCTGATGCCAGATGAGATTAACATCAGTGGAACTATGTACAATCTAAAAGAGTTCATGTTTCATCCAGAGCTTGTTGTAAAACATGGAATGAGGAACTTTGTGGATTCTCTGTCCAAACAGAGAGCTGGATTATTTGGACCCCGAAATCATGGCCCTGTGACAATTCCTGTGGTGACAGAATTGATCAAACATGGCCGCACCTTAAGGCTGCAGTCATTCAACCAGTATAGAAAGAGATTTGACATGGAGCCTATCAAGTCTTTTGAAGAACTGACAGGAGAGAAGAAAATGGCCAAGCAACTTGAGGATTTCTATGGTGATGTTAATGCTGTGGAGTTTTATGTAGGATTGATAATGGAGAAAAGAAGACACAATTCTATGTTTGGTGACTCTTTGGTACAAATTGGTGCCCCGTATTCTGTGAAGGGTCTGATGGCAAATCCTATTTGTAGTCCCAAGTACTGGAAACCTTCTACGTTTGGTGGAGAGGTTGGGTTCAACATAGTAAAAACTTCTTCACTTAAAAAGCTGTTTTGTGAAAATATCAAAGGAGAATGTCCATTAGTATCATTTAGAGTCCCAGACTATGTTGAGGGAGATGTTACAGAATTCATCAACCAAAAACTAGAATTATAA N/A 1377 ~2300 3'UTR sequence was determined from BLASTing NCBI against C.gigas ESTs using GenBank Accession FJ375303 79263398
1377 Cg_PGS1_5'UTR_F TCTTCACAGGTTGTATTTCACGTGGG SJW 8/23/2011 26 C.gigas prostaglandin synthase-1/cyclooxygenase-1 PGS1/COX1 FJ375303 GAGTTCTTCACAGGTTGTATTTCACGTGGGTGTTTCTGTTTTAGATCTTAGGAACGTGGTTAAAAAGTGTGCAATCGGACGGACTGATATATCTATTTGAAGGTGTTTCTCGATCACTGTACCTTTCATCGGCACATTTAGTAGGTGTGAGGACTCACGTTTTTGAGGATTGTGTCCCCCACTAGGCACCCAAAGAAATCCGTGAAGCTGACCGGCTGTCCCTGGCGCCTCTTCTGGACAATTCTGGAGACATAAGTGTACAGACTCTGTGGTTTCAGCAGCCAAAAAGGACTGTGTTCTATATTTCTACCTAGCTCCTCTCGGAGTTCCCCTGGTGTTTTCTGTGGCCAGTCTGGGTGAGAGTAAAGCTGAGACAAATACCTGCCAAATAAAAGTACCGATACAGTACATTAAAATGTGGTGGAGGGCAGTTTTACTGGTCAGTTTCATAGCTCCTGCACTAGTTTCAGGTGGCCATAACCCTTGTTGTTCATACCCTTGTGAAAACAATGGAGTATGCATGACCCAAGGAGGAAATTATTACTGCGACTGTGCAAATCTGGACTTCTATGGCAAACACTGTGAAATTCCTACCTTTATGAAGAAGATCAAGCTGTTTTTAAAACCAAGTCAAAGCACTCTTCATAACCTGCTGACATCCAAAAAATGGCTGTGGAATATCGTCAACAGCGTTCCATTTCTGGCCAATGCAGTGATGAAAAAAGTTTATACCATGAGGTCAGATATGATAGACAGTCCACCAACCTATACCTCTGAGCACGAATACATCACAGTGGATGCTAATTTCAACTATAGTGTCTACACACGTACCTTGCCTCCAGTACCAAAGGAATGCCCGACACCTATGGGAGTATGGGGAAAGAAGGTGCTACCTCCTGCTGAAGACATTGTGAAGGCTTTCTTCATCAGAAAGGAATTCATTCCCGAGCCGTTAGGGACGAGTGCCTTATTTCCTTACTTTGCTCAGCACTTCACTCACATGTTCTTCAAGACTGACCTAAAGAAAGGGCCGCAGTTTCAGTGGGGAGGACATGGGGTAGACGTTTCTCATGTATATGGAAAGGACAGAGATTCTGAGAATAACCTAAGATCTTTCAAAGATGGGAAACTCAAATTCCAGATCATAGATGGAGAAGAGTGGCCCCCCTTGACTTCTGAAGCAGATGTTCCAATGGGATATCCAAAGGGAATGGAAAAGACCAAGCAATTTGCTCTGGGACACTCCTTCTTTGGTCTACTACCAGGATTGTTTATGTATGGCACAATCTGGTTACGAGAACATAACAGAGTGTGTGACATCTTGAAAAAGGAGCATCCAGAATGGAATGATGAGAGATTATTTCAAACTGCCAAGCTGGTGATTCTAGGAGAGACCATTAAAATTGTTATAGAGGACTATGTAAAACATCTCAGCAACTATAATTATGATTTGATCTTTAATCCTGAATTGCTGTTTGGCGAGCCATTCCAGTATCAGAACAGGATTGCTTTAGAATTCAACCATCTTTATCACTGGCATCCCCTGATGCCAGATGAGATTAACATCAGTGGAACTATGTACAATCTAAAAGAGTTCATGTTTCATCCAGAGCTTGTTGTAAAACATGGAATGAGGAACTTTGTGGATTCTCTGTCCAAACAGAGAGCTGGATTATTTGGACCCCGAAATCATGGCCCTGTGACAATTCCTGTGGTGACAGAATTGATCAAACATGGCCGCACCTTAAGGCTGCAGTCATTCAACCAGTATAGAAAGAGATTTGACATGGAGCCTATCAAGTCTTTTGAAGAACTGACAGGAGAGAAGAAAATGGCCAAGCAACTTGAGGATTTCTATGGTGATGTTAATGCTGTGGAGTTTTATGTAGGATTGATAATGGAGAAAAGAAGACACAATTCTATGTTTGGTGACTCTTTGGTACAAATTGGTGCCCCGTATTCTGTGAAGGGTCTGATGGCAAATCCTATTTGTAGTCCCAAGTACTGGAAACCTTCTACGTTTGGTGGAGAGGTTGGGTTCAACATAGTAAAAACTTCTTCACTTAAAAAGCTGTTTTGTGAAAATATCAAAGGAGAATGTCCATTAGTATCATTTAGAGTCCCAGACTATGTTGAGGGAGATGTTACAGAATTCATCAACCAAAAACTAGAATTATAA 5/30/2011 1378 ~2300 3'UTR sequence was determined from BLASTing NCBI against C.gigas ESTs using GenBank Accession FJ375303 79263399
1376 Cg_PGS2_3'UTR_R AATGTCTTCTTCGTTGTACTATATGATGGGC SJW 8/23/2011 31 C.gigas prostaglandin synthase-2/cyclooxygenase-2 PGS1/COX1 N/A 1375 ~2500 79263400
1375 Cg_PGS2_G1C2_F AGACTCAAAGCCTCACAGGAGACG SJW 8/23/2011 24 C.gigas prostaglandin synthase-2/cyclooxygenase-2 PGS1/COX1 N/A 1376 ~2500 79263401
1374 Rp_SarcCaBinding_R TTGGCTTGGTCGCATCAGAGCTT DM 8/22/2011 Ruditapes philippinarum Sarcoplasmic calcium binding protein AB023406.1 1373 79228014
1373 Rp_SarcCaBinding_F AGCATATGGCCACGAGAATGTTGCT DM 8/22/2011 Ruditapes philippinarum Sarcoplasmic calcium binding protein AB023406.1 1374 79228015
1372 Rp_SPO4_Transport_R ACCCGTTCCTGTAGTGCCGATGTT DM 8/22/2011 Ruditapes philippinarum Sodium phosphate transporter EU647763.1 1371 79228016
1371 Rp_SPO4_Transport_F CAGCACTAACGCCACTGGTTGGA DM 8/22/2011 Ruditapes philippinarum Sodium phosphate trasporter EU647763.1 1372 79228017
1370 Rp_lysozyme_R TGTTCTGGCCGGAGGATTCAACGA DM 8/22/2011 Ruditapes philippinarum Lysozyme GQ384413.1 1369 79228018
1369 Rp_lysozyme_F TGTGCTGCAAGGGAAACACTACGG DM 8/22/2011 Ruditapes philippinarum Lysozyme GQ384413.1 1370 79228019
1368 Rp_Cyp450_R AGCGGTGCTGAGAACTGGCAAA DM 8/22/2011 Ruditapes philippinarum Cytochrome p 450 HQ234335.1 1367 79228020
1367 Rp_Cyp450_F ACCGCTATCAATGCCGCACACT DM 8/22/2011 Ruditapes philippinarum Cytochrome p450 HQ234335.1 1368 79228021
1366 Rp_hsp90_R AACCTCTCTGCTCTCGCCTGTGAT DM 8/22/2011 Ruditapes philippinarum heat shock protein 90 HM581640.1 1365 79228022
1365 Rp_hsp90_F TCCGGTATCACACCTCTCAGTCTGGT DM 8/22/2011 Ruditapes philippinarum heat shock protein 90 HM581640.1 1366 79228023
1364 Rp_Met_R TTGCCACATTCGCACGTGCCTT DM 8/22/2011 Ruditapes philippinarum Metallothioneine HQ419062.1 1363 79228024
1363 Rp_Met_F CCTAACTGCAATTGCGGCTCCGAT DM 8/22/2011 Ruditapes philippinarum Metallothioneine HQ419062.1 1364 79228025
1362 Rp_AcidLectin_R ACGTTGACATTAGTCTGTGCCTCGC DM 8/22/2011 Ruditapes philippinarum Sialic acid binding lectin GQ384402.1 1361 79228026
1361 Rp_AcidLectin_F GCGTACCATGCACCTTCTGGACAA DM 8/22/2011 Ruditapes philippinarum Sialic acid binding lectin GQ384402.1 1362 79228027
1360 Rp_GluPeroxidase_R GCTGTTGCTAAGAGACGGATCGCA DM 8/22/2011 Ruditapes philippinarum Glutathione peroxidase HQ891002.1 1359 79228028
1359 Rp_GluPeroxidase_F AGCGTCATCGGCGCTTTTCTCT DM 8/22/2011 Ruditapes philippinarum Glutathione peroxidase HQ891002.1 1360 79228029
1358 Rp_thioredoxin_R CACAGAATCTGCTGGCAGTTTGGACA DM 8/22/2011 Ruditapes philippinarum thioredoxin HQ174261.1 1357 79228030
1357 Rp_thioredoxin_F AAGACGGCAAAAGTTGGTGTCCCG DM 8/22/2011 Ruditapes philippinarum thioredoxin HQ174261.1 1358 79228031
1356 Cg_Vg2_R GCAGATGGAAGGATGTCCATCAG Primer sequences from Matsumoto et al, 2003 8/9/2011 23 C.gigas Vitellogenin AB084783 TTACACGGCAGAATGTTGCTTCTGCTTGCGGTCTCAACAGCCCTGGTGGCGGCAGCCGCCCAGACTCCCAGTCAAGCCTATGAAAGCAATAAGGAATACCTGTATGAGTATGAAACACAAGCACTTACCGGAATACCTATGGGGAGCACGATTTATTCCGGAATGAAAATGAAGTCCGACGTCAGGATCCAGTTCCGGTCCCGCTCGTCCGCTACCTTGAAGATGGACAAGTTGACCTTTGCAAAGATCAACGACCCTATAGAGTCGGTGGACCCGACCCAGCAGCAGGTGCCCGCGGAGATGTTCCAGCCCCTTACGGGGAGGGATGCCGAGCAGATGCTGACGGACCTGTCCAGACCTATCAACTTCAGGTACGTCCGCGGCAACGTTAAGGATATCCACCACGAAGCAGACGATCCGGAATGGTCCGTTAACGTGAAGAAAGGTCTGCTCAGTATGCTGGAGATGAACCTTGAGAAGAGGAAGGAACTCAGAAAAAGCGGCGTGATTCCGCAAGTTCTCCGTCCGCAGTCTTCTGACGAAGGTTCAATGTTCACAGTCATGGAGCCCAGCATCGTCGGGGAGTGTGAGACGCTGTACAGAATCAGTCCTTGGACCTCCACCAGTGCTAATCCATGGATGCATATCACAAAAGTCCGGAATTACCAACACTGTCTGGACAGGCCAAAGTACTTCGGCTCTATGTTCCATTTACGACAGTGCGCCGAATGTGTCAGGGAGCAGTCGGAACCGCTGAGATCCGCCTCACAGATCAGATACACCCTCCGTGGAAACATGCGACAGTTCCAGATCCAAAGCGCCATTGCAGAGAGCCAACACGTGTTCACACCGTACTCCGCCAAAGGAGGACATGTTGCTACCTATCTCAATCAGACCCTGAATTTAGTCAAAGAGGAGGATGTGAAGACCAGTCTCTCAGAGCCGCAAAGCCCAACAAAAGTCAAGTCTGGATTGCAGTACACGTCCCGCGAGCTGGAGATGAGAGACTCCTCGAGCATCTTGCAGCAGTCCAGTGACAGCCTGTCCACGGACAAGTCGTCTCCAGAGTCGCCACAACATTCATCGTCATCATCCAATCATCATCCATCACCCCAGCCTCCCAGTCCGCAGCCAAAAACGACGAGCAATCAGGCGGCGGATAGGATTAGAAAGTTGTTGAAAATGTTGGAGGTGTTTATGAAACCAACCATACAACCCGAAGCAGGTCCGCTCTTGATGTCACTATTAGAGGAGATCCGAACGGCTGATTCTGAGAGCCTAAGAGCGGTATATCGAGAATGTTCCAACGGCGAAACAGCAGCAACAGTTCAAGATGCTGATGGACATCCTTCCATCTGCGGAACTACTTCCGCTACAGAAGTCCTGGTGGACTCCATCCTCAACGACCAGCTCCCACAGTCCGAGGCTGTCGTGGCTCTGGGCATTCTGTCTCTCTCTGCCAGGCCAGATGTTCTGATTGCCAAGAAACTTCTGGATCTGACAAGAAGCAGCCAAGTTTCAAAGGACAGATATTTAAAAAGAGCTGCTTTCTTATGCTTGGGATCAGTAGCTGGAATGCTGAGAGAAGAAGGATGGAGAAGATCTCGTGAAATTTCACGCCAAGAGGAAATTGTCAAAACACTGATTTCCCAGGAATCGCGGTCACAGACTAGGAATGAATTAAAATCAAAGAAAAGAGAGTTAGAAGACTTGAAGAAGCGAGAACATAGTATCAAGACAAAAATAAAGCAGGAAATTGTGAAGGAATTACAAATGTTGATGAGGTCTACTGTTTTTGACGACAAAATACTGAGCTTCAAGACAATTGGTAACGCTGGACTTTGGGAAATGATCCCAACCATTCGAACATATATACAGGATAAATCTCAGCCGCAGGTGCTCAGAACCCAAGCTATTTACAGCTTGCGAAAACTTGCCCGTCATTACCCAGACGATATTCAGACAACGTTGCTGCCTCTTTATTTCGACCAATCAGAGAAGGAGGAGGTGCGGATTGGTTCTTACCTCGTGATGACGTTCACCGAGCCCTCCCGCCAGCTTCTGGAGATGGTGGCTCAGTCCCTCCACAGGGAGAGGAATCCCCACGTCGGAACATTCGTCTACACACATCTAGAACAAATGTCCAACAGTACTTACCCGTGCCTCATGTCCTGGGCAAAGAACGCTAGCTTTGCTATGAGATTTGCCAAGAAGTTCAGCCCCATGTATCATTACTCGAGGTTCATGCATCTTTCTGGATTTAATGAAATGCACAAGATGGGAGCAGCAGCCGAACTTGGTCTTGTTACCACCCCGGAAGAATTCATCCCACGTGCTGGTGCCGTTAATCTCCACACTTATGTTTTTGGACGTTCTGTAAACTTTGCAGAGATAGGATTCAATACAGAGGGGCTACAAACACTGGTGTCTAAACTGGTGGGTCCTCTCGGTGAACTAACAAAGGGCAAGTCACTCGTAGACGTTCTGAAACAGCGAGTAAGACGAAGCGCTGAATCCTCGCAACCTTCCGATCCTATAAGTCAGATCCACAAACAGTTGAAGGTGTCTCCAAGGACAAGTCCTACACCAAAAGGTCACATGTACATGAAAATGATGGGCAATGAACTCCAGTATATAACTCTTGATGGTACTTTGGTGGACACCCTACTTAGAGAAGGAAAGCTGTTGTCAGGTGTTTCAGAACAAGATTTGAAGACTGGACTAAACGTTGAGGTACATAGGTCAACGATGCCACTTGAAGCTGAAATAATGATTCCTTCCGAGTGTGGCCTTCCCCTGCGTCTAAAACTCCATGGAACCGCTGCTATCAAAGTAACGGGCAAAGTGGGAGTAACAGGAATGCCATCAATCTTTGAAATCAATCGTCCTGGAAAACAAGCAAAGGAACTCAGCTTTAATTTTGAGCTCAGACCAAGTGTTTTGTTTCAACTACGAGGAGAAATGGAAATGGATGCGGAGTACTTCAAAATGGGAGTTGCTTTGAAAACAATGGCGCATATGGAAACTCCACTTTCTCTTACCGCATCAGCCAATTTACCTAAGGCTAAATTTTACACGAAATTCAATATTGAAAAACTCAGTGAGAAAATTGCCAGGCTGGAAGTTTCCCCATACACATATTTCAAAGAAGATCCATCAGAAATAACCAAATATCCTTTGCCAAGAGAAACGCAAGAAATCAGTGTAGCGAAAAATGCAAAGGTTTTCCCGATGTCAATGGCTTATGGAAAACAAACTTTAGGACTTGAAATCAAACTAAGCGGGCAAGCTGTCGTTCGTGACTTTGAAATGGACGTTCCATACTATCCTATGATCGGGAAGCAAGAAATGATCGTCACTCTTTCTCCTGGAACTGATCCTCAGAAATATGTTGAGATTCAGTTTCAGTTAATGAAACGTATGTCGCAATCCAAACAACAACCAACCTCCGAGGAGAGTTCTAGTTCGACCGGTTTATTATCATGGGTCTCTAGTTTGATTGGAAGCGATCAATCCGACCAGAGCTCACCCTCCTCTTCATCATCTTCCTCTACTTCTCCCCCAAAAGACATCCGATCAAAGGATACATCTTTAAAGGATCTTCTAGAACATCTAAAAGAGTCGCAGTCTGTTCATCCCGATGGATCTGTAGTCACGCGAAACAACAGCATGGGATTAATTTTCAATGTCATCGGGATTGACCAATCTAGGTCTATTAAACGACACTTTCACATCAGCATGGCCGCTGGTATGAACCCTAGCCCAAAGACCACATCCATTCTTCTCCGGATGAATAGATCCCCTATTCCGACGATGGAAACTAAACCATGGAATATGGACGTTGCTGTCAACGTTAACTTACCAAGCAGACTCGCTGACCCGTCAGAATTGTTGTCAGACGCTTATCAAAGAGAGCTTGAGCAGCAAATAGAAGTTTACGTGAGAAGACATGGAGAATCCGACTACCACAGGTGGATTATGCTTGAAGAACCACGCTGGGAATCCTCTGTTCTTCAGAGACTTCTAAGCTTATCTGACACTCAGGAGGTCATCGATGAGGTCATGAACTCTGAACTTTCCAAATCCGAAGAGTCGGGAACCCCAGAAGACAGGAACATTATTGATCTCATTAGAAAACAAAAACAAATTCTTAAAGAAGCACGAAAGATTTGGCAAAGATCTTATGATTCCTTACGAGTGCAGGATATAAAAGCAAAGTTATCTTCCCTGATCAAAAGGTCAGAGAGTGTCAGGAAAGATCTAGAGAAGGATTCAGCATCAGTTTCAAAAAGTGAAAAATCAGACGCACTTCGCAAATACTGTGCACTACTTCAACAGCTGATTGACCAAAGATTGGACGAAGCTGTTCGTTCTTCAAGAAGGTCACTTTCATCAAAGGAAAGACAAGATATTGCAAAATCATTAGAGTCTAGCAAGGAATCTTTGAGAAAGATTTTACAACAGCAGCATCGTTCTCCTTCCAAAGTAGATTCATCTATTCACCACCTAGCTCTGTTCAAATCGATTCTTCATCGGTCAGTGAAAGTGATTCTGAAGAAATTAAAGAATCTAAGAACCCAGAACAAAAAGATAAATCCCAGCAACAACAACAGCCTTCTCAACAGTCCCAGGACACCGTGTCTAGCAATCAACCTTCCAAAGTGTCTAGTAGTTCGTCTTTGTCAAAGTCAGTGTCAGACCTTTTGCAAAAACAGAAAGATGTGGTTCAGGATATTTCCAGGTCAAAGGAATCAGAGGGATTGAAATCTGTTGATGAGAAAAAAATCAAGGAGGCACTTCTTTTAGCAAAAGAAGTTACTGAAAAGATTCGTCAAGAAAATTCTGGCCCATCTCCTCAAAATATCGAGAGGGAAAGACAAAGACTCATGAAATCCGTCATTCAACAACAGCAAATAATGAAATGTTTGGAGCAGCGGGTAAAGAAACCACAAACCGCCTCCGGCAAATCTGAAGACCAAATAAAAGAAATTCAGAGAATTATGCAAAAAAAAAAAAAAAAAAA 1355 78955414
1355 Cg_Vg2_F TTCACAGTCATGGAGCCCAGCAT Primer sequences from Matsumoto et al, 2003 8/9/2011 23 C.gigas Vitellogenin AB084783 TTACACGGCAGAATGTTGCTTCTGCTTGCGGTCTCAACAGCCCTGGTGGCGGCAGCCGCCCAGACTCCCAGTCAAGCCTATGAAAGCAATAAGGAATACCTGTATGAGTATGAAACACAAGCACTTACCGGAATACCTATGGGGAGCACGATTTATTCCGGAATGAAAATGAAGTCCGACGTCAGGATCCAGTTCCGGTCCCGCTCGTCCGCTACCTTGAAGATGGACAAGTTGACCTTTGCAAAGATCAACGACCCTATAGAGTCGGTGGACCCGACCCAGCAGCAGGTGCCCGCGGAGATGTTCCAGCCCCTTACGGGGAGGGATGCCGAGCAGATGCTGACGGACCTGTCCAGACCTATCAACTTCAGGTACGTCCGCGGCAACGTTAAGGATATCCACCACGAAGCAGACGATCCGGAATGGTCCGTTAACGTGAAGAAAGGTCTGCTCAGTATGCTGGAGATGAACCTTGAGAAGAGGAAGGAACTCAGAAAAAGCGGCGTGATTCCGCAAGTTCTCCGTCCGCAGTCTTCTGACGAAGGTTCAATGTTCACAGTCATGGAGCCCAGCATCGTCGGGGAGTGTGAGACGCTGTACAGAATCAGTCCTTGGACCTCCACCAGTGCTAATCCATGGATGCATATCACAAAAGTCCGGAATTACCAACACTGTCTGGACAGGCCAAAGTACTTCGGCTCTATGTTCCATTTACGACAGTGCGCCGAATGTGTCAGGGAGCAGTCGGAACCGCTGAGATCCGCCTCACAGATCAGATACACCCTCCGTGGAAACATGCGACAGTTCCAGATCCAAAGCGCCATTGCAGAGAGCCAACACGTGTTCACACCGTACTCCGCCAAAGGAGGACATGTTGCTACCTATCTCAATCAGACCCTGAATTTAGTCAAAGAGGAGGATGTGAAGACCAGTCTCTCAGAGCCGCAAAGCCCAACAAAAGTCAAGTCTGGATTGCAGTACACGTCCCGCGAGCTGGAGATGAGAGACTCCTCGAGCATCTTGCAGCAGTCCAGTGACAGCCTGTCCACGGACAAGTCGTCTCCAGAGTCGCCACAACATTCATCGTCATCATCCAATCATCATCCATCACCCCAGCCTCCCAGTCCGCAGCCAAAAACGACGAGCAATCAGGCGGCGGATAGGATTAGAAAGTTGTTGAAAATGTTGGAGGTGTTTATGAAACCAACCATACAACCCGAAGCAGGTCCGCTCTTGATGTCACTATTAGAGGAGATCCGAACGGCTGATTCTGAGAGCCTAAGAGCGGTATATCGAGAATGTTCCAACGGCGAAACAGCAGCAACAGTTCAAGATGCTGATGGACATCCTTCCATCTGCGGAACTACTTCCGCTACAGAAGTCCTGGTGGACTCCATCCTCAACGACCAGCTCCCACAGTCCGAGGCTGTCGTGGCTCTGGGCATTCTGTCTCTCTCTGCCAGGCCAGATGTTCTGATTGCCAAGAAACTTCTGGATCTGACAAGAAGCAGCCAAGTTTCAAAGGACAGATATTTAAAAAGAGCTGCTTTCTTATGCTTGGGATCAGTAGCTGGAATGCTGAGAGAAGAAGGATGGAGAAGATCTCGTGAAATTTCACGCCAAGAGGAAATTGTCAAAACACTGATTTCCCAGGAATCGCGGTCACAGACTAGGAATGAATTAAAATCAAAGAAAAGAGAGTTAGAAGACTTGAAGAAGCGAGAACATAGTATCAAGACAAAAATAAAGCAGGAAATTGTGAAGGAATTACAAATGTTGATGAGGTCTACTGTTTTTGACGACAAAATACTGAGCTTCAAGACAATTGGTAACGCTGGACTTTGGGAAATGATCCCAACCATTCGAACATATATACAGGATAAATCTCAGCCGCAGGTGCTCAGAACCCAAGCTATTTACAGCTTGCGAAAACTTGCCCGTCATTACCCAGACGATATTCAGACAACGTTGCTGCCTCTTTATTTCGACCAATCAGAGAAGGAGGAGGTGCGGATTGGTTCTTACCTCGTGATGACGTTCACCGAGCCCTCCCGCCAGCTTCTGGAGATGGTGGCTCAGTCCCTCCACAGGGAGAGGAATCCCCACGTCGGAACATTCGTCTACACACATCTAGAACAAATGTCCAACAGTACTTACCCGTGCCTCATGTCCTGGGCAAAGAACGCTAGCTTTGCTATGAGATTTGCCAAGAAGTTCAGCCCCATGTATCATTACTCGAGGTTCATGCATCTTTCTGGATTTAATGAAATGCACAAGATGGGAGCAGCAGCCGAACTTGGTCTTGTTACCACCCCGGAAGAATTCATCCCACGTGCTGGTGCCGTTAATCTCCACACTTATGTTTTTGGACGTTCTGTAAACTTTGCAGAGATAGGATTCAATACAGAGGGGCTACAAACACTGGTGTCTAAACTGGTGGGTCCTCTCGGTGAACTAACAAAGGGCAAGTCACTCGTAGACGTTCTGAAACAGCGAGTAAGACGAAGCGCTGAATCCTCGCAACCTTCCGATCCTATAAGTCAGATCCACAAACAGTTGAAGGTGTCTCCAAGGACAAGTCCTACACCAAAAGGTCACATGTACATGAAAATGATGGGCAATGAACTCCAGTATATAACTCTTGATGGTACTTTGGTGGACACCCTACTTAGAGAAGGAAAGCTGTTGTCAGGTGTTTCAGAACAAGATTTGAAGACTGGACTAAACGTTGAGGTACATAGGTCAACGATGCCACTTGAAGCTGAAATAATGATTCCTTCCGAGTGTGGCCTTCCCCTGCGTCTAAAACTCCATGGAACCGCTGCTATCAAAGTAACGGGCAAAGTGGGAGTAACAGGAATGCCATCAATCTTTGAAATCAATCGTCCTGGAAAACAAGCAAAGGAACTCAGCTTTAATTTTGAGCTCAGACCAAGTGTTTTGTTTCAACTACGAGGAGAAATGGAAATGGATGCGGAGTACTTCAAAATGGGAGTTGCTTTGAAAACAATGGCGCATATGGAAACTCCACTTTCTCTTACCGCATCAGCCAATTTACCTAAGGCTAAATTTTACACGAAATTCAATATTGAAAAACTCAGTGAGAAAATTGCCAGGCTGGAAGTTTCCCCATACACATATTTCAAAGAAGATCCATCAGAAATAACCAAATATCCTTTGCCAAGAGAAACGCAAGAAATCAGTGTAGCGAAAAATGCAAAGGTTTTCCCGATGTCAATGGCTTATGGAAAACAAACTTTAGGACTTGAAATCAAACTAAGCGGGCAAGCTGTCGTTCGTGACTTTGAAATGGACGTTCCATACTATCCTATGATCGGGAAGCAAGAAATGATCGTCACTCTTTCTCCTGGAACTGATCCTCAGAAATATGTTGAGATTCAGTTTCAGTTAATGAAACGTATGTCGCAATCCAAACAACAACCAACCTCCGAGGAGAGTTCTAGTTCGACCGGTTTATTATCATGGGTCTCTAGTTTGATTGGAAGCGATCAATCCGACCAGAGCTCACCCTCCTCTTCATCATCTTCCTCTACTTCTCCCCCAAAAGACATCCGATCAAAGGATACATCTTTAAAGGATCTTCTAGAACATCTAAAAGAGTCGCAGTCTGTTCATCCCGATGGATCTGTAGTCACGCGAAACAACAGCATGGGATTAATTTTCAATGTCATCGGGATTGACCAATCTAGGTCTATTAAACGACACTTTCACATCAGCATGGCCGCTGGTATGAACCCTAGCCCAAAGACCACATCCATTCTTCTCCGGATGAATAGATCCCCTATTCCGACGATGGAAACTAAACCATGGAATATGGACGTTGCTGTCAACGTTAACTTACCAAGCAGACTCGCTGACCCGTCAGAATTGTTGTCAGACGCTTATCAAAGAGAGCTTGAGCAGCAAATAGAAGTTTACGTGAGAAGACATGGAGAATCCGACTACCACAGGTGGATTATGCTTGAAGAACCACGCTGGGAATCCTCTGTTCTTCAGAGACTTCTAAGCTTATCTGACACTCAGGAGGTCATCGATGAGGTCATGAACTCTGAACTTTCCAAATCCGAAGAGTCGGGAACCCCAGAAGACAGGAACATTATTGATCTCATTAGAAAACAAAAACAAATTCTTAAAGAAGCACGAAAGATTTGGCAAAGATCTTATGATTCCTTACGAGTGCAGGATATAAAAGCAAAGTTATCTTCCCTGATCAAAAGGTCAGAGAGTGTCAGGAAAGATCTAGAGAAGGATTCAGCATCAGTTTCAAAAAGTGAAAAATCAGACGCACTTCGCAAATACTGTGCACTACTTCAACAGCTGATTGACCAAAGATTGGACGAAGCTGTTCGTTCTTCAAGAAGGTCACTTTCATCAAAGGAAAGACAAGATATTGCAAAATCATTAGAGTCTAGCAAGGAATCTTTGAGAAAGATTTTACAACAGCAGCATCGTTCTCCTTCCAAAGTAGATTCATCTATTCACCACCTAGCTCTGTTCAAATCGATTCTTCATCGGTCAGTGAAAGTGATTCTGAAGAAATTAAAGAATCTAAGAACCCAGAACAAAAAGATAAATCCCAGCAACAACAACAGCCTTCTCAACAGTCCCAGGACACCGTGTCTAGCAATCAACCTTCCAAAGTGTCTAGTAGTTCGTCTTTGTCAAAGTCAGTGTCAGACCTTTTGCAAAAACAGAAAGATGTGGTTCAGGATATTTCCAGGTCAAAGGAATCAGAGGGATTGAAATCTGTTGATGAGAAAAAAATCAAGGAGGCACTTCTTTTAGCAAAAGAAGTTACTGAAAAGATTCGTCAAGAAAATTCTGGCCCATCTCCTCAAAATATCGAGAGGGAAAGACAAAGACTCATGAAATCCGTCATTCAACAACAGCAAATAATGAAATGTTTGGAGCAGCGGGTAAAGAAACCACAAACCGCCTCCGGCAAATCTGAAGACCAAATAAAAGAAATTCAGAGAATTATGCAAAAAAAAAAAAAAAAAAA 1356 78955415
1354 Cg_ER2_R CACCCCTCACATGACCACAC Primer sequences from Matsumoto et al, 2007 8/9/2011 20 C.gigas Estrogen Receptor AB259818 AUGGAAGCAAAAUAUCACGACCAGCAGUUCGAGGAUGCUCUAACCGUGAUUCAGGGCUUGUCUGACCCAGGAGGCACGGUCUGUAGAAUUCUGAGAGAGUCCUCGGCGGCGGCGUCGGCGACGGGGGACGAAACGGAGAGUAUGUCGGGAGAGUCUAUUGAGAAACUGGUUCCCAAGGAGGAGAGCCAUGGUUCCCACCACUCCCCUGGAAUGGUGCCCCAGGGAAGCUUUUUAUCCAUGCCCUACAUGAUGCAUAAUCAGGUUCCCUCCUCCACUACCCUGGAGUUUCGGGACCAUGAUGGGCGGAUCCUACCCCUACUCGACCCCUCCCUAUCAUUUGCCGAUGGCAGAAAACUGAAGCAUGGUGCAGUUUCAGCUCAUGGACCAAAUAAACUGUGCCAGGUUUGCAGUGACAACGCGUCAGGGUUUCACUAUGGGGUGUGGUCAUGUGAGGGGUGCAAAGCCUUCUUCAAAAGAAGCAUUCAGGGGCCUGUAGAUUACGUGUGUCCGGCCACCAAUACCUGCACCAUUGACAAACACCGACGGAAGUCUUGUCAGGCAUGCAGAUUACGCAAGUGCUAUGAAGUUGGAAUGAACAAAGGGAGCCAGAGGAAGGAAAGGAAAGGUAGCAUUUCUAUGUCCAAGCCAGCGGCCACCAAACGGAGUCGUGCUGACUCCUCGGACAACACCGUUAAUUCCACGAGUGGCAGCCCCAACCCAGCAAAGUCGGCCAGGAAGUCUCAGACAGUGACUAUCCUCCAGGCCCUAAACAAGGCGGCGCUGCCCGUGCUGGAGAGCCACCACAACCAUGGGCAGCCACCCACAAAGGUCCACCUCCUGAACUCUCUGGUCAAACUGGCCGAGAGGGAGCUAGUCCACCUCAUCAACUGGGCCAAAAAUGUCCCAGGUUACACAGAUCUCUCUCUUAGUGAUCAAGUCCACUUGAUCGAGUGUUGCUGGAUGGAGCUCCUACUUUUAAACUGCGCAUUCAGGUCUAUUGAACAUGGAGGCAAAAGCCUAGCAUUUGCCCCUGACCUUGUUUUAGACAGGUCCUCCUGGAGUACUGUAGAAAUGACAGAGAUCUUUGAACAAGUGGCAGCGGUUUCUGAACAGAUGAUGCAAAACCAUCUCCACAAAGAUGAGCUUCUUCUACUACAAGCCAUGGUGCUCGUUAACGCAGAGGUGCGACGUCUCGCAAGCUAUAAUCAGAUCUUUAAUAUGCAACAGUCUCUUCUGGAUGCCAUUGUGGACACUGCGCAAAAAUACCACCCGGACAAUGUCCGGCAUGUACCGGCAGUUCUUCUGUUACUGACCCAUAUACGACAGGCCGGCGAACGGGGGAUCGCGUUCUUUCAGAGACUCAAGUCCGAGGGCGUUGUGACUUUUUGUGAUUUACUGAAGGAAAUGCUAGAUGCACAAGACUUUUUAGAGAAGAAAUCUUCAAAUGAGGGAGAUUGAAAAUUUCAACAAAAAAGUGUAUGUGUAUUGUCUCAAUCACCAUGGUGAUCCUAGUGUAACUAAAAUGACCUACGUGAUAUCGUGAUAUCCUGACUCCCUUUGGCUGCAGAUGCGUGCAAUGAUAUUUCUGAUGUACACAUAGAGGAUGAGAAACUUAAGAAGAAGAACAAAAAAAAA 1353 78955416
1353 Cg_ER2_F CCTACTCGACCCCTCCCTATC Primer sequences from Matsumoto et al, 2007 8/9/2011 21 C.gigas Estrogen Receptor AB259818 AUGGAAGCAAAAUAUCACGACCAGCAGUUCGAGGAUGCUCUAACCGUGAUUCAGGGCUUGUCUGACCCAGGAGGCACGGUCUGUAGAAUUCUGAGAGAGUCCUCGGCGGCGGCGUCGGCGACGGGGGACGAAACGGAGAGUAUGUCGGGAGAGUCUAUUGAGAAACUGGUUCCCAAGGAGGAGAGCCAUGGUUCCCACCACUCCCCUGGAAUGGUGCCCCAGGGAAGCUUUUUAUCCAUGCCCUACAUGAUGCAUAAUCAGGUUCCCUCCUCCACUACCCUGGAGUUUCGGGACCAUGAUGGGCGGAUCCUACCCCUACUCGACCCCUCCCUAUCAUUUGCCGAUGGCAGAAAACUGAAGCAUGGUGCAGUUUCAGCUCAUGGACCAAAUAAACUGUGCCAGGUUUGCAGUGACAACGCGUCAGGGUUUCACUAUGGGGUGUGGUCAUGUGAGGGGUGCAAAGCCUUCUUCAAAAGAAGCAUUCAGGGGCCUGUAGAUUACGUGUGUCCGGCCACCAAUACCUGCACCAUUGACAAACACCGACGGAAGUCUUGUCAGGCAUGCAGAUUACGCAAGUGCUAUGAAGUUGGAAUGAACAAAGGGAGCCAGAGGAAGGAAAGGAAAGGUAGCAUUUCUAUGUCCAAGCCAGCGGCCACCAAACGGAGUCGUGCUGACUCCUCGGACAACACCGUUAAUUCCACGAGUGGCAGCCCCAACCCAGCAAAGUCGGCCAGGAAGUCUCAGACAGUGACUAUCCUCCAGGCCCUAAACAAGGCGGCGCUGCCCGUGCUGGAGAGCCACCACAACCAUGGGCAGCCACCCACAAAGGUCCACCUCCUGAACUCUCUGGUCAAACUGGCCGAGAGGGAGCUAGUCCACCUCAUCAACUGGGCCAAAAAUGUCCCAGGUUACACAGAUCUCUCUCUUAGUGAUCAAGUCCACUUGAUCGAGUGUUGCUGGAUGGAGCUCCUACUUUUAAACUGCGCAUUCAGGUCUAUUGAACAUGGAGGCAAAAGCCUAGCAUUUGCCCCUGACCUUGUUUUAGACAGGUCCUCCUGGAGUACUGUAGAAAUGACAGAGAUCUUUGAACAAGUGGCAGCGGUUUCUGAACAGAUGAUGCAAAACCAUCUCCACAAAGAUGAGCUUCUUCUACUACAAGCCAUGGUGCUCGUUAACGCAGAGGUGCGACGUCUCGCAAGCUAUAAUCAGAUCUUUAAUAUGCAACAGUCUCUUCUGGAUGCCAUUGUGGACACUGCGCAAAAAUACCACCCGGACAAUGUCCGGCAUGUACCGGCAGUUCUUCUGUUACUGACCCAUAUACGACAGGCCGGCGAACGGGGGAUCGCGUUCUUUCAGAGACUCAAGUCCGAGGGCGUUGUGACUUUUUGUGAUUUACUGAAGGAAAUGCUAGAUGCACAAGACUUUUUAGAGAAGAAAUCUUCAAAUGAGGGAGAUUGAAAAUUUCAACAAAAAAGUGUAUGUGUAUUGUCUCAAUCACCAUGGUGAUCCUAGUGUAACUAAAAUGACCUACGUGAUAUCGUGAUAUCCUGACUCCCUUUGGCUGCAGAUGCGUGCAAUGAUAUUUCUGAUGUACACAUAGAGGAUGAGAAACUUAAGAAGAAGAACAAAAAAAAA 1354 78955417
1352 PGS2_Clone4_F ACGTTTGGTGGGGAGGTTGGGTTCAACA SJW 8/1/2011 28 C.gigas cyclooxgenase-2 (COX2), prostaglandin synthase-2 (PGS2) Sequencing primer. Won't be paired. "Clone4" references the band produced in the 3' library RACE. See Sam's Notebook 20110801. 78783174
1351 PGS2_Clone4_R AAGCTCAATTGGTGACCATGCCCCTTTA SJW 8/1/2011 28 C.gigas cyclooxgenase-2 (COX2), prostaglandin synthase-2 (PGS2) Sequencing primer. Won't be paired. "Clone4" references the band produced in the 3' library RACE. See Sam's Notebook 20110801. 78783175
1350 PGS2_ngspRACE_5' ggaagtcttgtccaaacaacagctcggg SJW 7/21/2011 28 53.6 61.7 C. gigas cyclooxgenase-2 (COX2), prostaglandin synthase-2 (PGS2) TGCCAAGCTGGTGATTGTAGGTGAAACTCTTAAGATTGTCGTAGAGGATTATTCAAACCATCTCACCAACTTCAATTTTCCTTTATTTTTTAAACCCGAGCTGTTGTTTGGACAAGACTTCCAGTATCAGAACAGAATTTCTTTAGAATTCAACCATGTTTATCACTGGCATCCCTTGGTGCCGGACGAGTTTAACATCAGTGGAACTATATACAACATGAAAGAGTTCCTGTATCACCCAGAGATTGTCGTTAAACATGGAATGCGAGACTTTGTAGATTCTATGATAAAACAGAGAGCCGGACTAGTTGGTCCCCGTAATCATGGCCGCGTAACTATCCCAGTAGTGTTGGATCTTCTCAAACACGGCCGCACCTTAAGGATGCAGTCATTCAATCAGTACAGAAAGAGATTTGATATGGAGCCTTTCAAGTCTTTTGAGGAACTGACTGGGGAAAAGAAATTTGCAAAGCAGCTTGAAGAATTCTATGGTGATATCAATGCTGTGGAATTTTATGTAGGAATGATGCTGGAGAAAAGACTTCGATTTGATTCTTTGTTTTCGGCTACGGTTATACAGTTTGTCCTCTCCNAN 122-95 RACE primer. No primer pairing. 78567897
1349 PGS2_ngspRACE_3' tggtccccgtaatcatggccgcgtaact SJW 7/21/2011 28 57.1 65 C. gigas cyclooxgenase-2 (COX2), prostaglandin synthase-2 (PGS2) TGCCAAGCTGGTGATTGTAGGTGAAACTCTTAAGATTGTCGTAGAGGATTATTCAAACCATCTCACCAACTTCAATTTTCCTTTATTTTTTAAACCCGAGCTGTTGTTTGGACAAGACTTCCAGTATCAGAACAGAATTTCTTTAGAATTCAACCATGTTTATCACTGGCATCCCTTGGTGCCGGACGAGTTTAACATCAGTGGAACTATATACAACATGAAAGAGTTCCTGTATCACCCAGAGATTGTCGTTAAACATGGAATGCGAGACTTTGTAGATTCTATGATAAAACAGAGAGCCGGACTAGTTGGTCCCCGTAATCATGGCCGCGTAACTATCCCAGTAGTGTTGGATCTTCTCAAACACGGCCGCACCTTAAGGATGCAGTCATTCAATCAGTACAGAAAGAGATTTGATATGGAGCCTTTCAAGTCTTTTGAGGAACTGACTGGGGAAAAGAAATTTGCAAAGCAGCTTGAAGAATTCTATGGTGATATCAATGCTGTGGAATTTTATGTAGGAATGATGCTGGAGAAAAGACTTCGATTTGATTCTTTGTTTTCGGCTACGGTTATACAGTTTGTCCTCTCCNAN 310-337 RACE primer. No primer pairing. 78567898
1348 PGS2_gspRACE_3' cactggcatcccttggtgccggacgagt SJW 7/21/2011 28 64.3 67.4 C. gigas cyclooxgenase-2 (COX2), prostaglandin synthase-2 (PGS2) TGCCAAGCTGGTGATTGTAGGTGAAACTCTTAAGATTGTCGTAGAGGATTATTCAAACCATCTCACCAACTTCAATTTTCCTTTATTTTTTAAACCCGAGCTGTTGTTTGGACAAGACTTCCAGTATCAGAACAGAATTTCTTTAGAATTCAACCATGTTTATCACTGGCATCCCTTGGTGCCGGACGAGTTTAACATCAGTGGAACTATATACAACATGAAAGAGTTCCTGTATCACCCAGAGATTGTCGTTAAACATGGAATGCGAGACTTTGTAGATTCTATGATAAAACAGAGAGCCGGACTAGTTGGTCCCCGTAATCATGGCCGCGTAACTATCCCAGTAGTGTTGGATCTTCTCAAACACGGCCGCACCTTAAGGATGCAGTCATTCAATCAGTACAGAAAGAGATTTGATATGGAGCCTTTCAAGTCTTTTGAGGAACTGACTGGGGAAAAGAAATTTGCAAAGCAGCTTGAAGAATTCTATGGTGATATCAATGCTGTGGAATTTTATGTAGGAATGATGCTGGAGAAAAGACTTCGATTTGATTCTTTGTTTTCGGCTACGGTTATACAGTTTGTCCTCTCCNAN 164-191 RACE primer. No primer pairing. 78567899
1347 PGS2_gspRACE_5' actcgtccggcaccaagggatgccagtg SJW 7/21/2011 28 64.3 67.4 C. gigas cyclooxgenase-2 (COX2), prostaglandin synthase-2 (PGS2) TGCCAAGCTGGTGATTGTAGGTGAAACTCTTAAGATTGTCGTAGAGGATTATTCAAACCATCTCACCAACTTCAATTTTCCTTTATTTTTTAAACCCGAGCTGTTGTTTGGACAAGACTTCCAGTATCAGAACAGAATTTCTTTAGAATTCAACCATGTTTATCACTGGCATCCCTTGGTGCCGGACGAGTTTAACATCAGTGGAACTATATACAACATGAAAGAGTTCCTGTATCACCCAGAGATTGTCGTTAAACATGGAATGCGAGACTTTGTAGATTCTATGATAAAACAGAGAGCCGGACTAGTTGGTCCCCGTAATCATGGCCGCGTAACTATCCCAGTAGTGTTGGATCTTCTCAAACACGGCCGCACCTTAAGGATGCAGTCATTCAATCAGTACAGAAAGAGATTTGATATGGAGCCTTTCAAGTCTTTTGAGGAACTGACTGGGGAAAAGAAATTTGCAAAGCAGCTTGAAGAATTCTATGGTGATATCAATGCTGTGGAATTTTATGTAGGAATGATGCTGGAGAAAAGACTTCGATTTGATTCTTTGTTTTCGGCTACGGTTATACAGTTTGTCCTCTCCNAN 191-164 RACE primer. No primer pairing. 78567900
1346 Cg_Vitellogenin_R AAGGTAGCGGACGAGCGGGA DLB 7/11/2011 20 65 59.69 C. gigas Vitellogenin AB084783 TTACACGGCAGAATGTTGCTTCTGCTTGCGGTCTCAACAGCCCTGGTGGCGGCAGCCGCCCAGACTCCCAGTCAAGCCTATGAAAGCAATAAGGAATACCTGTATGAGTATGAAACACAAGCACTTACCGGAATACCTATGGGGAGCACGATTTATTCCGGAATGAAAATGAAGTCCGACGTCAGGATCCAGTTCCGGTCCCGCTCGTCCGCTACCTTGAAGATGGACAAGTTGACCTTTGCAAAGATCAACGACCCTATAGAGTCGGTGGACCCGACCCAGCAGCAGGTGCCCGCGGAGATGTTCCAGCCCCTTACGGGGAGGGATGCCGAGCAGATGCTGACGGACCTGTCCAGACCTATCAACTTCAGGTACGTCCGCGGCAACGTTAAGGATATCCACCACGAAGCAGACGATCCGGAATGGTCCGTTAACGTGAAGAAAGGTCTGCTCAGTATGCTGGAGATGAACCTTGAGAAGAGGAAGGAACTCAGAAAAAGCGGCGTGATTCCGCAAGTTCTCCGTCCGCAGTCTTCTGACGAAGGTTCAATGTTCACAGTCATGGAGCCCAGCATCGTCGGGGAGTGTGAGACGCTGTACAGAATCAGTCCTTGGACCTCCACCAGTGCTAATCCATGGATGCATATCACAAAAGTCCGGAATTACCAACACTGTCTGGACAGGCCAAAGTACTTCGGCTCTATGTTCCATTTACGACAGTGCGCCGAATGTGTCAGGGAGCAGTCGGAACCGCTGAGATCCGCCTCACAGATCAGATACACCCTCCGTGGAAACATGCGACAGTTCCAGATCCAAAGCGCCATTGCAGAGAGCCAACACGTGTTCACACCGTACTCCGCCAAAGGAGGACATGTTGCTACCTATCTCAATCAGACCCTGAATTTAGTCAAAGAGGAGGATGTGAAGACCAGTCTCTCAGAGCCGCAAAGCCCAACAAAAGTCAAGTCTGGATTGCAGTACACGTCCCGCGAGCTGGAGATGAGAGACTCCTCGAGCATCTTGCAGCAGTCCAGTGACAGCCTGTCCACGGACAAGTCGTCTCCAGAGTCGCCACAACATTCATCGTCATCATCCAATCATCATCCATCACCCCAGCCTCCCAGTCCGCAGCCAAAAACGACGAGCAATCAGGCGGCGGATAGGATTAGAAAGTTGTTGAAAATGTTGGAGGTGTTTATGAAACCAACCATACAACCCGAAGCAGGTCCGCTCTTGATGTCACTATTAGAGGAGATCCGAACGGCTGATTCTGAGAGCCTAAGAGCGGTATATCGAGAATGTTCCAACGGCGAAACAGCAGCAACAGTTCAAGATGCTGATGGACATCCTTCCATCTGCGGAACTACTTCCGCTACAGAAGTCCTGGTGGACTCCATCCTCAACGACCAGCTCCCACAGTCCGAGGCTGTCGTGGCTCTGGGCATTCTGTCTCTCTCTGCCAGGCCAGATGTTCTGATTGCCAAGAAACTTCTGGATCTGACAAGAAGCAGCCAAGTTTCAAAGGACAGATATTTAAAAAGAGCTGCTTTCTTATGCTTGGGATCAGTAGCTGGAATGCTGAGAGAAGAAGGATGGAGAAGATCTCGTGAAATTTCACGCCAAGAGGAAATTGTCAAAACACTGATTTCCCAGGAATCGCGGTCACAGACTAGGAATGAATTAAAATCAAAGAAAAGAGAGTTAGAAGACTTGAAGAAGCGAGAACATAGTATCAAGACAAAAATAAAGCAGGAAATTGTGAAGGAATTACAAATGTTGATGAGGTCTACTGTTTTTGACGACAAAATACTGAGCTTCAAGACAATTGGTAACGCTGGACTTTGGGAAATGATCCCAACCATTCGAACATATATACAGGATAAATCTCAGCCGCAGGTGCTCAGAACCCAAGCTATTTACAGCTTGCGAAAACTTGCCCGTCATTACCCAGACGATATTCAGACAACGTTGCTGCCTCTTTATTTCGACCAATCAGAGAAGGAGGAGGTGCGGATTGGTTCTTACCTCGTGATGACGTTCACCGAGCCCTCCCGCCAGCTTCTGGAGATGGTGGCTCAGTCCCTCCACAGGGAGAGGAATCCCCACGTCGGAACATTCGTCTACACACATCTAGAACAAATGTCCAACAGTACTTACCCGTGCCTCATGTCCTGGGCAAAGAACGCTAGCTTTGCTATGAGATTTGCCAAGAAGTTCAGCCCCATGTATCATTACTCGAGGTTCATGCATCTTTCTGGATTTAATGAAATGCACAAGATGGGAGCAGCAGCCGAACTTGGTCTTGTTACCACCCCGGAAGAATTCATCCCACGTGCTGGTGCCGTTAATCTCCACACTTATGTTTTTGGACGTTCTGTAAACTTTGCAGAGATAGGATTCAATACAGAGGGGCTACAAACACTGGTGTCTAAACTGGTGGGTCCTCTCGGTGAACTAACAAAGGGCAAGTCACTCGTAGACGTTCTGAAACAGCGAGTAAGACGAAGCGCTGAATCCTCGCAACCTTCCGATCCTATAAGTCAGATCCACAAACAGTTGAAGGTGTCTCCAAGGACAAGTCCTACACCAAAAGGTCACATGTACATGAAAATGATGGGCAATGAACTCCAGTATATAACTCTTGATGGTACTTTGGTGGACACCCTACTTAGAGAAGGAAAGCTGTTGTCAGGTGTTTCAGAACAAGATTTGAAGACTGGACTAAACGTTGAGGTACATAGGTCAACGATGCCACTTGAAGCTGAAATAATGATTCCTTCCGAGTGTGGCCTTCCCCTGCGTCTAAAACTCCATGGAACCGCTGCTATCAAAGTAACGGGCAAAGTGGGAGTAACAGGAATGCCATCAATCTTTGAAATCAATCGTCCTGGAAAACAAGCAAAGGAACTCAGCTTTAATTTTGAGCTCAGACCAAGTGTTTTGTTTCAACTACGAGGAGAAATGGAAATGGATGCGGAGTACTTCAAAATGGGAGTTGCTTTGAAAACAATGGCGCATATGGAAACTCCACTTTCTCTTACCGCATCAGCCAATTTACCTAAGGCTAAATTTTACACGAAATTCAATATTGAAAAACTCAGTGAGAAAATTGCCAGGCTGGAAGTTTCCCCATACACATATTTCAAAGAAGATCCATCAGAAATAACCAAATATCCTTTGCCAAGAGAAACGCAAGAAATCAGTGTAGCGAAAAATGCAAAGGTTTTCCCGATGTCAATGGCTTATGGAAAACAAACTTTAGGACTTGAAATCAAACTAAGCGGGCAAGCTGTCGTTCGTGACTTTGAAATGGACGTTCCATACTATCCTATGATCGGGAAGCAAGAAATGATCGTCACTCTTTCTCCTGGAACTGATCCTCAGAAATATGTTGAGATTCAGTTTCAGTTAATGAAACGTATGTCGCAATCCAAACAACAACCAACCTCCGAGGAGAGTTCTAGTTCGACCGGTTTATTATCATGGGTCTCTAGTTTGATTGGAAGCGATCAATCCGACCAGAGCTCACCCTCCTCTTCATCATCTTCCTCTACTTCTCCCCCAAAAGACATCCGATCAAAGGATACATCTTTAAAGGATCTTCTAGAACATCTAAAAGAGTCGCAGTCTGTTCATCCCGATGGATCTGTAGTCACGCGAAACAACAGCATGGGATTAATTTTCAATGTCATCGGGATTGACCAATCTAGGTCTATTAAACGACACTTTCACATCAGCATGGCCGCTGGTATGAACCCTAGCCCAAAGACCACATCCATTCTTCTCCGGATGAATAGATCCCCTATTCCGACGATGGAAACTAAACCATGGAATATGGACGTTGCTGTCAACGTTAACTTACCAAGCAGACTCGCTGACCCGTCAGAATTGTTGTCAGACGCTTATCAAAGAGAGCTTGAGCAGCAAATAGAAGTTTACGTGAGAAGACATGGAGAATCCGACTACCACAGGTGGATTATGCTTGAAGAACCACGCTGGGAATCCTCTGTTCTTCAGAGACTTCTAAGCTTATCTGACACTCAGGAGGTCATCGATGAGGTCATGAACTCTGAACTTTCCAAATCCGAAGAGTCGGGAACCCCAGAAGACAGGAACATTATTGATCTCATTAGAAAACAAAAACAAATTCTTAAAGAAGCACGAAAGATTTGGCAAAGATCTTATGATTCCTTACGAGTGCAGGATATAAAAGCAAAGTTATCTTCCCTGATCAAAAGGTCAGAGAGTGTCAGGAAAGATCTAGAGAAGGATTCAGCATCAGTTTCAAAAAGTGAAAAATCAGACGCACTTCGCAAATACTGTGCACTACTTCAACAGCTGATTGACCAAAGATTGGACGAAGCTGTTCGTTCTTCAAGAAGGTCACTTTCATCAAAGGAAAGACAAGATATTGCAAAATCATTAGAGTCTAGCAAGGAATCTTTGAGAAAGATTTTACAACAGCAGCATCGTTCTCCTTCCAAAGTAGATTCATCTATTCACCACCTAGCTCTGTTCAAATCGATTCTTCATCGGTCAGTGAAAGTGATTCTGAAGAAATTAAAGAATCTAAGAACCCAGAACAAAAAGATAAATCCCAGCAACAACAACAGCCTTCTCAACAGTCCCAGGACACCGTGTCTAGCAATCAACCTTCCAAAGTGTCTAGTAGTTCGTCTTTGTCAAAGTCAGTGTCAGACCTTTTGCAAAAACAGAAAGATGTGGTTCAGGATATTTCCAGGTCAAAGGAATCAGAGGGATTGAAATCTGTTGATGAGAAAAAAATCAAGGAGGCACTTCTTTTAGCAAAAGAAGTTACTGAAAAGATTCGTCAAGAAAATTCTGGCCCATCTCCTCAAAATATCGAGAGGGAAAGACAAAGACTCATGAAATCCGTCATTCAACAACAGCAAATAATGAAATGTTTGGAGCAGCGGGTAAAGAAACCACAAACCGCCTCCGGCAAATCTGAAGACCAAATAAAAGAAATTCAGAGAATTATGCAAAAAAAAAAAAAAAAAAA 218-199 1345 186 78280177
1345 Cg_Vitellogenin_F CTCAACAGCCCTGGTGGCGG DLB 7/11/2011 20 70 59.97 C. gigas Vitellogenin AB084783 TTACACGGCAGAATGTTGCTTCTGCTTGCGGTCTCAACAGCCCTGGTGGCGGCAGCCGCCCAGACTCCCAGTCAAGCCTATGAAAGCAATAAGGAATACCTGTATGAGTATGAAACACAAGCACTTACCGGAATACCTATGGGGAGCACGATTTATTCCGGAATGAAAATGAAGTCCGACGTCAGGATCCAGTTCCGGTCCCGCTCGTCCGCTACCTTGAAGATGGACAAGTTGACCTTTGCAAAGATCAACGACCCTATAGAGTCGGTGGACCCGACCCAGCAGCAGGTGCCCGCGGAGATGTTCCAGCCCCTTACGGGGAGGGATGCCGAGCAGATGCTGACGGACCTGTCCAGACCTATCAACTTCAGGTACGTCCGCGGCAACGTTAAGGATATCCACCACGAAGCAGACGATCCGGAATGGTCCGTTAACGTGAAGAAAGGTCTGCTCAGTATGCTGGAGATGAACCTTGAGAAGAGGAAGGAACTCAGAAAAAGCGGCGTGATTCCGCAAGTTCTCCGTCCGCAGTCTTCTGACGAAGGTTCAATGTTCACAGTCATGGAGCCCAGCATCGTCGGGGAGTGTGAGACGCTGTACAGAATCAGTCCTTGGACCTCCACCAGTGCTAATCCATGGATGCATATCACAAAAGTCCGGAATTACCAACACTGTCTGGACAGGCCAAAGTACTTCGGCTCTATGTTCCATTTACGACAGTGCGCCGAATGTGTCAGGGAGCAGTCGGAACCGCTGAGATCCGCCTCACAGATCAGATACACCCTCCGTGGAAACATGCGACAGTTCCAGATCCAAAGCGCCATTGCAGAGAGCCAACACGTGTTCACACCGTACTCCGCCAAAGGAGGACATGTTGCTACCTATCTCAATCAGACCCTGAATTTAGTCAAAGAGGAGGATGTGAAGACCAGTCTCTCAGAGCCGCAAAGCCCAACAAAAGTCAAGTCTGGATTGCAGTACACGTCCCGCGAGCTGGAGATGAGAGACTCCTCGAGCATCTTGCAGCAGTCCAGTGACAGCCTGTCCACGGACAAGTCGTCTCCAGAGTCGCCACAACATTCATCGTCATCATCCAATCATCATCCATCACCCCAGCCTCCCAGTCCGCAGCCAAAAACGACGAGCAATCAGGCGGCGGATAGGATTAGAAAGTTGTTGAAAATGTTGGAGGTGTTTATGAAACCAACCATACAACCCGAAGCAGGTCCGCTCTTGATGTCACTATTAGAGGAGATCCGAACGGCTGATTCTGAGAGCCTAAGAGCGGTATATCGAGAATGTTCCAACGGCGAAACAGCAGCAACAGTTCAAGATGCTGATGGACATCCTTCCATCTGCGGAACTACTTCCGCTACAGAAGTCCTGGTGGACTCCATCCTCAACGACCAGCTCCCACAGTCCGAGGCTGTCGTGGCTCTGGGCATTCTGTCTCTCTCTGCCAGGCCAGATGTTCTGATTGCCAAGAAACTTCTGGATCTGACAAGAAGCAGCCAAGTTTCAAAGGACAGATATTTAAAAAGAGCTGCTTTCTTATGCTTGGGATCAGTAGCTGGAATGCTGAGAGAAGAAGGATGGAGAAGATCTCGTGAAATTTCACGCCAAGAGGAAATTGTCAAAACACTGATTTCCCAGGAATCGCGGTCACAGACTAGGAATGAATTAAAATCAAAGAAAAGAGAGTTAGAAGACTTGAAGAAGCGAGAACATAGTATCAAGACAAAAATAAAGCAGGAAATTGTGAAGGAATTACAAATGTTGATGAGGTCTACTGTTTTTGACGACAAAATACTGAGCTTCAAGACAATTGGTAACGCTGGACTTTGGGAAATGATCCCAACCATTCGAACATATATACAGGATAAATCTCAGCCGCAGGTGCTCAGAACCCAAGCTATTTACAGCTTGCGAAAACTTGCCCGTCATTACCCAGACGATATTCAGACAACGTTGCTGCCTCTTTATTTCGACCAATCAGAGAAGGAGGAGGTGCGGATTGGTTCTTACCTCGTGATGACGTTCACCGAGCCCTCCCGCCAGCTTCTGGAGATGGTGGCTCAGTCCCTCCACAGGGAGAGGAATCCCCACGTCGGAACATTCGTCTACACACATCTAGAACAAATGTCCAACAGTACTTACCCGTGCCTCATGTCCTGGGCAAAGAACGCTAGCTTTGCTATGAGATTTGCCAAGAAGTTCAGCCCCATGTATCATTACTCGAGGTTCATGCATCTTTCTGGATTTAATGAAATGCACAAGATGGGAGCAGCAGCCGAACTTGGTCTTGTTACCACCCCGGAAGAATTCATCCCACGTGCTGGTGCCGTTAATCTCCACACTTATGTTTTTGGACGTTCTGTAAACTTTGCAGAGATAGGATTCAATACAGAGGGGCTACAAACACTGGTGTCTAAACTGGTGGGTCCTCTCGGTGAACTAACAAAGGGCAAGTCACTCGTAGACGTTCTGAAACAGCGAGTAAGACGAAGCGCTGAATCCTCGCAACCTTCCGATCCTATAAGTCAGATCCACAAACAGTTGAAGGTGTCTCCAAGGACAAGTCCTACACCAAAAGGTCACATGTACATGAAAATGATGGGCAATGAACTCCAGTATATAACTCTTGATGGTACTTTGGTGGACACCCTACTTAGAGAAGGAAAGCTGTTGTCAGGTGTTTCAGAACAAGATTTGAAGACTGGACTAAACGTTGAGGTACATAGGTCAACGATGCCACTTGAAGCTGAAATAATGATTCCTTCCGAGTGTGGCCTTCCCCTGCGTCTAAAACTCCATGGAACCGCTGCTATCAAAGTAACGGGCAAAGTGGGAGTAACAGGAATGCCATCAATCTTTGAAATCAATCGTCCTGGAAAACAAGCAAAGGAACTCAGCTTTAATTTTGAGCTCAGACCAAGTGTTTTGTTTCAACTACGAGGAGAAATGGAAATGGATGCGGAGTACTTCAAAATGGGAGTTGCTTTGAAAACAATGGCGCATATGGAAACTCCACTTTCTCTTACCGCATCAGCCAATTTACCTAAGGCTAAATTTTACACGAAATTCAATATTGAAAAACTCAGTGAGAAAATTGCCAGGCTGGAAGTTTCCCCATACACATATTTCAAAGAAGATCCATCAGAAATAACCAAATATCCTTTGCCAAGAGAAACGCAAGAAATCAGTGTAGCGAAAAATGCAAAGGTTTTCCCGATGTCAATGGCTTATGGAAAACAAACTTTAGGACTTGAAATCAAACTAAGCGGGCAAGCTGTCGTTCGTGACTTTGAAATGGACGTTCCATACTATCCTATGATCGGGAAGCAAGAAATGATCGTCACTCTTTCTCCTGGAACTGATCCTCAGAAATATGTTGAGATTCAGTTTCAGTTAATGAAACGTATGTCGCAATCCAAACAACAACCAACCTCCGAGGAGAGTTCTAGTTCGACCGGTTTATTATCATGGGTCTCTAGTTTGATTGGAAGCGATCAATCCGACCAGAGCTCACCCTCCTCTTCATCATCTTCCTCTACTTCTCCCCCAAAAGACATCCGATCAAAGGATACATCTTTAAAGGATCTTCTAGAACATCTAAAAGAGTCGCAGTCTGTTCATCCCGATGGATCTGTAGTCACGCGAAACAACAGCATGGGATTAATTTTCAATGTCATCGGGATTGACCAATCTAGGTCTATTAAACGACACTTTCACATCAGCATGGCCGCTGGTATGAACCCTAGCCCAAAGACCACATCCATTCTTCTCCGGATGAATAGATCCCCTATTCCGACGATGGAAACTAAACCATGGAATATGGACGTTGCTGTCAACGTTAACTTACCAAGCAGACTCGCTGACCCGTCAGAATTGTTGTCAGACGCTTATCAAAGAGAGCTTGAGCAGCAAATAGAAGTTTACGTGAGAAGACATGGAGAATCCGACTACCACAGGTGGATTATGCTTGAAGAACCACGCTGGGAATCCTCTGTTCTTCAGAGACTTCTAAGCTTATCTGACACTCAGGAGGTCATCGATGAGGTCATGAACTCTGAACTTTCCAAATCCGAAGAGTCGGGAACCCCAGAAGACAGGAACATTATTGATCTCATTAGAAAACAAAAACAAATTCTTAAAGAAGCACGAAAGATTTGGCAAAGATCTTATGATTCCTTACGAGTGCAGGATATAAAAGCAAAGTTATCTTCCCTGATCAAAAGGTCAGAGAGTGTCAGGAAAGATCTAGAGAAGGATTCAGCATCAGTTTCAAAAAGTGAAAAATCAGACGCACTTCGCAAATACTGTGCACTACTTCAACAGCTGATTGACCAAAGATTGGACGAAGCTGTTCGTTCTTCAAGAAGGTCACTTTCATCAAAGGAAAGACAAGATATTGCAAAATCATTAGAGTCTAGCAAGGAATCTTTGAGAAAGATTTTACAACAGCAGCATCGTTCTCCTTCCAAAGTAGATTCATCTATTCACCACCTAGCTCTGTTCAAATCGATTCTTCATCGGTCAGTGAAAGTGATTCTGAAGAAATTAAAGAATCTAAGAACCCAGAACAAAAAGATAAATCCCAGCAACAACAACAGCCTTCTCAACAGTCCCAGGACACCGTGTCTAGCAATCAACCTTCCAAAGTGTCTAGTAGTTCGTCTTTGTCAAAGTCAGTGTCAGACCTTTTGCAAAAACAGAAAGATGTGGTTCAGGATATTTCCAGGTCAAAGGAATCAGAGGGATTGAAATCTGTTGATGAGAAAAAAATCAAGGAGGCACTTCTTTTAGCAAAAGAAGTTACTGAAAAGATTCGTCAAGAAAATTCTGGCCCATCTCCTCAAAATATCGAGAGGGAAAGACAAAGACTCATGAAATCCGTCATTCAACAACAGCAAATAATGAAATGTTTGGAGCAGCGGGTAAAGAAACCACAAACCGCCTCCGGCAAATCTGAAGACCAAATAAAAGAAATTCAGAGAATTATGCAAAAAAAAAAAAAAAAAAA 33-52 1346 186 78280178
1344 Cg_ER_R TCCTGGAACCTGTTTGGCCCAG DLB 7/11/2011 22 59 58.68 C. gigas Estrogen Receptor HS180695.1 AGATTCTGGAGGGCGGGGAGGAGGTGCGCTTTCTTGCCACTGTGTCCGATCTAGCAGACCGGGAGTTAGTCATCACCATTAGCTGGGCCAAACAGGTTCCAGGATTTTGCACGCTATCCCTCAGTGATCAGATGAACCTATTGCAGCATTCATGGTTGGAAATCCTATGTTTAAATCTTGTATTCCGTTCCTGTCCCTACAATGGCTACCTCAAATTTGCCGAGGACCTTCAACTCTCTGTGGATGAATGTAAACTCTGCCACTGTTCCCCAGAACTGGATGGGATCTCACGAAAACTTGCCAAGAAATTCACAGACATGGAGGTCACCAAGGAAGAGTATCTTCTGCTGAAAGCCATGACTTTATGCAATATAGATGTGGCTATTGAGAATAGTGAAGCAGTGAGGCAGCTCCAGGACAAATTACAAGACTCCCTGATCGAATACGTCAAATACCGCTATGTTGGAAATCTACGGCGCTTGGGGCATCTATACATGCTTCTCCCAGCTCTCAATCACATGAAATTGCTGGCTAAGCAGTACTGGTTTGATGTAAAGAAAGACGGAAGGATCATGATGCATAAGCTGTTTCTGGAAATGTTGGAGGCAGACTCTTGACGATGCTTACTAAGGAAGATAACTCTTACATAGTGTAAAGTTTTTTCTTTGCAAGCATGTGATATATTTTTGTAATTAGCTT 104-83 1343 101 78280179
1343 Cg_ER_F TTCTGGAGGGCGGGGAGGAG DLB 7/11/2011 20 58 59.32 C. gigas Estrogen Receptor HS180695.1 AGATTCTGGAGGGCGGGGAGGAGGTGCGCTTTCTTGCCACTGTGTCCGATCTAGCAGACCGGGAGTTAGTCATCACCATTAGCTGGGCCAAACAGGTTCCAGGATTTTGCACGCTATCCCTCAGTGATCAGATGAACCTATTGCAGCATTCATGGTTGGAAATCCTATGTTTAAATCTTGTATTCCGTTCCTGTCCCTACAATGGCTACCTCAAATTTGCCGAGGACCTTCAACTCTCTGTGGATGAATGTAAACTCTGCCACTGTTCCCCAGAACTGGATGGGATCTCACGAAAACTTGCCAAGAAATTCACAGACATGGAGGTCACCAAGGAAGAGTATCTTCTGCTGAAAGCCATGACTTTATGCAATATAGATGTGGCTATTGAGAATAGTGAAGCAGTGAGGCAGCTCCAGGACAAATTACAAGACTCCCTGATCGAATACGTCAAATACCGCTATGTTGGAAATCTACGGCGCTTGGGGCATCTATACATGCTTCTCCCAGCTCTCAATCACATGAAATTGCTGGCTAAGCAGTACTGGTTTGATGTAAAGAAAGACGGAAGGATCATGATGCATAAGCTGTTTCTGGAAATGTTGGAGGCAGACTCTTGACGATGCTTACTAAGGAAGATAACTCTTACATAGTGTAAAGTTTTTTCTTTGCAAGCATGTGATATATTTTTGTAATTAGCTT 4-23bp 1344 101 78280180
1342 3KDSR_qPCR.2_R GCAGTGTTTCCCTGGGCTTA ETS 5/24/2011 20 55 54.37 C. gigas 3 ketodihydrosphingosine reductase contig 1630 (Geneious) ATGTTGATTTATTGTGGAATTTTGTTGATTTTAGTAATTTTATTTGCATTATCAAAACTTCTATCGGCAAAGAAAATAAAGCTAAAAGGAGCTCATGTATTGATAACAGGTGGATCTAGTGGTATTGGTAAAGCCCTTGCTATTGAGGCGGTTAAAAATGGAGCTAATGTCACTATCATGGCCAGGAATGAAAAAAAACTAGAAGATGCAAAAGAAGAAATAGAAAGTCACATAAAAGATAAAGATGCTCAGAAGGTTTTTTCAACATCTGTGGACATAACAAAAAGTGCAGAAATGGTTAAAGAAGCTGTTAAAAAGGCTGAAAACAATCTGGGACCAGTTACAATTCTAATTAACAATGCAGGCAGTGCAGTGGCTGGAAATTTTGAAGACACTTCATCTGAGCAATTTCAGCGCATGATGGATTTGAATTTTCTCGGAGGTGTCAATGTCACCAAGGCTGCCTTAAAAGGGATGAAGGACAACAATGGAGGAAGAATAGTTTTCATCTCATCCCAGGCGGGACAAGTGGGCGTGTTTGGCTACACCGCCTACTCAGCCTCAAAATTCGCTCTCAGGGGATTCGCAGAGTCCCTTCAAATGGAGGTAAAACCATACAATATTTATGTTACCATGGCATTTCCACCTGACACAGACACTCCTGGTCTAGCAGAGGAGAATAAATCTAAGCCCAGGGAAACACTGCTCATATCAGATACAGTAGGACTGTTTTCTCCCAGTGATGTGGCCAAGTCAGTTTTCAAGGATGCTGTGAATGGGAAATTTTTGAGTTACGTTGGTATGGATGGCTGGTTGCTTTGCAACTTATCAAGCGGGATGTCCCCTGCAACGTCCGTTTTGGATTTACTTCAGCAGATATTCACTATGGGACTGTTCCGCTTTGTTTGTCAGTTTTATTTGTTACATTTTGACCGGATTATAAAAAAGTGTAAAGAAGAGAAGCATGCAAAACCCAAGACATCATAAGATTTCATACGTATTTAATGGTTTTTTTTAAAACAATTTAAATATATTTATGAACAAATTATACATTTATCAGTTGTATTTGAAATATCGGTATATTAATTTGCTTTTACATTCAATGAATTCACACTTGCAAAAAATATTT 687-706 1341 168 replace primers 1186 and 1187 59296986
1341 3KDSR_qPCR.2_F TTGGCTACACCGCCTACTCA ETS 5/24/2011 20 55 55 C. gigas 3 ketodihydrosphingosine reductase contig 1630 (Geneious) ATGTTGATTTATTGTGGAATTTTGTTGATTTTAGTAATTTTATTTGCATTATCAAAACTTCTATCGGCAAAGAAAATAAAGCTAAAAGGAGCTCATGTATTGATAACAGGTGGATCTAGTGGTATTGGTAAAGCCCTTGCTATTGAGGCGGTTAAAAATGGAGCTAATGTCACTATCATGGCCAGGAATGAAAAAAAACTAGAAGATGCAAAAGAAGAAATAGAAAGTCACATAAAAGATAAAGATGCTCAGAAGGTTTTTTCAACATCTGTGGACATAACAAAAAGTGCAGAAATGGTTAAAGAAGCTGTTAAAAAGGCTGAAAACAATCTGGGACCAGTTACAATTCTAATTAACAATGCAGGCAGTGCAGTGGCTGGAAATTTTGAAGACACTTCATCTGAGCAATTTCAGCGCATGATGGATTTGAATTTTCTCGGAGGTGTCAATGTCACCAAGGCTGCCTTAAAAGGGATGAAGGACAACAATGGAGGAAGAATAGTTTTCATCTCATCCCAGGCGGGACAAGTGGGCGTGTTTGGCTACACCGCCTACTCAGCCTCAAAATTCGCTCTCAGGGGATTCGCAGAGTCCCTTCAAATGGAGGTAAAACCATACAATATTTATGTTACCATGGCATTTCCACCTGACACAGACACTCCTGGTCTAGCAGAGGAGAATAAATCTAAGCCCAGGGAAACACTGCTCATATCAGATACAGTAGGACTGTTTTCTCCCAGTGATGTGGCCAAGTCAGTTTTCAAGGATGCTGTGAATGGGAAATTTTTGAGTTACGTTGGTATGGATGGCTGGTTGCTTTGCAACTTATCAAGCGGGATGTCCCCTGCAACGTCCGTTTTGGATTTACTTCAGCAGATATTCACTATGGGACTGTTCCGCTTTGTTTGTCAGTTTTATTTGTTACATTTTGACCGGATTATAAAAAAGTGTAAAGAAGAGAAGCATGCAAAACCCAAGACATCATAAGATTTCATACGTATTTAATGGTTTTTTTTAAAACAATTTAAATATATTTATGAACAAATTATACATTTATCAGTTGTATTTGAAATATCGGTATATTAATTTGCTTTTACATTCAATGAATTCACACTTGCAAAAAATATTT 539-558 1342 168 replace primers 1186 and 1187 59296987
1340 Contig4755_PXDN_R TTGATTCACACGATGGTCCCCTGCT DM 5/12/2011 M. mercenaria 59004212
1339 Contig4755_PXDN_F ACAAGCCAGTTGCTGCTTCGAGA DM 5/12/2011 M. mercenaria 59004213
1338 Contig5239_FCN1_R ACTGGGTTGTACCACCATGCACCA DM 5/12/2011 M. mercenaria 59004214
1337 Contig5239_FCN1_F TTGTCCTCGGACCAAGTCCCAACT DM 5/12/2011 M. mercenaria 59004215
1336 Contig1063_MPEG1_R TGCTGTATAACGGTTCCCCGGATCT DM 5/12/2011 M. mercenaria 59004216
1335 Contig1063_MPEG1_F GCCGCTGCGGGATATTCTGAAACT DM 5/12/2011 M. mercenaria 59004217
1334 Contig3464_CO2_R AGACGTGAACTGGCCGTCACTGAT DM 5/12/2011 M. mercenaria 59004218
1333 Contig3464_CO2_F ACTTGGGACTGCAATAACTACCGCTCT DM 5/12/2011 M. mercenaria 59004219
1332 Contig1178_LEC2_R CACAAGGTGTGCCTCTTGCTCAGT DM 5/12/2011 M. mercenaria 59004220
1331 Contig1178_LEC2_F ATCTGCCTTGCCCTGATGGATGGA DM 5/12/2011 M. mercenaria 59004221
1330 Contig4820_DEF1_R CAGCCGGTACATTTGCACCTCTGA DM 5/12/2011 M. mercenaria 59004222
1329 Contig4820_DEF1_F GTCGATGCAGGTTTTGGTTGCCCA DM 5/12/2011 M. mercenaria 59004223
1328 Contig1643_SAMH1_R TCGTAGGAATTCGGGTCCTTGCAGT DM 5/12/2011 M. mercenaria 59004224
1327 Contig1643_SAMH1_F CGGATGAGGCAGAGCCAAAACACA DM 5/12/2011 M. mercenaria 59004225
1326 Contig2773_OXLA_R ACCAAGACAAAGCTTCTCCGGCCA DM 5/12/2011 M. mercenaria 59004226
1325 Contig2773_OXLA_F AGGGAGCGTATGCCAATTTGAAGCC DM 5/12/2011 M. mercenaria 59004227
1324 Contig7255_APLY_R TCAGCAGTCATGGCCCTTTGGACA DM 5/12/2011 M. mercenaria 59004228
1323 Contig7255_APLY_F TCAACATTTTCGTCTCGACCGCACC DM 5/12/2011 M. mercenaria 59004229
1322 Contig6406_NEP_R TATGACAGCGGCTTCTCCTGCACT DM 5/12/2011 M. mercenaria 59004230
1321 Contig6404_NEP_F AGCCAAGAATTGGGTACTCGGACCT DM 5/12/2011 M. mercenaria 59004231
1320 Contig5822_IF44L_R AGACTTTGTTCTGCACTGCCGCT DM 5/12/2011 M. mercenaria 59004232
1319 Contig5822_IF44L_F TTGGTCCTGTTGGAGCTGGAAAGTCA DM 5/12/2011 M. mercenaria 59004233
1318 Contig8045_NEURM_R AAGTTCCGACCGGACAAGCAGGAT DM 5/12/2011 M. mercenaria 59004234
1317 Contig8045_NEURM_F ACATGACTTCCACAGCCAACCCGT DM 5/12/2011 M. mercenaria 59004235
1316 Contig5346_AMPN_R ACTGCTGTACGGCGTTCCCG DM 5/12/2011 M. mercenaria TAAGCGGAATAACATCATTGTTCAATACACAATTTGAACTTGACCAGTTAAAAGAGTTTGTGGACAGCAAAGCAAGTCTTGGATCCGGTGAACGTGCTTTTGCTCAGGCGCTTGAAAAAACACAAAGTAACATCAATTGGATGACTGCAAACGTCCCAGTGATAAAGAGCTGGCTCAATGATCAAGGATACTAAAGGCACGTTAAACGTATATGCTACAGATCAAGATGTTGGAAAGCGAGTAAGACTTATGACGCACAAGACTACCTTATTCCTGAACAGTCCAGAATACCATATTTACGGGAACGCCGTACAGCAGTGTCCCTCGC 183 59004236
1315 Contig5346_AMPN_F TTGGATGACTGCAAACGTCCCAGTG DM 5/12/2011 M. mercenaria TAAGCGGAATAACATCATTGTTCAATACACAATTTGAACTTGACCAGTTAAAAGAGTTTGTGGACAGCAAAGCAAGTCTTGGATCCGGTGAACGTGCTTTTGCTCAGGCGCTTGAAAAAACACAAAGTAACATCAATTGGATGACTGCAAACGTCCCAGTGATAAAGAGCTGGCTCAATGATCAAGGATACTAAAGGCACGTTAAACGTATATGCTACAGATCAAGATGTTGGAAAGCGAGTAAGACTTATGACGCACAAGACTACCTTATTCCTGAACAGTCCAGAATACCATATTTACGGGAACGCCGTACAGCAGTGTCCCTCGC 183 59004237
1314 On_TERT_R CGTTTTCTTCCCAAACTGGA CGS 5/9/2011 20 45 60.1 O.nerka tert ATATTCATGGCAAAGACGTCTTGGAGTTCTTCCCAGATGCTCTCTAGCTGTGTTGTCCAGTTTGGGAAGAAAACGTTCCGGGATTCCTCAGGGTTCCGTGGTGTCGTCTCTGCTGTGCTGCCTCTCACATGGAGAACCTTCTGTT 1314 151 http://www.evernote.com/pub/cgstorer/carolinesnotebook#n=79961e44-55c4-444b-a486-6297defa405b&b=c5e05cfb-8b7e-42dd-abd1-490de048dfa5 58937070
1313 On_TERT_F AAAGGCTTTGTGATGGCACT CGS 5/9/2011 20 45 59.7 O.nerka tert ATATTCATGGCAAAGACGTCTTGGAGTTCTTCCCAGATGCTCTCTAGCTGTGTTGTCCAGTTTGGGAAGAAAACGTTCCGGGATTCCTCAGGGTTCCGTGGTGTCGTCTCTGCTGTGCTGCCTCTCACATGGAGAACCTTCTGTT 1313 151 http://www.evernote.com/pub/cgstorer/carolinesnotebook#n=79961e44-55c4-444b-a486-6297defa405b&b=c5e05cfb-8b7e-42dd-abd1-490de048dfa5 58937071
1312 Contig8213_HS90A_F GTCCACCAGAAGGGACACTG SJW 5/8/2011 20 60 60.56 M. mercenaria 1311 171 58910692
1311 Contig8213_HS90A_R GCCCACTAGCTGAAATTGCT SJW 5/8/2011 20 50 59.48 M. mercenaria 1312 171 58910693
1310 Contig6093_RBM25_F GGAAGAAGAACCGACGTTGA SJW 5/8/2011 20 50 60.23 M. mercenaria 1309 141 58910694
1309 Contig6093_RBM25_R GCGAGTAATCGCCACATCTT SJW 5/8/2011 20 50 60.24 M. mercenaria 1310 141 58910695
1308 Contig2039_BIRC3_F GATTTTCCGCAGTCTTCTTCA SJW 5/8/2011 21 42.86 59.44 M. mercenaria 1307 154 58910696
1307 Contig2039_BIRC3_R GACGCTGATGCAGATCAAAA SJW 5/8/2011 20 45 59.96 M. mercenaria 1308 154 58910697
1306 Contig36_SOCS2_F AATCATGTCCAGTGGGAACG SJW 5/8/2011 20 50 60.78 M. mercenaria 1305 145 58910698
1305 Contig36_SOCS2_R TTTTCGTCCGCATCTAGTGA SJW 5/8/2011 20 45 59.42 M. mercenaria 1306 145 58910699
1304 Contig4459_HS12A_F CTCAGTCCATGGTTGTGCTG SJW 5/8/2011 20 55 60.31 M. mercenaria 1303 153 58910700
1303 Contig4459_HS12A_R CCGAAGATGACAGCTCCTTT SJW 5/8/2011 20 50 59.43 M. mercenaria 1304 153 58910701
1302 Contig5635_HS90B_F AGACCACCTTGCTGTCAAGC SJW 5/8/2011 20 55 60.45 M. mercenaria 1301 163 58910702
1301 Contig5635_HS90B_R TTCGCAATTGTCCATGATAAA SJW 5/8/2011 21 33.33 59.02 M. mercenaria 1302 163 58910703
1300 Contig5363_CATA_F GACAAAGATTTGGCCACAGG SJW 5/8/2011 20 50 60.5 M. mercenaria 1299 150 58910704
1299 Contig5363_CATA_R TTATCAGGACTGGCCTCGAC SJW 5/8/2011 20 55 60.22 M. mercenaria 1300 150 58910705
1298 Contig927_ABCA1_F GGTGGCTTGTTGGATTTGAT SJW 5/8/2011 20 45 59.8 M. mercenaria 1297 145 58910706
1297 Contig927_ABCA1_R TCAGGAACACGAAACCTTCA SJW 5/8/2011 20 45 59.26 M. mercenaria 1298 145 58910707
1296 Contig2002_G3P3_F ATTGGCCAAGGTTATCAACG SJW 5/8/2011 20 45 59.82 M. mercenaria 195 152 58910708
1295 Contig2002_G3P3_R AGGATGGGATGATGTTACCG SJW 5/8/2011 20 50 59.63 M. mercenaria 1296 152 58910709
1294 Contig4839_LECH_F GCATGGATTGGTTTGACTGA SJW 5/8/2011 20 45 59.5 M. mercenaria 1293 152 58910710
1293 Contig4839_LECH_R AGGGCGTTCCAAGTCCTTAT SJW 5/8/2011 20 50 59.96 M. mercenaria 1294 152 58910711
1292 Contig6312_CATB_F GGAGGTCATGCCATCAAACT SJW 5/8/2011 20 50 59.93 M. mercenaria 1291 145 58910712
1291 Contig6312_CATB_R TTGACTCAATTCCGCACTCA SJW 5/8/2011 20 45 60.39 M. mercenaria 1292 145 58910713
1290 Contig3978_"SODM_F ACTAAGCCCAAAGGGAGGTG SJW 5/8/2011 20 55 60.49 M. mercenaria 1289 151 58910714
1289 Contig3978_"SODM_R TTGGTTAAATCCGAGCCATC SJW 5/8/2011 20 45 59.9 M. mercenaria 1290 151 58910715
1288 Contig6038_CATL1_F TGGATGTCAATAACCGGAAT SJW 5/8/2011 20 40 57.73 M. mercenaria 1287 153 58910716
1287 Contig6038_CATL1_R TTCCCCAGCTGTTCTTGATT SJW 5/8/2011 20 45 59.67 M. mercenaria 1288 153 58910717
1286 Contig3659_LBP_F CGACGTGTCGTTCAAGTTTC SJW 5/8/2011 20 50 59.34 M. mercenaria 1285 145 58910718
1285 Contig3659_LBP_R TTTCTTTTCACCATCCTCATTG SJW 5/8/2011 22 36.36 59.06 M. mercenaria 1286 145 58910719
1284 Contig6364_HSP7C_F TCAGAAACTCCGTCGAGAGG SJW 5/8/2011 20 55 60.52 M. mercenaria 128 154 58910720
1283 Contig6364_HSP7C_R TCGGAACAAATCCATGTTCA SJW 5/8/2011 20 40 59.9 M. mercenaria 1284 154 58910721
1282 Contig6910_CATA_F CGTCAGCCATCAGGTTCTTT SJW 5/8/2011 20 50 60.25 M. mercenaria 1281 149 58910722
1281 Contig6910_CATA_R GTTCTCTGACCGAGGTACGC SJW 5/8/2011 20 60 59.87 M. mercenaria 1282 149 58910723
1280 Contig8423_IAP_F ACAATCTGGGCTGGCTAGAA SJW 5/8/2011 20 50 59.84 M. mercenaria 1279 137 58910724
1279 Contig8423_IAP_R AACAGTTAGCGGAAGCTGGA SJW 5/8/2011 20 50 60.02 M. mercenaria 1280 137 58910725
1278 Contig6941_CP10_F CGCTGCTGTCTCCTAACACA SJW 5/8/2011 20 55 60.2 M. mercenaria 1277 144 58910726
1277 Contig6941_CP10_R TTTCCACATGCGTAGACCTTC SJW 5/8/2011 21 47.62 60.13 M. mercenaria 1278 144 58910727
1276 Contig7486_CYTA_F GTTCCCGCAACAATCTGACT SJW 5/8/2011 20 50 60.12 M. mercenaria 1275 149 58910728
1275 Contig7486_CYTA_R ACTGGAGCTTGGACTGGAGA SJW 5/8/2011 20 55 59.99 M. mercenaria 1276 149 58910729
1274 Contig2084_CALM_F TTCGTGAAGCATTCCGTGTA SJW 5/8/2011 20 45 60.26 M. mercenaria 1273 154 58910730
1273 Contig2084_CALM_R ACTTGGCCATCACCATCAAT SJW 5/8/2011 20 45 60.2 M. mercenaria 1274 154 58910731
1272 Contig7234_SODC_F TTTGCCATCTGGGTTGAAAT SJW 5/8/2011 20 40 60.31 M. mercenaria 1271 148 58910732
1271 Contig7234_SODC_R TACGCTATCCCAGGAGGATG SJW 5/8/2011 20 55 60.05 M. mercenaria 1272 148 58910733
1270 Contig2081_BGH3_F GCTCCAACAGATGAGGCATT SJW 5/8/2011 20 50 60.23 M. mercenaria 1269 154 58910734
1269 Contig2081_BGH3_R GGGAATCGAACCAGTTAGCA SJW 5/8/2011 20 50 60.07 M. mercenaria 1270 154 58910735
1268 Contig1690_HAAF_F GATGGAAATTTCGCTGTTGC SJW 5/8/2011 20 45 60.59 M. mercenaria 1267 154 58910736
1267 Contig1690_HAAF_R TCTGGGCCATTGTTATGGAT SJW 5/8/2011 20 45 60.16 M. mercenaria 1268 154 58910737
1266 Contig6394_IF4A_F TCAATTACGACCTGCCGTTT SJW 5/8/2011 20 45 60.5 M. mercenaria 1265 158 58910738
1265 Contig6394_IF4A_R CTCTTGGACCTCCGTGTTGT SJW 5/8/2011 20 55 60.15 M. mercenaria 1266 158 58910739
1264 Contig4706_TRAF3_F GCAAGGAGGAAACAAGATGC SJW 5/8/2011 20 50 59.82 M. mercenaria 1263 161 58910740
1263 Contig4706_TRAF3_R CGCATCACCACAAAGAACAA SJW 5/8/2011 20 45 60.7 M. mercenaria 1264 161 58910741
1262 Contig2494_S39A4_F GCACATGACAGCAACATTCC SJW 5/8/2011 20 50 60.13 M. mercenaria 1261 151 58910742
1261 Contig2494_S39A4_R TTCCGTATCCGTACCTCTCG SJW 5/8/2011 20 55 60.09 M. mercenaria 1262 151 58910743
1260 Contig2830_IAP1_F ATACAGCGCTCGTCTTCGAT SJW 5/8/2011 20 50 60.01 M. mercenaria 1259 137 58910744
1259 Contig2830_IAP1_R GGATCTCAAAACGGCATTTG SJW 5/8/2011 20 45 60.45 M. mercenaria 1260 137 58910745
1258 Contig1081_IAP2_F AATCATGCACTCGACAGTGG SJW 5/8/2011 20 50 59.71 M. mercenaria 1257 152 58910746
1257 Contig1081_IAP2_R GGCGATCATGTGACTACACG SJW 5/8/2011 20 55 60.14 M. mercenaria 1258 152 58910747
1256 Contig5170_VA0D_F TGGACACTCCACTAGCACCA SJW 5/8/2011 20 55 60.31 M. mercenaria 1255 153 58910748
1255 Contig5170_VA0D_R TCTCTCCTGTTGAGCCACCT SJW 5/8/2011 20 55 59.99 M. mercenaria 1256 153 58910749
1254 Contig1521_STIP1_F CCCAGAGATTGCATTAGAGGA SJW 5/8/2011 21 47.62 59.28 M. mercenaria 1253 113 58910750
1253 Contig1521_STIP1_R CATCCTGTGGGTTCCTTTTG SJW 5/8/2011 20 50 60.34 M. mercenaria 1254 113 58910751
1252 Contig2652_MVP_F GGACCCTTTCCCACTCTACC SJW 5/8/2011 20 60 59.79 M. mercenaria 1251 147 58910752
1251 Contig2652_MVP_R CATTCATCCCCAGCTGTTCT SJW 5/8/2011 20 50 60.07 M. mercenaria 1252 147 58910753
1250 Contig4744_IKBA_F ATTGACTGGACAGCACGACA SJW 5/8/2011 20 50 60.32 M. mercenaria 1249 150 58910754
1249 Contig4744_IKBA_R CAGTCGGCGTGCTTACTAAA SJW 5/8/2011 20 50 59.13 M. mercenaria 1250 150 58910755
1248 Contig1039_NFKB1_F AAAGGGAATGCACCTGAATG SJW 5/8/2011 20 45 59.93 M. mercenaria 1247 148 58910756
1247 Contig1039_NFKB1_R ACAGATCTTGAGGGCGTTTG SJW 5/8/2011 20 50 60.25 M. mercenaria 1248 148 58910757
1246 Contig7676_TWF2A_F GGCATTTATAGCCTGGCATC SJW 5/8/2011 20 50 59.53 M. mercenaria 1245 151 58910758
1245 Contig7676_TWF2A_R GCAGATTCAGGGGACGTATC SJW 5/8/2011 20 55 59.51 M. mercenaria 1246 151 58910759
1244 Contig8163_SVIL_F CTTGCCAAATAATGCCCAGT SJW 5/8/2011 20 45 59.96 M. mercenaria 1243 150 58910760
1243 Contig8163_SVIL_R GTTTCCCTCAAACTCGCTCA SJW 5/8/2011 20 50 60.38 M. mercenaria 1244 150 58910761
1242 Contig477_HM13_F TGGTCTGGCATTTGCAGTTA SJW 5/8/2011 20 45 60.26 M. mercenaria 1241 153 58910762
1241 Contig477_HM13_R GGAGCTTCGAATGACTTTGC SJW 5/8/2011 20 50 59.96 M. mercenaria 1242 153 58910763
1240 Contig1761_"LOX3_F AAGGCATCGTCGTCTGTACC SJW 5/8/2011 20 55 60.14 M. mercenaria 1239 138 58910764
1239 Contig1761_"LOX3_R CTACGTAGCCGTTTCGATCC SJW 5/8/2011 20 55 59.73 M. mercenaria 1240 138 58910765
1238 Contig7333_TLR4_F CCGAATCCCTCTCTTCAAAA SJW 5/8/2011 20 45 59.24 M. mercenaria 1237 142 58910766
1237 Contig7333_TLR4_R TTTGACGCCTACATCTCGTG SJW 5/8/2011 20 50 59.86 M. mercenaria 1238 142 58910767
1236 Contig2056_CATZ_F GCTGTGGAGTTATGGCAACA SJW 5/8/2011 20 50 59.72 M. mercenaria 1235 153 58910768
1235 Contig2056_CATZ_R AGGAGTTTCTGCCAATCCAA SJW 5/8/2011 20 45 59.67 M. mercenaria 1236 153 58910769
1234 Contig137_PGRP_F GTTGGAGAAGACGGAAGAGC SJW 5/8/2011 20 55 59.02 M. mercenaria 1233 147 58910770
1233 Contig137_PGRP_R AATGGCTTCAAGAGCTGGAC SJW 5/8/2011 20 50 59.43 M. mercenaria 1234 147 58910771
1232 Sg_Prx6_R CACCTGTGGAAACACCTTCTC TG 4/20/2011 21 59 Saccostrea glomerata peroxiredoxin 6 FJ626708 AGACTCTATCATAAGTAGTAGCCGTTTTGAGGACGCACTGACCACTCCGTCATAATGGTGAATTTAGGCGACACTTTTCCGAACTTTGAGGCGGAAACAACTGCTGGAAAAATCAAATTTCATGATTTTGTTGGCGACAGTTGGTGCATACTATTCTCCCATCCAGCAGACTACACTCCAGTCTGTACAACAGAACTGGGGAAATGCGTGGAGCTCGAGCCCGAGTTCAAGAAAAGGGGAGTCAAAATGATCGCCCTGTCCTGTGATGACGTCCCAAGTCACGAGGGCTGGTCAAAGGATATTTTAGATTACTGTAAATGTTCCACAGGAAAGCTTCCGTACCCGATCATTTCGGATAAGAGCCGAGACTTGGCGGTTAAGCTCGGTATGGTAGATCCGGCGGAGAAAGACAATGCTGGACTTCCTCTGACCTGCCGAGCGGTTTTTATAATTGGCCCTGACAAGAAACTGAAATTATCAATGCTGTACCCCGCAACCACAGGACGTAATTTCGCGGAAATTTTGAGGGTAATTGACTCCCTCCAGTTGACCATGAACAAAAAGGTGGCCACCCCTGAAGGATGGAAGGACGGTGATAAGTGTATGGTTTTACCTTCCATCCCCCAGGAAGGTATAGAGAAGGTGTTTCCACAGGGTGTTACCGTACAACCCGTACCCTCGGGGAAAGCTTATCTTAGGTTCACACCCCAACCAAAGTAATTCCATCACAACTGCCTGTATTAAAAATATTTTGTTATAAAATAGTTTCTTTATTTTGTACTCGTTAGGACATGTTACTAATTTACTGAATAAACTATTAAACTGAATGTGAAAAAAAAAAAAAAAAAAAAAAAAA 1231 82 from Green et al. 2009 58592589
1231 Sg_Prx6_F GAAGGATGGAAGGACGGTGAT TG 4/20/2011 21 59 Saccostrea glomerata peroxiredoxin 6 FJ626708 AGACTCTATCATAAGTAGTAGCCGTTTTGAGGACGCACTGACCACTCCGTCATAATGGTGAATTTAGGCGACACTTTTCCGAACTTTGAGGCGGAAACAACTGCTGGAAAAATCAAATTTCATGATTTTGTTGGCGACAGTTGGTGCATACTATTCTCCCATCCAGCAGACTACACTCCAGTCTGTACAACAGAACTGGGGAAATGCGTGGAGCTCGAGCCCGAGTTCAAGAAAAGGGGAGTCAAAATGATCGCCCTGTCCTGTGATGACGTCCCAAGTCACGAGGGCTGGTCAAAGGATATTTTAGATTACTGTAAATGTTCCACAGGAAAGCTTCCGTACCCGATCATTTCGGATAAGAGCCGAGACTTGGCGGTTAAGCTCGGTATGGTAGATCCGGCGGAGAAAGACAATGCTGGACTTCCTCTGACCTGCCGAGCGGTTTTTATAATTGGCCCTGACAAGAAACTGAAATTATCAATGCTGTACCCCGCAACCACAGGACGTAATTTCGCGGAAATTTTGAGGGTAATTGACTCCCTCCAGTTGACCATGAACAAAAAGGTGGCCACCCCTGAAGGATGGAAGGACGGTGATAAGTGTATGGTTTTACCTTCCATCCCCCAGGAAGGTATAGAGAAGGTGTTTCCACAGGGTGTTACCGTACAACCCGTACCCTCGGGGAAAGCTTATCTTAGGTTCACACCCCAACCAAAGTAATTCCATCACAACTGCCTGTATTAAAAATATTTTGTTATAAAATAGTTTCTTTATTTTGTACTCGTTAGGACATGTTACTAATTTACTGAATAAACTATTAAACTGAATGTGAAAAAAAAAAAAAAAAAAAAAAAAA 1232 82 from Green et al. 2009 58592590
1230 Sg_IK_R GGTACAGGGCACGTCATTCTC TG 4/20/2011 21 58 Saccostrea glomerata interferon inhibiting cytokine GH612255.1 CAGGTACACCACAAAAAAGCAGCTGTTCCAAGGCCAGAGGAAGATGAGGACGATCCAGCCACCAGGAGGAAGAAAAAGAAAATTTACTATGCTAAGCTTAAAAGGCTGGAAGAAGAGAGACAGAAAGAACTGGAGTCTAAATACAGAGACAGGGCCAGAGAGAGAAGAGATGGGGTAAACAAAGACTACGCTGAGACAGAGATCATAAGCACCACAGCTGATTATAGAGCAGTAGCTCCTGACGCCAAGGCGGGAGATAATTATGCTGAGAAACGTAAACAGCTGATTCAGGAGTCTAAATATCTTGGTGGTGACATGGAGCATACTCACTTGGTGAAAGGATTGGATTTTGCTTTGTTAGAGAAGGTGAGAGCTGAAATTAATTATAAAGAACAGGAAGATGAAATCTTGATGGAAGAAGCTGTAACTCAGAAAAAGGAAGATAAAGAGGTGGACCCAGATGATCAAATGATTTTCAAGACCAAGATGGGTAGAAACATCTTCAGAACATTGTTTAAGATTAGGGTCCCTGAGAGGAACGAACTGTTTTTACCGGGACGTATGGCCTATGTGGTGGACCTAGAAGATGACTATGCCGAGAATGACGTGCCCTGTACCTCGGCCGCGACCACGCT 1229 77 from Green et al. 2009 58592591
1229 Sg_IK_F AACTGTTTTTACCGGGACGTATG TG 4/20/2011 23 58 Saccostrea glomerata interferon inhibiting cytokine GH612255.1 CAGGTACACCACAAAAAAGCAGCTGTTCCAAGGCCAGAGGAAGATGAGGACGATCCAGCCACCAGGAGGAAGAAAAAGAAAATTTACTATGCTAAGCTTAAAAGGCTGGAAGAAGAGAGACAGAAAGAACTGGAGTCTAAATACAGAGACAGGGCCAGAGAGAGAAGAGATGGGGTAAACAAAGACTACGCTGAGACAGAGATCATAAGCACCACAGCTGATTATAGAGCAGTAGCTCCTGACGCCAAGGCGGGAGATAATTATGCTGAGAAACGTAAACAGCTGATTCAGGAGTCTAAATATCTTGGTGGTGACATGGAGCATACTCACTTGGTGAAAGGATTGGATTTTGCTTTGTTAGAGAAGGTGAGAGCTGAAATTAATTATAAAGAACAGGAAGATGAAATCTTGATGGAAGAAGCTGTAACTCAGAAAAAGGAAGATAAAGAGGTGGACCCAGATGATCAAATGATTTTCAAGACCAAGATGGGTAGAAACATCTTCAGAACATTGTTTAAGATTAGGGTCCCTGAGAGGAACGAACTGTTTTTACCGGGACGTATGGCCTATGTGGTGGACCTAGAAGATGACTATGCCGAGAATGACGTGCCCTGTACCTCGGCCGCGACCACGCT 1230 77 from Green et al. 2009 58592592
1228 Sg_sHsP_R CGCCATCTCTGGACAACGTT TG 4/20/2011 20 60 Saccostrea glomerata small heat shock protein GH612324.1 CAGGTACAAGCTAAACACGTGGAGGAATCACCTGGGAAGAAAATCCACAGAGAATCACCAAGTCCTACACACTTCCGGAAAACATTGACCCCATGAAGGTCACTTCAACTTGTCCAGAGATGGCGTCCTATGTATTGAAGCACCTGCCCCCAAGAGTGTGGAGGTTCGCAACGAAAGAATCATTCCCATTGAAAAATTGGCAATCAAGTAATAACATTTCTTTGTAATGAACATTGAGTGAACAGAGGCAATTGATTTAAAGTTTGTGATATTTTTTACTAGGCAGTTGT 1227 78 from Green et al. 2009 58592593
1227 Sg_sHsP_F GAGAATTCACCAAGTCCTACACACTTC TG 4/20/2011 27 59 Saccostrea glomerata small heat shock protein GH612324.1 CAGGTACAAGCTAAACACGTGGAGGAATCACCTGGGAAGAAAATCCACAGAGAATCACCAAGTCCTACACACTTCCGGAAAACATTGACCCCATGAAGGTCACTTCAACTTGTCCAGAGATGGCGTCCTATGTATTGAAGCACCTGCCCCCAAGAGTGTGGAGGTTCGCAACGAAAGAATCATTCCCATTGAAAAATTGGCAATCAAGTAATAACATTTCTTTGTAATGAACATTGAGTGAACAGAGGCAATTGATTTAAAGTTTGTGATATTTTTTACTAGGCAGTTGT 1228 78 from Green et al. 2009 58592594
1226 Sg_ecSOD_R CCACGGTCGTCATCATGAAG TG 4/20/2011 20 59 Saccostrea glomerata superoxide dismutase FJ626709 GTCCAAAGCCTGTAACCAGTGCACCAGTCTCCGTGGAGCTAGAAAGATGAACTGTCTTCTCGTGTTCGTTGTTCTTGTTGGCGCTGCCTTTGCTTCTAAGAAAAACGAAGCCAACATCAACATTTACCTTCACCTCTCTGACGATGCAGCACAGAGTGATGTAAATGCAAACTATGCTACCACAATGCACTATGCCCAGTGTGAGATGGAACCCAACCCCAACCAACCAGCCAGTCTCCATCACCACGTTCACGGAAGCATTGAAATGCCACAGCTGGGTGACGGAGAAATGACTATGTCGTTCCACCTGACTGGCTTTAATGTTAGCGACGACTTCAAGGACCATAACCACGGCCTCCAGATCCACGAGTATGGAGACATGGAGCACGGCTGTGTCACCATTGGAGAACTCTACCACGGCGAGCATGTCCAGGGACACGCTAACCCTGGTGACCTTGGAGATCTTCATGATGACGACCGTGGAAACGTCACTGATACTAGGAAATTTGATTGGCTCACAATTGGACATGAAGATGGAATTCTTGGACGTTCTCTGGCTATTCTTCAGGGCGATCACACTAGCCACACTGCCATCATTGCTTGCTGCGTCATCGGTCGTTCACATGCCCATTAAGATGCAATCTTATTCGTTTACAATTTGAAGACATCTCGGGGGAAACACGTGCAATATTCTTAAATTTTACTGACTTACTTACAAAATAAATTCATAAAAACGTTCAAAAAAAAAAAAAAAA 1225 76 from Green et al. 2009 58592595
1225 Sg_ecSOD_F AACTCTACCACGGCGAGCAT TG 4/20/2011 20 58 Saccostrea glomerata superoxide dismutase FJ626709 GTCCAAAGCCTGTAACCAGTGCACCAGTCTCCGTGGAGCTAGAAAGATGAACTGTCTTCTCGTGTTCGTTGTTCTTGTTGGCGCTGCCTTTGCTTCTAAGAAAAACGAAGCCAACATCAACATTTACCTTCACCTCTCTGACGATGCAGCACAGAGTGATGTAAATGCAAACTATGCTACCACAATGCACTATGCCCAGTGTGAGATGGAACCCAACCCCAACCAACCAGCCAGTCTCCATCACCACGTTCACGGAAGCATTGAAATGCCACAGCTGGGTGACGGAGAAATGACTATGTCGTTCCACCTGACTGGCTTTAATGTTAGCGACGACTTCAAGGACCATAACCACGGCCTCCAGATCCACGAGTATGGAGACATGGAGCACGGCTGTGTCACCATTGGAGAACTCTACCACGGCGAGCATGTCCAGGGACACGCTAACCCTGGTGACCTTGGAGATCTTCATGATGACGACCGTGGAAACGTCACTGATACTAGGAAATTTGATTGGCTCACAATTGGACATGAAGATGGAATTCTTGGACGTTCTCTGGCTATTCTTCAGGGCGATCACACTAGCCACACTGCCATCATTGCTTGCTGCGTCATCGGTCGTTCACATGCCCATTAAGATGCAATCTTATTCGTTTACAATTTGAAGACATCTCGGGGGAAACACGTGCAATATTCTTAAATTTTACTGACTTACTTACAAAATAAATTCATAAAAACGTTCAAAAAAAAAAAAAAAA 1226 76 from Green et al. 2009 58592596
1224 Sg_BActin_R GGTGGAGCAATGACCTTGATC TG 4/20/2011 21 58 Saccostrea glomerata Beta actin GH612256.1 TTAGCGTGGTCGCGGCCGAGGTACCCATCTACGAGGGATACGCCCTTCCCCACGCCATCATGAGATTGGATCTCGCTGGACGTGATCTGACAGATTACCTCATGAAAATCCTCACAGAACGTGGATATTCCTTCACAACCACAGCTGAAAGAGAAATCGTCAGAGACATTAAAGAGAAATTGTGCTATGTTGCTCTGGACTTTGAACAGGAAATGGCAACTGCTGCTTCGTCATCATCCCTAGAGAAGAGCTACGAACTTCCTGACGGTCAGGTCATCACCATTGGCAACGAGCGATTCAGGTGCCCAGAAGCCATGTTCCAGCCATCCTTCCTTGGAATGGAATCTTCTGGAATCCATGAAACCACATACAACAGTATCATGAAATGTGATGTTGATATCCGTAAAGACTTGTATGCTAATACAGTTTTCTCTGGTGGTACCACTATGTATCCCGGTATTGCTGACCGTATGCAGAAAGAAATCACAGCTTTAGCTCCCAGCACAATGAAGATCAAGGTCATTGCTCCACCAGAGAGGAAATACTCCGTCTGGATCGGTGGTTCTATCCTTGCTTCTCTATCCACCTTCCAACAGATGTGGATCAGCAAACAGGAATACGACGAATCTGGTCCATCCATTGTCCACAGGAAGTGCTTCTAGATAGATATTAATTAGGTTTTAATATACTAGTAACTTTCTAAGATCCCTCTCGCTTTGTAGTCCATGTCAGACATTTATTTGTTTTGACTGCGAGAGTGCTGCTATTTCATCAAATGAACTGTGATCGGGAAATCCAGCGTCTGTGTTATGGAATATTTGAATAGATAAGATTTATGTATGTGTAATCGTTTGTTTTATGTACTAGAACTTTGTACTTCTGTTTCGTCTTGAATTCAAATAAAATTTAAACTTTAAGAAAAAA 1223 76 from Green et al. 2009 58592597
1223 Sg_BActin_F GTATTGCTGACCGTATGCAGAAAG TG 4/20/2011 24 59 Saccostrea glomerata Beta actin GH612256.1 TTAGCGTGGTCGCGGCCGAGGTACCCATCTACGAGGGATACGCCCTTCCCCACGCCATCATGAGATTGGATCTCGCTGGACGTGATCTGACAGATTACCTCATGAAAATCCTCACAGAACGTGGATATTCCTTCACAACCACAGCTGAAAGAGAAATCGTCAGAGACATTAAAGAGAAATTGTGCTATGTTGCTCTGGACTTTGAACAGGAAATGGCAACTGCTGCTTCGTCATCATCCCTAGAGAAGAGCTACGAACTTCCTGACGGTCAGGTCATCACCATTGGCAACGAGCGATTCAGGTGCCCAGAAGCCATGTTCCAGCCATCCTTCCTTGGAATGGAATCTTCTGGAATCCATGAAACCACATACAACAGTATCATGAAATGTGATGTTGATATCCGTAAAGACTTGTATGCTAATACAGTTTTCTCTGGTGGTACCACTATGTATCCCGGTATTGCTGACCGTATGCAGAAAGAAATCACAGCTTTAGCTCCCAGCACAATGAAGATCAAGGTCATTGCTCCACCAGAGAGGAAATACTCCGTCTGGATCGGTGGTTCTATCCTTGCTTCTCTATCCACCTTCCAACAGATGTGGATCAGCAAACAGGAATACGACGAATCTGGTCCATCCATTGTCCACAGGAAGTGCTTCTAGATAGATATTAATTAGGTTTTAATATACTAGTAACTTTCTAAGATCCCTCTCGCTTTGTAGTCCATGTCAGACATTTATTTGTTTTGACTGCGAGAGTGCTGCTATTTCATCAAATGAACTGTGATCGGGAAATCCAGCGTCTGTGTTATGGAATATTTGAATAGATAAGATTTATGTATGTGTAATCGTTTGTTTTATGTACTAGAACTTTGTACTTCTGTTTCGTCTTGAATTCAAATAAAATTTAAACTTTAAGAAAAAA 1224 76 from Green et al. 2009 58592598
1222 Cg_3KDSR_R2seq ACCTGGACATCACAGTACAT ETS 4/20/2011 20 45 49.95 C. gigas 3-ketodihydrosphingosine reductase CGGTATACTCAAGCGACGGACCGAACTTACTCAGTTACTGTTAAAGATGTTGATTTATTGTGGAATTTTGTTGATTTTAATAATTTTATTTGCATTATCAAAACTTCTATCGGCAAAGNAAATAAAGCTAAAAGGAGCTCATGTATTGATAACAGGTGGATCTAGTGGTATTGGTAAAGCCCTTGCTATTGAGGCGGTTAAAAATGGAGCTAATGTCACTATCATGGCCAGGAATGNANAAAAACTAGAAAATGCAAAAGAAGAAATAGAAAGTCACATAAAAGATAAAGATGCTCAGAAGGTTTTTTCAACATCTGTGGACATAACAAAAAGTGCAGAAATGGTTAAAGAAGCTGTTAAAAAGGCTGAAAAYAATCTGGGACCAGTTACAATTCTAATTAACAATGCAGGCAGTGCAGTGGCTGGAAATTTTGAAGACACTTCATCTGAGCAATTTCAGCGCATGATGGATTTGAATTTTCTCGGAGGTGTCAATGTCACCAAGGCTGCCTTAAAAGGGATGAAGGACAACAATGSAGGAAGAATAGTTTTCATCTCATCCCAGGCGGGACAAGTGGGCGTGTTTGGCTACACCGCCTACTCAGCCTCAAAATTCGCTCTCAGGGGATTCGCAGAGTCCCTTCAAATGGAGGTAAAACCATACAATATTTATGTTACCATGGCATTTCCACCTGACACAGACACYCCTGGTCTAGCAGAGGAGAATAAATCTAAGCCYAGGGAAACACTGCTCATATCAGATACAGTAGGACTGTTTTCTCCCAGTGATGTGGCCAAGTCAGTTTTCAAGGATGCTGTGAATGGGAAATTTTTGAGTTACGTTGGTATGGATGGCTGGTTGCTTTGCAACTTATCAAGTGGGATGTCCCCTGCAACGTCCATTTTGGATTTACTTCATCAGATATTCACTATGGGACTGTTCCGCTTTGTTTGTCAGTTTTATTTGTTACATTTTTGACCGGATTATAAAAAAAGTGTAAAGAAGAGAAGGATGCAAAACCCAAGACATCATAAGATTTCATACATATCTAATGGGTTTTTTAAAAACAATTTAAAAATATTTATGAACAAATTATACATTTATCAGTTGTATTTGAAATACCTGTATATTAATTWKYTGTTACATTCAATGTATTCACACTTGCAAAAGAATTATTTTTCATATTATTTGTATGAAATTAAATTTTATATACAAAAATAAAATAATTATGGACATTTATGTACTGTGATGTCCAGGTAATATATTTGAAGACCAAAAAAAAAAGGCCG 1240-1259 designed to extend sequence. original primers are 1188 and 1189 58592599
1221 Ltrout_C1q_A_F AATGGTGGAAGTTTTTAATGGTAAT CGS 4/7/2011 25 48 58 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 1450 designed for bisulfite treated DNA 58333448
1220 Ltrout_C1q_A_R CAAAACTACAACACCTCTCATTCTAAA CGS 4/7/2011 27 48.1 59 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 1450 designed for bisulfite treated DNA 58333449
1219 Ltrout_C1q_B_F TTTAAGTTGGAGGAGTTGAGAGATAT CGS 4/7/2011 26 50 58 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 1479 designed for bisulfite treated DNA 58333450
1218 Ltrout_C1q_B_R ACCTTTATTCAAAAACACATTATTCC CGS 4/7/2011 26 42.31 58 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 1479 designed for bisulfite treated DNA 58333451
1217 Ltrout_C1q_C_F GGGTTAAAATTAAAAGTAATAGTTAGTATT CGS 4/7/2011 30 36.67 54 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 1301 designed for bisulfite treated DNA 58333452
1216 Ltrout_C1q_C_R TAACTAAAATATTTTTAACAAATAAACTCA CGS 4/7/2011 30 26.67 54 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 1301 designed for bisulfite treated DNA 58333453
1215 Ltrout_C1q_Anest_F AAAATTGTGATGTATATTAATGTAATAAAT CGS 4/7/2011 30 26.67 54 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 535 designed for bisulfite treated DNA 58333454
1214 Ltrout_C1q_Anest_R CAACTTCTATCTCAAAACCATCAAAC CGS 4/7/2011 26 50 59 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 535 designed for bisulfite treated DNA 58333455
1213 Ltrout_C1q_Bnest_F TTGTTATTATATTGATTTTTAGTAGAGTTA CGS 4/7/2011 30 43.33 52 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 689 designed for bisulfite treated DNA 58333456
1212 Ltrout_C1q_Bnest_R AATTTTTCAAAATAACCACCCTTTAC CGS 4/7/2011 26 42.31 59 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 689 designed for bisulfite treated DNA 58333457
1211 Ltrout_C1q_Cnest_F TGAGATTTTTTGTAAAGATAATAAGTTTAG CGS 4/7/2011 30 43.33 56 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 522 designed for bisulfite treated DNA 58333458
1210 Ltrout_C1q_Cnest_R ACCAAAACAATAAATTACAATATCC CGS 4/7/2011 25 48 54 Lake Trout C1q CAGCCATAAGCAATCCAAATTGAAGATTAAGATAATTCTCTGATCATTGGCTAATCATTCTCAATCCATAGAAATCCCCACCCAGTTGACTACTTTAAAATGGTGGAAGCCCTCAATGGCAATGTCCATGCAAAAACATTTGACATCCAACTAGAGATCTCTGTCAGTATGTCTCTCTGTTTTCAACCTCGACAGAATTACCTTCTGTTCCTTTGGCTGCAGTTGAACTGTCTTTGCACACAGAATCAGGTTCTTTGTCCTCATCATCCATAATTCACTCCGCTCATTTAGCTGTCTCTCCCTCACAACTTTAGTAGGAATATAGGCTGGCTCACTGATGGCGCGTTTGACTTTGAACTACAGCTAGGACGATAAAACAAAAATTATCTACACCAACCATTCCGATCACTTATTGCAAGCATTTTGCTTATGTCGTTCATTACGATAAGTAGCCTATGCTAGAGAAAAGTGAAGTTTGATATTAAATAAGTTTGCTAACAAACAAACTACAAACAAACTAATAGTAATAGATTAAATGATAATAAAAAAACTGTGATGCACATTAATGTAATAAACTTATTGTTCGATTTATTGTTATCGCAATATGGATTTTGTATATATGTATATAATATAATTTTTTTCAATTTCGACCGGCTCAACCACCTAAAAAAAAAAGTCCAGTCCATTTGGCAGACGGCCAATTCGACCTTGCCATAACCCTAACAAGCAGTTGAATATCAACAGAGTTGCAGTTCATAGTTTCTTCTTAGTTTGATCATCTGTAGATCATTTACAGATATCAAATCAAATCTTATTGGTCACATACACATGGTTAGCAGATGTTAATGCGAGCGGCATAGGCAAGGTGCAGTAGATGGTATAAAATACAGTATATACATGTGAAATGAGTAATGTAAGATATTTAAGCATTATTAAAGTGCCATTATTTAAAGTGGCATTGTTTAAAGTGACTAGTGATCCATTTATTAAAGTGTCCTGTGATTGGTTCTCAATGTGGGCAGCAGACTCTCTCAGTTAATGATTGCTGTTTAGCAGTCTGATGGCCTTGAGATAGAAGCTGTTTCTCAATCTCTCGGTCCCAGCTTGATGTACCTGTACTGACCTCACCTTCTGGATGATAGCAGTGTGAACGGGCAGTGGCTCGGGTGGTTGTTGTCCTTGATGATCTTTTTGGCCTTCCTTCTTTACCACACTGTCTGTGTGGACCATTTTAGTTTGTCTGTGATGTGTACGCCCACTCCCTATCTAGGGGACTATCAAAATTAAGTATGACGAAATACAGTAACAACAACTGGTGAATGACGCAAGAAACCTTCACCTCATTGCCAGTAAAAACAAATAAAGAATCCTACCAGTAATCCTAATCAAATAATACTCCCTGATATTTAAGAACCCTCTTTTTTCCACAGAGACACAATATATTTCACACAGATATAGCTCCTACTTTAATCCTGTAAATTTCTAGCCTCAAAGACTAGATCATTTCAGAAGATGTGTCGTTTCAGAATGAGAGGTGCTGTAGCTCTGCTGCTGTTTTCTCTGTTTGGGGCATGGGCTGAAGCTACAGAGACGGCCCACAAGACCCCTGACATCTGGTCTAAGCTGGAGGAGCTGAGAGACATGATGGTGGAACAGAGACAGGAGCTGAGCGTCACCAAGACTGAACTGCAGCTCCAGAAGAGCAAGGTGGAAGAGCTGGAGAAAGAGAAAGCAGGTCATGTCAGAAATATCAGGCATTTGTAAATTGGATTGATACAGGTGGATAAGTAAGCATTTGCCTTGTTGTTATTTCAATCTCAGATTGTCCTTTTAAATAATCAACTTCTTTTCACAGGCAGACCAACTGTGGCCTTAGCTGCTGGTTTGACTGACTCTGGAAACGTAGGTCCATTCAGTACTGCTACTACACTGATCTTCAGTAGAGTCATCACCAACATCGGCAAGGCCTACAACCCAATTACAGGTACTAACTAACAAGAGGGAAATCCATTTGAATGTTGCATAACATTCATCCAACAATGCCAAATATTGAGTCAGTCATCTCATCATAATTTTTTATGAATGCAATTTAATGTAATTCTTCTGGGATGATTTTGCTGCATGTTTCTCAGTAATCTCTGTATATAATTTTACTTCACTAACTTGTTTTATATTTTACTTTGAAAATCATGATAAGACACTAGATTTTCAGAGTGGACATAATTCTGAGGGACAAATTCTACGTTTCAAGCTTTTAAATGAGTTTACTTTTGTAACTACTAGCTATATGATACCAAACACGTACAGTACCAGTCAAAAGTTTGGACACACCTACTTATTCCAGGGATTCTTTATTTTACTATTTTCTACATTGTAGAATAATAGTGAAGACTTCAAAACTATTAAATAACACATATGGAATCATGTAGTAACCCAAAAAGTATAAAACAAATCAAAATATATTTTATATTTGACATTCTTTAAAGTAGTCACCCTTTGCCTTGATGACAGTTTTGCACACTCTTGGAAAAGCATTCCAGGTGAAGAGAGAATGCCAAGAGAGTGCAAAGCTGTCATCGAGGCAAAGGGTGGCTACTTTGAAAAATCTGAAATATATTTAGATTTTTTAAATACTATTTTGGTTACTACATGATTCCATATTTGTTATTTCATAGTTTATGTCTTCACTATTATGCTACAATGTAGAAAATAGTAAAAATAAAGAAAAACCCACACCTCTAAGTATGTCCAAACTTTTGACTAGTACTGTATGTCTACGGTCATTTTTTTTAATGACATATTTTATGTTACTTAATCTGTCACCCTGATTTTATTTTAGTTATAACAATGTTTAGTTTGATACTTATTGTGTTTGGTGGTAATTTGTGTTACCTAGTCCCTGACTTAATTATACTAAACTCCTCTCACTGTTAAAAGAAACGTCCTCTCACTGTCAACTGCGTTTATTTTCAGTCAACTTAACATGTGTAAATACTTGTATGAACATAACAATATTCAACAACTGAGACATAAACTGAACAAGTTCCACAGACATGTGACTAACAGAAATGGAATAATGTGTCCCTGAACAAAGGTGGGGTCAAAATCAAAAGTAACAGTCAGTATCTGGTGTGGCCACCAGCTGCATTAAGTACTGCAGTGCATCTCCTCCTCATGGACTGCACCAGATTTGCCAGTTCTTGCTGTGAGATGTTACCCCACTCTTCCACCAAGGCACCTGCAAGTTCCCAGACATTTCTGTGGCGAATGGCCCTAGCTCTCACCCTCCGATCCAAAAGGTCCCAGACGTGCTCAATGGGATTGAGATCTGGGCTCTTCGCTGGCCATGGCAGAACACTGACATTCCTGTCTTGCAGGAAATCACGCACAACATGAGCAGTATGGCTGGTGGCATTGTCATGCTGGAGGGTCATGTCAGGATGAGCCTGCAGGAAGGGTACCATATGAGGGAGGAGGATGTCTTCCCTGTAACGCACAGCGTTGAGATTTCCTGCAAAGACAACAAGCTCAGTCCGATGATGCTGTGATACACCGCCCCAGACCATGACGGACCCTCCACCTCCAAATCGATCCCGCTCCAGAGTACAGGCCTCAGTGTAACGCTCATTCCTTCAACGATAAACGCAATTCCGACCATCACCCCTGGTGAGACAAAACCGCGGCTGTCTGGTCCAGTGACGGTGGGTTTGTGCCCATAGGCGACGTAGTTGCCGGTGATGACCTGCCTGACAACAGGCCTACAAGCCCTCAGTCCAACCTCTCTTAGCCTATTGCAGACAGTCTGAGCACTGATGGAGGGATTGTGCGTTCCTGGTGTAACTCGGGCAGTTGTTGTTGCCATCCGGTACCTGTCCCGCAGGTGTGATGTTCGGATGTACCGATCCTGTGCAGGTGTTGTTACACGTGGTCTGCCTCTGCGAGGACGATCAGCTGTCCGTCCTGTCTCCCTGTATCGCTGTGTTAGGTGTCTCACAGTACGGACATTGCAATTTATTGCCCTGGCCACATCTGTAGTCCTCATGCCTCCTTGCAGCATGTCTAAGGCACGTTCCTGCAGATGAGCAGGGACCCTGGACATCTTTCTTTTGGTGTTTTTCAGTGTCAGTAGAAAGGCCTCTTTAGTGTCCTAAGTTTTCATAACTTTGGCCTAACTGCCTACCGTCTGTAAGCTGTTAGTGTCTTAACGACCGTTCCACAGGTGCATGTTCATTAATTGTTTATGGTTCATTGAAGAAGCATGGGAAACAGTGTTTAAACCCTTTAAAATGAAGATCTGTGAAGTTATTTGGATTTTTACGAATTATCTTTGAAAGACAGGGTCCTGAAAAGGGACATTTCTTTTTTTGCTGAGTTTATTTGTTAAAAACATTCCAGCTACAGCAACATGAGACAGACAGTGCTGATACCAGCCCGGGCCGTCGACCACGCGTGCCCTATAGTAA 522 designed for bisulfite treated DNA 58333459
1209 CgPGSRACEsrNGSP1 GGAGAGGACAAACTGTATAACCGTAGCCG sr 3/22/2011 57953561
1208 CgPGSRACEsrGSP1 CCCACCAAAGGTAGAAGGTTTCCAGT sr 3/22/2011 57953562
1207 CgDNMTRACEsrNGSP1 ACAGCCCGGCCCAGTGGTTGTGTCTGTT sr 3/21/2011 57936886
1206 CgDNMTRACEsrGSP1 TGCTGCTCTGGGTGGAGAACCCTTCCCT sr 3/21/2011 57936887
1205 CgDNMTRACEsrNGSP2 ACAGACACAACCACTGGGCCGGGCTGTA sr 3/21/2011 57936888
1204 CgDNMTRACEsrGSP2 CGAGGCAAGCAGCACCAGCCGATTCTCA sr 3/21/2011 57936889
1203 Cg_AJ318882_hsp70R CCTGAGAGCTTGAGGACAAGGT DM 3/16/2011 22 54.5 56.7 C.gigas hsp70 AJ318882 856-835 250 Placed this primer on the most nonhomologous region between the hsp and hsc cDNA sequences. hopefully it is specific to hsp only. 57858992
1202 Cg_AJ318882_hsp70F TGGCAACCAATCGCAAGGTGAG DM 3/16/2011 22 54.5 56.7 C.gigas hsp70 AJ318882 573-594 250 Spans Intron/Exon boundary of it's hsc70 counterpart. should not amplify hsc70 genomic however if hsp70 is intronless then anything can happen! 57858993
1201 Om_DNMT1_b_R CCGCTGGCCCAGGGAGTTTG CGS 3/7/2011 20 70 59.97 O.mykiss DNMT1 n/a GTGTCTGTGAGGTTTGCCTMGTTCCAGACTGTGGCAAGTGTTCAGCCTGCAAGGACATGATCAAGTTTGGSGGTAGTGGTCGCAGCAAGCAGGCTTGCCAGAAGAGGAGATGCCCCAACCTGGCAGTAAAGGARGCKGAGGATGATGAGAACATAGAGGAGGAAGAGTTRTTGCCTGTAAAGGCCCCTTCAAAGAAGGTGTCCAAGGCCAAGACTAAGAAGCAGAGYAATGGCAAGCTGACCTGGGTTGGAGACTCTATCAAAACTGAGGGGAAGAAGCAKTACTACATGAAGGYGYGTATGGACAAYGAKGTGCTRGAGGTGGGAGACTGTGTTTCTGTCAGCTCTGATGACCCATCAATCCTGCTCTACCTGGCCAGRATCACATCYCTGTGGGAGGATAACAATGGGAAGTGGTTYCATGCCCACTGGTTYTGCCGYGGTACAGATACTGTACTKNGGGGAGTCCTCTGACCCTCTGGAGCTGTTCCTGGTYGAGGACTGTGAAGACATGCAGCTGAGCTACGTAGAGGGCAAGGTCAACGTCATGTACAAGGCCCCTTCAGACAACTGGTTYATGGAGGGTGGCATGGTAGAGGACATCAAGGTGATTGACGATGACAATGGGAAGAATTTCTTCTACCAGCTGTGGTATGAAGGAGACTGTGCCCGCTTTGAGACCCCGCCCACCTTCACACCCCAAGAGGACTGCAAGTTCAACTTCTGTGCCAGCTGTAGTAGGGCTGAGGAGAGGGAAGAGAAGGAGACTCCTCGGGTGTTTGAACCCATAAAGGAYGAGGACCAYGACTCCAAGGCCTTATATGCTCTGGCCTGCCTGAAGGGAGAGCAGTTCAGRGTGGGAGACAGCTGCTACCTGCCCCCTGATGCATACAACTTCAGTGTGAAGGCAGCCAGTCCAGTGAAGCGTCCTCACAGGAAGGAGGATGTGGATGAGGAGTTGTACCCAGAGTACTACAGGAAGCATTCAGACTACATCAAGGGCTCCAACCTGGATGCCCCTGAGCCCTTCAGAGTGGGACGCATCAAGGAGATCTTCTGCCACAGACGCAGCAACGGGAAGGCTGACGTGTCTGAAGTCAAACTGCGCTTGTACAAATTCTACAGGCCTGAGAACACTCACAAGGGGGCGAAGGCAGGTTACCACACAGACATCAACCAGTTGTACTGGAGTGATGAGGAAGTGACAGTCAACATGTCGGAGGTGCTGGGCCGGTGTCGTGTGGAGTACGGAGAGGACCTGAATGAGACCGTTCAGGACTTCTCCTCAGGCGGACCTGACCGATTCTACTTCCTTGAGGCTTATAATGCCAAGTCSAAGAGCTTTGAGGACCCACCCAACCATGCCCGCTCTGCTGTGAACAAGGGCAAGGGGAAAGGGAAGGGCAAAGGTAAAGGCAAAGGGAAGTCGTCTTCTGTTCAGGAGCCTCCAGACCAGGAGCCTCAGGACCCCAAGGTGCCCAAGCTGCGTACCCTGGAYGTGTTCTCTGGCTGCGGTGGGCTCTCTGAAGGCTTCCACCAAGCTGGTATCGCCGAGACTCTGTGGGCCATCGAGATGTGGGACCCAGCAGCCCAGGCCTTCAGACTGAACAACCCGGGCACCACAGTGTTTACAGAGGACTGCAATGTGCTGCTAAAGCTGGTGATGTCTGGAGAGAAGACAAACTCCCTGGGCCAGCGGCTGCCCCAGAAGGGAGATGTGGAGATGCTGTGTGGAGGCCCTCCCTGTCAAGGCTTCAGCGGCATGAACCGCTTCAACTCCAGAACCTACTCCAAATTCAAAAACTCTCTGGTGGTGTCTTATCTCAGTTACTGCGACTACTACAGACCCAAGTTCTTCCTGCTTGAGAACGTGAGGAACTTTGTCTCCTTCAAAAGCTCCATGGTCCTGAAACTGACTCTGCGCTGTCTTGTCCGCATGGGCTATCAGTGCACATTCGGAGTCCTTCAGGCTGGGCAGTAYGGTGTGGCTCAGACGCGGCGCAGGGCCATCATCCTG ~1000 57644121
1200 Om_DNMT1_b_F GTGCCCGCTTTGAGACCCCG CGS 3/7/2011 20 70 60.32 O.mykiss DNMT1 n/a GTGTCTGTGAGGTTTGCCTMGTTCCAGACTGTGGCAAGTGTTCAGCCTGCAAGGACATGATCAAGTTTGGSGGTAGTGGTCGCAGCAAGCAGGCTTGCCAGAAGAGGAGATGCCCCAACCTGGCAGTAAAGGARGCKGAGGATGATGAGAACATAGAGGAGGAAGAGTTRTTGCCTGTAAAGGCCCCTTCAAAGAAGGTGTCCAAGGCCAAGACTAAGAAGCAGAGYAATGGCAAGCTGACCTGGGTTGGAGACTCTATCAAAACTGAGGGGAAGAAGCAKTACTACATGAAGGYGYGTATGGACAAYGAKGTGCTRGAGGTGGGAGACTGTGTTTCTGTCAGCTCTGATGACCCATCAATCCTGCTCTACCTGGCCAGRATCACATCYCTGTGGGAGGATAACAATGGGAAGTGGTTYCATGCCCACTGGTTYTGCCGYGGTACAGATACTGTACTKNGGGGAGTCCTCTGACCCTCTGGAGCTGTTCCTGGTYGAGGACTGTGAAGACATGCAGCTGAGCTACGTAGAGGGCAAGGTCAACGTCATGTACAAGGCCCCTTCAGACAACTGGTTYATGGAGGGTGGCATGGTAGAGGACATCAAGGTGATTGACGATGACAATGGGAAGAATTTCTTCTACCAGCTGTGGTATGAAGGAGACTGTGCCCGCTTTGAGACCCCGCCCACCTTCACACCCCAAGAGGACTGCAAGTTCAACTTCTGTGCCAGCTGTAGTAGGGCTGAGGAGAGGGAAGAGAAGGAGACTCCTCGGGTGTTTGAACCCATAAAGGAYGAGGACCAYGACTCCAAGGCCTTATATGCTCTGGCCTGCCTGAAGGGAGAGCAGTTCAGRGTGGGAGACAGCTGCTACCTGCCCCCTGATGCATACAACTTCAGTGTGAAGGCAGCCAGTCCAGTGAAGCGTCCTCACAGGAAGGAGGATGTGGATGAGGAGTTGTACCCAGAGTACTACAGGAAGCATTCAGACTACATCAAGGGCTCCAACCTGGATGCCCCTGAGCCCTTCAGAGTGGGACGCATCAAGGAGATCTTCTGCCACAGACGCAGCAACGGGAAGGCTGACGTGTCTGAAGTCAAACTGCGCTTGTACAAATTCTACAGGCCTGAGAACACTCACAAGGGGGCGAAGGCAGGTTACCACACAGACATCAACCAGTTGTACTGGAGTGATGAGGAAGTGACAGTCAACATGTCGGAGGTGCTGGGCCGGTGTCGTGTGGAGTACGGAGAGGACCTGAATGAGACCGTTCAGGACTTCTCCTCAGGCGGACCTGACCGATTCTACTTCCTTGAGGCTTATAATGCCAAGTCSAAGAGCTTTGAGGACCCACCCAACCATGCCCGCTCTGCTGTGAACAAGGGCAAGGGGAAAGGGAAGGGCAAAGGTAAAGGCAAAGGGAAGTCGTCTTCTGTTCAGGAGCCTCCAGACCAGGAGCCTCAGGACCCCAAGGTGCCCAAGCTGCGTACCCTGGAYGTGTTCTCTGGCTGCGGTGGGCTCTCTGAAGGCTTCCACCAAGCTGGTATCGCCGAGACTCTGTGGGCCATCGAGATGTGGGACCCAGCAGCCCAGGCCTTCAGACTGAACAACCCGGGCACCACAGTGTTTACAGAGGACTGCAATGTGCTGCTAAAGCTGGTGATGTCTGGAGAGAAGACAAACTCCCTGGGCCAGCGGCTGCCCCAGAAGGGAGATGTGGAGATGCTGTGTGGAGGCCCTCCCTGTCAAGGCTTCAGCGGCATGAACCGCTTCAACTCCAGAACCTACTCCAAATTCAAAAACTCTCTGGTGGTGTCTTATCTCAGTTACTGCGACTACTACAGACCCAAGTTCTTCCTGCTTGAGAACGTGAGGAACTTTGTCTCCTTCAAAAGCTCCATGGTCCTGAAACTGACTCTGCGCTGTCTTGTCCGCATGGGCTATCAGTGCACATTCGGAGTCCTTCAGGCTGGGCAGTAYGGTGTGGCTCAGACGCGGCGCAGGGCCATCATCCTG ~1000 57644122
1199 Om_DNMT1_a_R TCGCTACCCAGAGCCCCTGC CGS 3/7/2011 20 70 60.3 O.mykiss DNMT1 n/a CCTTTAATAAGAGCTTTATTACAACATATAAAAACTACATACGATTCACGTTCCAAGCCGATATTTGCAAATACAGTTWAAATTACATTTAGAAAATCATAAACATGGAATGGTACTGCARACTGGCCTGCTCATTTAAAAAAATATGAGGATCTCCTGTGGCTTGGTGGGCTCCAGGGAATTTGATGACTCAGTGGAAAGGGGATTGTGGAATAGGGCTGGGCACTACTCCGACACCATCTTCTCCTGCTTGAGGTTCTCTTCCTGCTTCCCATTCTCTTTCTCATTCGCTTTTGTATCGTCATGCTCCTTGATCCGCTCTAGGACACACTTCTTGATCTCTAGTCCAATGGCTCTGGAGAGTGGTGGAGGAACAGCGTTGCCAACCTGTCTGTGTTTGTCCAGAACGTTTCCGAAGAAGCGGTAGGTATCAGGGAAGCCCTGAGAGCGCGCACACTCCCTCACACTGACCACTCGGTGCTGCTCTGGATGCAGGACACGACCCTGCTTGCCCATGGGCTCAGGGTTGGTAACTGTGGTGCTGAAGAAGCCGTCCCACTCCAGCCTGCCGTAGAGGCCAGCCCAATGGTTGTGGCGGTTCCCCGTGTGGGGCAAACACCAGGGGATCAGTGTGTTGAACTGCCTGTCAGCAGGGTCACAGGGCACCCCTCCTGAACAAGTACAAACACCCCTCAGTGCTCCAGAGCTGCTGCGACCATTCTTCTTGTCAGGGTGGGTGTAGCGGAGCTTCTTGGATGAGGTCCCATCTCTCAGCCGGACCTCGATGTTGGGCAGGTCCCTCCAGTCAGAGCCAGGCGCCAGGGGGATGTGCCTCATACGGGCAGCTACAAGGGCACTCAAGTCCTTGCAGATGTGGTCTTTGAGGATGGGCTGGTACTGCGTGCCTCTGATCTGCCTCTGGAACCAGGACTGGGGCTCTCCGTTGTAGGAGATCTCCAGAGCAGACGCTCCGTTGCGGATCTCTGGCAGGTCAGACATGGTGTCCCTGACTGTGATGGTCCTGTACACACCGCCATTACCTCGTGTGACGTTGCTGAAATATTTCTTGTCGTCCACCACCACGTTGAGAGAGCATGCCCGGGGAGCGAACACATGCAGGGGCTCTGGGTAGCGAGGAAGCTTCTCCCCAGG 57644123
1198 Om_DNMT1_a_F TGCCCAGGACCAGCTCAGCA CGS 3/7/2011 20 65 60.1 O.mykiss DNMT1 EZ775779.1 CAGAGAGCTCTGATTTTACCTCATAGTTTTAACGATTCTTTGTTGTCTTTCCTTGTTTTTATCTAAACGAGTTTTTATATTTTAGTCTATCACGCTCACACTTGAAATGCCAGCCATACCTCCTTGTTTCTGCCAGTGGATGTCAGGAAAAGGCTGGAGGTGTTGGAAAAAGATGAAGATGGGATCTCCGATGAGGACCGTGTCAAAGAAAAGGTCAAGTTGGTGCAGGACTTCCTGCATCCGGATGCCCAGGACCAGCTCAGCAGCCTGAAAGCCAAGATGAAGAGTTCAGAGATCTCAATGGATGGCTACCTCTCTAAGGTGAAGGCCCTTTTGGGACGTGAGCTGTGTGTGGAGAATGGCTCACACGGTGATGTTGTGGCGCAGAACTGCAAGAATGGCAAAACAAATGGCTCTGCAGCAAATGGTGACTCTCACAAGAAAGAGGATGAAGAAGTAATCATGGACACCAAAGAGGCTGATGCCATGAAGTCTCCTTCTGCCCCCAAAGGCAAGGGAGGACGGAAGAGCAAGTCAGACTCTGAGCCCAAGAAATCTCCTGGTTCCAGAGTCACAAGAAACTCTGTCTCCGGAAAACAACCCACCATCTTATCAATGTTCTCCAAAGTTCAGAAGCGCAAGTCTGACGAGGTGAACGGAGAGGTTACGAATGGAGAGGTTACAAATAGAGAAGTGGAAGAGAAGGAGAAAGTAGACCGGGACACAGAGGAGACACAAGAAGAGAAGCGTTTTAAAGTGGAGCCAGACAATAAGCCAGTTGCAGAGGACGCCACTAGTGAGAAAATGAAGGCAGTGGCTGCAGCTAAGACTCCACCCCCTAAATGTCCAGACTGCAGGCAGTATCTGGATGACTCGGACCTCAAGTTATTTCAGGGAGATCCTGATAATGCGCTGGATGAGCCAGAAATGTTAACAGACGAGCGCCTCTCTCTGTTTGACTCCAACGAAGACGGCTTTGAGAACTACGAGGAACTACCCCAGCACAAGATTAC 57644124
1197 Cg_COX2_3'RACE_short TCGGCTACGGTTATACAGTTTGTCTCTC SJW 2/15/2011 28 46.4 59.9 C.gigas cyclooxygenase 2 FV2TRRU02INIR2 AAGCAGTGGTATCAACGCAGAGTGCATTACGGCCGGGGGAAAAGAAATTTGCAAAGCAGCTTGAAGAATTCTATGGTGATATCAATGCTGTGGAATTTTATGTAGGAATGATGCTGGAGAAAAGACTTCGATTTGATTCATTGTTTTCGGCTACGGTTATACAGTTTGTCTCTCCATTTTCTTATAAGGGTCTAATGACCAATCCAATTTGTAGTCCCAAGTACTGGAAACCTTCTACCTTTGGTGGGGAGGTTGGGTTCAACATAATAAAAACTGCTTCTCTTGAAAACTTAATCTGTAATAATATCAAAGGAGAATGTCCCGCAGTATCATTTAAAGTCCCAGACTATGTTGAGGGAGATGTAACAGAATTCGTCAACCAAAAACTAGAATTATAAACTCTGTATCTTATTAAGGTCTTCTGTTTCAACGAAGTGTTTTCTACTAAAACTAGTATTAGACTTAAG N/A - For use in RACE Unknown For 3' RACE of COX2 57210015
1196 Cg_COX2_3'RACE_long CTTCGATTTGATTCATTGTTTTCGGCTACGGTTATACAGTTTTGTC SJW 2/15/2011 46 37 65.43 C.gigas cyclooxygenase 2 FV2TRRU02INIR2 AAGCAGTGGTATCAACGCAGAGTGCATTACGGCCGGGGGAAAAGAAATTTGCAAAGCAGCTTGAAGAATTCTATGGTGATATCAATGCTGTGGAATTTTATGTAGGAATGATGCTGGAGAAAAGACTTCGATTTGATTCATTGTTTTCGGCTACGGTTATACAGTTTGTCTCTCCATTTTCTTATAAGGGTCTAATGACCAATCCAATTTGTAGTCCCAAGTACTGGAAACCTTCTACCTTTGGTGGGGAGGTTGGGTTCAACATAATAAAAACTGCTTCTCTTGAAAACTTAATCTGTAATAATATCAAAGGAGAATGTCCCGCAGTATCATTTAAAGTCCCAGACTATGTTGAGGGAGATGTAACAGAATTCGTCAACCAAAAACTAGAATTATAAACTCTGTATCTTATTAAGGTCTTCTGTTTCAACGAAGTGTTTTCTACTAAAACTAGTATTAGACTTAAG N/A - For use in RACE Unknown For 3' RACE of COX2 57210016
1195 Cgigas_hsp70_R TCAGCACCATTGAGCTGATTTCTTC DM 2/8/2011 25 44 56.04 C.gigas hsp70 AB122063 CAAGUUUGAAACUUCGAAACUUUGAGUCAACUAGACUACGAUUCAGUAACAGUACAUACAAUAAUUUGUUUUAUCUACAAUUGAAAAAUUUAUUCAAUCGCUACUUUCACUUUAGUGUUUACAAACAAGCAUGGCAAGUAAAGCUCCAGCCAUCGGCAUCGACCUGGGAACGACGUUUUCCUGUGUCGGUGUAUUUCAACAUGGAAAAGUGGAAAUCAUCGCCAACGACCAAGGAAACAGAACGACGCCCAGCUACGUCGCCUUCACAGACACAGAAAGACUGAUAGGAGAUGCGGCUAAAAACCAGGUAGCCAUGAACGCCAACAAUACAAUCUUUGACGCCAAGAGGCUGAUAGGCCGCAAGUUCAACGACGACAGUGUACAGUCCGACAUGAAACAUUGGCCGUUCACGGUGAUCAAUGAUGGAGGAAAGCCCAAGCUAGAAGUGGAGUUCAAGAACGAGAAAAAGAGAUUUACCCCCGAAGAAAUCAGCUCAAUGGUGCUGACCAAAAUGAAGGAGACAGCAGAAGCCUACUUGGGACAAACUGUCCGAGACGCAGUCGUCACCGUUCCUGCCUAUUUCAACAACGCCCAGAGAGAGGCCACUAAAGACGCCGGAGUGAUAGCCGGUCUCAAUGUUCUCAGGAUAGUAAACGAACCCACAGCUGCUGCUCUGGCUUAUGGUCUGGAUAAGAACAUUUCCGGUGAGAAAAACGUUCUCAUCUUUGACCUCGGAGGUGGUACAUUUGACGUGUCCAUCCUUACCAUUGAUGAGGGUUCCAUAUUUGAGGUUCGCUCCACUGCAGGGGAUACUCACCUGGGAGGUGAAGAUUUCGACAACAGAAUGGUCAAUCACUUUGUGCAGGAAUUCAAGCGCAAGUACAACAAAGACAUUUCAAAAAAUAACCGUUCACUGAGACGACUCAGGACGGCUUGCGAGCGUGCCAAGAGAACACUGUCCAGCAGUUCUGAGGCCAACAUUGAGAUCGACUCGCUGUUUGAGGGAAUGGACUUCUACAGCAAAAUCACACGGGCUAGAUUUGAAGAAAUGUGUGCAGAUUUGUUCCGUGGAACCUUAGAACCUGUAGAGAAAGCCCUGAGGGACGCCAAAAUGGACAAAUCUAAAAUUCACGAGGUGGUUUUGGUUGGAGGGUCGACAAGAAUUCCAAAGAUCCAGAAAAUGCUGCAAGACUUCAUGGGCGGAAAAGAACUGAACAAGUCGAUCAACCCAGACGAAGCUGUGGCCUAUGGUGCCGCUGUCCAAGCGGCUAUUUUGAAGGGAGAUAAGAGUGAUGCCAUCAAGGACGUUCUCCUGGUCGAUGUCACUCCACUGUCUCUAGGCAUUGAAACUGCUGGAGGGGUCAUGACAAAGAUCGUUGAACGAAAUGCCAAGAUUCCUACCAAAGCAUCACAGACCUUCACCACAUACUCCGAUAACCAGCCCGGUGUAUCCAUUCAGGUGUUUGAAGGUGAACGAGCCAUGACAAAAGACAAUAACAAACUAGGUACUUUUGAACUGAAUGGAAUUCCUCCCGCCCCUCGAGGUGUCCCACAGAUUGACGUGGAGUUUGACAUUGACGCCAACGGUAUCCUGAACGUAUCAGCCAAGGACAAGAGCACGGGAAAGUCCAAUAAAAUCACCAUCACCAACGACAAAGGUCGUCUGAGUAAGGCCGACAUUGAGAGAAUGGUGAACGAGGCCGAGACAUACAAAGAGGAAGACGAUAAACAGCGUCAGAGGAUAGCGGCCCGCAAUCAGUUAGAAUCCUAUGUCUUCACCGUCAAACAGGCAGCAGAGGACACAGGAGACAAACUUCAGUCUGAAGACAAAGAGACAAUAUCCAGGGUGUGCAGUGAAACAGUGUCCUGGCUCGACAACAAUGCCCUGGCAGAGGUUGACGAAUAUGAAUUCAAACUGAAGGAGGUUCAGAAGGUGUGUUCACCCAUCAUGGCCAAACUACACCAGAACGGGUCCACGGGAAAUCCAGGACCAGCUAGUUCUAGUCAGGGUCCGACUGUAGAGGAGAUGGAUUAAGUGUGAAGAAUUACUUAAUGAUAAUAAAACCUCAAAUUGUAUUAUGAACUUAGAUUGGUACUUUCUAUGAAAGAUGUAUUAAAUGUUGAAUGUAGUAUUAAAAUUUGUAGUUGUUAAUUUAUUUGAGAGCAUUAUUUUUUUUUUUUACAGAUUACGAUAUUUUUUUUUACUUAUACAAUUGUUGUUAUUCAAUGUUGAUAAAAUAAAAUCAUUUGAAAAUUAUCUAAAAAAAAAAAAAAAAAA 506-482 1194 175 57006501
1194 Cgigas_hsp70_F ATCTTTGACGCCAAGAGGCTGATA DM 2/8/2011 24 46 55.68 C.gigas hsp70 AB122063 CAAGUUUGAAACUUCGAAACUUUGAGUCAACUAGACUACGAUUCAGUAACAGUACAUACAAUAAUUUGUUUUAUCUACAAUUGAAAAAUUUAUUCAAUCGCUACUUUCACUUUAGUGUUUACAAACAAGCAUGGCAAGUAAAGCUCCAGCCAUCGGCAUCGACCUGGGAACGACGUUUUCCUGUGUCGGUGUAUUUCAACAUGGAAAAGUGGAAAUCAUCGCCAACGACCAAGGAAACAGAACGACGCCCAGCUACGUCGCCUUCACAGACACAGAAAGACUGAUAGGAGAUGCGGCUAAAAACCAGGUAGCCAUGAACGCCAACAAUACAAUCUUUGACGCCAAGAGGCUGAUAGGCCGCAAGUUCAACGACGACAGUGUACAGUCCGACAUGAAACAUUGGCCGUUCACGGUGAUCAAUGAUGGAGGAAAGCCCAAGCUAGAAGUGGAGUUCAAGAACGAGAAAAAGAGAUUUACCCCCGAAGAAAUCAGCUCAAUGGUGCUGACCAAAAUGAAGGAGACAGCAGAAGCCUACUUGGGACAAACUGUCCGAGACGCAGUCGUCACCGUUCCUGCCUAUUUCAACAACGCCCAGAGAGAGGCCACUAAAGACGCCGGAGUGAUAGCCGGUCUCAAUGUUCUCAGGAUAGUAAACGAACCCACAGCUGCUGCUCUGGCUUAUGGUCUGGAUAAGAACAUUUCCGGUGAGAAAAACGUUCUCAUCUUUGACCUCGGAGGUGGUACAUUUGACGUGUCCAUCCUUACCAUUGAUGAGGGUUCCAUAUUUGAGGUUCGCUCCACUGCAGGGGAUACUCACCUGGGAGGUGAAGAUUUCGACAACAGAAUGGUCAAUCACUUUGUGCAGGAAUUCAAGCGCAAGUACAACAAAGACAUUUCAAAAAAUAACCGUUCACUGAGACGACUCAGGACGGCUUGCGAGCGUGCCAAGAGAACACUGUCCAGCAGUUCUGAGGCCAACAUUGAGAUCGACUCGCUGUUUGAGGGAAUGGACUUCUACAGCAAAAUCACACGGGCUAGAUUUGAAGAAAUGUGUGCAGAUUUGUUCCGUGGAACCUUAGAACCUGUAGAGAAAGCCCUGAGGGACGCCAAAAUGGACAAAUCUAAAAUUCACGAGGUGGUUUUGGUUGGAGGGUCGACAAGAAUUCCAAAGAUCCAGAAAAUGCUGCAAGACUUCAUGGGCGGAAAAGAACUGAACAAGUCGAUCAACCCAGACGAAGCUGUGGCCUAUGGUGCCGCUGUCCAAGCGGCUAUUUUGAAGGGAGAUAAGAGUGAUGCCAUCAAGGACGUUCUCCUGGUCGAUGUCACUCCACUGUCUCUAGGCAUUGAAACUGCUGGAGGGGUCAUGACAAAGAUCGUUGAACGAAAUGCCAAGAUUCCUACCAAAGCAUCACAGACCUUCACCACAUACUCCGAUAACCAGCCCGGUGUAUCCAUUCAGGUGUUUGAAGGUGAACGAGCCAUGACAAAAGACAAUAACAAACUAGGUACUUUUGAACUGAAUGGAAUUCCUCCCGCCCCUCGAGGUGUCCCACAGAUUGACGUGGAGUUUGACAUUGACGCCAACGGUAUCCUGAACGUAUCAGCCAAGGACAAGAGCACGGGAAAGUCCAAUAAAAUCACCAUCACCAACGACAAAGGUCGUCUGAGUAAGGCCGACAUUGAGAGAAUGGUGAACGAGGCCGAGACAUACAAAGAGGAAGACGAUAAACAGCGUCAGAGGAUAGCGGCCCGCAAUCAGUUAGAAUCCUAUGUCUUCACCGUCAAACAGGCAGCAGAGGACACAGGAGACAAACUUCAGUCUGAAGACAAAGAGACAAUAUCCAGGGUGUGCAGUGAAACAGUGUCCUGGCUCGACAACAAUGCCCUGGCAGAGGUUGACGAAUAUGAAUUCAAACUGAAGGAGGUUCAGAAGGUGUGUUCACCCAUCAUGGCCAAACUACACCAGAACGGGUCCACGGGAAAUCCAGGACCAGCUAGUUCUAGUCAGGGUCCGACUGUAGAGGAGAUGGAUUAAGUGUGAAGAAUUACUUAAUGAUAAUAAAACCUCAAAUUGUAUUAUGAACUUAGAUUGGUACUUUCUAUGAAAGAUGUAUUAAAUGUUGAAUGUAGUAUUAAAAUUUGUAGUUGUUAAUUUAUUUGAGAGCAUUAUUUUUUUUUUUUACAGAUUACGAUAUUUUUUUUUACUUAUACAAUUGUUGUUAUUCAAUGUUGAUAAAAUAAAAUCAUUUGAAAAUUAUCUAAAAAAAAAAAAAAAAAA 322-355 1195 175 Intron/Exon boundary, should not amplify genomic 57006502
1193 Cg_COX_416_F ATGTGGTGGAGGGCAGTTTTACTGGT SJW 2/4/2011 26 59.54 C.gigas cyclooxygenase FJ375303 GAGTTCTTCACAGGTTGTATTTCACGTGGGTGTTTCTGTTTTAGATCTTAGGAACGTGGTTAAAAAGTGTGCAATCGGACGGACTGATATATCTATTTGAAGGTGTTTCTCGATCACTGTACCTTTCATCGGCACATTTAGTAGGTGTGAGGACTCACGTTTTTGAGGATTGTGTCCCCCACTAGGCACCCAAAGAAATCCGTGAAGCTGACCGGCTGTCCCTGGCGCCTCTTCTGGACAATTCTGGAGACATAAGTGTACAGACTCTGTGGTTTCAGCAGCCAAAAAGGACTGTGTTCTATATTTCTACCTAGCTCCTCTCGGAGTTCCCCTGGTGTTTTCTGTGGCCAGTCTGGGTGAGAGTAAAGCTGAGACAAATACCTGCCAAATAAAAGTACCGATACAGTACATTAAAATGTGGTGGAGGGCAGTTTTACTGGTCAGTTTCATAGCTCCTGCACTAGTTTCAGGTGGCCATAACCCTTGTTGTTCATACCCTTGTGAAAACAATGGAGTATGCATGACCCAAGGAGGAAATTATTACTGCGACTGTGCAAATCTGGACTTCTATGGCAAACACTGTGAAATTCCTACCTTTATGAAGAAGATCAAGCTGTTTTTAAAACCAAGTCAAAGCACTCTTCATAACCTGCTGACATCCAAAAAATGGCTGTGGAATATCGTCAACAGCGTTCCATTTCTGGCCAATGCAGTGATGAAAAAAGTTTATACCATGAGGTCAGATATGATAGACAGTCCACCAACCTATACCTCTGAGCACGAATACATCACAGTGGATGCTAATTTCAACTATAGTGTCTACACACGTACCTTGCCTCCAGTACCAAAGGAATGCCCGACACCTATGGGAGTATGGGGAAAGAAGGTGCTACCTCCTGCTGAAGACATTGTGAAGGCTTTCTTCATCAGAAAGGAATTCATTCCCGAGCCGTTAGGGACGAGTGCCTTATTTCCTTACTTTGCTCAGCACTTCACTCACATGTTCTTCAAGACTGACCTAAAGAAAGGGCCGCAGTTTCAGTGGGGAGGACATGGGGTAGACGTTTCTCATGTATATGGAAAGGACAGAGATTCTGAGAATAACCTAAGATCTTTCAAAGATGGGAAACTCAAATTCCAGATCATAGATGGAGAAGAGTGGCCCCCCTTGACTTCTGAAGCAGATGTTCCAATGGGATATCCAAAGGGAATGGAAAAGACCAAGCAATTTGCTCTGGGACACTCCTTCTTTGGTCTACTACCAGGATTGTTTATGTATGGCACAATCTGGTTACGAGAACATAACAGAGTGTGTGACATCTTGAAAAAGGAGCATCCAGAATGGAATGATGAGAGATTATTTCAAACTGCCAAGCTGGTGATTCTAGGAGAGACCATTAAAATTGTTATAGAGGACTATGTAAAACATCTCAGCAACTATAATTATGATTTGATCTTTAATCCTGAATTGCTGTTTGGCGAGCCATTCCAGTATCAGAACAGGATTGCTTTAGAATTCAACCATCTTTATCACTGGCATCCCCTGATGCCAGATGAGATTAACATCAGTGGAACTATGTACAATCTAAAAGAGTTCATGTTTCATCCAGAGCTTGTTGTAAAACATGGAATGAGGAACTTTGTGGATTCTCTGTCCAAACAGAGAGCTGGATTATTTGGACCCCGAAATCATGGCCCTGTGACAATTCCTGTGGTGACAGAATTGATCAAACATGGCCGCACCTTAAGGCTGCAGTCATTCAACCAGTATAGAAAGAGATTTGACATGGAGCCTATCAAGTCTTTTGAAGAACTGACAGGAGAGAAGAAAATGGCCAAGCAACTTGAGGATTTCTATGGTGATGTTAATGCTGTGGAGTTTTATGTAGGATTGATAATGGAGAAAAGAAGACACAATTCTATGTTTGGTGACTCTTTGGTACAAATTGGTGCCCCGTATTCTGTGAAGGGTCTGATGGCAAATCCTATTTGTAGTCCCAAGTACTGGAAACCTTCTACGTTTGGTGGAGAGGTTGGGTTCAACATAGTAAAAACTTCTTCACTTAAAAAGCTGTTTTGTGAAAATATCAAAGGAGAATGTCCATTAGTATCATTTAGAGTCCCAGACTATGTTGAGGGAGATGTTACAGAATTCATCAACCAAAAACTAGAATTATAA 416-441 1191, 1190,1151, 1150, 1146 Unknown To be used for sequencing of new COX isoform (COX2) 56946652
1192 Cg_COX1/2_qPCR_F GGCCGCACCTTAAGGCTGCAGT SJW 2/4/2011 22 60.43 C.gigas cyclooxygenase FJ375303 GAGTTCTTCACAGGTTGTATTTCACGTGGGTGTTTCTGTTTTAGATCTTAGGAACGTGGTTAAAAAGTGTGCAATCGGACGGACTGATATATCTATTTGAAGGTGTTTCTCGATCACTGTACCTTTCATCGGCACATTTAGTAGGTGTGAGGACTCACGTTTTTGAGGATTGTGTCCCCCACTAGGCACCCAAAGAAATCCGTGAAGCTGACCGGCTGTCCCTGGCGCCTCTTCTGGACAATTCTGGAGACATAAGTGTACAGACTCTGTGGTTTCAGCAGCCAAAAAGGACTGTGTTCTATATTTCTACCTAGCTCCTCTCGGAGTTCCCCTGGTGTTTTCTGTGGCCAGTCTGGGTGAGAGTAAAGCTGAGACAAATACCTGCCAAATAAAAGTACCGATACAGTACATTAAAATGTGGTGGAGGGCAGTTTTACTGGTCAGTTTCATAGCTCCTGCACTAGTTTCAGGTGGCCATAACCCTTGTTGTTCATACCCTTGTGAAAACAATGGAGTATGCATGACCCAAGGAGGAAATTATTACTGCGACTGTGCAAATCTGGACTTCTATGGCAAACACTGTGAAATTCCTACCTTTATGAAGAAGATCAAGCTGTTTTTAAAACCAAGTCAAAGCACTCTTCATAACCTGCTGACATCCAAAAAATGGCTGTGGAATATCGTCAACAGCGTTCCATTTCTGGCCAATGCAGTGATGAAAAAAGTTTATACCATGAGGTCAGATATGATAGACAGTCCACCAACCTATACCTCTGAGCACGAATACATCACAGTGGATGCTAATTTCAACTATAGTGTCTACACACGTACCTTGCCTCCAGTACCAAAGGAATGCCCGACACCTATGGGAGTATGGGGAAAGAAGGTGCTACCTCCTGCTGAAGACATTGTGAAGGCTTTCTTCATCAGAAAGGAATTCATTCCCGAGCCGTTAGGGACGAGTGCCTTATTTCCTTACTTTGCTCAGCACTTCACTCACATGTTCTTCAAGACTGACCTAAAGAAAGGGCCGCAGTTTCAGTGGGGAGGACATGGGGTAGACGTTTCTCATGTATATGGAAAGGACAGAGATTCTGAGAATAACCTAAGATCTTTCAAAGATGGGAAACTCAAATTCCAGATCATAGATGGAGAAGAGTGGCCCCCCTTGACTTCTGAAGCAGATGTTCCAATGGGATATCCAAAGGGAATGGAAAAGACCAAGCAATTTGCTCTGGGACACTCCTTCTTTGGTCTACTACCAGGATTGTTTATGTATGGCACAATCTGGTTACGAGAACATAACAGAGTGTGTGACATCTTGAAAAAGGAGCATCCAGAATGGAATGATGAGAGATTATTTCAAACTGCCAAGCTGGTGATTCTAGGAGAGACCATTAAAATTGTTATAGAGGACTATGTAAAACATCTCAGCAACTATAATTATGATTTGATCTTTAATCCTGAATTGCTGTTTGGCGAGCCATTCCAGTATCAGAACAGGATTGCTTTAGAATTCAACCATCTTTATCACTGGCATCCCCTGATGCCAGATGAGATTAACATCAGTGGAACTATGTACAATCTAAAAGAGTTCATGTTTCATCCAGAGCTTGTTGTAAAACATGGAATGAGGAACTTTGTGGATTCTCTGTCCAAACAGAGAGCTGGATTATTTGGACCCCGAAATCATGGCCCTGTGACAATTCCTGTGGTGACAGAATTGATCAAACATGGCCGCACCTTAAGGCTGCAGTCATTCAACCAGTATAGAAAGAGATTTGACATGGAGCCTATCAAGTCTTTTGAAGAACTGACAGGAGAGAAGAAAATGGCCAAGCAACTTGAGGATTTCTATGGTGATGTTAATGCTGTGGAGTTTTATGTAGGATTGATAATGGAGAAAAGAAGACACAATTCTATGTTTGGTGACTCTTTGGTACAAATTGGTGCCCCGTATTCTGTGAAGGGTCTGATGGCAAATCCTATTTGTAGTCCCAAGTACTGGAAACCTTCTACGTTTGGTGGAGAGGTTGGGTTCAACATAGTAAAAACTTCTTCACTTAAAAAGCTGTTTTGTGAAAATATCAAAGGAGAATGTCCATTAGTATCATTTAGAGTCCCAGACTATGTTGAGGGAGATGTTACAGAATTCATCAACCAAAAACTAGAATTATAA 1736-1757 1190, 1191 117 Should be useable to distinguish between isoforms when paired with SR ID 1190 or 1191. 56946653
1191 Cg_COX1_qPCR_R GCACCAATTTGTACCAAAGAGTCACCAAAC SJW 2/4/2011 30 60.25 C.gigas cyclooxygenase FJ375303 GAGTTCTTCACAGGTTGTATTTCACGTGGGTGTTTCTGTTTTAGATCTTAGGAACGTGGTTAAAAAGTGTGCAATCGGACGGACTGATATATCTATTTGAAGGTGTTTCTCGATCACTGTACCTTTCATCGGCACATTTAGTAGGTGTGAGGACTCACGTTTTTGAGGATTGTGTCCCCCACTAGGCACCCAAAGAAATCCGTGAAGCTGACCGGCTGTCCCTGGCGCCTCTTCTGGACAATTCTGGAGACATAAGTGTACAGACTCTGTGGTTTCAGCAGCCAAAAAGGACTGTGTTCTATATTTCTACCTAGCTCCTCTCGGAGTTCCCCTGGTGTTTTCTGTGGCCAGTCTGGGTGAGAGTAAAGCTGAGACAAATACCTGCCAAATAAAAGTACCGATACAGTACATTAAAATGTGGTGGAGGGCAGTTTTACTGGTCAGTTTCATAGCTCCTGCACTAGTTTCAGGTGGCCATAACCCTTGTTGTTCATACCCTTGTGAAAACAATGGAGTATGCATGACCCAAGGAGGAAATTATTACTGCGACTGTGCAAATCTGGACTTCTATGGCAAACACTGTGAAATTCCTACCTTTATGAAGAAGATCAAGCTGTTTTTAAAACCAAGTCAAAGCACTCTTCATAACCTGCTGACATCCAAAAAATGGCTGTGGAATATCGTCAACAGCGTTCCATTTCTGGCCAATGCAGTGATGAAAAAAGTTTATACCATGAGGTCAGATATGATAGACAGTCCACCAACCTATACCTCTGAGCACGAATACATCACAGTGGATGCTAATTTCAACTATAGTGTCTACACACGTACCTTGCCTCCAGTACCAAAGGAATGCCCGACACCTATGGGAGTATGGGGAAAGAAGGTGCTACCTCCTGCTGAAGACATTGTGAAGGCTTTCTTCATCAGAAAGGAATTCATTCCCGAGCCGTTAGGGACGAGTGCCTTATTTCCTTACTTTGCTCAGCACTTCACTCACATGTTCTTCAAGACTGACCTAAAGAAAGGGCCGCAGTTTCAGTGGGGAGGACATGGGGTAGACGTTTCTCATGTATATGGAAAGGACAGAGATTCTGAGAATAACCTAAGATCTTTCAAAGATGGGAAACTCAAATTCCAGATCATAGATGGAGAAGAGTGGCCCCCCTTGACTTCTGAAGCAGATGTTCCAATGGGATATCCAAAGGGAATGGAAAAGACCAAGCAATTTGCTCTGGGACACTCCTTCTTTGGTCTACTACCAGGATTGTTTATGTATGGCACAATCTGGTTACGAGAACATAACAGAGTGTGTGACATCTTGAAAAAGGAGCATCCAGAATGGAATGATGAGAGATTATTTCAAACTGCCAAGCTGGTGATTCTAGGAGAGACCATTAAAATTGTTATAGAGGACTATGTAAAACATCTCAGCAACTATAATTATGATTTGATCTTTAATCCTGAATTGCTGTTTGGCGAGCCATTCCAGTATCAGAACAGGATTGCTTTAGAATTCAACCATCTTTATCACTGGCATCCCCTGATGCCAGATGAGATTAACATCAGTGGAACTATGTACAATCTAAAAGAGTTCATGTTTCATCCAGAGCTTGTTGTAAAACATGGAATGAGGAACTTTGTGGATTCTCTGTCCAAACAGAGAGCTGGATTATTTGGACCCCGAAATCATGGCCCTGTGACAATTCCTGTGGTGACAGAATTGATCAAACATGGCCGCACCTTAAGGCTGCAGTCATTCAACCAGTATAGAAAGAGATTTGACATGGAGCCTATCAAGTCTTTTGAAGAACTGACAGGAGAGAAGAAAATGGCCAAGCAACTTGAGGATTTCTATGGTGATGTTAATGCTGTGGAGTTTTATGTAGGATTGATAATGGAGAAAAGAAGACACAATTCTATGTTTGGTGACTCTTTGGTACAAATTGGTGCCCCGTATTCTGTGAAGGGTCTGATGGCAAATCCTATTTGTAGTCCCAAGTACTGGAAACCTTCTACGTTTGGTGGAGAGGTTGGGTTCAACATAGTAAAAACTTCTTCACTTAAAAAGCTGTTTTGTGAAAATATCAAAGGAGAATGTCCATTAGTATCATTTAGAGTCCCAGACTATGTTGAGGGAGATGTTACAGAATTCATCAACCAAAAACTAGAATTATAA 1953-1924 1192 117 56946654
1190 Cg_COX2_454align1_R AGAGACAAACTGTATAACCGTAGCCGA SJW 2/3/2011 28 60.25 C.gigas cyclooxygenase 2 FV2TRRU02INIR2 AAGCAGTGGTATCAACGCAGAGTGCATTACGGCCGGGGGAAAAGAAATTTGCAAAGCAGCTTGAAGAATTCTATGGTGATATCAATGCTGTGGAATTTTATGTAGGAATGATGCTGGAGAAAAGACTTCGATTTGATTCATTGTTTTCGGCTACGGTTATACAGTTTGTCTCTCCATTTTCTTATAAGGGTCTAATGACCAATCCAATTTGTAGTCCCAAGTACTGGAAACCTTCTACCTTTGGTGGGGAGGTTGGGTTCAACATAATAAAAACTGCTTCTCTTGAAAACTTAATCTGTAATAATATCAAAGGAGAATGTCCCGCAGTATCATTTAAAGTCCCAGACTATGTTGAGGGAGATGTAACAGAATTCGTCAACCAAAAACTAGAATTATAAACTCTGTATCTTATTAAGGTCTTCTGTTTCAACGAAGTGTTTTCTACTAAAACTAGTATTAGACTTAAG 173-147 1151, 1150, 1146 Unknown To be used for sequencing of new COX isoform (COX2) 56904613
1189 Cg_3KDSRseq_R TGTCTTGGGTTTTGCATCCTTC ETS 2/2/2011 22 45.46 53.48 C. gigas 3-ketodihydrosphingosine reductase contig CGGTATACTCAAGCGACGGACCGAACTTACTCAGTTACTGTTAAAGATGTTGATTTATTGTGGAATTTTGTTGATTTTAATAATTTTATTTGCATTATCAAAACTTCTATCGGCAAAGNAAATAAAGCTAAAAGGAGCTCATGTATTGATAACAGGTGGATCTAGTGGTATTGGTAAAGCCCTTGCTATTGAGGCGGTTAAAAATGGAGCTAATGTCACTATCATGGCCAGGAATGNANAAAAACTAGAAAATGCAAAAGAAGAAATAGAAAGTCACATAAAAGATAAAGATGCTCAGAAGGTTTTTTCAACATCTGTGGACATAACAAAAAGTGCAGAAATGGTTAAAGAAGCTGTTAAAAAGGCTGAAAAYAATCTGGGACCAGTTACAATTCTAATTAACAATGCAGGCAGTGCAGTGGCTGGAAATTTTGAAGACACTTCATCTGAGCAATTTCAGCGCATGATGGATTTGAATTTTCTCGGAGGTGTCAATGTCACCAAGGCTGCCTTAAAAGGGATGAAGGACAACAATGSAGGAAGAATAGTTTTCATCTCATCCCAGGCGGGACAAGTGGGCGTGTTTGGCTACACCGCCTACTCAGCCTCAAAATTCGCTCTCAGGGGATTCGCAGAGTCCCTTCAAATGGAGGTAAAACCATACAATATTTATGTTACCATGGCATTTCCACCTGACACAGACACYCCTGGTCTAGCAGAGGAGAATAAATCTAAGCCYAGGGAAACACTGCTCATATCAGATACAGTAGGACTGTTTTCTCCCAGTGATGTGGCCAAGTCAGTTTTCAAGGATGCTGTGAATGGGAAATTTTTGAGTTACGTTGGTATGGATGGCTGGTTGCTTTGCAACTTATCAAGTGGGATGTCCCCTGCAACGTCCATTTTGGATTTACTTCATCAGATATTCACTATGGGACTGTTCCGCTTTGTTTGTCAGTTTTATTTGTTACATTTTTGACCGGATTATAAAAAAAGTGTAAAGAAGAGAAGGATGCAAAACCCAAGACATCATAAGATTTCATACATATCTAATGGGTTTTTTAAAAACAATTTAAAAATATTTATGAACAAATTATACATTTATCAGTTGTATTTGAAATACCTGTATATTAATTWKYTGTTACATTCAATGTATTCACACTTGCAAAAGAATTATTTTTCATATTATTTGTATGAAATTAAATTTTATATACAAAAATAAAATAATTATGGACATTTATGTACTGTGATGTCCAGGTAATATATTTGAAGACCAAAAAAAAAAGGCCG 1008-1029 977 57033554
1188 Cg_3KDSRseq_F AGCGACGGACCGAACTTACT ETS 2/2/2011 20 55 55.45 C. gigas 3-ketodihydrosphingosine reductase contig CGGTATACTCAAGCGACGGACCGAACTTACTCAGTTACTGTTAAAGATGTTGATTTATTGTGGAATTTTGTTGATTTTAATAATTTTATTTGCATTATCAAAACTTCTATCGGCAAAGNAAATAAAGCTAAAAGGAGCTCATGTATTGATAACAGGTGGATCTAGTGGTATTGGTAAAGCCCTTGCTATTGAGGCGGTTAAAAATGGAGCTAATGTCACTATCATGGCCAGGAATGNANAAAAACTAGAAAATGCAAAAGAAGAAATAGAAAGTCACATAAAAGATAAAGATGCTCAGAAGGTTTTTTCAACATCTGTGGACATAACAAAAAGTGCAGAAATGGTTAAAGAAGCTGTTAAAAAGGCTGAAAAYAATCTGGGACCAGTTACAATTCTAATTAACAATGCAGGCAGTGCAGTGGCTGGAAATTTTGAAGACACTTCATCTGAGCAATTTCAGCGCATGATGGATTTGAATTTTCTCGGAGGTGTCAATGTCACCAAGGCTGCCTTAAAAGGGATGAAGGACAACAATGSAGGAAGAATAGTTTTCATCTCATCCCAGGCGGGACAAGTGGGCGTGTTTGGCTACACCGCCTACTCAGCCTCAAAATTCGCTCTCAGGGGATTCGCAGAGTCCCTTCAAATGGAGGTAAAACCATACAATATTTATGTTACCATGGCATTTCCACCTGACACAGACACYCCTGGTCTAGCAGAGGAGAATAAATCTAAGCCYAGGGAAACACTGCTCATATCAGATACAGTAGGACTGTTTTCTCCCAGTGATGTGGCCAAGTCAGTTTTCAAGGATGCTGTGAATGGGAAATTTTTGAGTTACGTTGGTATGGATGGCTGGTTGCTTTGCAACTTATCAAGTGGGATGTCCCCTGCAACGTCCATTTTGGATTTACTTCATCAGATATTCACTATGGGACTGTTCCGCTTTGTTTGTCAGTTTTATTTGTTACATTTTTGACCGGATTATAAAAAAAGTGTAAAGAAGAGAAGGATGCAAAACCCAAGACATCATAAGATTTCATACATATCTAATGGGTTTTTTAAAAACAATTTAAAAATATTTATGAACAAATTATACATTTATCAGTTGTATTTGAAATACCTGTATATTAATTWKYTGTTACATTCAATGTATTCACACTTGCAAAAGAATTATTTTTCATATTATTTGTATGAAATTAAATTTTATATACAAAAATAAAATAATTATGGACATTTATGTACTGTGATGTCCAGGTAATATATTTGAAGACCAAAAAAAAAAGGCCG 12 to 31 977
1187 Cg_3KDSqPCR_F GCAGTGCAGTGGCTGGAAAT ETS 5/5/2011 20 55 55.71 C. gigas 3-ketodihydrosphingosine reductase contig CGGTATACTCAAGCGACGGACCGAACTTACTCAGTTACTGTTAAAGATGTTGATTTATTGTGGAATTTTGTTGATTTTAATAATTTTATTTGCATTATCAAAACTTCTATCGGCAAAGNAAATAAAGCTAAAAGGAGCTCATGTATTGATAACAGGTGGATCTAGTGGTATTGGTAAAGCCCTTGCTATTGAGGCGGTTAAAAATGGAGCTAATGTCACTATCATGGCCAGGAATGNANAAAAACTAGAAAATGCAAAAGAAGAAATAGAAAGTCACATAAAAGATAAAGATGCTCAGAAGGTTTTTTCAACATCTGTGGACATAACAAAAAGTGCAGAAATGGTTAAAGAAGCTGTTAAAAAGGCTGAAAAYAATCTGGGACCAGTTACAATTCTAATTAACAATGCAGGCAGTGCAGTGGCTGGAAATTTTGAAGACACTTCATCTGAGCAATTTCAGCGCATGATGGATTTGAATTTTCTCGGAGGTGTCAATGTCACCAAGGCTGCCTTAAAAGGGATGAAGGACAACAATGSAGGAAGAATAGTTTTCATCTCATCCCAGGCGGGACAAGTGGGCGTGTTTGGCTACACCGCCTACTCAGCCTCAAAATTCGCTCTCAGGGGATTCGCAGAGTCCCTTCAAATGGAGGTAAAACCATACAATATTTATGTTACCATGGCATTTCCACCTGACACAGACACYCCTGGTCTAGCAGAGGAGAATAAATCTAAGCCYAGGGAAACACTGCTCATATCAGATACAGTAGGACTGTTTTCTCCCAGTGATGTGGCCAAGTCAGTTTTCAAGGATGCTGTGAATGGGAAATTTTTGAGTTACGTTGGTATGGATGGCTGGTTGCTTTGCAACTTATCAAGTGGGATGTCCCCTGCAACGTCCATTTTGGATTTACTTCATCAGATATTCACTATGGGACTGTTCCGCTTTGTTTGTCAGTTTTATTTGTTACATTTTTGACCGGATTATAAAAAAAGTGTAAAGAAGAGAAGGATGCAAAACCCAAGACATCATAAGATTTCATACATATCTAATGGGTTTTTTAAAAACAATTTAAAAATATTTATGAACAAATTATACATTTATCAGTTGTATTTGAAATACCTGTATATTAATTWKYTGTTACATTCAATGTATTCACACTTGCAAAAGAATTATTTTTCATATTATTTGTATGAAATTAAATTTTATATACAAAAATAAAATAATTATGGACATTTATGTACTGTGATGTCCAGGTAATATATTTGAAGACCAAAAAAAAAAGGCCG 411-430 102 58887443
1186 Cg_3KDSqPCR_R AGGCAGCCTTGGTGACATTG ETS 5/5/2011 20 55 55.03 C. gigas 3-ketodihydrosphingosine reductase contig CGGTATACTCAAGCGACGGACCGAACTTACTCAGTTACTGTTAAAGATGTTGATTTATTGTGGAATTTTGTTGATTTTAATAATTTTATTTGCATTATCAAAACTTCTATCGGCAAAGNAAATAAAGCTAAAAGGAGCTCATGTATTGATAACAGGTGGATCTAGTGGTATTGGTAAAGCCCTTGCTATTGAGGCGGTTAAAAATGGAGCTAATGTCACTATCATGGCCAGGAATGNANAAAAACTAGAAAATGCAAAAGAAGAAATAGAAAGTCACATAAAAGATAAAGATGCTCAGAAGGTTTTTTCAACATCTGTGGACATAACAAAAAGTGCAGAAATGGTTAAAGAAGCTGTTAAAAAGGCTGAAAAYAATCTGGGACCAGTTACAATTCTAATTAACAATGCAGGCAGTGCAGTGGCTGGAAATTTTGAAGACACTTCATCTGAGCAATTTCAGCGCATGATGGATTTGAATTTTCTCGGAGGTGTCAATGTCACCAAGGCTGCCTTAAAAGGGATGAAGGACAACAATGSAGGAAGAATAGTTTTCATCTCATCCCAGGCGGGACAAGTGGGCGTGTTTGGCTACACCGCCTACTCAGCCTCAAAATTCGCTCTCAGGGGATTCGCAGAGTCCCTTCAAATGGAGGTAAAACCATACAATATTTATGTTACCATGGCATTTCCACCTGACACAGACACYCCTGGTCTAGCAGAGGAGAATAAATCTAAGCCYAGGGAAACACTGCTCATATCAGATACAGTAGGACTGTTTTCTCCCAGTGATGTGGCCAAGTCAGTTTTCAAGGATGCTGTGAATGGGAAATTTTTGAGTTACGTTGGTATGGATGGCTGGTTGCTTTGCAACTTATCAAGTGGGATGTCCCCTGCAACGTCCATTTTGGATTTACTTCATCAGATATTCACTATGGGACTGTTCCGCTTTGTTTGTCAGTTTTATTTGTTACATTTTTGACCGGATTATAAAAAAAGTGTAAAGAAGAGAAGGATGCAAAACCCAAGACATCATAAGATTTCATACATATCTAATGGGTTTTTTAAAAACAATTTAAAAATATTTATGAACAAATTATACATTTATCAGTTGTATTTGAAATACCTGTATATTAATTWKYTGTTACATTCAATGTATTCACACTTGCAAAAGAATTATTTTTCATATTATTTGTATGAAATTAAATTTTATATACAAAAATAAAATAATTATGGACATTTATGTACTGTGATGTCCAGGTAATATATTTGAAGACCAAAAAAAAAAGGCCG 493-512 102 58887444
1185 Cg_acidCMaseqPCR_R AAGGCTGGGGGAGAGTATCG ETS 2/2/2011 60 54.82 c. gigas acid ceramidase contig TTTGTGATTACACGATGTGGATACCGGTGGTCTTGTCGCTTTCTGTTGTAATTTGGGTGGGGAACTGTCAATTTCCACCGTTTAATGAGACCTGTGTTTCCAATGCATATCCGCCAAATAAAACAAATGCAGTTCCGTGGTATACTATTAACCTAGACTTACCACCAAAGCAAAGATGGACTCAAGTTGGCCAGGAGAAGAAAGCAGGGATAAAGAAACTGCTGGTTTCCTTCATTGATTTTGCCAAAGCATGGAGTGAGAATGCCACAGGGAAAGTGGTCGACTTCCTTATTAATGAAGGGGGCAAAATAGACGATACTCTCCCCCAGCCTTATGCAGATGAAATGAGGGGGTTGGCTGAAGCGACAGGGATACCACTTGGAGAAATAGTGCTGTACAACATTTTCTATGAACTTTTCNCTGTGTGTACCTCCATCGTAGCAGAAGATCCATCTGGAAAACTTTTCCATGTACGAAATCTGGATTTTGGTCTATTTTTGGGATGGGATGTTAAAACTAAGACATGGGAAATAACGGATRCCCTGCGTCCTACTGTGGTTAACTTGGATTTCCAGAAGGGAGGAAAAACTGTCTTCAAATCTGTGAACTTTGCANGATACATTGGTATCCTTACAGCTGTGAAACCAGGAAKGTTCACACTAACAATGAATGNAAGATTCAACATGGATGGTGAATACATAGGTGTACTTGAGTGGATTCTGGGGATCAGGACAGGGAAGTGGATGGGTTTCCTGACCAGAGAGASAMWRKRRAAARMKSKSYYCTACCAAGAGGCTGTAGCCATGNTGTCCCAGACAGAAATGCTGGCTNCTGCATACTTCATTGTTGGAGGCAATAAGTCAGGAGAGGGCTGTGTGATCACCAGGTCTCGTGAGAAAGCTATTGATGTGTGGAGGATGGATCAAGCAAATAACTGGTACATCCTGGAGACAAATTACGACCATTGGGAAAATCCCCTCTTCTTGGATGACCGCAGAACTCCGGCTCACAAGTGTATGCAGAAAACTACCTCCAAGAATGTGTCAATCAAAGGACTGTTTAATGTATTGTCCTCAAAACCTGTTTTAAATAAGTTGACGACTTACTCCGCACTGATGCAGGTGAACTCGGGACATCTGGAGAGCTGGTTACAGTACTGTCCAGATCCATGTCAGCCATTTTAAATCTTGACACCGGAAGTCAGAAGCAGACGACATGCATTCCAAGCAATTACTGTGATATTTGTAAACAGTGTATTCAAACACACACAATACTCATACAAGGTGTATATATAAGATCCAATCATTACAATCAATGCACTTATATTGATTATTACAAGTAGAGATATCTAAATGTGGCATGTATGGGTGGTTGTGTCTTCCTTATTTGTTTAAGGATTGTATGAATGACTTGCAATATTTTTGTTGATTATTTTAAGTTATTTGAATACTTACAGAGTAATAGGTGAATATGTTGTATGATTATAATTATTTTTTGATCTGATTAAACTACATRYATGATAAAAAAAAAAAAAAAAAAGCGCCATAAGGC 314-333 157
1184 Cg_acidCMaseqPCR_F TGGACTCAAGTTGGCCAGGA ETS 2/2/2011 55 55.06 C. gigas acid ceramidase contig TTTGTGATTACACGATGTGGATACCGGTGGTCTTGTCGCTTTCTGTTGTAATTTGGGTGGGGAACTGTCAATTTCCACCGTTTAATGAGACCTGTGTTTCCAATGCATATCCGCCAAATAAAACAAATGCAGTTCCGTGGTATACTATTAACCTAGACTTACCACCAAAGCAAAGATGGACTCAAGTTGGCCAGGAGAAGAAAGCAGGGATAAAGAAACTGCTGGTTTCCTTCATTGATTTTGCCAAAGCATGGAGTGAGAATGCCACAGGGAAAGTGGTCGACTTCCTTATTAATGAAGGGGGCAAAATAGACGATACTCTCCCCCAGCCTTATGCAGATGAAATGAGGGGGTTGGCTGAAGCGACAGGGATACCACTTGGAGAAATAGTGCTGTACAACATTTTCTATGAACTTTTCNCTGTGTGTACCTCCATCGTAGCAGAAGATCCATCTGGAAAACTTTTCCATGTACGAAATCTGGATTTTGGTCTATTTTTGGGATGGGATGTTAAAACTAAGACATGGGAAATAACGGATRCCCTGCGTCCTACTGTGGTTAACTTGGATTTCCAGAAGGGAGGAAAAACTGTCTTCAAATCTGTGAACTTTGCANGATACATTGGTATCCTTACAGCTGTGAAACCAGGAAKGTTCACACTAACAATGAATGNAAGATTCAACATGGATGGTGAATACATAGGTGTACTTGAGTGGATTCTGGGGATCAGGACAGGGAAGTGGATGGGTTTCCTGACCAGAGAGASAMWRKRRAAARMKSKSYYCTACCAAGAGGCTGTAGCCATGNTGTCCCAGACAGAAATGCTGGCTNCTGCATACTTCATTGTTGGAGGCAATAAGTCAGGAGAGGGCTGTGTGATCACCAGGTCTCGTGAGAAAGCTATTGATGTGTGGAGGATGGATCAAGCAAATAACTGGTACATCCTGGAGACAAATTACGACCATTGGGAAAATCCCCTCTTCTTGGATGACCGCAGAACTCCGGCTCACAAGTGTATGCAGAAAACTACCTCCAAGAATGTGTCAATCAAAGGACTGTTTAATGTATTGTCCTCAAAACCTGTTTTAAATAAGTTGACGACTTACTCCGCACTGATGCAGGTGAACTCGGGACATCTGGAGAGCTGGTTACAGTACTGTCCAGATCCATGTCAGCCATTTTAAATCTTGACACCGGAAGTCAGAAGCAGACGACATGCATTCCAAGCAATTACTGTGATATTTGTAAACAGTGTATTCAAACACACACAATACTCATACAAGGTGTATATATAAGATCCAATCATTACAATCAATGCACTTATATTGATTATTACAAGTAGAGATATCTAAATGTGGCATGTATGGGTGGTTGTGTCTTCCTTATTTGTTTAAGGATTGTATGAATGACTTGCAATATTTTTGTTGATTATTTTAAGTTATTTGAATACTTACAGAGTAATAGGTGAATATGTTGTATGATTATAATTATTTTTTGATCTGATTAAACTACATRYATGATAAAAAAAAAAAAAAAAAAGCGCCATAAGGC 177-196 157
1183 Cg_acidCMaseseq_F TGTGATTACACGATGTGGATACCG ETS 2/2/2011 45.83 54.88 C. gigas acid ceramidase contig TTTGTGATTACACGATGTGGATACCGGTGGTCTTGTCGCTTTCTGTTGTAATTTGGGTGGGGAACTGTCAATTTCCACCGTTTAATGAGACCTGTGTTTCCAATGCATATCCGCCAAATAAAACAAATGCAGTTCCGTGGTATACTATTAACCTAGACTTACCACCAAAGCAAAGATGGACTCAAGTTGGCCAGGAGAAGAAAGCAGGGATAAAGAAACTGCTGGTTTCCTTCATTGATTTTGCCAAAGCATGGAGTGAGAATGCCACAGGGAAAGTGGTCGACTTCCTTATTAATGAAGGGGGCAAAATAGACGATACTCTCCCCCAGCCTTATGCAGATGAAATGAGGGGGTTGGCTGAAGCGACAGGGATACCACTTGGAGAAATAGTGCTGTACAACATTTTCTATGAACTTTTCNCTGTGTGTACCTCCATCGTAGCAGAAGATCCATCTGGAAAACTTTTCCATGTACGAAATCTGGATTTTGGTCTATTTTTGGGATGGGATGTTAAAACTAAGACATGGGAAATAACGGATRCCCTGCGTCCTACTGTGGTTAACTTGGATTTCCAGAAGGGAGGAAAAACTGTCTTCAAATCTGTGAACTTTGCANGATACATTGGTATCCTTACAGCTGTGAAACCAGGAAKGTTCACACTAACAATGAATGNAAGATTCAACATGGATGGTGAATACATAGGTGTACTTGAGTGGATTCTGGGGATCAGGACAGGGAAGTGGATGGGTTTCCTGACCAGAGAGASAMWRKRRAAARMKSKSYYCTACCAAGAGGCTGTAGCCATGNTGTCCCAGACAGAAATGCTGGCTNCTGCATACTTCATTGTTGGAGGCAATAAGTCAGGAGAGGGCTGTGTGATCACCAGGTCTCGTGAGAAAGCTATTGATGTGTGGAGGATGGATCAAGCAAATAACTGGTACATCCTGGAGACAAATTACGACCATTGGGAAAATCCCCTCTTCTTGGATGACCGCAGAACTCCGGCTCACAAGTGTATGCAGAAAACTACCTCCAAGAATGTGTCAATCAAAGGACTGTTTAATGTATTGTCCTCAAAACCTGTTTTAAATAAGTTGACGACTTACTCCGCACTGATGCAGGTGAACTCGGGACATCTGGAGAGCTGGTTACAGTACTGTCCAGATCCATGTCAGCCATTTTAAATCTTGACACCGGAAGTCAGAAGCAGACGACATGCATTCCAAGCAATTACTGTGATATTTGTAAACAGTGTATTCAAACACACACAATACTCATACAAGGTGTATATATAAGATCCAATCATTACAATCAATGCACTTATATTGATTATTACAAGTAGAGATATCTAAATGTGGCATGTATGGGTGGTTGTGTCTTCCTTATTTGTTTAAGGATTGTATGAATGACTTGCAATATTTTTGTTGATTATTTTAAGTTATTTGAATACTTACAGAGTAATAGGTGAATATGTTGTATGATTATAATTATTTTTTGATCTGATTAAACTACATRYATGATAAAAAAAAAAAAAAAAAAGCGCCATAAGGC 3 to 26 1165 57469015
1182 Cg_acidCMaseseq_R CTGCTTCTGACTTCCGGTGT ETS 2/2/2011 55 54.18 C. gigas acid ceramidase contig TTTGTGATTACACGATGTGGATACCGGTGGTCTTGTCGCTTTCTGTTGTAATTTGGGTGGGGAACTGTCAATTTCCACCGTTTAATGAGACCTGTGTTTCCAATGCATATCCGCCAAATAAAACAAATGCAGTTCCGTGGTATACTATTAACCTAGACTTACCACCAAAGCAAAGATGGACTCAAGTTGGCCAGGAGAAGAAAGCAGGGATAAAGAAACTGCTGGTTTCCTTCATTGATTTTGCCAAAGCATGGAGTGAGAATGCCACAGGGAAAGTGGTCGACTTCCTTATTAATGAAGGGGGCAAAATAGACGATACTCTCCCCCAGCCTTATGCAGATGAAATGAGGGGGTTGGCTGAAGCGACAGGGATACCACTTGGAGAAATAGTGCTGTACAACATTTTCTATGAACTTTTCNCTGTGTGTACCTCCATCGTAGCAGAAGATCCATCTGGAAAACTTTTCCATGTACGAAATCTGGATTTTGGTCTATTTTTGGGATGGGATGTTAAAACTAAGACATGGGAAATAACGGATRCCCTGCGTCCTACTGTGGTTAACTTGGATTTCCAGAAGGGAGGAAAAACTGTCTTCAAATCTGTGAACTTTGCANGATACATTGGTATCCTTACAGCTGTGAAACCAGGAAKGTTCACACTAACAATGAATGNAAGATTCAACATGGATGGTGAATACATAGGTGTACTTGAGTGGATTCTGGGGATCAGGACAGGGAAGTGGATGGGTTTCCTGACCAGAGAGASAMWRKRRAAARMKSKSYYCTACCAAGAGGCTGTAGCCATGNTGTCCCAGACAGAAATGCTGGCTNCTGCATACTTCATTGTTGGAGGCAATAAGTCAGGAGAGGGCTGTGTGATCACCAGGTCTCGTGAGAAAGCTATTGATGTGTGGAGGATGGATCAAGCAAATAACTGGTACATCCTGGAGACAAATTACGACCATTGGGAAAATCCCCTCTTCTTGGATGACCGCAGAACTCCGGCTCACAAGTGTATGCAGAAAACTACCTCCAAGAATGTGTCAATCAAAGGACTGTTTAATGTATTGTCCTCAAAACCTGTTTTAAATAAGTTGACGACTTACTCCGCACTGATGCAGGTGAACTCGGGACATCTGGAGAGCTGGTTACAGTACTGTCCAGATCCATGTCAGCCATTTTAAATCTTGACACCGGAAGTCAGAAGCAGACGACATGCATTCCAAGCAATTACTGTGATATTTGTAAACAGTGTATTCAAACACACACAATACTCATACAAGGTGTATATATAAGATCCAATCATTACAATCAATGCACTTATATTGATTATTACAAGTAGAGATATCTAAATGTGGCATGTATGGGTGGTTGTGTCTTCCTTATTTGTTTAAGGATTGTATGAATGACTTGCAATATTTTTGTTGATTATTTTAAGTTATTTGAATACTTACAGAGTAATAGGTGAATATGTTGTATGATTATAATTATTTTTTGATCTGATTAAACTACATRYATGATAAAAAAAAAAAAAAAAAAGCGCCATAAGGC 1191-1210 1165
1181 Cg_CmglutransqPCR_R TGTCCATGAGCGAGTCTGGT ETS 2/2/2011 20 55 55.01 C. gigas ceramide glucosyltransferase contig AGAGAGGCSRRCMSRSGAAAGTCACCATGATAATATGAGCGTAGCTCACTATTTTGCTTTCTCTCTTGCTATTTTAATTTTAGGAGGATGGTGTTTCGTTTGGTTTATGCACATTTTAGCCTTAATCTATGGAAAATACCGTCTACACCATCCTATTCCGCCTCCCTCCCCGGAAGACCTCCAGGGGGTGTCCATCATTAAACCCCTGGTCGGGGTGGATCCAAACCTGTATTTCAATTTAGAGTCTTTTTTCACCACTGTCTATCCATCCTTTGAACTCCTCTTCTGTTTACAAGATGAAAGTGATCCTGCTCTTATGGTTGTTAAAGCTCTCATGGAAAAATACCCAAAAGTAGATGCTAAAATTTTTATAGGTGTAAAATATGTTGGCCCAAACGGGAAAGTTAACAACATGTGCAAAGCATATGAGGCAGCCAAATATGATTTAATAGTCATATCTGATAGTAGTATATTAATGAAACCAGACTCGCTCATGGACATGATGTCCTTCATGAAGCCTGATGTCGGTCTAGTGTTGCAGATGCCATATTGTTGTACTCGCAAGGGGTTTGCTGCTGTTTAYGAAAAGGTTTATTTTGGAACGTTTCAGTCCAGAAACTGTCTTAGTGCTAATTCTGTAGGAATCAATTGTTCAACGGGCATGTCCTGCCNTTTTCCGAAAAGACATTTTAGAAAAATCAGGGGGCTTGGCTCCTTTAGGAAAATATTTAGCAGAAGATTATTTTATTTCTGAAAACATTAGAAAAGAGGGATATAAAACAGTATTATGTAGTCAACCAGCACAGCAAAATTCTGGACAGTACAACATAGGCCATTTTCATCAACGACTCATCAGGTGGTCCCAGCTGCGCATCTCTCTGTTACCTCATCTCATCCTGTTTGAGCCCCCTGTCGGAATGTATGCTGATGGGGGTGATTGCCTCGTGGGCTGCCGAGTACATCTTTGGCATCAGCTCAATGGGCTTCTTCCTCATGCATGTTCTAGTCTGGTTCCTGTTCGATTACGCTCTCCTTACATGTGTTGAGNATGGGCCACTTCCTTTTTCTAAGTTTTGAATTTCCTGGTTGCCTTGGATTCTACGAGAAGTGTTATCCATATGGATGACTATTCA 481-500 114
1180 Cg_CmglutransqPCR_F TTGGCCCAAACGGGAAAGTT ETS 2/2/2011 20 50 54.75 C. gigas ceramide glucosyltransferase contig AGAGAGGCSRRCMSRSGAAAGTCACCATGATAATATGAGCGTAGCTCACTATTTTGCTTTCTCTCTTGCTATTTTAATTTTAGGAGGATGGTGTTTCGTTTGGTTTATGCACATTTTAGCCTTAATCTATGGAAAATACCGTCTACACCATCCTATTCCGCCTCCCTCCCCGGAAGACCTCCAGGGGGTGTCCATCATTAAACCCCTGGTCGGGGTGGATCCAAACCTGTATTTCAATTTAGAGTCTTTTTTCACCACTGTCTATCCATCCTTTGAACTCCTCTTCTGTTTACAAGATGAAAGTGATCCTGCTCTTATGGTTGTTAAAGCTCTCATGGAAAAATACCCAAAAGTAGATGCTAAAATTTTTATAGGTGTAAAATATGTTGGCCCAAACGGGAAAGTTAACAACATGTGCAAAGCATATGAGGCAGCCAAATATGATTTAATAGTCATATCTGATAGTAGTATATTAATGAAACCAGACTCGCTCATGGACATGATGTCCTTCATGAAGCCTGATGTCGGTCTAGTGTTGCAGATGCCATATTGTTGTACTCGCAAGGGGTTTGCTGCTGTTTAYGAAAAGGTTTATTTTGGAACGTTTCAGTCCAGAAACTGTCTTAGTGCTAATTCTGTAGGAATCAATTGTTCAACGGGCATGTCCTGCCNTTTTCCGAAAAGACATTTTAGAAAAATCAGGGGGCTTGGCTCCTTTAGGAAAATATTTAGCAGAAGATTATTTTATTTCTGAAAACATTAGAAAAGAGGGATATAAAACAGTATTATGTAGTCAACCAGCACAGCAAAATTCTGGACAGTACAACATAGGCCATTTTCATCAACGACTCATCAGGTGGTCCCAGCTGCGCATCTCTCTGTTACCTCATCTCATCCTGTTTGAGCCCCCTGTCGGAATGTATGCTGATGGGGGTGATTGCCTCGTGGGCTGCCGAGTACATCTTTGGCATCAGCTCAATGGGCTTCTTCCTCATGCATGTTCTAGTCTGGTTCCTGTTCGATTACGCTCTCCTTACATGTGTTGAGNATGGGCCACTTCCTTTTTCTAAGTTTTGAATTTCCTGGTTGCCTTGGATTCTACGAGAAGTGTTATCCATATGGATGACTATTCA 387-406 114
1179 Cg_Cmglutransseq_F AGAGGCGAACACACGAAAGT ETS 2/2/2011 20 50 54.12 C. gigas ceramide glucosyltransferase HS163638.1 AGAGAGGCGAACACACGAAAGTCACCATGATAATATGAGCGTAGCTCACTATTTTGCTTTCTCTCTTGCTATTTTAATTTTAGGAGGATGGTGTTTCGTTTGGTTTATGCACATTTTAGCCTTAATCTATGGAAAATACCGTCTACACCATCCTATTCCGCCTCCCTCCCCGGAAGACCTCCAGGGGGTGTCCATCATTAAACCCCTGGTCGGGGTGGATCCAAACCTGTATTTCAATTTAGAGTCTTTTTTCACCACTGTCTATCCATCCTTTGAACTCCTCTTCTGTTTACAAGATGAAAGTGATCCTGCTCTTATGGTTGTTAAAGCTCTCATGGAAAAATACCCAAAAGTAGATGCTAAAATTTTTATAGGTGTAAAATATGTTGGCCCAAACGGGAAAGTTAACAACATGTGCAAAGCATATGAGGCAGCCAAATATGATTTAATAGTCATATCTGATAGTAGTATATTAATGAAACCAGACTCACTAATGGACATGATGTCCTTCATGAAGCCTGATGTCGGTCTAGTGTTGCAGATGCCATATTGTTGTACTCGCAAGGGGTTTGCTGCTGTTTATGAAAAGGTTTATTTTGGAACGTTTCAGTCCAGAAACTGTCTTAGTGCTAATTCTGTAGGAATCAATTGTTCAACGGGCATGTCCTGCCTTTTCCGAAAAGACATTTTAGAAAATCAGGGGCTTGGCTCCTTTAGGAAATATTTAGCAGAGATTATTTTATTTCTGAAAACATTAGAAAAGAG 3 to 22 1080
1178 Cg_Cmglutransseq_R CCATATGGATAACACTTCTCG ETS 2/2/2011 21 42.86 47.92 C. gigas ceramide glucosyltransferase contig AGAGAGGCSRRCMSRSGAAAGTCACCATGATAATATGAGCGTAGCTCACTATTTTGCTTTCTCTCTTGCTATTTTAATTTTAGGAGGATGGTGTTTCGTTTGGTTTATGCACATTTTAGCCTTAATCTATGGAAAATACCGTCTACACCATCCTATTCCGCCTCCCTCCCCGGAAGACCTCCAGGGGGTGTCCATCATTAAACCCCTGGTCGGGGTGGATCCAAACCTGTATTTCAATTTAGAGTCTTTTTTCACCACTGTCTATCCATCCTTTGAACTCCTCTTCTGTTTACAAGATGAAAGTGATCCTGCTCTTATGGTTGTTAAAGCTCTCATGGAAAAATACCCAAAAGTAGATGCTAAAATTTTTATAGGTGTAAAATATGTTGGCCCAAACGGGAAAGTTAACAACATGTGCAAAGCATATGAGGCAGCCAAATATGATTTAATAGTCATATCTGATAGTAGTATATTAATGAAACCAGACTCGCTCATGGACATGATGTCCTTCATGAAGCCTGATGTCGGTCTAGTGTTGCAGATGCCATATTGTTGTACTCGCAAGGGGTTTGCTGCTGTTTAYGAAAAGGTTTATTTTGGAACGTTTCAGTCCAGAAACTGTCTTAGTGCTAATTCTGTAGGAATCAATTGTTCAACGGGCATGTCCTGCCNTTTTCCGAAAAGACATTTTAGAAAAATCAGGGGGCTTGGCTCCTTTAGGAAAATATTTAGCAGAAGATTATTTTATTTCTGAAAACATTAGAAAAGAGGGATATAAAACAGTATTATGTAGTCAACCAGCACAGCAAAATTCTGGACAGTACAACATAGGCCATTTTCATCAACGACTCATCAGGTGGTCCCAGCTGCGCATCTCTCTGTTACCTCATCTCATCCTGTTTGAGCCCCCTGTCGGAATGTATGCTGATGGGGGTGATTGCCTCGTGGGCTGCCGAGTACATCTTTGGCATCAGCTCAATGGGCTTCTTCCTCATGCATGTTCTAGTCTGGTTCCTGTTCGATTACGCTCTCCTTACATGTGTTGAGNATGGGCCACTTCCTTTTTCTAAGTTTTGAATTTCCTGGTTGCCTTGGATTCTACGAGAAGTGTTATCCATATGGATGACTATTCA 1102 - 1122 1080
1177 Om_Tert_R AGCGTAGCTGGCGTAGTTGT JGT 2/2/2011 20 55 60.1 O. mykiss Telomerase reverse transcriptase HM852030 GCAGCACAGACCTTCCTCAAGACCCTCATGGCGGGGGTACCACGGTACGGGTGTGTGGTGACCCCCAAAGTGGCTGTTAACTTCCCTTTGGGTGAGTGGGGGTCCTGTCCTGCTGGGGTACGCCTGCTGCCTTTACACTGTCTGTTCCCCTGGTGTGGACTACTGCTGAATACACACACCCTGGACGTCTACAACAACTACGCCAGCTACGCTGGCCTATCACTGCGCTACAGCCTTAACTCTTGGGA 1176 202 56893893
1176 Om_Tert_F CTTCCTCAAGACCCTCATGG JGT 2/2/2011 20 55 59.65 O. mykiss Telomerase reverse transcriptase HM852030 GCAGCACAGACCTTCCTCAAGACCCTCATGGCGGGGGTACCACGGTACGGGTGTGTGGTGACCCCCAAAGTGGCTGTTAACTTCCCTTTGGGTGAGTGGGGGTCCTGTCCTGCTGGGGTACGCCTGCTGCCTTTACACTGTCTGTTCCCCTGGTGTGGACTACTGCTGAATACACACACCCTGGACGTCTACAACAACTACGCCAGCTACGCTGGCCTATCACTGCGCTACAGCCTTAACTCTTGGGA 1177 202 56893894
1175 Cg_Sptlc1seq_R CTGTTCCCCAATATTTCTGAC ETS 2/2/2011 21 42.86 48.48 C.gigas serine palmitoyltransferase 1 contig GGACGCCATGGCGTCGACGTTCATTCCTCAAACATGGGAAATGTATGATATGTTTCAAGCCCTGTTGCAGGCTCCCTCATATCATCTTTTCTTCGAAGCATTGCTTATCATATGGATTTTTAAGCTGTTGTTTTTCTCTAAAGCCTACGCCCCAGAATCCGTCCTAACAGAAAAGGAAAAGGAGGAGTTGATTGCAGAATGGCAGCCGGAACCTTTAGCTCCCGAAATTCCAGAGGACCACCCTGTTTTAATGGCGATGGAAAATAATATTATTACAGGGAAACCAGGAAAATATGTAACCATTAATGGAAAATCTTGTGTTAACATGGCTACATTAAACTTTCTTGGCATGGCAGGGAACCCATCTGCGGAGGTAGAGGCCATCAAAACTCTGAAAAAGTATGGAGTGGGATCATGTGGACCCAGAGGTTTCTATGGCACAATGGACGTCCATTTAGAACTTGAAGACAAAATAGCAAAATTCATGAATTGTGAGGAAGCTATATTATATGCTTTTGGCTTTGCGACCATAGCGAGTGCTATCCCAGCTTACTCGAAACGTGGAGATGTAATATTTGCTGATGAGGGAGTATGCTTTGCTATACAGAAAGGACTCGTTGCCTCAAGAAGCAAAATAAAGTGGTTCAAACACAACGATATGGAGGATCTGGAGCGTCTACTTATTGAACAAGCAAAGGAGGACAAGAAAAACCCTAAGAAAGCCAAAGTGACCAGAAGATTTCTTGTTGTGGAAGGACTCTACATTAACTATGGTGACTTATGTCCACTTCCAAAATTAGTTGAACTCAAGTGGAAGTATAAAGTCCGCCTTTTTCTGGAAGAAAGTTTGTCATTTGGCATTCTTGGTAGCAATGGGAAAGGTGTAACAGAACACTACAATATCTCTCCAGATGATATTGACTTGATTGCGGCCTCATTAGAAAATGCTATTGGATCAACAGGAGGCTTTTGCTGTGGGAAGAAATATATTGTGGACCATCAACGATTGTCAGGACTTGGATATTGCTTCTCAGCATCTTTACCTCCCATGTTAGCAACTGCAGCTATCGAGTCCCTGCGTTTGATTGATGAAAAACCAGGAATGCTTGTTGAATTGCGAGAAAATTGTGAAAAAATTCACAGCAAGCTGAGCGATATAAATGGAACCGTCATTGTAGGGGAACCTATTTCCCCAGTCAAGCACATTAGACTTGCAGAGCCAAGTACTGACAGGGACTTTGATGTGCAGACTCTGCAGAAGATAGCAGATCTCTCGAGAGACAACAAAGTTGCTGTGACGTTGGCTCGCTACTTAGAAGAGGAGGAACATAAACTTCCATTGCCAAGCATCCGGATATCTGTGAACAACCAGCTTTCAGATGAAGAAATTGACACTGTCTTCACTACACTAAGTGAAGCTTTTCAGAAAATCATCACTCATTAATGTGAAGTGCGAACAAATATACTATTGTCAGAAATATTGGGGAACAGTATTTAATTTGAATACTTTC 1471-1491 1483 57033556
1174 Cg_Sptlc1seq_F ATGGCGTCGACGTTCATTCC ETS 2/2/2011 20 55 55.4 C.gigas serine palmitoyltransferase 1 contig GGACGCCATGGCGTCGACGTTCATTCCTCAAACATGGGAAATGTATGATATGTTTCAAGCCCTGTTGCAGGCTCCCTCATATCATCTTTTCTTCGAAGCATTGCTTATCATATGGATTTTTAAGCTGTTGTTTTTCTCTAAAGCCTACGCCCCAGAATCCGTCCTAACAGAAAAGGAAAAGGAGGAGTTGATTGCAGAATGGCAGCCGGAACCTTTAGCTCCCGAAATTCCAGAGGACCACCCTGTTTTAATGGCGATGGAAAATAATATTATTACAGGGAAACCAGGAAAATATGTAACCATTAATGGAAAATCTTGTGTTAACATGGCTACATTAAACTTTCTTGGCATGGCAGGGAACCCATCTGCGGAGGTAGAGGCCATCAAAACTCTGAAAAAGTATGGAGTGGGATCATGTGGACCCAGAGGTTTCTATGGCACAATGGACGTCCATTTAGAACTTGAAGACAAAATAGCAAAATTCATGAATTGTGAGGAAGCTATATTATATGCTTTTGGCTTTGCGACCATAGCGAGTGCTATCCCAGCTTACTCGAAACGTGGAGATGTAATATTTGCTGATGAGGGAGTATGCTTTGCTATACAGAAAGGACTCGTTGCCTCAAGAAGCAAAATAAAGTGGTTCAAACACAACGATATGGAGGATCTGGAGCGTCTACTTATTGAACAAGCAAAGGAGGACAAGAAAAACCCTAAGAAAGCCAAAGTGACCAGAAGATTTCTTGTTGTGGAAGGACTCTACATTAACTATGGTGACTTATGTCCACTTCCAAAATTAGTTGAACTCAAGTGGAAGTATAAAGTCCGCCTTTTTCTGGAAGAAAGTTTGTCATTTGGCATTCTTGGTAGCAATGGGAAAGGTGTAACAGAACACTACAATATCTCTCCAGATGATATTGACTTGATTGCGGCCTCATTAGAAAATGCTATTGGATCAACAGGAGGCTTTTGCTGTGGGAAGAAATATATTGTGGACCATCAACGATTGTCAGGACTTGGATATTGCTTCTCAGCATCTTTACCTCCCATGTTAGCAACTGCAGCTATCGAGTCCCTGCGTTTGATTGATGAAAAACCAGGAATGCTTGTTGAATTGCGAGAAAATTGTGAAAAAATTCACAGCAAGCTGAGCGATATAAATGGAACCGTCATTGTAGGGGAACCTATTTCCCCAGTCAAGCACATTAGACTTGCAGAGCCAAGTACTGACAGGGACTTTGATGTGCAGACTCTGCAGAAGATAGCAGATCTCTCGAGAGACAACAAAGTTGCTGTGACGTTGGCTCGCTACTTAGAAGAGGAGGAACATAAACTTCCATTGCCAAGCATCCGGATATCTGTGAACAACCAGCTTTCAGATGAAGAAATTGACACTGTCTTCACTACACTAAGTGAAGCTTTTCAGAAAATCATCACTCATTAATGTGAAGTGCGAACAAATATACTATTGTCAGAAATATTGGGGAACAGTATTTAATTTGAATACTTTC 8 to 27 1483 57033557
1173 Cg_GAPDH_355_R GCGTCAGCTGAGGGGGCAGA SJW 1/24/2011 C. gigas glyceraldehyde 3-phosphate dehydrogenase (GAPDH) AJ544886 ACGGTTTCGGGCGGATCGGTCGTCTTGTCCTTAGGGCAGCCTTGGACAAAGGAGTTGATGTTGTTGCAGTCAATGATCCTTTCATTGACCTTGACTATATGGTTTACATGTTCAAATATGATTCAACTCACGGAGTTTTCAATGGGGAGATTAAAATTGATGGAGGAAAACTGGTGATCAATGGGAAGGCAATGTCCGTATATTGCGAACGGGATCCAGCCAACATTCCCTGGTCCAAGGATGGTGCTGAATACATTGTCGACTCTACAGGGTGCTTTACTACTCTTGACAAAGCAGGGTCTCATATGAAAGGAGGTGCAAAGAAAGTCATCATCTCTGCCCCCTCAGCTGACGCACCCATGTTTGTTTGTGGTGTCAATGCAGAAAAGTACTCCAAAGACCAGAACATCGTCAGCAACGCATCCTGCACCACAAATTGTCTTGCCCCTCTTGCAAAAGTGATTCATGAGAAATTTGGAATTGTTGAAGGTTTGATGACAACAGTCCATGCGTACACAGCCACCCAGAAGGTTGTGGATGGCCCAAGCAACAAGGATTGGCGTGGTGGTAGAGGTGCAGCCCAAAACATCATCCCCTCCTCAACTGGAGCTGCCAAAGCTGTCGGAAAGGTTATCCCAGATTTGAACGGAAAATTGACCGGAATGGCTTTCCGCGTACCAGTTCCAGATGTTTCCGTTGTTGATTTAACCTGCAGAATCAATAAAGGGGCATCATACAATGATATTAAGGCAGCCATCAAGGCAGCCTCTGAGAATGAATTGAAAGGCATTTTGGGATACACAGAAGATGATGTTGTTTCCCAGGATTTCCGTGGAGACAAGCGAAGCAGCATTTTTGATGCAAAGGCTGGAATTGCCTTGAATGACAATTTTGTGAAGCTTGTGTCTTGGTACGACAATGAATACGG 355-335 1172 151 potential normalizing gene
1172 Cg_GAPDH_205_F GCGAACGGGATCCAGCCAACA SJW 1/24/2011 C. gigas glyceraldehyde 3-phosphate dehydrogenase (GAPDH) AJ544886 ACGGTTTCGGGCGGATCGGTCGTCTTGTCCTTAGGGCAGCCTTGGACAAAGGAGTTGATGTTGTTGCAGTCAATGATCCTTTCATTGACCTTGACTATATGGTTTACATGTTCAAATATGATTCAACTCACGGAGTTTTCAATGGGGAGATTAAAATTGATGGAGGAAAACTGGTGATCAATGGGAAGGCAATGTCCGTATATTGCGAACGGGATCCAGCCAACATTCCCTGGTCCAAGGATGGTGCTGAATACATTGTCGACTCTACAGGGTGCTTTACTACTCTTGACAAAGCAGGGTCTCATATGAAAGGAGGTGCAAAGAAAGTCATCATCTCTGCCCCCTCAGCTGACGCACCCATGTTTGTTTGTGGTGTCAATGCAGAAAAGTACTCCAAAGACCAGAACATCGTCAGCAACGCATCCTGCACCACAAATTGTCTTGCCCCTCTTGCAAAAGTGATTCATGAGAAATTTGGAATTGTTGAAGGTTTGATGACAACAGTCCATGCGTACACAGCCACCCAGAAGGTTGTGGATGGCCCAAGCAACAAGGATTGGCGTGGTGGTAGAGGTGCAGCCCAAAACATCATCCCCTCCTCAACTGGAGCTGCCAAAGCTGTCGGAAAGGTTATCCCAGATTTGAACGGAAAATTGACCGGAATGGCTTTCCGCGTACCAGTTCCAGATGTTTCCGTTGTTGATTTAACCTGCAGAATCAATAAAGGGGCATCATACAATGATATTAAGGCAGCCATCAAGGCAGCCTCTGAGAATGAATTGAAAGGCATTTTGGGATACACAGAAGATGATGTTGTTTCCCAGGATTTCCGTGGAGACAAGCGAAGCAGCATTTTTGATGCAAAGGCTGGAATTGCCTTGAATGACAATTTTGTGAAGCTTGTGTCTTGGTACGACAATGAATACGG 205-225 1173 151 potential normalizing gene
1171 Cg_Actin_408_R GGCGACGTACATGGCGGGAG SJW 4/1/2014 C. gigas actin FJ669291 ATGGGAGATGAAGATATTGCAGCTTTAGTCGTAGACAATGGATCCGGAATGTGCAAGGCCGGATTTGCCGGAGACGATGCTCCCAGAGCTGTGTTTCCCCCCATTGTCGGACGCCCCAGACATCAGGGTGTGATGGTTGGTATGGGACAGAAGGACAGCTATGTAGGAGACGAGGCCCAGAGCAAGAGAGGTATCCTCACCCTCAAGTACCCCATTGAACACGGCATCGTCACCAACTGGGATGACATGGAGAAAATCTGGCATCATACCTTCCACAATGAACTCCGTGTGGCCCCAGAGGAACACCCCGTCCTCCTGACCGAGGCCCCACTCAACCCCAAGGCCAACAGAGAAAAGATGACACAGATCATGTTCGAGACCTTCAACTCTCCCGCCATGTACGTCGCCATCCAGGCCGTACTGTCCCTGTACGCTTCCGGTCGTACAACCGGTATCGTACTCGACTCCGGAGATGGTGTGTCTCACACAGTCCCCATCTACGAGGGTTACGCCCTTCCCCACGCCATCATGAGATTGGATCTCGCTGGACGTGATCTGACCGATTACCTCATGAAAATCCTCACAGAGCGTGGATACTCTTTCACCACCACAGCCGAGAGAGAAATCGTCAGAGACATCAAGGAGAAACTGTGCTACGTTGCCCTGGACTTCGAACAAGAGATGACTACTGCTGCTTCATCCTCATCTCTAGAGAAGAGCTATGAACTTCCCGACGGTCAGGTCATCACCATTGGCAACGAGCGATTCAGGTGCCCAGAGGCCATGTTCCAGCCATCCTTCCTTGGAATGGAATCTTCCGGAATCCATGAAACATCATACAACAGTATCATGAAATGTGATGTCGATATCCGTAAAGACTTGTACGCTAATATTGTCCTGTCTGGAGGTACCACCATGTTCCCCGGCATTGCTGACCGTATGCAAAAGGAGGTCACCGCCCTCGCTCCCCCAACAATGAAGATTAAGGTCATTGCTCCACCTGAGAGGAAATACTCCGTCTGGATCGGTGGTTCCATCCTTGCTTCTCTCTCCACCTTCCAACAGATGTGGATCAGCAAACAGGAGTACGACGAATCTGGACCATCCATTGTCCACAGGAAATGCTTCTAA 408-388 1170 103 potential normalizing gene
1170 Cg_Actin_306_F CCCCGTCCTCCTGACCGAGG SJW 4/1/2014 C. gigas actin FJ669291 ATGGGAGATGAAGATATTGCAGCTTTAGTCGTAGACAATGGATCCGGAATGTGCAAGGCCGGATTTGCCGGAGACGATGCTCCCAGAGCTGTGTTTCCCCCCATTGTCGGACGCCCCAGACATCAGGGTGTGATGGTTGGTATGGGACAGAAGGACAGCTATGTAGGAGACGAGGCCCAGAGCAAGAGAGGTATCCTCACCCTCAAGTACCCCATTGAACACGGCATCGTCACCAACTGGGATGACATGGAGAAAATCTGGCATCATACCTTCCACAATGAACTCCGTGTGGCCCCAGAGGAACACCCCGTCCTCCTGACCGAGGCCCCACTCAACCCCAAGGCCAACAGAGAAAAGATGACACAGATCATGTTCGAGACCTTCAACTCTCCCGCCATGTACGTCGCCATCCAGGCCGTACTGTCCCTGTACGCTTCCGGTCGTACAACCGGTATCGTACTCGACTCCGGAGATGGTGTGTCTCACACAGTCCCCATCTACGAGGGTTACGCCCTTCCCCACGCCATCATGAGATTGGATCTCGCTGGACGTGATCTGACCGATTACCTCATGAAAATCCTCACAGAGCGTGGATACTCTTTCACCACCACAGCCGAGAGAGAAATCGTCAGAGACATCAAGGAGAAACTGTGCTACGTTGCCCTGGACTTCGAACAAGAGATGACTACTGCTGCTTCATCCTCATCTCTAGAGAAGAGCTATGAACTTCCCGACGGTCAGGTCATCACCATTGGCAACGAGCGATTCAGGTGCCCAGAGGCCATGTTCCAGCCATCCTTCCTTGGAATGGAATCTTCCGGAATCCATGAAACATCATACAACAGTATCATGAAATGTGATGTCGATATCCGTAAAGACTTGTACGCTAATATTGTCCTGTCTGGAGGTACCACCATGTTCCCCGGCATTGCTGACCGTATGCAAAAGGAGGTCACCGCCCTCGCTCCCCCAACAATGAAGATTAAGGTCATTGCTCCACCTGAGAGGAAATACTCCGTCTGGATCGGTGGTTCCATCCTTGCTTCTCTCTCCACCTTCCAACAGATGTGGATCAGCAAACAGGAGTACGACGAATCTGGACCATCCATTGTCCACAGGAAATGCTTCTAA 306-326 1171 103 potential normalizing gene
1169 Cg_18s_1750_R CCTTCTTCCCGGCACCAGCG SJW 1/24/2011 C. gigas 18s AB064942 TAACCTGGTTGATCCTGCCAGTAGTCATATGCTTGTCTCAAAGATTAAGCCATGCATGTCTAAGTACATACTCTTGCACAGTGAAACCGCGAATGGCTCATTAAATCAGTTATGGTTCATTAGATGGTACAATCCTACTTGGATAACTGTGGTAATTCTAGAGCTAATACATGCAACGAAGCTCCGACCTCACGGGAAGAGCGCTTTTATTAGATCAAAACCGATCGGTCGCAAGGCCGTCCTTTTTGGTGACTCTGGATAACTTTGAGCAGATCGCACGGGCTTGTCCCGGCGACGTGTCTTTCAAATGTCTGCCCTATCAACTGTCGGATGGTACGTGCTATGCCTACCATGGTTGTAACGGGTAACGGGGAATCAGGGTTCGATTCCGGAGAGGGAGCATGAGAAACGGCTACCACATCCAAGGAAGGCAGCAGGCGCGCAAATTACCCACTCCTGGCACGGGGAGGTAGTGACGAAAAATAACAATACGGGACTCCTTCGAGGCCCCGTAATTGGAATGAGTACACTTTAAATCCTTTAACGAGGATCCATTGGAGGGCAAGTCTGGTGCCAGCAGCCGCGGTAATTCCAGCTCCAATAGCGTATATTAAAGTTGCTGCAGTTAAAAAGCTCGTAGCTGGATCTCGGGTCCAGGCTGGCGGTCCGCCTCGTTGCGGTCACTGCCTGTCCTGACCCAACCTCTCGGTTGTAAACCCTTGGTGCTCTTGACTGAGTTGCTTCGGGTGGCCGAAACTTTTACTTTGAAAAAATTAGAGTGTTCAAAGCAGGCGCTTCGCCTGTACAATGGTGCATGGAATAATGGAATAGGACCTCGGTTCTATTTTGTTGGTTTTCGGAACACGAGGTAATGATTAAGAGGGACTGACGGGGGCATTCGTATGGCGGGGTTAGAGGTGAAATTCTTGGATCCTCGCCAGACGGCCTACAGCGAAAGCATTTGCCAAGCATGTTTTCATTAGTCAAGAACGAAAGTCAGAGGTTCGAAGACGATCAGATACCGTCGTAGTTCTGACCATAAACGATGCCAACTAGCAATCCGCCGGAGTTGCTTCAATGACTCGGCGAGCAGCCCCCCGGGAAACCAAAGTCTTTGGGTTCCGGGGGGAGTATGGTTGCAAAGCTGAAACTTAAAGGAATTGACGGAAGGGCACCACCAGGAGTGGAGCCTGCGGCTTAATTTGACTCAACACGGGAAAACTCACCCGGCCCGAACACTGTAAGGATTGACAGATTGAGAGCTCTTTCTTGATTCGGTGGGTGGTGGTGCATGGCCGTTCTTAGTTGGTGGAGCGATTTGTCTGGTTAATTCCGATAACGAACGAGACTCTAACCTACTAAATAGTTCACCGATCTATTGCTGTCGGTGTAACTTCTTAGAGGGACAAGTGGCGTTTAGCCACACGAGATTGAGCAATAACAGGTCTGTGATGCCCTTAGATGTTCGGGGCCGCACGCGCGCTACACTGAAGGAATCAACAGGTCTCTGTCCTGGCCCGAAAGGGTCGGGTAACCCGTTGAACCTCCTTCGTGCTAGGGATTGGGGTGTGTAATTCTCCCCATGAACGAGGAATTCCCAGTAAGCGCGAGTCATCAGCTCGCGTTGATTACGTCCCTGCCCTTTGTACACACCGCCCGTCGCTACTACCGATTGGATGGTTTAGTGAGCCCCTTGGACTGGTCCCGACGGCGCGGCAACGCGTTTTCGTCGCTGGTGCCGGGAAGAAGGGCAAACTGTACTTTCTAGAGGTCGTAAAAGTCGTAACAAGGTTTCCGTAGGTGAACCTGCAGAAGGATCA 1750-1730 1168 107 potential normalizing gene
1168 Cg_18s_1644_F TTGTACACACCGCCCGTCGC SJW 1/24/2011 C. gigas 18s AB064942 TAACCTGGTTGATCCTGCCAGTAGTCATATGCTTGTCTCAAAGATTAAGCCATGCATGTCTAAGTACATACTCTTGCACAGTGAAACCGCGAATGGCTCATTAAATCAGTTATGGTTCATTAGATGGTACAATCCTACTTGGATAACTGTGGTAATTCTAGAGCTAATACATGCAACGAAGCTCCGACCTCACGGGAAGAGCGCTTTTATTAGATCAAAACCGATCGGTCGCAAGGCCGTCCTTTTTGGTGACTCTGGATAACTTTGAGCAGATCGCACGGGCTTGTCCCGGCGACGTGTCTTTCAAATGTCTGCCCTATCAACTGTCGGATGGTACGTGCTATGCCTACCATGGTTGTAACGGGTAACGGGGAATCAGGGTTCGATTCCGGAGAGGGAGCATGAGAAACGGCTACCACATCCAAGGAAGGCAGCAGGCGCGCAAATTACCCACTCCTGGCACGGGGAGGTAGTGACGAAAAATAACAATACGGGACTCCTTCGAGGCCCCGTAATTGGAATGAGTACACTTTAAATCCTTTAACGAGGATCCATTGGAGGGCAAGTCTGGTGCCAGCAGCCGCGGTAATTCCAGCTCCAATAGCGTATATTAAAGTTGCTGCAGTTAAAAAGCTCGTAGCTGGATCTCGGGTCCAGGCTGGCGGTCCGCCTCGTTGCGGTCACTGCCTGTCCTGACCCAACCTCTCGGTTGTAAACCCTTGGTGCTCTTGACTGAGTTGCTTCGGGTGGCCGAAACTTTTACTTTGAAAAAATTAGAGTGTTCAAAGCAGGCGCTTCGCCTGTACAATGGTGCATGGAATAATGGAATAGGACCTCGGTTCTATTTTGTTGGTTTTCGGAACACGAGGTAATGATTAAGAGGGACTGACGGGGGCATTCGTATGGCGGGGTTAGAGGTGAAATTCTTGGATCCTCGCCAGACGGCCTACAGCGAAAGCATTTGCCAAGCATGTTTTCATTAGTCAAGAACGAAAGTCAGAGGTTCGAAGACGATCAGATACCGTCGTAGTTCTGACCATAAACGATGCCAACTAGCAATCCGCCGGAGTTGCTTCAATGACTCGGCGAGCAGCCCCCCGGGAAACCAAAGTCTTTGGGTTCCGGGGGGAGTATGGTTGCAAAGCTGAAACTTAAAGGAATTGACGGAAGGGCACCACCAGGAGTGGAGCCTGCGGCTTAATTTGACTCAACACGGGAAAACTCACCCGGCCCGAACACTGTAAGGATTGACAGATTGAGAGCTCTTTCTTGATTCGGTGGGTGGTGGTGCATGGCCGTTCTTAGTTGGTGGAGCGATTTGTCTGGTTAATTCCGATAACGAACGAGACTCTAACCTACTAAATAGTTCACCGATCTATTGCTGTCGGTGTAACTTCTTAGAGGGACAAGTGGCGTTTAGCCACACGAGATTGAGCAATAACAGGTCTGTGATGCCCTTAGATGTTCGGGGCCGCACGCGCGCTACACTGAAGGAATCAACAGGTCTCTGTCCTGGCCCGAAAGGGTCGGGTAACCCGTTGAACCTCCTTCGTGCTAGGGATTGGGGTGTGTAATTCTCCCCATGAACGAGGAATTCCCAGTAAGCGCGAGTCATCAGCTCGCGTTGATTACGTCCCTGCCCTTTGTACACACCGCCCGTCGCTACTACCGATTGGATGGTTTAGTGAGCCCCTTGGACTGGTCCCGACGGCGCGGCAACGCGTTTTCGTCGCTGGTGCCGGGAAGAAGGGCAAACTGTACTTTCTAGAGGTCGTAAAAGTCGTAACAAGGTTTCCGTAGGTGAACCTGCAGAAGGATCA 1644-1664 1169 107 potential normalizing gene
1167 Cgigas_28s_R TTTCCCTCTAAGTGGTTTCAC DM 1/24/2011 PubMed ID: 15033537; potential normalizing gene
1166 Cgigas_28s_F AAGGGCAGGAAAAGAAACTAAC DM 1/24/2011 PubMed ID: 15033537; potential normalizing gene
1165 Cgigas_ARP_R AGGCGATCTGGTAGAGACCAGGGA DM 1/24/2011 24 58.33 59.99 C. gigas Acidic ribosomal phosphoprotein P0 CB617565.1 302-279 121 potential normalizing gene
1164 Cgigas_ARP_F TGGACCCAAAGTGGTGGCCTGA DM 1/24/2011 22 59.09 59.98 C. gigas Acidic ribosomal phosphoprotein P0 CB617565.1 182-203 121 potential normalizing gene
1163 MM_BigDef1_F GGCCGTAGGCCGCAACAAGT LM 1/21/2011 20 65 59.97 M. Mercenaria Big Defensin GO915266 TCGTGGCTGAAACAGAATGGTCTGCACCACCCTCTATTGTTTGCGCAATTATGGCTGTCGGAATCCGTTCTTCTGACTCCATACCGGATGACCATTGAAAGGCCGTAGGCCGCAACAAGTGCAACCCAGACCCAAGGTGAGACGGCAACTCCAGCATACAACGCAAGTGGGCCAACGGCAACTGAACGTCGTTCTCGAACTTGTGAGTCATGGTTAGGTTCCTGCTGGGCAAGTAGCTTCTCTTCGACTTGCTGCTGCACGCACAATGCCGGGGTTGTCATTGTTAGCAGGAGAATGTAAAGCACACAGTAGACTTTCTTAGTGTCCATTATGCGTGTCTGTAGCTAATTCAGTTACAGTCCCAAGCAGTATTTAAACCTAGATGCAGTTTCGTATTCTCTGCAACAATAG 101-120 1162 178 Intended to replace SR ID 966/965. See Lexie's Notebook 1/11/2011 - 1/20/2011. 56642106
1162 MM_BigDef1_R ACAACCCCGGCATTGTGCGT LM 1/21/2011 20 60 59.83 M. Mercenaria Big Defensin GO915266 TCGTGGCTGAAACAGAATGGTCTGCACCACCCTCTATTGTTTGCGCAATTATGGCTGTCGGAATCCGTTCTTCTGACTCCATACCGGATGACCATTGAAAGGCCGTAGGCCGCAACAAGTGCAACCCAGACCCAAGGTGAGACGGCAACTCCAGCATACAACGCAAGTGGGCCAACGGCAACTGAACGTCGTTCTCGAACTTGTGAGTCATGGTTAGGTTCCTGCTGGGCAAGTAGCTTCTCTTCGACTTGCTGCTGCACGCACAATGCCGGGGTTGTCATTGTTAGCAGGAGAATGTAAAGCACACAGTAGACTTTCTTAGTGTCCATTATGCGTGTCTGTAGCTAATTCAGTTACAGTCCCAAGCAGTATTTAAACCTAGATGCAGTTTCGTATTCTCTGCAACAATAG 278-259 1163 178 Intended to replace SR ID 966/965. See Lexie's Notebook 1/11/2011 - 1/20/2011. 56642107
1161 Cg_Def_R ACTGGTCACGCGGACACCCA HC 1/14/2011 65 97 C. gigas Defensin FJ669344 1160 70 56494531
1160 Cg_Def_F ACACTGGTCGTTCTCCTGATGGT HC 1/14/2011 52 C. gigas Defensin FJ669344 1161 70 56494532
1159 CU995168_SMase_F TGGAGCATCGCTTACACAGC ETS 1/13/2011 20 55 55 C. gigas Sphingomyelinase CU995168 GACGTCTGACAAAGTGACCACACACATGGACGACCCCGCCGATCAGTTCGTGTGGATGGAAGGAATTCTGATGCAGGCCAGAAGGGACCACGAAAAGGTGTTGGTTACCGGACATGTTCCCCCGGGTATTGCTGCAGAGGGAGGAAGACCCTGGTTCTACCAACATTTCAATACTCGTATGGTGCACATATTACAACAATACAGTGACGTCATCATCGGGCTTCACTTTGGTCATGAGCATGCTGACACGTTTAGAATATTCTATGATCATTCTGGACGACCGGAAATGACGCTGTACGTAGCCCCTTCTGTAACTCCTTGGAGATACAAAATTCCCTCGGCAACCGGTCCAAAACACAATCCGTCGTTCCGCCTCATCGAGTATGACAGGACAACAGGGCGCCATTTAGACTTGGTTCAATACTACATGGACCTTCCCGAAAGTAACAAACAGGGCAGACCAATATGGAGCATCGCTTACACAGCCACCAAAGACATGGGCATCCCTGACATTTCTCCAGCATCCATGGATGGTTTCGCAACTCGAACCAAAAATCCAAACGGTCCAGAGTTCCAAAATCACCTGAGGTGGCGAAATGCCAATGCCGAAGTGATGCCGTGTGATGCACTATGCCATTCGCTGATTTTCTGTAACTTCTTTAAGGTTCACGATCACGATTACAAAACGTGTTTACGTGACACGCAGCATTATACAGCATCCATATTTGGGAAAAGAAAATAGTTTATTTTGTTTGTATCATTAAATTTTTAACAAAATCC
1158 CU995168_SMase_R ATCACACGGCATCACTTCGG ETS 1/13/2011 20 55 55 C. gigas Sphingomyelinase CU995168 GACGTCTGACAAAGTGACCACACACATGGACGACCCCGCCGATCAGTTCGTGTGGATGGAAGGAATTCTGATGCAGGCCAGAAGGGACCACGAAAAGGTGTTGGTTACCGGACATGTTCCCCCGGGTATTGCTGCAGAGGGAGGAAGACCCTGGTTCTACCAACATTTCAATACTCGTATGGTGCACATATTACAACAATACAGTGACGTCATCATCGGGCTTCACTTTGGTCATGAGCATGCTGACACGTTTAGAATATTCTATGATCATTCTGGACGACCGGAAATGACGCTGTACGTAGCCCCTTCTGTAACTCCTTGGAGATACAAAATTCCCTCGGCAACCGGTCCAAAACACAATCCGTCGTTCCGCCTCATCGAGTATGACAGGACAACAGGGCGCCATTTAGACTTGGTTCAATACTACATGGACCTTCCCGAAAGTAACAAACAGGGCAGACCAATATGGAGCATCGCTTACACAGCCACCAAAGACATGGGCATCCCTGACATTTCTCCAGCATCCATGGATGGTTTCGCAACTCGAACCAAAAATCCAAACGGTCCAGAGTTCCAAAATCACCTGAGGTGGCGAAATGCCAATGCCGAAGTGATGCCGTGTGATGCACTATGCCATTCGCTGATTTTCTGTAACTTCTTTAAGGTTCACGATCACGATTACAAAACGTGTTTACGTGACACGCAGCATTATACAGCATCCATATTTGGGAAAAGAAAATAGTTTATTTTGTTTGTATCATTAAATTTTTAACAAAATCC
1157 DNMT3_qPCR_228F TACCCACGCTTTGCAGCCCC SA 1/13/2011 20 D. rerio DNMT3 NM_131386.1 228 56465247
1156 DNMT3_qPCR_228R TCAGCAGCCTGTTCGCCGAC SA 1/13/2011 20 D. rerio DNMT3 NM_131386.1 228 56465248
1155 DNMT3_qPCR_222F CCCACGCTTTGCAGCCCCTT SA 1/13/2011 20 D.rerio DNMT3 NM_131386.1 222 56465249
1154 DNMT3_qPCR_222R CAGCCTGTTCGCCGACTGCA SA 1/13/2011 20 D. rerio DNMT3 NM_131386.1 222 56465250
1153 DNMT3_qPCR_585F GAAGTAGCGGGCGCGGTGAG SA 1/13/2011 20 D. rerio DNMT3 NM_131386.1 585 56465251
1152 DNMT3_qPCR_585R GAAGTAGCGGGCGCGGTGAG SA 1/13/2011 20 D. rerio DNMT3 NM_131386.1 585 56465252
1151 Cg_COX_982_F tgctcagcacttcactcacatgttcttc SJW 1/7/2011 C.gigas cyclooxygenase FJ375303 GAGTTCTTCACAGGTTGTATTTCACGTGGGTGTTTCTGTTTTAGATCTTAGGAACGTGGTTAAAAAGTGTGCAATCGGACGGACTGATATATCTATTTGAAGGTGTTTCTCGATCACTGTACCTTTCATCGGCACATTTAGTAGGTGTGAGGACTCACGTTTTTGAGGATTGTGTCCCCCACTAGGCACCCAAAGAAATCCGTGAAGCTGACCGGCTGTCCCTGGCGCCTCTTCTGGACAATTCTGGAGACATAAGTGTACAGACTCTGTGGTTTCAGCAGCCAAAAAGGACTGTGTTCTATATTTCTACCTAGCTCCTCTCGGAGTTCCCCTGGTGTTTTCTGTGGCCAGTCTGGGTGAGAGTAAAGCTGAGACAAATACCTGCCAAATAAAAGTACCGATACAGTACATTAAAATGTGGTGGAGGGCAGTTTTACTGGTCAGTTTCATAGCTCCTGCACTAGTTTCAGGTGGCCATAACCCTTGTTGTTCATACCCTTGTGAAAACAATGGAGTATGCATGACCCAAGGAGGAAATTATTACTGCGACTGTGCAAATCTGGACTTCTATGGCAAACACTGTGAAATTCCTACCTTTATGAAGAAGATCAAGCTGTTTTTAAAACCAAGTCAAAGCACTCTTCATAACCTGCTGACATCCAAAAAATGGCTGTGGAATATCGTCAACAGCGTTCCATTTCTGGCCAATGCAGTGATGAAAAAAGTTTATACCATGAGGTCAGATATGATAGACAGTCCACCAACCTATACCTCTGAGCACGAATACATCACAGTGGATGCTAATTTCAACTATAGTGTCTACACACGTACCTTGCCTCCAGTACCAAAGGAATGCCCGACACCTATGGGAGTATGGGGAAAGAAGGTGCTACCTCCTGCTGAAGACATTGTGAAGGCTTTCTTCATCAGAAAGGAATTCATTCCCGAGCCGTTAGGGACGAGTGCCTTATTTCCTTACTTTGCTCAGCACTTCACTCACATGTTCTTCAAGACTGACCTAAAGAAAGGGCCGCAGTTTCAGTGGGGAGGACATGGGGTAGACGTTTCTCATGTATATGGAAAGGACAGAGATTCTGAGAATAACCTAAGATCTTTCAAAGATGGGAAACTCAAATTCCAGATCATAGATGGAGAAGAGTGGCCCCCCTTGACTTCTGAAGCAGATGTTCCAATGGGATATCCAAAGGGAATGGAAAAGACCAAGCAATTTGCTCTGGGACACTCCTTCTTTGGTCTACTACCAGGATTGTTTATGTATGGCACAATCTGGTTACGAGAACATAACAGAGTGTGTGACATCTTGAAAAAGGAGCATCCAGAATGGAATGATGAGAGATTATTTCAAACTGCCAAGCTGGTGATTCTAGGAGAGACCATTAAAATTGTTATAGAGGACTATGTAAAACATCTCAGCAACTATAATTATGATTTGATCTTTAATCCTGAATTGCTGTTTGGCGAGCCATTCCAGTATCAGAACAGGATTGCTTTAGAATTCAACCATCTTTATCACTGGCATCCCCTGATGCCAGATGAGATTAACATCAGTGGAACTATGTACAATCTAAAAGAGTTCATGTTTCATCCAGAGCTTGTTGTAAAACATGGAATGAGGAACTTTGTGGATTCTCTGTCCAAACAGAGAGCTGGATTATTTGGACCCCGAAATCATGGCCCTGTGACAATTCCTGTGGTGACAGAATTGATCAAACATGGCCGCACCTTAAGGCTGCAGTCATTCAACCAGTATAGAAAGAGATTTGACATGGAGCCTATCAAGTCTTTTGAAGAACTGACAGGAGAGAAGAAAATGGCCAAGCAACTTGAGGATTTCTATGGTGATGTTAATGCTGTGGAGTTTTATGTAGGATTGATAATGGAGAAAAGAAGACACAATTCTATGTTTGGTGACTCTTTGGTACAAATTGGTGCCCCGTATTCTGTGAAGGGTCTGATGGCAAATCCTATTTGTAGTCCCAAGTACTGGAAACCTTCTACGTTTGGTGGAGAGGTTGGGTTCAACATAGTAAAAACTTCTTCACTTAAAAAGCTGTTTTGTGAAAATATCAAAGGAGAATGTCCATTAGTATCATTTAGAGTCCCAGACTATGTTGAGGGAGATGTTACAGAATTCATCAACCAAAAACTAGAATTATAA 982 1149, 1148 Unknown For gDNA intron determination 56359217
1150 Cg_COX_5'UTR_3_F gttcttcacaggttgtatttcacgtgggt SJW 1/7/2011 C.gigas cyclooxygenase FJ375303 GAGTTCTTCACAGGTTGTATTTCACGTGGGTGTTTCTGTTTTAGATCTTAGGAACGTGGTTAAAAAGTGTGCAATCGGACGGACTGATATATCTATTTGAAGGTGTTTCTCGATCACTGTACCTTTCATCGGCACATTTAGTAGGTGTGAGGACTCACGTTTTTGAGGATTGTGTCCCCCACTAGGCACCCAAAGAAATCCGTGAAGCTGACCGGCTGTCCCTGGCGCCTCTTCTGGACAATTCTGGAGACATAAGTGTACAGACTCTGTGGTTTCAGCAGCCAAAAAGGACTGTGTTCTATATTTCTACCTAGCTCCTCTCGGAGTTCCCCTGGTGTTTTCTGTGGCCAGTCTGGGTGAGAGTAAAGCTGAGACAAATACCTGCCAAATAAAAGTACCGATACAGTACATTAAAATGTGGTGGAGGGCAGTTTTACTGGTCAGTTTCATAGCTCCTGCACTAGTTTCAGGTGGCCATAACCCTTGTTGTTCATACCCTTGTGAAAACAATGGAGTATGCATGACCCAAGGAGGAAATTATTACTGCGACTGTGCAAATCTGGACTTCTATGGCAAACACTGTGAAATTCCTACCTTTATGAAGAAGATCAAGCTGTTTTTAAAACCAAGTCAAAGCACTCTTCATAACCTGCTGACATCCAAAAAATGGCTGTGGAATATCGTCAACAGCGTTCCATTTCTGGCCAATGCAGTGATGAAAAAAGTTTATACCATGAGGTCAGATATGATAGACAGTCCACCAACCTATACCTCTGAGCACGAATACATCACAGTGGATGCTAATTTCAACTATAGTGTCTACACACGTACCTTGCCTCCAGTACCAAAGGAATGCCCGACACCTATGGGAGTATGGGGAAAGAAGGTGCTACCTCCTGCTGAAGACATTGTGAAGGCTTTCTTCATCAGAAAGGAATTCATTCCCGAGCCGTTAGGGACGAGTGCCTTATTTCCTTACTTTGCTCAGCACTTCACTCACATGTTCTTCAAGACTGACCTAAAGAAAGGGCCGCAGTTTCAGTGGGGAGGACATGGGGTAGACGTTTCTCATGTATATGGAAAGGACAGAGATTCTGAGAATAACCTAAGATCTTTCAAAGATGGGAAACTCAAATTCCAGATCATAGATGGAGAAGAGTGGCCCCCCTTGACTTCTGAAGCAGATGTTCCAATGGGATATCCAAAGGGAATGGAAAAGACCAAGCAATTTGCTCTGGGACACTCCTTCTTTGGTCTACTACCAGGATTGTTTATGTATGGCACAATCTGGTTACGAGAACATAACAGAGTGTGTGACATCTTGAAAAAGGAGCATCCAGAATGGAATGATGAGAGATTATTTCAAACTGCCAAGCTGGTGATTCTAGGAGAGACCATTAAAATTGTTATAGAGGACTATGTAAAACATCTCAGCAACTATAATTATGATTTGATCTTTAATCCTGAATTGCTGTTTGGCGAGCCATTCCAGTATCAGAACAGGATTGCTTTAGAATTCAACCATCTTTATCACTGGCATCCCCTGATGCCAGATGAGATTAACATCAGTGGAACTATGTACAATCTAAAAGAGTTCATGTTTCATCCAGAGCTTGTTGTAAAACATGGAATGAGGAACTTTGTGGATTCTCTGTCCAAACAGAGAGCTGGATTATTTGGACCCCGAAATCATGGCCCTGTGACAATTCCTGTGGTGACAGAATTGATCAAACATGGCCGCACCTTAAGGCTGCAGTCATTCAACCAGTATAGAAAGAGATTTGACATGGAGCCTATCAAGTCTTTTGAAGAACTGACAGGAGAGAAGAAAATGGCCAAGCAACTTGAGGATTTCTATGGTGATGTTAATGCTGTGGAGTTTTATGTAGGATTGATAATGGAGAAAAGAAGACACAATTCTATGTTTGGTGACTCTTTGGTACAAATTGGTGCCCCGTATTCTGTGAAGGGTCTGATGGCAAATCCTATTTGTAGTCCCAAGTACTGGAAACCTTCTACGTTTGGTGGAGAGGTTGGGTTCAACATAGTAAAAACTTCTTCACTTAAAAAGCTGTTTTGTGAAAATATCAAAGGAGAATGTCCATTAGTATCATTTAGAGTCCCAGACTATGTTGAGGGAGATGTTACAGAATTCATCAACCAAAAACTAGAATTATAA 3 1147, 1148, 2138 Unknown For gDNA intron determination 56359218
1149 Cg_COX_2138_R cctcaacatagtctgggactctaaatgatac SJW 1/7/2011 C.gigas cyclooxygenase FJ375303 GAGTTCTTCACAGGTTGTATTTCACGTGGGTGTTTCTGTTTTAGATCTTAGGAACGTGGTTAAAAAGTGTGCAATCGGACGGACTGATATATCTATTTGAAGGTGTTTCTCGATCACTGTACCTTTCATCGGCACATTTAGTAGGTGTGAGGACTCACGTTTTTGAGGATTGTGTCCCCCACTAGGCACCCAAAGAAATCCGTGAAGCTGACCGGCTGTCCCTGGCGCCTCTTCTGGACAATTCTGGAGACATAAGTGTACAGACTCTGTGGTTTCAGCAGCCAAAAAGGACTGTGTTCTATATTTCTACCTAGCTCCTCTCGGAGTTCCCCTGGTGTTTTCTGTGGCCAGTCTGGGTGAGAGTAAAGCTGAGACAAATACCTGCCAAATAAAAGTACCGATACAGTACATTAAAATGTGGTGGAGGGCAGTTTTACTGGTCAGTTTCATAGCTCCTGCACTAGTTTCAGGTGGCCATAACCCTTGTTGTTCATACCCTTGTGAAAACAATGGAGTATGCATGACCCAAGGAGGAAATTATTACTGCGACTGTGCAAATCTGGACTTCTATGGCAAACACTGTGAAATTCCTACCTTTATGAAGAAGATCAAGCTGTTTTTAAAACCAAGTCAAAGCACTCTTCATAACCTGCTGACATCCAAAAAATGGCTGTGGAATATCGTCAACAGCGTTCCATTTCTGGCCAATGCAGTGATGAAAAAAGTTTATACCATGAGGTCAGATATGATAGACAGTCCACCAACCTATACCTCTGAGCACGAATACATCACAGTGGATGCTAATTTCAACTATAGTGTCTACACACGTACCTTGCCTCCAGTACCAAAGGAATGCCCGACACCTATGGGAGTATGGGGAAAGAAGGTGCTACCTCCTGCTGAAGACATTGTGAAGGCTTTCTTCATCAGAAAGGAATTCATTCCCGAGCCGTTAGGGACGAGTGCCTTATTTCCTTACTTTGCTCAGCACTTCACTCACATGTTCTTCAAGACTGACCTAAAGAAAGGGCCGCAGTTTCAGTGGGGAGGACATGGGGTAGACGTTTCTCATGTATATGGAAAGGACAGAGATTCTGAGAATAACCTAAGATCTTTCAAAGATGGGAAACTCAAATTCCAGATCATAGATGGAGAAGAGTGGCCCCCCTTGACTTCTGAAGCAGATGTTCCAATGGGATATCCAAAGGGAATGGAAAAGACCAAGCAATTTGCTCTGGGACACTCCTTCTTTGGTCTACTACCAGGATTGTTTATGTATGGCACAATCTGGTTACGAGAACATAACAGAGTGTGTGACATCTTGAAAAAGGAGCATCCAGAATGGAATGATGAGAGATTATTTCAAACTGCCAAGCTGGTGATTCTAGGAGAGACCATTAAAATTGTTATAGAGGACTATGTAAAACATCTCAGCAACTATAATTATGATTTGATCTTTAATCCTGAATTGCTGTTTGGCGAGCCATTCCAGTATCAGAACAGGATTGCTTTAGAATTCAACCATCTTTATCACTGGCATCCCCTGATGCCAGATGAGATTAACATCAGTGGAACTATGTACAATCTAAAAGAGTTCATGTTTCATCCAGAGCTTGTTGTAAAACATGGAATGAGGAACTTTGTGGATTCTCTGTCCAAACAGAGAGCTGGATTATTTGGACCCCGAAATCATGGCCCTGTGACAATTCCTGTGGTGACAGAATTGATCAAACATGGCCGCACCTTAAGGCTGCAGTCATTCAACCAGTATAGAAAGAGATTTGACATGGAGCCTATCAAGTCTTTTGAAGAACTGACAGGAGAGAAGAAAATGGCCAAGCAACTTGAGGATTTCTATGGTGATGTTAATGCTGTGGAGTTTTATGTAGGATTGATAATGGAGAAAAGAAGACACAATTCTATGTTTGGTGACTCTTTGGTACAAATTGGTGCCCCGTATTCTGTGAAGGGTCTGATGGCAAATCCTATTTGTAGTCCCAAGTACTGGAAACCTTCTACGTTTGGTGGAGAGGTTGGGTTCAACATAGTAAAAACTTCTTCACTTAAAAAGCTGTTTTGTGAAAATATCAAAGGAGAATGTCCATTAGTATCATTTAGAGTCCCAGACTATGTTGAGGGAGATGTTACAGAATTCATCAACCAAAAACTAGAATTATAA 2138 1151, 1150, 1146 Unknown For gDNA intron determination 56359219
1149 Mm_SPI_allign_R TGACTGCAAGACAAG LM 11/17/2010 15 M. mercenaria SPI N/A GTCTACCAGGCATTCGCTTCATGGGGGCAAGCCCACGCTGGTGAATGCAGACCTCTGTGCGCATGTCCACGCATCTACAAGCCCGTTTGTGGACAGGATGGAAAAACTTATCCAAACCAGTGCGAACTAAACTGCGCTGGTGTAGCACTGTTTGAGGAGGGACCATGCATTGCAACTTCCCCTCAGTTCGATTTTGCACCTGAAGCTCCATGTATTTGCACATTTATCTATCTACCGGTGTGCGGTGACGGCGGTGTGACGTATGGTAATGACTGTACCAGGAAATGCGCCGGCGCTGGCCTGTTGCACGACGGTGCACGTGATGGAACAGAAACAATAGCACTTACCAAACCCCCAGCGAAATAGGAATTGTTGGTGCAATGGATTCAACGAAATAGTGAAAACTATTAATATTTGGAATTCTATATTTTATTACAATCATAAAACAAAATGACTTAGTTAACTATCCAGAACTTGATGCGTATTACGTTCCGTTGACTGTCTGAACATTTTAAAGAATCAAATACAAATGAAATAAAGGAGGAATTACAAAAAAAAAAAAAAAACCCCCATCGTAGTCACAGCATTCACAG 52-39 1033 48 55480069
1148 Cg_COX_1545_R aggggatgccagtgataaagatggttg SJW 1/7/2011 C.gigas cyclooxygenase FJ375303 GAGTTCTTCACAGGTTGTATTTCACGTGGGTGTTTCTGTTTTAGATCTTAGGAACGTGGTTAAAAAGTGTGCAATCGGACGGACTGATATATCTATTTGAAGGTGTTTCTCGATCACTGTACCTTTCATCGGCACATTTAGTAGGTGTGAGGACTCACGTTTTTGAGGATTGTGTCCCCCACTAGGCACCCAAAGAAATCCGTGAAGCTGACCGGCTGTCCCTGGCGCCTCTTCTGGACAATTCTGGAGACATAAGTGTACAGACTCTGTGGTTTCAGCAGCCAAAAAGGACTGTGTTCTATATTTCTACCTAGCTCCTCTCGGAGTTCCCCTGGTGTTTTCTGTGGCCAGTCTGGGTGAGAGTAAAGCTGAGACAAATACCTGCCAAATAAAAGTACCGATACAGTACATTAAAATGTGGTGGAGGGCAGTTTTACTGGTCAGTTTCATAGCTCCTGCACTAGTTTCAGGTGGCCATAACCCTTGTTGTTCATACCCTTGTGAAAACAATGGAGTATGCATGACCCAAGGAGGAAATTATTACTGCGACTGTGCAAATCTGGACTTCTATGGCAAACACTGTGAAATTCCTACCTTTATGAAGAAGATCAAGCTGTTTTTAAAACCAAGTCAAAGCACTCTTCATAACCTGCTGACATCCAAAAAATGGCTGTGGAATATCGTCAACAGCGTTCCATTTCTGGCCAATGCAGTGATGAAAAAAGTTTATACCATGAGGTCAGATATGATAGACAGTCCACCAACCTATACCTCTGAGCACGAATACATCACAGTGGATGCTAATTTCAACTATAGTGTCTACACACGTACCTTGCCTCCAGTACCAAAGGAATGCCCGACACCTATGGGAGTATGGGGAAAGAAGGTGCTACCTCCTGCTGAAGACATTGTGAAGGCTTTCTTCATCAGAAAGGAATTCATTCCCGAGCCGTTAGGGACGAGTGCCTTATTTCCTTACTTTGCTCAGCACTTCACTCACATGTTCTTCAAGACTGACCTAAAGAAAGGGCCGCAGTTTCAGTGGGGAGGACATGGGGTAGACGTTTCTCATGTATATGGAAAGGACAGAGATTCTGAGAATAACCTAAGATCTTTCAAAGATGGGAAACTCAAATTCCAGATCATAGATGGAGAAGAGTGGCCCCCCTTGACTTCTGAAGCAGATGTTCCAATGGGATATCCAAAGGGAATGGAAAAGACCAAGCAATTTGCTCTGGGACACTCCTTCTTTGGTCTACTACCAGGATTGTTTATGTATGGCACAATCTGGTTACGAGAACATAACAGAGTGTGTGACATCTTGAAAAAGGAGCATCCAGAATGGAATGATGAGAGATTATTTCAAACTGCCAAGCTGGTGATTCTAGGAGAGACCATTAAAATTGTTATAGAGGACTATGTAAAACATCTCAGCAACTATAATTATGATTTGATCTTTAATCCTGAATTGCTGTTTGGCGAGCCATTCCAGTATCAGAACAGGATTGCTTTAGAATTCAACCATCTTTATCACTGGCATCCCCTGATGCCAGATGAGATTAACATCAGTGGAACTATGTACAATCTAAAAGAGTTCATGTTTCATCCAGAGCTTGTTGTAAAACATGGAATGAGGAACTTTGTGGATTCTCTGTCCAAACAGAGAGCTGGATTATTTGGACCCCGAAATCATGGCCCTGTGACAATTCCTGTGGTGACAGAATTGATCAAACATGGCCGCACCTTAAGGCTGCAGTCATTCAACCAGTATAGAAAGAGATTTGACATGGAGCCTATCAAGTCTTTTGAAGAACTGACAGGAGAGAAGAAAATGGCCAAGCAACTTGAGGATTTCTATGGTGATGTTAATGCTGTGGAGTTTTATGTAGGATTGATAATGGAGAAAAGAAGACACAATTCTATGTTTGGTGACTCTTTGGTACAAATTGGTGCCCCGTATTCTGTGAAGGGTCTGATGGCAAATCCTATTTGTAGTCCCAAGTACTGGAAACCTTCTACGTTTGGTGGAGAGGTTGGGTTCAACATAGTAAAAACTTCTTCACTTAAAAAGCTGTTTTGTGAAAATATCAAAGGAGAATGTCCATTAGTATCATTTAGAGTCCCAGACTATGTTGAGGGAGATGTTACAGAATTCATCAACCAAAAACTAGAATTATAA 1545 1151, 1150 Unknown For gDNA intron determination 56359220
1147 Cg_COX_1009_R gaagaacatgtgagtgaagtgctgagca SJW 1/7/2011 C.gigas cyclooxygenase FJ375303 GAGTTCTTCACAGGTTGTATTTCACGTGGGTGTTTCTGTTTTAGATCTTAGGAACGTGGTTAAAAAGTGTGCAATCGGACGGACTGATATATCTATTTGAAGGTGTTTCTCGATCACTGTACCTTTCATCGGCACATTTAGTAGGTGTGAGGACTCACGTTTTTGAGGATTGTGTCCCCCACTAGGCACCCAAAGAAATCCGTGAAGCTGACCGGCTGTCCCTGGCGCCTCTTCTGGACAATTCTGGAGACATAAGTGTACAGACTCTGTGGTTTCAGCAGCCAAAAAGGACTGTGTTCTATATTTCTACCTAGCTCCTCTCGGAGTTCCCCTGGTGTTTTCTGTGGCCAGTCTGGGTGAGAGTAAAGCTGAGACAAATACCTGCCAAATAAAAGTACCGATACAGTACATTAAAATGTGGTGGAGGGCAGTTTTACTGGTCAGTTTCATAGCTCCTGCACTAGTTTCAGGTGGCCATAACCCTTGTTGTTCATACCCTTGTGAAAACAATGGAGTATGCATGACCCAAGGAGGAAATTATTACTGCGACTGTGCAAATCTGGACTTCTATGGCAAACACTGTGAAATTCCTACCTTTATGAAGAAGATCAAGCTGTTTTTAAAACCAAGTCAAAGCACTCTTCATAACCTGCTGACATCCAAAAAATGGCTGTGGAATATCGTCAACAGCGTTCCATTTCTGGCCAATGCAGTGATGAAAAAAGTTTATACCATGAGGTCAGATATGATAGACAGTCCACCAACCTATACCTCTGAGCACGAATACATCACAGTGGATGCTAATTTCAACTATAGTGTCTACACACGTACCTTGCCTCCAGTACCAAAGGAATGCCCGACACCTATGGGAGTATGGGGAAAGAAGGTGCTACCTCCTGCTGAAGACATTGTGAAGGCTTTCTTCATCAGAAAGGAATTCATTCCCGAGCCGTTAGGGACGAGTGCCTTATTTCCTTACTTTGCTCAGCACTTCACTCACATGTTCTTCAAGACTGACCTAAAGAAAGGGCCGCAGTTTCAGTGGGGAGGACATGGGGTAGACGTTTCTCATGTATATGGAAAGGACAGAGATTCTGAGAATAACCTAAGATCTTTCAAAGATGGGAAACTCAAATTCCAGATCATAGATGGAGAAGAGTGGCCCCCCTTGACTTCTGAAGCAGATGTTCCAATGGGATATCCAAAGGGAATGGAAAAGACCAAGCAATTTGCTCTGGGACACTCCTTCTTTGGTCTACTACCAGGATTGTTTATGTATGGCACAATCTGGTTACGAGAACATAACAGAGTGTGTGACATCTTGAAAAAGGAGCATCCAGAATGGAATGATGAGAGATTATTTCAAACTGCCAAGCTGGTGATTCTAGGAGAGACCATTAAAATTGTTATAGAGGACTATGTAAAACATCTCAGCAACTATAATTATGATTTGATCTTTAATCCTGAATTGCTGTTTGGCGAGCCATTCCAGTATCAGAACAGGATTGCTTTAGAATTCAACCATCTTTATCACTGGCATCCCCTGATGCCAGATGAGATTAACATCAGTGGAACTATGTACAATCTAAAAGAGTTCATGTTTCATCCAGAGCTTGTTGTAAAACATGGAATGAGGAACTTTGTGGATTCTCTGTCCAAACAGAGAGCTGGATTATTTGGACCCCGAAATCATGGCCCTGTGACAATTCCTGTGGTGACAGAATTGATCAAACATGGCCGCACCTTAAGGCTGCAGTCATTCAACCAGTATAGAAAGAGATTTGACATGGAGCCTATCAAGTCTTTTGAAGAACTGACAGGAGAGAAGAAAATGGCCAAGCAACTTGAGGATTTCTATGGTGATGTTAATGCTGTGGAGTTTTATGTAGGATTGATAATGGAGAAAAGAAGACACAATTCTATGTTTGGTGACTCTTTGGTACAAATTGGTGCCCCGTATTCTGTGAAGGGTCTGATGGCAAATCCTATTTGTAGTCCCAAGTACTGGAAACCTTCTACGTTTGGTGGAGAGGTTGGGTTCAACATAGTAAAAACTTCTTCACTTAAAAAGCTGTTTTGTGAAAATATCAAAGGAGAATGTCCATTAGTATCATTTAGAGTCCCAGACTATGTTGAGGGAGATGTTACAGAATTCATCAACCAAAAACTAGAATTATAA 1009 1151, 1150 Unknown For gDNA intron determination 56359221
1146 Cg_COX_1519_F caaccatctttatcactggcatcccct SJW 1/7/2011 C.gigas cyclooxygenase FJ375303 GAGTTCTTCACAGGTTGTATTTCACGTGGGTGTTTCTGTTTTAGATCTTAGGAACGTGGTTAAAAAGTGTGCAATCGGACGGACTGATATATCTATTTGAAGGTGTTTCTCGATCACTGTACCTTTCATCGGCACATTTAGTAGGTGTGAGGACTCACGTTTTTGAGGATTGTGTCCCCCACTAGGCACCCAAAGAAATCCGTGAAGCTGACCGGCTGTCCCTGGCGCCTCTTCTGGACAATTCTGGAGACATAAGTGTACAGACTCTGTGGTTTCAGCAGCCAAAAAGGACTGTGTTCTATATTTCTACCTAGCTCCTCTCGGAGTTCCCCTGGTGTTTTCTGTGGCCAGTCTGGGTGAGAGTAAAGCTGAGACAAATACCTGCCAAATAAAAGTACCGATACAGTACATTAAAATGTGGTGGAGGGCAGTTTTACTGGTCAGTTTCATAGCTCCTGCACTAGTTTCAGGTGGCCATAACCCTTGTTGTTCATACCCTTGTGAAAACAATGGAGTATGCATGACCCAAGGAGGAAATTATTACTGCGACTGTGCAAATCTGGACTTCTATGGCAAACACTGTGAAATTCCTACCTTTATGAAGAAGATCAAGCTGTTTTTAAAACCAAGTCAAAGCACTCTTCATAACCTGCTGACATCCAAAAAATGGCTGTGGAATATCGTCAACAGCGTTCCATTTCTGGCCAATGCAGTGATGAAAAAAGTTTATACCATGAGGTCAGATATGATAGACAGTCCACCAACCTATACCTCTGAGCACGAATACATCACAGTGGATGCTAATTTCAACTATAGTGTCTACACACGTACCTTGCCTCCAGTACCAAAGGAATGCCCGACACCTATGGGAGTATGGGGAAAGAAGGTGCTACCTCCTGCTGAAGACATTGTGAAGGCTTTCTTCATCAGAAAGGAATTCATTCCCGAGCCGTTAGGGACGAGTGCCTTATTTCCTTACTTTGCTCAGCACTTCACTCACATGTTCTTCAAGACTGACCTAAAGAAAGGGCCGCAGTTTCAGTGGGGAGGACATGGGGTAGACGTTTCTCATGTATATGGAAAGGACAGAGATTCTGAGAATAACCTAAGATCTTTCAAAGATGGGAAACTCAAATTCCAGATCATAGATGGAGAAGAGTGGCCCCCCTTGACTTCTGAAGCAGATGTTCCAATGGGATATCCAAAGGGAATGGAAAAGACCAAGCAATTTGCTCTGGGACACTCCTTCTTTGGTCTACTACCAGGATTGTTTATGTATGGCACAATCTGGTTACGAGAACATAACAGAGTGTGTGACATCTTGAAAAAGGAGCATCCAGAATGGAATGATGAGAGATTATTTCAAACTGCCAAGCTGGTGATTCTAGGAGAGACCATTAAAATTGTTATAGAGGACTATGTAAAACATCTCAGCAACTATAATTATGATTTGATCTTTAATCCTGAATTGCTGTTTGGCGAGCCATTCCAGTATCAGAACAGGATTGCTTTAGAATTCAACCATCTTTATCACTGGCATCCCCTGATGCCAGATGAGATTAACATCAGTGGAACTATGTACAATCTAAAAGAGTTCATGTTTCATCCAGAGCTTGTTGTAAAACATGGAATGAGGAACTTTGTGGATTCTCTGTCCAAACAGAGAGCTGGATTATTTGGACCCCGAAATCATGGCCCTGTGACAATTCCTGTGGTGACAGAATTGATCAAACATGGCCGCACCTTAAGGCTGCAGTCATTCAACCAGTATAGAAAGAGATTTGACATGGAGCCTATCAAGTCTTTTGAAGAACTGACAGGAGAGAAGAAAATGGCCAAGCAACTTGAGGATTTCTATGGTGATGTTAATGCTGTGGAGTTTTATGTAGGATTGATAATGGAGAAAAGAAGACACAATTCTATGTTTGGTGACTCTTTGGTACAAATTGGTGCCCCGTATTCTGTGAAGGGTCTGATGGCAAATCCTATTTGTAGTCCCAAGTACTGGAAACCTTCTACGTTTGGTGGAGAGGTTGGGTTCAACATAGTAAAAACTTCTTCACTTAAAAAGCTGTTTTGTGAAAATATCAAAGGAGAATGTCCATTAGTATCATTTAGAGTCCCAGACTATGTTGAGGGAGATGTTACAGAATTCATCAACCAAAAACTAGAATTATAA 1519 1149 Unknown For gDNA intron determination 56359222
1145 Mercenaria_HIS3_Fwd aaccgtcgcccttcgtgaaatc C.Romano 10/2/2006 M.mercenaria 1144 25939981
1144 Mercenaria_HIS3_Rev cgcacaagttggtgtcctcaaac C.Romano 10/2/2006 M.mercenaria 1145 25939982
1011 Mm_gst_Pi-1_F GATTTGCTGGACGACCTTGT 3/25/2010 20 M.mercenaria gst-Pi-1 EU024655 463-482 937 160
1010 Cghsp70BSP_B_F GGATAGTTTGTGAAAGGGTAAAAGAG MG 11/29/2010 26 C.gigas hsp70 AJ305315
1009 Mm_EFb_F CCT TGG GAT GAT GAA ACA GAT ATG GC Primer sequences from Perrigault et. al. 2009 4/30/2010 26 46.15 57.73 M.mercenaria Elongation factor 1 beta GO915246 Primer sequences from Perrigault et. al. 2009 939
1008 Cghsp70BSP_A_F AGTAAGTTATTGGAATAGATTTTGGAA MG 11/29/2010 27 C.gigas hsp70 AJ305315
1007 Cghsp70BSP_B_R AAATTAAACATTCCTCCAAACATACC MG 11/29/2010 26 C.gigas hsp70 AJ305315
1006 Mm_gst_Pi-1_R ACTGTTTTCCGTTTCCGTTG 3/25/2010 20 M.mercenaria gst-Pi-1 EU024655 622-603 938 160
1005 Mm_TfAP-1_R TGT GAC ATC ATT ATC TGG CAC CCA CT Primer sequences from Perrigault et. al. 2009 4/30/2010 26 46.15 60.00 M.mercenaria Transcription Factor AP-1 GO915178 Primer sequences from Perrigault et. al. 2009 942
1004 Cghsp70BSP_A_R ACCTACCTACTCCATAAACAACAACC MG 11/29/2010 26 C.gigas hsp70 AJ305315
1003 Cghsp70BSP_nest A_R TATACCAAAAATAAAAATACACCCTTT MG 11/29/2010 27 C.gigas hsp70 AJ305315
1002 Mm_EFb_R CTA ATC TTG GCA TCT TCT ATA ACA GC Primer sequences from Perrigault et. al. 2009 4/30/2010 26 38.46 53.59 M.mercenaria Elongation factor 1 beta GO915246 Primer sequences from Perrigault et. al. 2009 940
1008 Mm_TfAP-1_F AGA AAA CTT GAA AGA ATT GCG CGA CT Primer sequences from Perrigault et. al. 2009 4/30/2010 26 38.46 57.80 M.mercenaria Transcription Factor AP-1 GO915178 Primer sequences from Perrigault et. al. 2009 941
1007 Cghsp70BSP_nestA_F TGATAAGAAAGTTGGTAATTAATTGGT MG 11/29/2010 27 C.gigas hsp70 AJ305315
1006 Mm_Actin_R TCT CTA ACA ATT TCT CTC TCA GCC GTT GT Primer sequences from Perrigault et. al. 2009 4/30/2010 29 41.38 59.27 M.mercenaria Actin GO915239 Primer sequences from Perrigault et. al. 2009 944
1005 Cghsp70BSP_nestAint_F TGGGGAAGTTTTATTTATGGTTTTTA MG 11/29/2010 26 C.gigas hsp70 AJ305315
1004 Mm_Actin_F ATT GTG ATG GAC TCT GGT GAT GGT GT Primer sequences from Perrigault et. al. 2009 4/30/2010 26 46.15 59.97 M.mercenaria Actin GO915239 Primer sequences from Perrigault et. al. 2009 943
1003 Cghsp70BSP_nestAint_R CCTCAAACATCAAACAACTCACTTAT MG 11/29/2010 26 C.gigas hsp70 AJ305315
1002 Mm_Metallothionein_R TTA CAC GAA CAG CCA CTA TCA CAC TG Primer sequences from Perrigault et. al. 2009 4/30/2010 26 46.15 58.64 M.mercenaria metallothionein GO915213 Primer sequences from Perrigault et. al. 2009 946
1001 Cghsp70BSP_nestB_F TAATTAGTTGGGTGTGTTGATTTAGG MG 11/29/2010 26 C.gigas hsp70 AJ305315
1000 Mm_Metallothionein_F ACC AGT GAT GGT GGC TGC AGG TGT GG Primer sequences from Perrigault et. al. 2009 4/30/2010 26 61.54 66.71 M.mercenaria metallothionein GO915213 Primer sequences from Perrigault et. al. 2009 945
999 Cghsp70BSP_nestB_R ACTCACTCTCCCTCATACACCTAAAT MG 11/29/2010 26 C.gigas hsp70 AJ305315
998 Mm_Ferrtin_R AGT TTC TCG GCA TGC TCA CGT TCC TC Primer sequences from Perrigault et. al. 2009 4/30/2010 26 53.85 62.68 M.mercenaria ferritin subunit GO915233 Primer sequences from Perrigault et. al. 2009 948
997 Cg_COX_1047-1028_R CCCCACTGAAACTGCGGCCC SJW 11/30/2010 20 70 60 C.gigas cyclooxygenase FJ375303 GAGTTCTTCACAGGTTGTATTTCACGTGGGTGTTTCTGTTTTAGATCTTAGGAACGTGGTTAAAAAGTGTGCAATCGGACGGACTGATATATCTATTTGAAGGTGTTTCTCGATCACTGTACCTTTCATCGGCACATTTAGTAGGTGTGAGGACTCACGTTTTTGAGGATTGTGTCCCCCACTAGGCACCCAAAGAAATCCGTGAAGCTGACCGGCTGTCCCTGGCGCCTCTTCTGGACAATTCTGGAGACATAAGTGTACAGACTCTGTGGTTTCAGCAGCCAAAAAGGACTGTGTTCTATATTTCTACCTAGCTCCTCTCGGAGTTCCCCTGGTGTTTTCTGTGGCCAGTCTGGGTGAGAGTAAAGCTGAGACAAATACCTGCCAAATAAAAGTACCGATACAGTACATTAAAATGTGGTGGAGGGCAGTTTTACTGGTCAGTTTCATAGCTCCTGCACTAGTTTCAGGTGGCCATAACCCTTGTTGTTCATACCCTTGTGAAAACAATGGAGTATGCATGACCCAAGGAGGAAATTATTACTGCGACTGTGCAAATCTGGACTTCTATGGCAAACACTGTGAAATTCCTACCTTTATGAAGAAGATCAAGCTGTTTTTAAAACCAAGTCAAAGCACTCTTCATAACCTGCTGACATCCAAAAAATGGCTGTGGAATATCGTCAACAGCGTTCCATTTCTGGCCAATGCAGTGATGAAAAAAGTTTATACCATGAGGTCAGATATGATAGACAGTCCACCAACCTATACCTCTGAGCACGAATACATCACAGTGGATGCTAATTTCAACTATAGTGTCTACACACGTACCTTGCCTCCAGTACCAAAGGAATGCCCGACACCTATGGGAGTATGGGGAAAGAAGGTGCTACCTCCTGCTGAAGACATTGTGAAGGCTTTCTTCATCAGAAAGGAATTCATTCCCGAGCCGTTAGGGACGAGTGCCTTATTTCCTTACTTTGCTCAGCACTTCACTCACATGTTCTTCAAGACTGACCTAAAGAAAGGGCCGCAGTTTCAGTGGGGAGGACATGGGGTAGACGTTTCTCATGTATATGGAAAGGACAGAGATTCTGAGAATAACCTAAGATCTTTCAAAGATGGGAAACTCAAATTCCAGATCATAGATGGAGAAGAGTGGCCCCCCTTGACTTCTGAAGCAGATGTTCCAATGGGATATCCAAAGGGAATGGAAAAGACCAAGCAATTTGCTCTGGGACACTCCTTCTTTGGTCTACTACCAGGATTGTTTATGTATGGCACAATCTGGTTACGAGAACATAACAGAGTGTGTGACATCTTGAAAAAGGAGCATCCAGAATGGAATGATGAGAGATTATTTCAAACTGCCAAGCTGGTGATTCTAGGAGAGACCATTAAAATTGTTATAGAGGACTATGTAAAACATCTCAGCAACTATAATTATGATTTGATCTTTAATCCTGAATTGCTGTTTGGCGAGCCATTCCAGTATCAGAACAGGATTGCTTTAGAATTCAACCATCTTTATCACTGGCATCCCCTGATGCCAGATGAGATTAACATCAGTGGAACTATGTACAATCTAAAAGAGTTCATGTTTCATCCAGAGCTTGTTGTAAAACATGGAATGAGGAACTTTGTGGATTCTCTGTCCAAACAGAGAGCTGGATTATTTGGACCCCGAAATCATGGCCCTGTGACAATTCCTGTGGTGACAGAATTGATCAAACATGGCCGCACCTTAAGGCTGCAGTCATTCAACCAGTATAGAAAGAGATTTGACATGGAGCCTATCAAGTCTTTTGAAGAACTGACAGGAGAGAAGAAAATGGCCAAGCAACTTGAGGATTTCTATGGTGATGTTAATGCTGTGGAGTTTTATGTAGGATTGATAATGGAGAAAAGAAGACACAATTCTATGTTTGGTGACTCTTTGGTACAAATTGGTGCCCCGTATTCTGTGAAGGGTCTGATGGCAAATCCTATTTGTAGTCCCAAGTACTGGAAACCTTCTACGTTTGGTGGAGAGGTTGGGTTCAACATAGTAAAAACTTCTTCACTTAAAAAGCTGTTTTGTGAAAATATCAAAGGAGAATGTCCATTAGTATCATTTAGAGTCCCAGACTATGTTGAGGGAGATGTTACAGAATTCATCAACCAAAAACTAGAATTATAA 1047-1028 1061 105 55698935
996 Mm_Ferritin_F ATG TCT GTT TCA CGA CCT CGA CAG AA Primer sequences from Perrigault et. al. 2009 4/30/2010 26 46.15 59.76 M.mercenaria ferritin subunit GO915233 Primer sequences from Perrigault et. al. 2009 947
995 Cg_COX_943-962_F TCCCGAGCCGTTAGGGACGA SJW 11/30/2010 20 65 59 C.gigas cyclooxygenase FJ375303 GAGTTCTTCACAGGTTGTATTTCACGTGGGTGTTTCTGTTTTAGATCTTAGGAACGTGGTTAAAAAGTGTGCAATCGGACGGACTGATATATCTATTTGAAGGTGTTTCTCGATCACTGTACCTTTCATCGGCACATTTAGTAGGTGTGAGGACTCACGTTTTTGAGGATTGTGTCCCCCACTAGGCACCCAAAGAAATCCGTGAAGCTGACCGGCTGTCCCTGGCGCCTCTTCTGGACAATTCTGGAGACATAAGTGTACAGACTCTGTGGTTTCAGCAGCCAAAAAGGACTGTGTTCTATATTTCTACCTAGCTCCTCTCGGAGTTCCCCTGGTGTTTTCTGTGGCCAGTCTGGGTGAGAGTAAAGCTGAGACAAATACCTGCCAAATAAAAGTACCGATACAGTACATTAAAATGTGGTGGAGGGCAGTTTTACTGGTCAGTTTCATAGCTCCTGCACTAGTTTCAGGTGGCCATAACCCTTGTTGTTCATACCCTTGTGAAAACAATGGAGTATGCATGACCCAAGGAGGAAATTATTACTGCGACTGTGCAAATCTGGACTTCTATGGCAAACACTGTGAAATTCCTACCTTTATGAAGAAGATCAAGCTGTTTTTAAAACCAAGTCAAAGCACTCTTCATAACCTGCTGACATCCAAAAAATGGCTGTGGAATATCGTCAACAGCGTTCCATTTCTGGCCAATGCAGTGATGAAAAAAGTTTATACCATGAGGTCAGATATGATAGACAGTCCACCAACCTATACCTCTGAGCACGAATACATCACAGTGGATGCTAATTTCAACTATAGTGTCTACACACGTACCTTGCCTCCAGTACCAAAGGAATGCCCGACACCTATGGGAGTATGGGGAAAGAAGGTGCTACCTCCTGCTGAAGACATTGTGAAGGCTTTCTTCATCAGAAAGGAATTCATTCCCGAGCCGTTAGGGACGAGTGCCTTATTTCCTTACTTTGCTCAGCACTTCACTCACATGTTCTTCAAGACTGACCTAAAGAAAGGGCCGCAGTTTCAGTGGGGAGGACATGGGGTAGACGTTTCTCATGTATATGGAAAGGACAGAGATTCTGAGAATAACCTAAGATCTTTCAAAGATGGGAAACTCAAATTCCAGATCATAGATGGAGAAGAGTGGCCCCCCTTGACTTCTGAAGCAGATGTTCCAATGGGATATCCAAAGGGAATGGAAAAGACCAAGCAATTTGCTCTGGGACACTCCTTCTTTGGTCTACTACCAGGATTGTTTATGTATGGCACAATCTGGTTACGAGAACATAACAGAGTGTGTGACATCTTGAAAAAGGAGCATCCAGAATGGAATGATGAGAGATTATTTCAAACTGCCAAGCTGGTGATTCTAGGAGAGACCATTAAAATTGTTATAGAGGACTATGTAAAACATCTCAGCAACTATAATTATGATTTGATCTTTAATCCTGAATTGCTGTTTGGCGAGCCATTCCAGTATCAGAACAGGATTGCTTTAGAATTCAACCATCTTTATCACTGGCATCCCCTGATGCCAGATGAGATTAACATCAGTGGAACTATGTACAATCTAAAAGAGTTCATGTTTCATCCAGAGCTTGTTGTAAAACATGGAATGAGGAACTTTGTGGATTCTCTGTCCAAACAGAGAGCTGGATTATTTGGACCCCGAAATCATGGCCCTGTGACAATTCCTGTGGTGACAGAATTGATCAAACATGGCCGCACCTTAAGGCTGCAGTCATTCAACCAGTATAGAAAGAGATTTGACATGGAGCCTATCAAGTCTTTTGAAGAACTGACAGGAGAGAAGAAAATGGCCAAGCAACTTGAGGATTTCTATGGTGATGTTAATGCTGTGGAGTTTTATGTAGGATTGATAATGGAGAAAAGAAGACACAATTCTATGTTTGGTGACTCTTTGGTACAAATTGGTGCCCCGTATTCTGTGAAGGGTCTGATGGCAAATCCTATTTGTAGTCCCAAGTACTGGAAACCTTCTACGTTTGGTGGAGAGGTTGGGTTCAACATAGTAAAAACTTCTTCACTTAAAAAGCTGTTTTGTGAAAATATCAAAGGAGAATGTCCATTAGTATCATTTAGAGTCCCAGACTATGTTGAGGGAGATGTTACAGAATTCATCAACCAAAAACTAGAATTATAA 943-962 1060 105 55698934
994 Mm_STI_R GTC TCT TGA ATT CGG GGA TCT TGA GCT GC Primer sequences from Perrigault et. al. 2009 4/30/2010 29 51.72 62.30 M.mercenaria Stress Induced Protein GR209325 Primer sequences from Perrigault et. al. 2009 950
993 Mm_STI_F GAA GCT GTT GAA CAA GCC AAG AGT GGA GC Primer sequences from Perrigault et. al. 2009 4/30/2010 29 51.72 63.04 M.mercenaria Stress Induced Protein GR209325 Primer sequences from Perrigault et. al. 2009 949
992 Mm_HSP70_R TCT AAC CAA CTG ATG ACC TCG CTA CA Primer sequences from Perrigault et. al. 2009 4/30/2010 26 46.15 59.14 M.mercenaria Heat Shock Protein 70 GO915169 Primer sequences from Perrigault et. al. 2009 952
991 Mm_HSP70_F AAT GAC AAA GGC CGT CTC AGC AAG GA Primer sequences from Perrigault et. al. 2009 4/30/2010 26 50.00 62.38 M.mercenaria Heat Shock Protein 70 GO915169 Primer sequences from Perrigault et. al. 2009 951
990 Mm_PeroxProlifRec_R AGT TGG CAT CGC CAC TGT CGC TGC TC Primer sequences from Perrigault et. al. 2009 4/30/2010 26 61.54 66.86 M.mercenaria peroxisome proliferator-activated receptor GO915177 Primer sequences from Perrigault et. al. 2009 954
989 Mm_PeroxProlifRec_F CAT AGC CAA TTC CAT ACC CCT GGC CA Primer sequences from Perrigault et. al. 2009 4/30/2010 26 53.85 62.59 M.mercenaria peroxisome proliferator-activated receptor GO915177 Primer sequences from Perrigault et. al. 2009 953
988 Mm_RACK-1_R GTC TGT CCA TCT GCG GAC CAT GCA AG Primer sequences from Perrigault et. al. 2009 4/30/2010 26 57.69 63.35 M.mercenaria Receptor of Activated Kinase C1 GO915258 Primer sequences from Perrigault et. al. 2009 956
987 Mm_RACK-1_F CCT AAC AGA TAC TGG CTG TGT GCT GC Primer sequences from Perrigault et. al. 2009 4/30/2010 26 53.85 61.25 M.mercenaria Receptor of Activated Kinase C1 GO915258 Primer sequences from Perrigault et. al. 2009 955
986 Mm_TLR_R TAG CTG AAA TCC AAC GAC TGC ACC CGT AA Primer sequences from Perrigault et. al. 2009 4/30/2010 29 48.28 62.99 M.mercenaria Toll-Like Receptor GR209327 Primer sequences from Perrigault et. al. 2009 958
985 Mm_TLR_F GTA ACA AAT TTC ACT CTG GCC GCT GAC GC Primer sequences from Perrigault et. al. 2009 4/30/2010 29 51.72 63.24 M.mercenaria Toll-Like Receptor GR209327 Primer sequences from Perrigault et. al. 2009 957
984 Mm_TRAF-6_R GTC AAG TGA TGG CTC ATC TTG GAT GCT GC Primer sequences from Perrigault et. al. 2009 4/30/2010 29 51.72 62.87 M.mercenaria Tumor Necrosis Factor Receptor-Associated Factor GR209326 Primer sequences from Perrigault et. al. 2009 960
983 Mm_TRAF-6_F GAA CTA GCA AAC AGG AAT TGG GAG GCG CT Primer sequences from Perrigault et. al. 2009 4/30/2010 29 51.72 63.97 M.mercenaria Tumor Necrosis Factor Receptor-Associated Factor GR209326 Primer sequences from Perrigault et. al. 2009 959
982 Mm_C1q-TNF_R AAT AAA GCG CCA CTG AAA GTT GTT CCA TG Primer sequences from Perrigault et. al. 2009 4/30/2010 29 41.38 59.88 M.mercenaria TNF related protein GR209324 Primer sequences from Perrigault et. al. 2009 962
981 Mm_C1q-TNF_F ATG CAA GTC AGT GCC GTG ATA CAC CCA GA Primer sequences from Perrigault et. al. 2009 4/30/2010 29 51.72 64.65 M.mercenaria TNF related protein GR209324 Primer sequences from Perrigault et. al. 2009 961
980 Mm_Lysosyme_R GTT TTG GGT CCT AGA TCT CCC CTG TA Primer sequences from Perrigault et. al. 2009 4/30/2010 26 50.00 59.37 M.mercenaria lysozyme (chain) GO915259 Primer sequences from Perrigault et. al. 2009 964
979 Mm_Lysozyme_F ATA ACG AAA GAC CAA GCT CGT GCT CT Primer sequences from Perrigault et. al. 2009 4/30/2010 26 46.15 60.08 M.mercenaria lysozyme (chain) GO915259 Primer sequences from Perrigault et. al. 2009 963
978 Mm_BigDef_R ACA AGT GCA ACC CAG ACC CAA GGT GA Primer sequences from Perrigault et. al. 2009 4/30/2010 26 53.85 64.22 M.mercenaria big defensin GO915266 Primer sequences from Perrigault et. al. 2009 115-140 966 214 up regulated in paper subtraction library
977 Mm_BigDef_F ATG GAC ACT AGG AAA GTC TAC TGT GTG CT Primer sequences from Perrigault et. al. 2009 4/30/2010 29 44.83 60.54 M.mercenaria big defensin GO915266 Primer sequences from Perrigault et. al. 2009 329-301 965 214 up regulated in paper subtraction library
976 Mm_CytP450-like_R TTA TAC AAG GTA ACC GGC TTG GAC GC Primer sequences from Perrigault et. al. 2009 4/30/2010 26 50.00 60.71 M.mercenaria Cytochrome P450 like TBP GO915227 Primer sequences from Perrigault et. al. 2009
976 Mm_HemoDef_R CAT GTG CAT CTT CGG TAA AAA GTC CA Primer sequences from Perrigault et. al. 2009 4/30/2010 26 42.31 57.68 M.mercenaria hemocyte defensin GO915199 Primer sequences from Perrigault et. al. 2009 968 61 down regulated in paper subtraction library
975 Mm_CytP450-like_F GTC TGG AAA ACG GCC ACA AGG CAC CT Primer sequences from Perrigault et. al. 2009 4/30/2010 26 57.69 65.21 M.mercenaria Cytochrome P450 like TBP GO915227 Primer sequences from Perrigault et. al. 2009
975 Mm_HemoDef_F ACA AAT GTA ACA GGC ATT GTA GGA GCA T Primer sequences from Perrigault et. al. 2009 4/30/2010 28 39.29 58.75 M.mercenaria hemocyte defensin GO915199 Primer sequences from Perrigault et. al. 2009 967 61 down regulated in paper subtraction library
974 Mm_SenesceProt_R TTA CCA CAG GGA TAA CTG GCT TGT GG Primer sequences from Perrigault et. al. 2009 4/30/2010 26 50.00 60.50 M.mercenaria putative senescence-associated protein GO915231 Primer sequences from Perrigault et. al. 2009
974 Mm_18s_R1 TGC TCA ATC TCG TGT GGC TAA ACG CCA CTT G Primer sequences from Perrigault et. al. 2009 4/30/2010 31 51.61 65.06 M.mercenaria Primer sequences from Perrigault et. al. 2009 970
973 Mm_SenesceProt_F AAC CTG TCT CAC GAC GGT CTA AGC CCA GC Primer sequences from Perrigault et. al. 2009 4/30/2010 29 58.62 66.24 M.mercenaria putative senescence-associated protein GO915231 Primer sequences from Perrigault et. al. 2009
973 Mm_18s_F1 CTG GTT AAT TCC GAT AAC GAA CGA GAC TCT A Primer sequences from Perrigault et. al. 2009 4/30/2010 31 41.94 59.00 M.mercenaria Primer sequences from Perrigault et. al. 2009 969
972 Mm_NADH-IV_R ACT CCA GTT AAC AAC ATT GAT CCC CTC AA Primer sequences from Perrigault et. al. 2009 4/30/2010 29 41.38 59.68 M.mercenaria NADH dehydrogenase subunit 4 GO915245 Primer sequences from Perrigault et. al. 2009
971 Mm_NADH-IV_F CCG TGG GAT TTA GGG AGG GAT AAT ATG CT Primer sequences from Perrigault et. al. 2009 4/30/2010 29 48.28 61.06 M.mercenaria NADH dehydrogenase subunit 4 GO915245 Primer sequences from Perrigault et. al. 2009
922 On_rS2_TelomereAssay_R CACATGGCCGTTGTAGTCAC CGS 12/2/2010 O.nerka ribosomal protein S2
921 Cg_Sptlc1-qPCR_F TTCACAGCAAGCTGAGCGAT ETS 10/11/2010 20 50.00 54.53 C.gigas Sptlc1 AM857503 TAGAAAATGCTATTGGATCAACAGGAGGCTTTTGCTGTGGGAAGAAATATATTGTGGACCATCAACGATTGTCAGGACTTGGATATTGCTTCTCAGCATCTTTACCTCCCATGTTAGCAACTGCAGCTATCGAGTCCCTGCGTTTGATTGATGAAAAACCAGGAATGCTTGTTGAATTGCGAGAAAATTGTGAAAAAATTCACAGCAAGCTGAGCGATATAAATGGAACCGTCATTGTAGGGGAACCTATTTCCCCAGTCAAGCACATTAGACTTGCAGAGCCAAGTACTGACAGGGACTTTGATGTGCAGACTCTGCAGAAGATAGCAGATCTCTCGAGAGACAACAAAGTTGCTGTGACGTTGGCTCGCTACTTAGAAGAGGAGGAACATAAACTTCCATTGCCAAGCATCCGGATATCTGTGAACAACCAGCTTTCGGATGAAGAAATTGACACTGTCTTCACTACACTAAGTGAAGCTTTTCAGAAAATCATCACTCATTAATGTGAAGTGCGAACAAATATCTATTGTCAGAAATATTGGGGAACAGTATTTATTTGATACTTTCTTATTGTAAAGGGTAATTGCTACACAAATCATCTTGTCTTAGACTAGGTCTTGTACAAGTATGTATATCTTAGATAATTTTCTGTATAAGGTGTTTGACATTACACATTTTCTTTTTGCCATAAGAACATTTAAAGTAAATGCATGTGTTTAAATTT 199-376 178
920 CgChit-R ACGGTTGGCGGGATATTC ETS 8/3/2010 C.gigas chitinase AJ971238 147
919 CgChit-F AGACGAACTTTTATCAATGCCT ETS 8/3/2010 C.gigas chitinase AJ971238 733 147
918 Mercenaria_18s_F ACA TGC AAC ACA GCT CCG ACC TTA 2/19/2009 24 50.00 60.68 M.mercenaria 18s AF120559 145-168 917 120
919 Cgactin-R GTG ATG ACC TGA CCG TCG GG ETS 8/3/2010 C.gigas actin AF026063
918 On_rS2_TelomereAssay_F CAAGTCCGAGGACAAGGAAT CGS 12/2/2010 O.nerka ribosomal protein S2
917 Mercenaria_18s_R TAG GGC ATA CGA TCG GCA CAA AGT 2/19/2009 24 50.00 60.34 M.mercenaria 18s AF120559 265-242 918 120
917 Cgactin-F GAC GCC CCA GAC ATC AGG GT ETS 8/3/2010 C.gigas actin AF026063 110
916 On_GE619911_tert_R GATCGGTCAGTGTTGTGCTG 2/1/2010 20 55.00 60.32 O.nerka from S.salom telomerase
915 On_GE619911_tert_F ATCTTCCCCTCCCATGTTGT 2/1/2010 20 50.00 60.57 O.nerka from S.salom telomerase
915 Cg_HSP70_cm_R1 TGGGTCCACCACCGCTACCA CM 7/15/2010 20 65.00 59.46 C.gigas Designed for FHL
914 Cg_HSP70_cm_F1 AAGCTGTACCAGGCCAGCGG CM 7/15/2010 20 65.00 59.06 C.gigas
913 On_BX889962_tert_R GGCGGGAGGGGACAGTGGTT 1/28/2010 20 70.00 60.46 O.mykiss telomerase
912 On_BX889962_tert_F GCTGTCGTATCGGACGCGGG 1/28/2010 20 70.00 59.98 O.mykiss telomerase
911 BS_FJ669527_L TTTTGTTTGTATTTTTAATATAATTATGTA 1/5/2010 30 23.33 53.46 C.gigas
910 BS_FJ347754_L GTTTTTGTAGAGGGATGTTATTTAG 1/5/2010 25 52.00 54.85 C.gigas
909 BS_EU342886_L GGGATGGGGATTATAATGAATTAA 1/5/2010 24 50.00 59.24 C.gigas
908 BS_DQ336110_L TTAAAATAAGAATAATATTGGATAAAAA 1/5/2010 28 25.00 53.35 C.gigas
907 BS_DQ336108_L AATTTTTATGGTAAGGATTAGGAGTTTG 1/5/2010 28 53.57 59.59 C.gigas
906 BS_DQ336107_L TGGTTAGGATTAGGAGTTTGTTAGTTT 1/5/2010 27 51.85 59.09 C.gigas
905 BS_DQ336098_L GTTTGTAGTTTTAGGTTTGAAAAA 1/5/2010 24 41.67 54.08 C.gigas
904 BS_AY780357_proHCpG_L TTTAATATGTATTTTGTTTTGTTAGTG 1/5/2010 27 33.33 53.58 C.gigas
903 BS_AY780357_prLCpG_L TTTTTGGTATATTTTAAAATGATTTGGAT 1/5/2010 29 31.03 59.66 C.gigas
902 BS_AY660003_L TGTGATTTTTAATAATAAATTGATAAATAA 1/5/2010 30 26.67 55.02 C.gigas
901 BS_AM905317_L TTTTTGATGAAATTTATTTGTGAAAAT 1/5/2010 27 29.63 58.52 C.gigas
900 BS_AM265551_L TGATATTATTTTTAGTTAAAAGTTTT 1/5/2010 26 30.77 50.22 C.gigas
899 BS_AJ579915_L ATAGTGGGGAGTTATTGTTTTGAAG 1/5/2010 25 60.00 58.96 C.gigas
898 BS_AJ564739_L AGTTTTAGGTGGGTTTTTGTGAAG 1/5/2010 24 62.50 59.85 C.gigas
897 BS_AJ543432_L TTTTTTATTTTATTTATGAAGATTTATT 1/5/2010 28 21.43 52.77 C.gigas
896 BS_AJ512213_L AAAGTGTAAATTTTTTGGTGGTGTTA 1/5/2010 26 42.31 59.27 C.gigas
895 BS_AJ318882_L TTTTGAGAGATGTTAAGTTGGATAAG 1/5/2010 26 53.85 57.35 C.gigas
894 BS_AJ309316_L TTGTTTAGATATGAGGGAATTTTGG 1/5/2010 25 52.00 59.66 C.gigas
893 BS_AJ305315_L TTTGTGAAAGGGTAAAAGAGATTTT 1/5/2010 25 52.00 58.76 C.gigas
892 BS_AJ249659_L GTTTAAAATAATTGAAGTATTAAGAA 1/5/2010 26 30.77 50.44 C.gigas
891 BS_AB185409_L TTTTTTTTAGATTTATTGTTGATGGGT 1/5/2010 27 37.04 59.54 C.gigas
890 non_FJ669527_L GTGTCCTAGAAGCCATCTTTT 1/5/2010 20 42.00 55.00 C.gigas
889 non_FJ347754_L ACTCTGCACCTGTAATCTCTATATC 1/5/2010 25 40.00 55.00 C.gigas
888 non_EU342886_L GTACATGGTATTTGCATCACAC 1/5/2010 22 41.00 55.00 C.gigas
887 non_DQ336110_L GGAACATGACCAGTTATTGTG 1/5/2010 21 42.00 55.00 C.gigas
886 non_DQ336108_L ACGACGCTTTTGTGATTTAC 1/5/2010 20 40.00 55.00 C.gigas
885 non_DQ336107_L ACGACGCTTTTGTGATTTAC 1/5/2010 20 40.00 55.00 C.gigas
884 non_DQ336098_L GTTAGATTTGTCAGGTCAGTATGC 1/5/2010 24 42.00 57.00 C.gigas
883 non_AY780357_pro_L GGACCATGCGATCCTATAACTATT 1/5/2010 24 42.00 60.00 C.gigas
882 non_AY660003_L CGTGACATCTATCTGGTAAGTGTA 1/5/2010 24 42.00 56.00 C.gigas
881 non_AM905317_L TCTACGAGGATGTGTATTCTACAG 1/5/2010 24 42.00 55.00 C.gigas
880 non_AM265551_L CACAAAACGATCTATTGAGAGC 1/5/2010 22 40.00 57.00 C.gigas
879 non_AJ579915_L CTTTTTCTCTGTCTCTATCTGTCTC 1/5/2010 25 40.00 55.00 C.gigas
878 non_AJ564739_L GAGGTCATGTTAACACGTTAGAG 1/5/2010 23 43.00 56.00 C.gigas
877 non_AJ543432_L ATCACTATCACTTCTCGCACTATC 1/5/2010 24 42.00 57.00 C.gigas
876 non_AJ512213_L TCAGTGTTCAGGTAATAGACTCTG 1/5/2010 24 42.00 55.00 C.gigas
875 non_AJ318882_L AGGGTATCGATTTCTACACAAG 1/5/2010 22 41.00 55.00 C.gigas
874 non_AJ309316_L CGCTAGAAGTATCTCCCTTATAGA 1/5/2010 24 42.00 56.00 C.gigas
873 non_AJ305315_L GAAGACTTCGACAATAGAATGG 1/5/2010 22 41.00 56.00 C.gigas
872 non_AJ249659_L TAGAGCATATGCACGTTATTATTG 1/5/2010 24 33.00 56.00 C.gigas
871 non_AB185409_L CTCTGACCCTCTACTATGGTATTT 1/5/2010 24 42.00 55.00 C.gigas
870 BS_FJ669527_R AAATCTTAATCTAAATTTTAACCTTC 1/5/2010 26 50.00 52.74 C.gigas
869 BS_FJ347754_R CAAAAAATCAAAAATATATAAATCATACTT 1/5/2010 30 30.00 55.69 C.gigas
868 BS_EU342886_R ATCTTAACAAAATCCAAACACCC 1/5/2010 23 52.17 58.37 C.gigas
867 BS_DQ336110_R TTAATAACTAAAAACATAAATAACAAAATC 1/5/2010 30 26.67 54.22 C.gigas
866 BS_DQ336108_R AAACAACTTTAAATTAAAAATAAAACAAAT 1/5/2010 30 30.00 56.51 C.gigas
865 BS_DQ336107_R ATAAAACAAATCACTTTCCAAAAATAC 1/5/2010 27 40.74 57.47 C.gigas
864 BS_DQ336098_R TTAAATTTACATTAAAATCAAAAATC 1/5/2010 26 26.92 52.86 C.gigas
863 BS_AY780357_proHCpG_R ACCCTCCTACTCAAAAATTCC 1/5/2010 21 61.90 56.34 C.gigas
862 BS_AY780357_prLCpG_R TTCTTTATTTTATAAACAAACTTCAAACTA 1/5/2010 30 30.00 56.33 C.gigas
861 BS_AY660003_R TCCACAATAACAAAAAAATCTTCTC 1/5/2010 25 48.00 57.92 C.gigas
860 BS_AM905317_R ACATAATAAAAATAACCACCAAATC 1/5/2010 25 56.00 54.89 C.gigas
859 BS_AM265551_R ACTTTACCTTTACATATACAATTACAC 1/5/2010 27 40.74 51.94 C.gigas
858 BS_AJ579915_R ATAATAAACAAACCACCAACATAAAATAC 1/5/2010 29 37.93 58.31 C.gigas
857 BS_AJ564739_R CAACAAATAATAACCAATACCTTATC 1/5/2010 26 42.31 54.73 C.gigas
856 BS_AJ543432_R AATTTAATTTATTAAACACCACACC 1/5/2010 25 40.00 54.96 C.gigas
855 BS_AJ512213_R AACATAACCTTTAACCCCAATCTCT 1/5/2010 25 52.00 59.61 C.gigas
854 BS_AJ318882_R CAATACCCAAAAACAAAAAAATAAC 1/5/2010 25 60.00 57.35 C.gigas
853 BS_AJ309316_R TATACAACAAATCCCATTACCCTTC 1/5/2010 25 52.00 59.45 C.gigas
852 BS_AJ305315_R AACCTACCTACTCCATAAACAACAAC 1/5/2010 26 53.85 58.19 C.gigas
851 BS_AJ249659_R ATTAAATATTCTCTCACAAATTAAATATAA 1/5/2010 30 33.33 53.81 C.gigas
850 BS_AB185409_R ATTTTTAAATTATTTAAAAAATTTAAAC 1/5/2010 28 35.71 52.05 C.gigas
849 non_FJ669527_R CTCAGGTCTTGGTCTAGGTTT 1/5/2010 20 47.00 55.00 C.gigas
848 non_FJ347754_R GATTACCTGACCAGAACTTCAC 1/5/2010 22 45.00 55.00 C.gigas
847 non_EU342886_R CCTACTGGACGAAAGAAGAATA 1/5/2010 22 41.00 55.00 C.gigas
846 non_DQ336110_R CCCAAACTTCAGTTCTTCTTTC 1/5/2010 22 41.00 57.00 C.gigas
845 non_DQ336108_R ACAAATCACTCTCCATGGATTC 1/5/2010 22 40.00 57.00 C.gigas
844 non_DQ336107_R CCAATTGCTGTTCTTCGTTA 1/5/2010 20 40.00 56.00 C.gigas
843 non_DQ336098_R CTAACACTTTCACCAAAGCAC 1/5/2010 21 42.00 55.00 C.gigas
842 non_AY780357_pro_R GTCGTTCTATATAGCGGAGAGTAT 1/5/2010 24 42.00 55.00 C.gigas
841 non_AY660003_R CCTGTCTCATATATCCACATCA 1/5/2010 22 41.00 55.00 C.gigas
840 non_AM905317_R AAGTACCTGTCCAAACTAATGG 1/5/2010 22 21.00 55.00 C.gigas
839 non_AM265551_R TAGTAACGGTGCACCAAATAAG 1/5/2010 22 41.00 57.00 C.gigas
838 non_AJ579915_R TACATAGCAAGAGGGATAACTCAC 1/5/2010 24 42.00 57.00 C.gigas
837 non_AJ564739_R AGTCCTTATGAGAACTTCTACCAC 1/5/2010 24 42.00 55.00 C.gigas
836 non_AJ543432_R GAGAGAGTTCAGCTGGTAAGATAC 1/5/2010 24 46.00 56.00 C.gigas
835 non_AJ512213_R CTTATCACTGACCTGTCTACTGC 1/5/2010 23 48.00 56.00 C.gigas
834 non_AJ318882_R GTTTCTCTTGATGAGATTGGTC 1/5/2010 22 41.00 55.00 C.gigas
833 non_AJ309316_R CAGGTCTATCTTATTGTTCTCCTG 1/5/2010 24 42.00 56.00 C.gigas
832 non_AJ305315_R AGCTGAAGTACAAGCATACAGTAG 1/5/2010 24 42.00 55.00 C.gigas
831 non_AJ249659_R CTCTTTGTCCTCCTAAACAAAC 1/5/2010 22 41.00 55.00 C.gigas
830 non_AB185409_R AAGTTATTTGGGGGATTTGG 1/5/2010 20 40.00 58.00 C.gigas
829 EW778340_H10aH10b_F GGTTTTCCACTGTCCGATAC 1/4/2010 20 50.00 57.00 C.gigas
828 EW778340_H10aH10b_R GAGTACTAAAACATGTCTGCTACG 1/4/2010 24 42.00 55.00 C.gigas
827 AM866427_L2b_F CATCCTCAGGTAATGCAGAT 1/4/2010 20 45.00 55.00 C.gigas
826 AM866427_L2b_R ATCTGGCTGATTAGTTTCTGAG 1/4/2010 22 41.00 55.00 C.gigas
825 AM860932_L2a_F CCTCAGTCCAGATGAAGAAGTAT 1/4/2010 23 43.00 56.00 C.gigas
824 AM860932_L2a_R CATCTATGAAGTATCTGTCCTTGG 1/4/2010 24 42.00 56.00 C.gigas
823 CX069161_L1L5_F GCCCTATAGTGAGTCGTATTACA 1/4/2010 23 43.00 55.00 C.gigas
822 CX069161_L1L5_R AAGGCGATTAAGTTGGGTAA 1/4/2010 20 45.00 55.00 C.gigas
821 AM076954.p.cg.6_L_F TTTGTTGGTGTTAAAGTGAGTGAGT 12/11/2009 25 52.00 59.00 C.gigas AM076954
820 AM860932.p.cg.6_L_F TTGTAAATTGATAAATGAAATATTT 12/11/2009 25 28.00 52.00 C.gigas AM860932
819 CU988666.p.cg.6_L_F GAAGGTAAGGGGATTAGGGTTAGT 12/11/2009 24 63.00 59.00 C.gigas CU988666
818 CU990744.p.cg.6_L_F TAATATGGTGGTGTTTGATTTTGTTT 12/11/2009 26 42.00 60.00 C.gigas CU990744
817 CU991980.p.cg.6_L_F TTAGGATATAATTGAAAGGGGGTATA 12/11/2009 26 46.00 58.00 C.gigas CU991980
816 CU995158.p.cg.6_L_F GGAATTTGTGGTTATTTTTTTT 12/11/2009 22 55.00 54.00 C.gigas CU995158
815 CU996607.p.cg.6_L_F TGGAATAGATTGGTTAGTTGATGATTAT 12/11/2009 28 50.00 60.00 C.gigas CU996607
814 CU997296.p.cg.6_L_F TGGTTTTAAGATTTTAAAAATTTTA 12/11/2009 25 36.00 53.00 C.gigas CU997296
813 CU997570.p.cg.6_L_F GGTTGTGGAAGGAGTTGTATTTAGT 12/11/2009 25 56.00 59.00 C.gigas CU997570
812 FP010814.p.cg.6_L_F TTTTAGGAATGAGTTATATTGGAGT 12/11/2009 25 52.00 55.00 C.gigas FP010814
811 AJ549813.p.cg.6 _H_F TTTTTGATGTTGTTTAATGTTGTGT 12/11/2009 25 40.00 58.00 C.gigas AJ549813
810 AJ971238.p.cg.6_H_F GGATTGAAAATTTTGTTAGTAATGG 12/11/2009 25 44.00 57.00 C.gigas AJ971238
809 AM853206.p.cg.6_H_F AAAGATATGTTAAAGGTAAAGTTTAAGATA 12/11/2009 30 40.00 55.00 C.gigas AM853206
808 AM857247.p.cg.6_H_F AAAAGGAAAGATTTAAATAAGAGGT 12/11/2009 25 40.00 55.00 C.gigas AM857247
807 AM858698.p.cg.6_H_F AGTTTTATATTGATTTTTTGGAGAG 12/11/2009 25 44.00 55.00 C.gigas AM858698
806 AM862506.p.cg.6_H_F TTGTTTGGGTTTTTTAATTTTGTTA 12/11/2009 25 52.00 58.00 C.gigas AM862506
805 CU994476.p.cg.6_H_F TGGTTTGTGTTTAGTGGATGTTTAT 12/11/2009 25 48.00 59.00 C.gigas CU994476
804 CX069265.p.cg.6_H_F GTTGAATTTGAAATTTGATTGTAGT 12/11/2009 25 40.00 56.00 C.gigas CX069265
803 EU678317.p.cg.6_H_F TTAAATTTTGTGGTGTGTGTAAAAGT 12/11/2009 26 42.00 58.00 C.gigas EU678317
802 EW778340.p.cg.6_H_F TATAGGATATTTAGGTTGGGGGATA 12/11/2009 25 52.00 58.00 C.gigas EW778340
801 AM076954.p.cg.6_L_R CCCCAACATAATATCCATAAACAAT 12/11/2009 25 56.00 59.00 C.gigas AM076954
800 AM860932.p.cg.6_L_R AAAATTCTTAAAAACCTTCTCCTC 12/11/2009 24 50.00 56.00 C.gigas AM860932
799 CU988666.p.cg.6_L_R CCAAAATTAAATTCAATTTTTAAAC 12/11/2009 25 52.00 55.00 C.gigas CU988666
798 CU990744.p.cg.6_L_R ATTAAAAAATTTTCCCCATTTATTC 12/11/2009 25 48.00 57.00 C.gigas CU990744
797 CU991980.p.cg.6_L_R ATACATCAATAACACCTCCACAAAAC 12/11/2009 26 50.00 60.00 C.gigas CU991980
796 CU995158.p.cg.6_L_R AATAATCTACACAACTCCAACAAC 12/11/2009 24 54.00 54.00 C.gigas CU995158
795 CU996607.p.cg.6_L_R AAAACCCATAAAAAAATACCCTCAT 12/11/2009 25 44.00 59.00 C.gigas CU996607
794 CU997296.p.cg.6_L_R TCTATCCATCTTCCTATCTATTTTAC 12/11/2009 26 46.00 54.00 C.gigas CU997296
793 CU997570.p.cg.6_L_R CATTATCAAATCCCCCATAAAATAA 12/11/2009 25 52.00 59.00 C.gigas CU997570
792 FP010814.p.cg.6_L_R AAAATCTCAACAAAAATTCTTAATC 12/11/2009 25 44.00 55.00 C.gigas FP010814
791 AJ549813.p.cg.6 _H_R AACCAAATTTTTCCCAAAAACTAC 12/11/2009 24 46.00 59.00 C.gigas AJ549813
790 AJ971238.p.cg.6_H_R ATTATTAAAATCCTCTAAAACCCCAC 12/11/2009 26 46.00 58.00 C.gigas AJ971238
789 AM853206.p.cg.6_H_R AACCTTTTCCCAACTCAATAAATAAT 12/11/2009 26 42.00 59.00 C.gigas AM853206
788 AM857247.p.cg.6_H_R AAAACCTTTCCAAAAATAAAAATAC 12/11/2009 25 36.00 56.00 C.gigas AM857247
787 AM858698.p.cg.6_H_R AAATTCTTCTCAAAATACATTCTTC 12/11/2009 25 40.00 55.00 C.gigas AM858698
786 AM862506.p.cg.6_H_R TAAATAACTCTCATCAACTTCCCAC 12/11/2009 25 52.00 58.00 C.gigas AM862506
785 CU994476.p.cg.6_H_R CTTAACCCACAAAAAAACTATATCC 12/11/2009 25 52.00 57.00 C.gigas CU994476
784 CX069265.p.cg.6_H_R TTCTCTTCTAATTAAAACATCCTTC 12/11/2009 25 48.00 55.00 C.gigas CX069265
783 EU678317.p.cg.6_H_R TTCATACAACCTTCCAAACAAATAC 12/11/2009 25 48.00 58.00 C.gigas EU678317
782 EW778340.p.cg.6_H_R CCTCTCTAAAAATTACCCCTTAAATC 12/11/2009 26 50.00 58.00 C.gigas EW778340
781 Cg_chaperonin_F CGCTTCATGGGGGCTCTGCG 1/4/2010 20 70.00 63.80 C.gigas
780 Cg_chaperonin_R ACACACGCACACACATACAAACTACAG 1/4/2010 27 44.40 59.20 C.gigas
779 Cg_matrilin_F AAACCAGGCGGCACCGACAC 1/4/2010 20 65.00 63.40 C.gigas
778 Cg_matrilin_R TCTCGTGCCTTGTGGGCCTC 1/4/2010 20 65.00 62.30 C.gigas
777 Cg_TGFb_F ACCCCCTATCACTTTGCCCGCT 12/10/2009 22 59.00 63.20 C.gigas
776 Cg_TGFb_R GCGCAAGTGCTGATCGCCTG 12/10/2009 20 65.00 62.00 C.gigas
775 Cg_betatub_F GTTCCGTGGCCGCATGTCCA 1/4/2010 20 65.00 63.10 C.gigas
774 Cg_betatub_R TCGGCGGTGGCATCCTGGTA 1/4/2010 20 65.00 63.70 C.gigas
773 EW777430_F TCCTCTTTGGCTCTGTTGTG 11/11/2009 20 50.00 59.01 C.gigas EW777430 698
772 EW777430_R GCAGTTATTCCAGCCTTGCT 11/11/2009 20 50.00 59.48 C.gigas EW777430
771 EW777481_F AGGCGCATTCCTTCTTTGAT 11/11/2009 20 45.00 61.09 C.gigas EW777481 702
770 EW777481_R TACTCCCGCCTTTCATTTTG 11/11/2009 20 45.00 60.07 C.gigas EW777481
769 EW777507_F TCCCTGGTCATGATGAAAGAA 11/11/2009 21 42.86 60.45 C.gigas EW777507 705
768 EW777507_R CGATTAAGCAGTCCCCAACT 11/11/2009 20 50.00 59.19 C.gigas EW777507
767 EW777519_F AAATGAGCAAAATATTTAACGAGGA 11/11/2009 25 28.00 59.49 C.gigas EW777519 701
766 EW777519_R TGGGATGGTAAGGATCAAGG 11/11/2009 20 50.00 59.74 C.gigas EW777519
765 EW777589_F GGGGGATACGGAAGTCCTAA 11/11/2009 20 55.00 60.15 C.gigas EW777589 702
764 EW777589_R CCAGGTGTGCTTTTCTTTCAG 11/11/2009 21 47.62 59.90 C.gigas EW777589
763 EW777598_F CACAAATCATTCTACGCGTTC 11/11/2009 21 42.86 58.31 C.gigas EW777598 702
762 EW777598_R GTCAGTGACGGCGAGTTCTT 11/11/2009 20 55.00 60.45 C.gigas EW777598
761 EW777670_F TTCCATTCGTATTCGCTCGT 11/11/2009 20 45.00 60.61 C.gigas EW777670 647
760 EW777670_R TTCAACGGGTTTACCATTCC 11/11/2009 20 45.00 59.66 C.gigas EW777670
759 EW777674_F GAATTCCAGCTCCTTTGGAA 11/11/2009 20 45.00 59.24 C.gigas EW777674 616
758 EW777674_R CAAACAGCCGATGTGTCAGT 11/11/2009 20 50.00 59.75 C.gigas EW777674
757 EW777685_F CCCATTAATCGTTTTTATGATGC 11/11/2009 23 34.78 59.62 C.gigas EW777685 620
756 EW777685_R GGAGCACCCCAGCCTATTTA 11/11/2009 20 55.00 61.32 C.gigas EW777685
755 EW777722_F TGCGGTAGTATTCAGGAGTGG 11/11/2009 21 52.38 60.14 C.gigas EW777722 671
754 EW777722_R AAGCACCAAGAGCCAGGATA 11/11/2009 20 50.00 59.84 C.gigas EW777722
753 EW777781_F TGTTGTTAGGTCGGTGATGG 11/11/2009 20 50.00 59.41 C.gigas EW777781 693
752 EW777781_R CACATTTGGAGCTGATGCTG 11/11/2009 20 50.00 60.41 C.gigas EW777781
751 EW777815_F AGCAGTGCATCCAGTGACAG 11/11/2009 20 55.00 60.05 C.gigas EW777815 513
750 EW777815_R CACCAACCCCTTTAGCACTG 11/11/2009 20 55.00 60.54 C.gigas EW777815
749 EW777901_F CTTCAATGGAGGCTGGTAGC 11/11/2009 20 55.00 59.84 C.gigas EW777901 703
748 EW777901_R ATGCTGCCATTTTTCTGGTC 11/11/2009 20 45.00 60.08 C.gigas EW777901
747 EW777914_F CTGTTTCCTCAGCGTGTGTC 11/11/2009 20 55.00 59.47 C.gigas EW777914 708
746 EW777914_R TGCCAAATCATCAACCAATG 11/11/2009 20 40.00 60.32 C.gigas EW777914
745 EW777946_F AAATTTTGGACGCTGTTTCG 11/11/2009 20 40.00 60.11 C.gigas EW777946 669
744 EW777946_R GCCAACAAAGCATAAAACTGTC 11/11/2009 22 40.91 58.81 C.gigas EW777946
743 EW777983_F TGTGTCAGGCACTGTAGCAA 11/11/2009 20 50.00 59.03 C.gigas EW777983 709
742 EW777983_R TGACAGACGGATTTTGATGC 11/11/2009 20 45.00 59.65 C.gigas EW777983
741 EW777988_F ATTTGGCAGTTTTGCAAGGT 11/11/2009 20 40.00 59.61 C.gigas EW777988 695
740 EW777988_R ATGACGAAAAACCCATGAAA 11/11/2009 20 35.00 57.92 C.gigas EW777988
739 EW778003_F GTGTGTATGACCGCCCAGAT 11/11/2009 20 55.00 60.81 C.gigas EW778003 700
738 EW778003_R CCTCCACTTTGGGATTGTTG 11/11/2009 20 50.00 60.34 C.gigas EW778003
737 EW778004_F GTCAAGGCCCTAAACCCTTC 11/11/2009 20 55.00 59.94 C.gigas EW778004 668
736 EW778004_R GCTGTTCAGAATCGCACAAA 11/11/2009 20 45.00 60.00 C.gigas EW778004
735 EW778009_F ACGCTGTTTGTGTTCATCCA 11/11/2009 20 45.00 60.16 C.gigas EW778009 683
734 EW778009_R CAAAACAACTGGGAAAACGAA 11/11/2009 21 38.10 60.00 C.gigas EW778009
733 EW778068_F TGGAGGGAGTCTGTGTGTCA 11/11/2009 20 55.00 60.29 C.gigas EW778068 690
732 EW778068_R CGTCAAGCGTTGTTTTCTTG 11/11/2009 20 45.00 59.51 C.gigas EW778068
731 EW778094_F CTGACGGATAACTCGGCAAT 11/11/2009 20 50.00 60.10 C.gigas EW778094 697
730 EW778094_R CAGCATAGGCTTTCTCTCCA 11/11/2009 20 50.00 58.20 C.gigas EW778094
729 EW778149_F AGATGAATTCCTTGGCGGTA 11/11/2009 20 45.00 59.53 C.gigas EW778149 627
728 EW778149_R GCGCATTATCAGTGTCGAAG 11/11/2009 20 50.00 59.45 C.gigas EW778149
727 EW778166_F ATATTGGAGCCCTCGTTGTG 11/11/2009 20 50.00 59.96 C.gigas EW778166 676
726 EW778166_R TGAGCGCAGAGAAACTTCAA 11/11/2009 20 45.00 59.86 C.gigas EW778166
725 EW778188_F GGTTTGAAGAGATGGCTGAGA 11/11/2009 21 47.62 59.42 C.gigas EW778188 700
724 EW778188_R ACGAGATGTGCAAATGGTCA 11/11/2009 20 45.00 60.12 C.gigas EW778188
723 EW778214_F CCCTTATTTACGAGCCGAAC 11/11/2009 20 50.00 58.72 C.gigas EW778214 698
722 EW778214_R CCCACAGAGACGTCAGGAAT 11/11/2009 20 55.00 60.11 C.gigas EW778214
721 EW778215_F TGATCAGTCTCAGCCGAAAG 11/11/2009 20 50.00 59.11 C.gigas EW778215 691
720 EW778215_R CGACCAAAATGGGTAACAGC 11/11/2009 20 50.00 60.37 C.gigas EW778215
719 EW778340_F GACAAGCGGCTTTATTCTCG 11/11/2009 20 50.00 59.98 C.gigas EW778340 690
718 EW778340_R CAAAATTGGCCAAAAATGGA 11/11/2009 20 35.00 60.65 C.gigas EW778340
717 EW778383_F CACCACTCTCAAGATGCACAG 11/11/2009 21 52.38 59.48 C.gigas EW778383 681
716 EW778383_R AGCGACCACATATCACAGGA 11/11/2009 20 50.00 59.12 C.gigas EW778383
715 EW778389_F GCCTGTACACTGCGGTTCTT 11/11/2009 20 55.00 60.32 C.gigas EW778389 692
714 EW778389_R CATGCAACTTCTTCGCTCAG 11/11/2009 20 50.00 59.74 C.gigas EW778389
713 EW778398_F GAGAGATCACAGGGGCTGAC 11/11/2009 20 60.00 59.80 C.gigas EW778398 707
712 EW778398_R GGAGGGAACGTCATGGAGTA 11/11/2009 20 55.00 59.93 C.gigas EW778398
711 EW778409_F AGTGATGATCATGCCCAAGG 11/11/2009 20 50.00 60.89 C.gigas EW778409 582
710 EW778409_R TCTATCTCCCCGTCCTTGTC 11/11/2009 20 55.00 59.09 C.gigas EW778409
709 EW778447_F CCCTCCGTTCATTCTGGATA 11/11/2009 20 50.00 59.89 C.gigas EW778447 703
708 EW778447_R GATCAGCCATGTTGCAAAGA 11/11/2009 20 45.00 59.81 C.gigas EW778447
707 EW778538_F TCCATCATCATCGGCGTAAT 11/11/2009 20 45.00 61.23 C.gigas EW778538 702
706 EW778538_R GCGCTCAATGAGGTTGAACT 11/11/2009 20 50.00 60.41 C.gigas EW778538
705 EW778555_F GATTGCAGGAGCATTTGGTT 11/11/2009 20 45.00 60.08 C.gigas EW778555 712
704 EW778555_R TCCTGTCGAGGAATTCGTTT 11/11/2009 20 45.00 59.67 C.gigas EW778555
703 EW778576_F TGTCAGATGCTCCCTCAATG 11/11/2009 20 50.00 59.79 C.gigas EW778576 686
702 EW778576_R AGATGTGGAATGGGTCGGTA 11/11/2009 20 50.00 60.20 C.gigas EW778576
701 EW778608_F CGGAACCGAAGTAGATGGAA 11/11/2009 20 50.00 60.07 C.gigas EW778608 711
700 EW778608_R ACGCTCATAAACGAGGCACT 11/11/2009 20 50.00 59.90 C.gigas EW778608
699 EW778669_F CAGTGACTCATGTGTCTTGACG 11/11/2009 22 50.00 59.38 C.gigas EW778669 709
698 EW778669_R GCACCACTACACCCAATCAA 11/11/2009 20 50.00 59.42 C.gigas EW778669
697 EW778680_F GAGTACCATCCGCTGACCAT 11/11/2009 20 55.00 59.96 C.gigas EW778680 691
696 EW778680_R TGTCAGCGTCGGTAAACAAC 11/11/2009 20 50.00 59.76 C.gigas EW778680
695 EW778826_F TTCAGCGCAAAAATGAATTG 11/11/2009 20 35.00 59.82 C.gigas EW778826 643
694 EW778826_R TCGGGAGGTGCTAATACAGC 11/11/2009 20 55.00 60.24 C.gigas EW778826
693 EW778853_F GGTGGACTGCTTCGTCTTCT 11/11/2009 20 55.00 59.45 C.gigas EW778853 638
692 EW778853_R TCTCTCACTTTCCGCCGTAT 11/11/2009 20 50.00 59.84 C.gigas EW778853
691 EW778895_F GTACAGCGCAAAGGGTGACT 11/11/2009 20 55.00 60.32 C.gigas EW778895 675
690 EW778895_R GCAATGCGGGGAATATTAGA 11/11/2009 20 45.00 59.89 C.gigas EW778895
689 EW778905_F ATAGAGCGGAAGCCGTGATA 11/11/2009 20 50.00 59.83 C.gigas EW778905 711
688 EW778905_R TAACTCGCAAGCAGTGTTGG 11/11/2009 20 50.00 60.05 C.gigas EW778905
687 EW778932_F GCAGGGAAGTCGGTATCGTA 11/11/2009 20 55.00 60.10 C.gigas EW778932 678
686 EW778932_R CCTCTGCCATCCAAAGAAAA 11/11/2009 20 45.00 60.18 C.gigas EW778932
685 EW778952_F GGGAGTTTTGTGGGGGTATT 11/11/2009 20 50.00 59.92 C.gigas EW778952 690
684 EW778952_R TTCGGGGTTTTGCGTATATC 11/11/2009 20 45.00 59.79 C.gigas EW778952
683 EW779002a_F TTCGCATCAACGTTCAAAAC 11/11/2009 20 40.00 59.71 C.gigas EW779002 696
682 EW779002a_R GCATCATTCGAGTGTGCATT 11/11/2009 20 45.00 59.69 C.gigas EW779002
681 EW779002b_F TTCAGTAGAGACGGCAGCAG 11/11/2009 20 55.00 59.34 C.gigas EW779002 699
680 EW779002b_R CGTCGTTTTCATTCCTCCAT 11/11/2009 20 45.00 59.93 C.gigas EW779002
679 EW779033_F TTTGGGGATAGGGGAAGTTT 11/11/2009 20 45.00 59.64 C.gigas EW779033 717
678 EW779033_R AGTTCTGTTCTCCCCCGAAT 11/11/2009 20 50.00 59.93 C.gigas EW779033
677 EW779098_F CGGATTGTACTGCTGGTGTG 11/11/2009 20 55.00 60.18 C.gigas EW779098 701
676 EW779098_R CGTCAACCTCTCCCACTTGT 11/11/2009 20 55.00 60.15 C.gigas EW779098
675 EW779098_F CACACCTCCCAGTGATGATG 11/11/2009 20 55.00 59.95 C.gigas EW779098 685
674 EW779098_R AGCAGCTGAGCCCTCTGTAA 11/11/2009 20 55.00 60.30 C.gigas EW779098
673 EW779105_F AAATGCATTCAGGGGTTTCC 11/11/2009 20 45.00 61.05 C.gigas EW779105 705
672 EW779105_R TCCTTCCGTCTCTTTTGCAT 11/11/2009 20 45.00 59.81 C.gigas EW779105
671 EW779117a_F CCATCGGAATGATCTGACCT 11/11/2009 20 50.00 59.89 C.gigas EW779117 691
670 EW779117a_R AGCCACTCCAGTACGGAAAA 11/11/2009 20 50.00 59.73 C.gigas EW779117
669 EW779117b_F AGCCATAGCGTTGGATGAAC 11/11/2009 20 50.00 60.10 C.gigas EW779117 685
668 EW779117b_R ATGAATGGCAGGAGGATGAC 11/11/2009 20 50.00 59.89 C.gigas EW779117
667 EW779127_F AACATCGGCATTTGTGTGAA 11/11/2009 20 40.00 59.97 C.gigas EW779127 681
666 EW779127_R CTTGGCTATCTTTCTGCATGG 11/11/2009 21 47.62 59.85 C.gigas EW779127
665 EW779143_F AAGACTGGGGACCGATTTG 11/11/2009 19 52.63 59.91 C.gigas EW779143 713
664 EW779143_R ACCCCGAACTTGGATGGTAT 11/11/2009 20 50.00 60.44 C.gigas EW779143
663 EW779151_F AATCTTGCTGGCCCACAGTA 11/11/2009 20 50.00 60.66 C.gigas EW779151 707
662 EW779151_R CAAGGGCAGATTTGTAGATGC 11/11/2009 21 47.62 59.72 C.gigas EW779151
661 EW779217_F TTGGTGGTGTGTAGCGTGAT 11/11/2009 20 50.00 60.03 C.gigas EW779217 675
660 EW779217_R GCACTTACACACATTCATGGAAA 11/11/2009 23 39.13 59.92 C.gigas EW779217
659 EW779247_F TGGAGACGACCATCCAAAAT 11/11/2009 20 45.00 60.32 C.gigas EW779247 707
658 EW779247_R TCATGCACACATTAGCATTGAA 11/11/2009 22 36.36 60.14 C.gigas EW779247
657 EW779259_F CAGGGGACACCTAGCAAAAA 11/11/2009 20 50.00 60.10 C.gigas EW779259 706
656 EW779259_R ACCCAGCAATAGACGACCAG 11/11/2009 20 55.00 60.13 C.gigas EW779259
655 EW779284_F AAGTTACTTCCGTTCGTACACC 11/11/2009 22 45.45 57.38 C.gigas EW779284 704
654 EW779284_R GCATCCAAAGTTGACACAGG 11/11/2009 20 50.00 59.14 C.gigas EW779284
653 EW779317_F CGCAGCAGGTAAACAATTCC 11/11/2009 20 50.00 60.64 C.gigas EW779317 702
652 EW779317_R CGGCCAAGTACAATGGAGTC 11/11/2009 20 55.00 60.52 C.gigas EW779317
651 EW779317a_F CCCCAACACCATGAGTCAGT 11/11/2009 20 55.00 60.84 C.gigas EW779317 695
650 EW779317a_R TAGGGTTGGCATTTCTCTGG 11/11/2009 20 50.00 60.07 C.gigas EW779317
649 EW779361_F CGATCCCAAATTTCAAGTGG 11/11/2009 20 45.00 60.30 C.gigas EW779361 713
648 EW779361_R ATGCGTTTTTGTCGTGATGA 11/11/2009 20 40.00 60.12 C.gigas EW779361
647 EW779391_F GACGGGATGTGACGAGAGAT 11/11/2009 20 55.00 60.08 C.gigas EW779391 687
646 EW779391_R AAAAGAATGGCGGTCACACT 11/11/2009 20 45.00 59.60 C.gigas EW779391
645 EW779405_F GCGAGGAAACAAAGTGGATG 11/11/2009 20 50.00 60.64 C.gigas EW779405 705
644 EW779405_R TCGCGAAGCATAGACAAGAA 11/11/2009 20 45.00 59.71 C.gigas EW779405
643 EW779434_F ACGATGCTTTGGAAGAGGAA 11/11/2009 20 45.00 59.81 C.gigas EW779434 702
642 EW779434_R CAGAGCTGCATTCTGGTTCA 11/11/2009 20 50.00 60.14 C.gigas EW779434
641 EW779500_F ATGACAAACAGGCTGTCACG 11/11/2009 20 50.00 59.75 C.gigas EW779500 700
640 EW779500_R GGGTGGGGAACAATCTGTAG 11/11/2009 20 55.00 59.26 C.gigas EW779500
639 CgCP450 F460 TTCAACAGCTGATGTCAGAG 8/27/2009 C.gigas Cytochrome P450 EW779033 460 638 169
638 CgCP450 R628 AGACCTTAAGGAGCCTGTC 8/27/2009 C.gigas Cytochrome P450 EW779033 628 639 169
637 CgIКB F997 GAAAAAGTGGCAAGAGTGTC 8/27/2009 C.gigas Inhibitor of Rel/NF-КB DQ250326 997 636 217
636 CgIКB R1213 GAAGAGTCATCGAAAGCAAC 8/27/2009 C.gigas Inhibitor of Rel/NF-КB DQ250326 1213 637 217
635 CgPrx6 F270 GTCAGACAAACTCCCATAC 8/27/2009 C.gigas Peroxiredoxin 6 AM265552 270 634 169
634 CgPrx6 R439 CTGGGTAAAGCATTGACAG 8/27/2009 C.gigas Peroxiredoxin 6 AM265552 439 635 169
633 T.suecica_psaB_F ACACAATTGGAATGCGAACA 7/22/2009 20 C.gigas
632 T.suecica_psaB_R GCTAAATGGTGGTGAGCCAT 7/22/2009 20 C.gigas
631 Cg_MDR_F CTTTAAACTGCTGGACAGAGAG 7/10/2009 22 43.00 58.00 C.gigas multidrug resistance
630 Cg_MDR_R GATACAGCACTGGTAAAGTTGTC 7/10/2009 23 43.00 58.00 C.gigas multidrug resistance
629 Cg_GPX_F GATTACACCCCTGTCTGCAC 7/10/2009 20 55.00 57.00 C.gigas glutathione peroxidase
628 Cg_GPX_R GACAGGGCGATCATCTTAAC 7/10/2009 20 50.00 57.00 C.gigas glutathione peroxidase
627 H.iris_actin_intron_R GGACTACTGACGTCACAAAATACCGC 7/9/2009 26 50.00 58.00 H.iris actin AY921239 ATGGATGATGATGTTGCTGCGTTGGTTATCGACAACGGCTCCGGCATGTGTAAGGCCGGGTTCGCCGGTGACGACGCCCCGAGAGCTGTCTTCCCCTCCATCGTCGGTCGTCCCCGTCATCAGGTAATTCACTTCTGTCATCAATACTACTCACTAATCAATGGTTCATCTTAACTGGTCATGATATGTCTATCATTTAGCTATTGTTCAATATGATAAATTGCTGTATATTTTTGTCACGTATCATTTATGAAAACAATTTAAATCGACTTATGGATATGCATGTGTGTTTGTATATTATTTCAAAATATGATCTAATAGGGGATATTTGATGAGTATATATCGTAATATCGAACTACGAAGAGAGTGTGAAAAATAGTTTCAAGACAAACATGTTCTGTGCATAAACGTTTAAGGTTGCATTAATTTATTGGACATGTATTTTATGTATCTTCATACCAATAGTATAGAAATAAGCAATGAAGACGCTTTAGTCGCCCTGCCATAGAATGATTTTGTTAATCGGTGACAGAAATTTCAAATGATATCTACCAATTGCTGTACAAACATGGTTACGATAATGATGCGGTATTTTGTGACGTCAGTAGTCCGATGGTGAAAATATGCATATGGGTGGTAATAGTTAATATTTTAAATGTCACAGCTAATTATTCATATATCACTACATTTTTTTTTCTTTCCAGGGTGTGATGGTCGGTATGGGACAGAAGGACAGCTACGTCGGTGACGAGGCTCAGTCCAAGAGAGGTATCCTCACCCTCAAGTACCCCATTGAGCACGGTATCGTCACCAACTGGGACGACATGGAGAAGATCTGGCATCACACCTTCTACAACGAGCTCCGTGTGGCTCCAGAGGAACATCCCGTCCTCCTGACCGAGGCTCCCCTTAACCCCAAGGCCAACCGTGAAAAGATGACCCAGATCATGTTTGAGACCTTCAACTCTCCAGCTATGTATGTGGCCATCCAGGCTGTTCTGTCTCTGTACGCCTCTGGTCGTACCACGGGTATTGTTCTTGACTCTGGTGATGGTGTCACCCACACTGTCCCCATCTATGAAGGTTACGCCCTTCCCCACGCTATTCTTAGGTTGGACCTGGCTGGTCGTGATCTCACAGACTACATGATGAAGATCCTGACTGAGCGTGGTTACTCCTTCACCACCACTGCCGAACGAGAAATCGTCAGGGACATCAAGGAGAAACTGGCCTATGTGGCTCTTGACTTCGAACAGGAAATGCAGACTGCTGCCTCTTCCTCTTCATTGGAGAAGAGCTACGAGCTTCCCGACGGTCAGGTCATCACCATTGGTAACGAGAGGTTTCGTTGTCCAGAGGCTCTTTTCCAGCCTTCCTTCTTGGGTATGGAATCTGCTGGTATCCACGAAACAACATACAACTCCATCATGAAATGTGATGTTGATATTCGTAAAGACTTATATGCCAACACTGTTCTCTCAGGAGGTACCACCATGTTCCCTGGTATCGCCGACAGAATGCAGAAGGAGATCACAGCCCTTGCTCCAGCAACAATGAAGATCAAGATCATCGCACCCCCAGAGAGGAAATACTCGGTCTGGATAGGCGGCTCCATCCTTGCCTCTCTGTCCACCTTCCAACAGATGTGGATCAGCAAGCAGGAGTACGATGAGTCCGGCCCATCCATTGTCCACCGCAAATGCTTCTAA 611-586 626 123
626 H.iris_actin_intron_F CTTTAGTCGCCCTGCCATAGAATG 7/9/2009 24 50.00 55.70 H.iris actin AY921239 ATGGATGATGATGTTGCTGCGTTGGTTATCGACAACGGCTCCGGCATGTGTAAGGCCGGGTTCGCCGGTGACGACGCCCCGAGAGCTGTCTTCCCCTCCATCGTCGGTCGTCCCCGTCATCAGGTAATTCACTTCTGTCATCAATACTACTCACTAATCAATGGTTCATCTTAACTGGTCATGATATGTCTATCATTTAGCTATTGTTCAATATGATAAATTGCTGTATATTTTTGTCACGTATCATTTATGAAAACAATTTAAATCGACTTATGGATATGCATGTGTGTTTGTATATTATTTCAAAATATGATCTAATAGGGGATATTTGATGAGTATATATCGTAATATCGAACTACGAAGAGAGTGTGAAAAATAGTTTCAAGACAAACATGTTCTGTGCATAAACGTTTAAGGTTGCATTAATTTATTGGACATGTATTTTATGTATCTTCATACCAATAGTATAGAAATAAGCAATGAAGACGCTTTAGTCGCCCTGCCATAGAATGATTTTGTTAATCGGTGACAGAAATTTCAAATGATATCTACCAATTGCTGTACAAACATGGTTACGATAATGATGCGGTATTTTGTGACGTCAGTAGTCCGATGGTGAAAATATGCATATGGGTGGTAATAGTTAATATTTTAAATGTCACAGCTAATTATTCATATATCACTACATTTTTTTTTCTTTCCAGGGTGTGATGGTCGGTATGGGACAGAAGGACAGCTACGTCGGTGACGAGGCTCAGTCCAAGAGAGGTATCCTCACCCTCAAGTACCCCATTGAGCACGGTATCGTCACCAACTGGGACGACATGGAGAAGATCTGGCATCACACCTTCTACAACGAGCTCCGTGTGGCTCCAGAGGAACATCCCGTCCTCCTGACCGAGGCTCCCCTTAACCCCAAGGCCAACCGTGAAAAGATGACCCAGATCATGTTTGAGACCTTCAACTCTCCAGCTATGTATGTGGCCATCCAGGCTGTTCTGTCTCTGTACGCCTCTGGTCGTACCACGGGTATTGTTCTTGACTCTGGTGATGGTGTCACCCACACTGTCCCCATCTATGAAGGTTACGCCCTTCCCCACGCTATTCTTAGGTTGGACCTGGCTGGTCGTGATCTCACAGACTACATGATGAAGATCCTGACTGAGCGTGGTTACTCCTTCACCACCACTGCCGAACGAGAAATCGTCAGGGACATCAAGGAGAAACTGGCCTATGTGGCTCTTGACTTCGAACAGGAAATGCAGACTGCTGCCTCTTCCTCTTCATTGGAGAAGAGCTACGAGCTTCCCGACGGTCAGGTCATCACCATTGGTAACGAGAGGTTTCGTTGTCCAGAGGCTCTTTTCCAGCCTTCCTTCTTGGGTATGGAATCTGCTGGTATCCACGAAACAACATACAACTCCATCATGAAATGTGATGTTGATATTCGTAAAGACTTATATGCCAACACTGTTCTCTCAGGAGGTACCACCATGTTCCCTGGTATCGCCGACAGAATGCAGAAGGAGATCACAGCCCTTGCTCCAGCAACAATGAAGATCAAGATCATCGCACCCCCAGAGAGGAAATACTCGGTCTGGATAGGCGGCTCCATCCTTGCCTCTCTGTCCACCTTCCAACAGATGTGGATCAGCAAGCAGGAGTACGATGAGTCCGGCCCATCCATTGTCCACCGCAAATGCTTCTAA 489-512 627 123
625 H.crach_h-1fg_intron_Rv CCAGAAAACGTGATGAGACACAC 7/2/2009 23 47.80 56.10 H.cracherodii hemocyanin (h-1fg) EF428159 ACCAGGCGTAGGTAAGATATCTAAAATATGAGCTTTATGCCAAGCCAGTTTGTGTTCTTTACATACTGGTTTGCTTGTTAATACTACAAATGAAAAAAAGGGGGGTGTACCAAAGAATGTGATGTTATTTTATGGTATATAACTGAGTGAGACACTAAATCAACCTTACATGAAAGGATATGCTTCATTTTATAAGTGTGTCTCATCACGTTTTCTGGACTTCATGAATCATCTGTAAAACCAAAATATATTAGTCATTGTCTTTTACGCCTAATTGAATCTGTTTTGGAGACTGATTATTTTCTAGCGTTATGACTTTTACGAACGTAAAACATGGGATAAAAATGTATTCACCTGTAGAATGCTTAAGCAAAACCTGATAGGGTCACATACT 218-196 624 114
624 H.crach_h-1fg_intron_Fw GGTGTACCAAAGAATGTGATG 7/2/2009 21 42.90 51.50 H.cracherodii hemocyanin (h-1fg) EF428159 ACCAGGCGTAGGTAAGATATCTAAAATATGAGCTTTATGCCAAGCCAGTTTGTGTTCTTTACATACTGGTTTGCTTGTTAATACTACAAATGAAAAAAAGGGGGGTGTACCAAAGAATGTGATGTTATTTTATGGTATATAACTGAGTGAGACACTAAATCAACCTTACATGAAAGGATATGCTTCATTTTATAAGTGTGTCTCATCACGTTTTCTGGACTTCATGAATCATCTGTAAAACCAAAATATATTAGTCATTGTCTTTTACGCCTAATTGAATCTGTTTTGGAGACTGATTATTTTCTAGCGTTATGACTTTTACGAACGTAAAACATGGGATAAAAATGTATTCACCTGTAGAATGCTTAAGCAAAACCTGATAGGGTCACATACT 104-124 625 114
623 CV_MTIVprom_F AACCGGTGAAGGACTGCTAA 6/15/2009 20 50.00 60.00 C.virginica 5' region of MTIV to check for pres. of genomic
622 CV_MTIVprom_R TTTCCTACAATCCAGGCGAC 6/15/2009 23 50.00 60.00 C.virginica 5' region of MTIV to check for pres. of genomic
621 Cv_TIMP_F TCATACCCTACTACTGAAAGGTTC 6/12/2009 25 41.70 53.50 C.virginica TIMP
620 Cv_TIMP_R CTTCTGGTACACAGAGGTCAAT 6/12/2009 22 45.00 56.00 C.virginica TIMP
619 Cv_CatY_F TGGAGGAATGTCAACGGGACGAAT 6/12/2009 23 50.00 60.30 C.virginica Cathepsin Y
618 Cv_CatY_R CCAGGCACCTTTCCGTTTGATGTT 6/12/2009 24 50.00 60.10 C.virginica Cathepsin Y
617 Cv_CIAPIN_F TCTGTCGCATTCTGAAACCAAATGG 6/12/2009 25 44.00 57.90 C.virginica cytokine induced apoptosis inhibitor
616 Cv_CIAPIN_R TGCCACGTATTCCTGGGATTTATCC 6/12/2009 25 48.00 58.70 C.virginica cytokine induced apoptosis inhibitor
615 Cg_CDC40_F TGGGCGTCAACCTTAAGTCGGATGA 5/26/2009 25 52.00 60.00 C.gigas CDC40 AM868252 GGGAGATCATTCTTGCACATCCCACAGGATGTGGGCGTCAACCTTAAGTCGGATGAACCACCAGAGAAGTGCTTCCTGCCCAAGAAACAGATTCACACCTGGACTGGGCACACAAAGGGGGTGTCAGCCATCCGCTGGTTCCCCCGCTCTGCTCATCTTTTACTCTCTTGTAGTATGGACTGCAGAATTAAGATCTGGGAGGTGTACAACGACCGGCGCTGTGTGCGGACCTACAGCGGTCACAAACAGGCCGTGAGGGACATCACCTTCAACAACTCGGGCACAGAGTTTCTCAGCTGTGGCTACGACAGGTACATCAAACTCTGGACACTGAGACAGGTGAATGCAAGTCTCGCTTCACGAGTCGGAAGGTGCCGTACTGCATCAAGTATCACCCAGAGGAAGACAAACAGCATTTATTTGTCGCTGGAACCTCCGACAAGAAAATCGTCTGTTGGGACATTCGGTCGGGTGAGATTGTACAGGAATATGACAGACATCTCGGCGCCGTGAACACCATCACCTTCGTGGATCATAACCGGC 33-56 614 251
614 Cg_CDC40_R GCCCGAGTTGTTGAAGGTGATGTCC 5/26/2009 25 56.00 60.00 C.gigas CDC40 AM868252 GGGAGATCATTCTTGCACATCCCACAGGATGTGGGCGTCAACCTTAAGTCGGATGAACCACCAGAGAAGTGCTTCCTGCCCAAGAAACAGATTCACACCTGGACTGGGCACACAAAGGGGGTGTCAGCCATCCGCTGGTTCCCCCGCTCTGCTCATCTTTTACTCTCTTGTAGTATGGACTGCAGAATTAAGATCTGGGAGGTGTACAACGACCGGCGCTGTGTGCGGACCTACAGCGGTCACAAACAGGCCGTGAGGGACATCACCTTCAACAACTCGGGCACAGAGTTTCTCAGCTGTGGCTACGACAGGTACATCAAACTCTGGACACTGAGACAGGTGAATGCAAGTCTCGCTTCACGAGTCGGAAGGTGCCGTACTGCATCAAGTATCACCCAGAGGAAGACAAACAGCATTTATTTGTCGCTGGAACCTCCGACAAGAAAATCGTCTGTTGGGACATTCGGTCGGGTGAGATTGTACAGGAATATGACAGACATCTCGGCGCCGTGAACACCATCACCTTCGTGGATCATAACCGGC 258-282 615 251
613 Cg_fbxw7_F TGATGCAGGTCATCGAGCCTCAGTT 5/26/2009 25 52.00 60.00 C.gigas F-box and WD-40 protein 7 AM868009 GTTTGGATCCCTCCATTTAAAGACCTTGTCGATCAGATGACTTTGACAGTCAAAGTACATTTGGAAATTTAAAAAAGACTACAATCATTCCATCCTATGCTGGAGGTCATCGTCCTAGAATTCCATCCAAAGAACACCCCCCCCCCAGACTCATGGAGTGGCTACAAACATTTCAGATGTGGAGCAATGCAGAGCGTCTGATGGCAGTAGATGAGCTGATTCAGATCTGTGAACCCACTCAGGTGCGACACATGATGCAGGTCATCGAGCCTCAGTTCCAAAGGGACTTCATCTCACTTCTTCCAAAAGAGTTGGCATTATACGTTCTATCATTCCTTGAGCCCAAAGCCCTGTTAAAGGCGGCCCAGACCTGTCGTTACTGGCGGGTCCTGGCGGAGGACAATCTTCTGTGGAGGGAGGAGTGCAAGGAGGAGGGGATCACAGAGACCCTGGTGTACGGCTCCAACCGTCTCCGGCGCCGCACGGGAAGTAGGAGTCCTTGGAAGGCCCTGTATATGAGGCAGCATCAGATCGAACAGAACTGGAGGGCAGCCGAACTCAGGAGTCCAAAGCTTTTGCGGGGACATGATGATCATGTGATAACGTGTCT 253-277 612 257
612 Cg_fbxw7_R GGCCTTCCAAGGACTCCTACTTCCC 5/26/2009 25 60.00 60.00 C.gigas F-box and WD-40 protein 7 AM868009 GTTTGGATCCCTCCATTTAAAGACCTTGTCGATCAGATGACTTTGACAGTCAAAGTACATTTGGAAATTTAAAAAAGACTACAATCATTCCATCCTATGCTGGAGGTCATCGTCCTAGAATTCCATCCAAAGAACACCCCCCCCCCAGACTCATGGAGTGGCTACAAACATTTCAGATGTGGAGCAATGCAGAGCGTCTGATGGCAGTAGATGAGCTGATTCAGATCTGTGAACCCACTCAGGTGCGACACATGATGCAGGTCATCGAGCCTCAGTTCCAAAGGGACTTCATCTCACTTCTTCCAAAAGAGTTGGCATTATACGTTCTATCATTCCTTGAGCCCAAAGCCCTGTTAAAGGCGGCCCAGACCTGTCGTTACTGGCGGGTCCTGGCGGAGGACAATCTTCTGTGGAGGGAGGAGTGCAAGGAGGAGGGGATCACAGAGACCCTGGTGTACGGCTCCAACCGTCTCCGGCGCCGCACGGGAAGTAGGAGTCCTTGGAAGGCCCTGTATATGAGGCAGCATCAGATCGAACAGAACTGGAGGGCAGCCGAACTCAGGAGTCCAAAGCTTTTGCGGGGACATGATGATCATGTGATAACGTGTCT 485-509 613 257
612 Cg_MannBind_F AGAGGCAACAAACACGGAGT 3/23/2010
611 Cg_Rel1_F AAAAGGACCACAGCACCTTCCTCCA 5/26/2009 25 52.00 60.00 C.gigas Transcription Factor Rel 1 mRNA AY039648 GAATATACAACTTTGGAAAGTCCAACTCCTGAAATATACTCAGTGTGGTAAAATTTGTGTCTATACTGACATGGCTGAGCTCAACTTTGGATACGATAACCCGATGGGTTTGGGAAGTAACGACTTGAGGCTTCTAATGGATGGGAACCATGAATTATTAACAAATTTTGACCCAGCAGATAATGACCTGGTTCAACTGATAACAGCACAAAATCAGGAATCATTCATGACCCCTCAAATTCCTGTGACTCAACCCCAACCCCCCAAGCCACAGAAACAGACAACGCACAGAGGAACCCCCCACAAAACGCAAGACGGAATATATGTTGAGATCGTAGAACAGCCCAAGCAGAGAGGGCTGCGGTTCCGCTACGAGTGTGAGGGGAGATCAGCGGGCAGCATTCCTGGTGAAGGCAGCACCTCTGAGAAGAAGACCTTTCCAACCATTAAGATTCACAACTACACTGGCACAGCGGTGATAGTGGTCTCCTGTGTGACCAAAGATCAGCCGTACGAACCCCACCCCCACAACCTAGTGGGCAGGGACTGCAAAAGGGGGGTCTGTACCCTAAAGGTCAAGGACACCAACGTCATCAGTTTCCCACACCTCGGAATACAGTGTGCCAAAAAGAAAGATGTGGAAAATAACCTGAAACAGAGAAAAGAAATCAACGTGGATCCATTCCAGAGTGGTTTCAAACACTTGAACAAAATCAACAGTATAGATCTTAATGTGGTCCGTCTGTGTTTCCAAGTATTCCTGCCAGATGAAAATGGAAAAATCACCCGCATTGTTCCTCCCGTTGTATCACATTGTATTCATGATAAAAAGTCATTGAACGAGTTGGTAATCTGCCGAGTAGACCGACACTCGGGGAAGGCAAAGGGAGGTGATGAGGTTTTCCTGCTGTGTGAGAAAATCAACAGAGATGATATTGTGGTCCGGTTCTATGAGGAGACAGATTGTGGAGAATGTGTGTGGGAAGACTTTGCCGACTTCAGCACAAACGACATCCACAGACAGTACGCCATTGTCTTCCGCACACCACCTTACAAAGACACAATGATCACACGGCCAAAGGAGGTCAAAATGCAGCTCAAACGCAACAATGAACCCGAAACCAGCGACTCAATCCCATTCATTTACATGCCTGAAGACCCAGATCCTGACCGAATCATGGAGAAAAGAAAAAGGAAGGCTGATCAGCTGAAAAACTGGGGATTTGATATGAATGTCTCTGGTGAAGACATCAAGCAGAGGCTGAAGATAAAGGCGACCAAGTCCAGGATCAAGCAAGAAGTGCCTGAAGTCCCTCCCTACACCGTGGAGAATCTTCTGGGTGGGGCCCATCAGATGCCGCCAGTGTCCAATGTCACCACCACCCACACAAAGGACGGCACGTCCCTCAATGTAAGGACCCTGGACAACACAACCATGGGAAATGTGACCATTACCCCCACGGAGAGTGTTCGTCAACAGCTCGCTAACCTGCCCGACGACGTGCAAATCAAACTACTGCAGAATCTGGCCGTGCGTAAACTCCAGGAGGAGGCCACAAGCCGTATCAACCAGCCCGGTCAGCCCCTGGAAAAGGACCACAGCACCTTCCTCCAGTCTCTTCTCGGTGGAGGCATGGGGATGCCACAGAATTCAAACCCTGCACAACTGCTGAACCAGAACCTCATGATGGGAGGTCAGGCAATGGGTCAGTGCTCGGGGATGGACCAGGAGAATGTAGACTTAATGCTTCAGGCTTACCTTGGTGATCAGGATCAGAACATGTCCTTCGACAGCTTCGGCTCAAACATTGGAAACATGAACTTTGACCCCTCAGTGGGAGCCAATCTTAATGTGACAAATGATCAGGGAGGGTTAGACGAGACAAAGACAGCTGTCCAGTCGCTGGGCCAGTCCTGAGGGCCCTCTGACAGAGGCATTGTTATTCGTATTGTTACGTTATTATGCGGGTTATGATTTCATTTCCTCACTGGATGCCCTCCAGTTTAAATTTCTGGGTGAAAATCTGTCCTTCAAGGTGAAAGACAGATGACACATACCTATGTGCATGTTAGCCCACGTATAGCATGCTCAGCAGGAATAACTTGCTTATTCGGGTGGAAATTATTCTAAGTAGGTCACAGACTGTAGATTAAGAAGAGACGGATATAGTGCTTTAAATACACAAGGGTATGCGAGTTACTAGAGCGGTGGTCAGTAGCTATGAAGGAAACACCAGGAAGTGATACCGCCCACTCACTGAACGAGGAAGTGAAACTACACCTTGCTTTGTTGGCTGTTTTTTGTGTTCTATATTTAGATGTGAAACTGAAAGGCAGGAATTTACCCATTACTATAATGTTAAAGGGTTTATATATAGGGAGAGTATGAATGAGTGGTAAATTCCAGATTTATTTTGATACAAATTCACGTGTAGTGCTCATTTTAATTCAAAGTACTCATTTTATCATATGTACATAAAATCTTCATGCCAATCAATTGTTGCATTTGGTATTATTGTAACATACAGCTTGGTGTGGTTGTATTTTGTCCAAAAAAATTACGCATTTGTAAATATTTTACATATTTTGTATACAATATTTTTATTGCAAATGTAGCTCATTGTAAATAAAGTACAAGTAATACCCCAAAAAAAAAAAAAAAAAA 1590-1614 610 671
611 Cg_MannBind_R AGTGTTTACGAAATATCCCGTGC 3/23/2010
610 Cg_Rel1_R CAGTGAGTGGGCGGTATCACTTCCT 5/26/2009 25 56.00 60.00 C.gigas Transcription Factor Rel 1 mRNA AY039648 GAATATACAACTTTGGAAAGTCCAACTCCTGAAATATACTCAGTGTGGTAAAATTTGTGTCTATACTGACATGGCTGAGCTCAACTTTGGATACGATAACCCGATGGGTTTGGGAAGTAACGACTTGAGGCTTCTAATGGATGGGAACCATGAATTATTAACAAATTTTGACCCAGCAGATAATGACCTGGTTCAACTGATAACAGCACAAAATCAGGAATCATTCATGACCCCTCAAATTCCTGTGACTCAACCCCAACCCCCCAAGCCACAGAAACAGACAACGCACAGAGGAACCCCCCACAAAACGCAAGACGGAATATATGTTGAGATCGTAGAACAGCCCAAGCAGAGAGGGCTGCGGTTCCGCTACGAGTGTGAGGGGAGATCAGCGGGCAGCATTCCTGGTGAAGGCAGCACCTCTGAGAAGAAGACCTTTCCAACCATTAAGATTCACAACTACACTGGCACAGCGGTGATAGTGGTCTCCTGTGTGACCAAAGATCAGCCGTACGAACCCCACCCCCACAACCTAGTGGGCAGGGACTGCAAAAGGGGGGTCTGTACCCTAAAGGTCAAGGACACCAACGTCATCAGTTTCCCACACCTCGGAATACAGTGTGCCAAAAAGAAAGATGTGGAAAATAACCTGAAACAGAGAAAAGAAATCAACGTGGATCCATTCCAGAGTGGTTTCAAACACTTGAACAAAATCAACAGTATAGATCTTAATGTGGTCCGTCTGTGTTTCCAAGTATTCCTGCCAGATGAAAATGGAAAAATCACCCGCATTGTTCCTCCCGTTGTATCACATTGTATTCATGATAAAAAGTCATTGAACGAGTTGGTAATCTGCCGAGTAGACCGACACTCGGGGAAGGCAAAGGGAGGTGATGAGGTTTTCCTGCTGTGTGAGAAAATCAACAGAGATGATATTGTGGTCCGGTTCTATGAGGAGACAGATTGTGGAGAATGTGTGTGGGAAGACTTTGCCGACTTCAGCACAAACGACATCCACAGACAGTACGCCATTGTCTTCCGCACACCACCTTACAAAGACACAATGATCACACGGCCAAAGGAGGTCAAAATGCAGCTCAAACGCAACAATGAACCCGAAACCAGCGACTCAATCCCATTCATTTACATGCCTGAAGACCCAGATCCTGACCGAATCATGGAGAAAAGAAAAAGGAAGGCTGATCAGCTGAAAAACTGGGGATTTGATATGAATGTCTCTGGTGAAGACATCAAGCAGAGGCTGAAGATAAAGGCGACCAAGTCCAGGATCAAGCAAGAAGTGCCTGAAGTCCCTCCCTACACCGTGGAGAATCTTCTGGGTGGGGCCCATCAGATGCCGCCAGTGTCCAATGTCACCACCACCCACACAAAGGACGGCACGTCCCTCAATGTAAGGACCCTGGACAACACAACCATGGGAAATGTGACCATTACCCCCACGGAGAGTGTTCGTCAACAGCTCGCTAACCTGCCCGACGACGTGCAAATCAAACTACTGCAGAATCTGGCCGTGCGTAAACTCCAGGAGGAGGCCACAAGCCGTATCAACCAGCCCGGTCAGCCCCTGGAAAAGGACCACAGCACCTTCCTCCAGTCTCTTCTCGGTGGAGGCATGGGGATGCCACAGAATTCAAACCCTGCACAACTGCTGAACCAGAACCTCATGATGGGAGGTCAGGCAATGGGTCAGTGCTCGGGGATGGACCAGGAGAATGTAGACTTAATGCTTCAGGCTTACCTTGGTGATCAGGATCAGAACATGTCCTTCGACAGCTTCGGCTCAAACATTGGAAACATGAACTTTGACCCCTCAGTGGGAGCCAATCTTAATGTGACAAATGATCAGGGAGGGTTAGACGAGACAAAGACAGCTGTCCAGTCGCTGGGCCAGTCCTGAGGGCCCTCTGACAGAGGCATTGTTATTCGTATTGTTACGTTATTATGCGGGTTATGATTTCATTTCCTCACTGGATGCCCTCCAGTTTAAATTTCTGGGTGAAAATCTGTCCTTCAAGGTGAAAGACAGATGACACATACCTATGTGCATGTTAGCCCACGTATAGCATGCTCAGCAGGAATAACTTGCTTATTCGGGTGGAAATTATTCTAAGTAGGTCACAGACTGTAGATTAAGAAGAGACGGATATAGTGCTTTAAATACACAAGGGTATGCGAGTTACTAGAGCGGTGGTCAGTAGCTATGAAGGAAACACCAGGAAGTGATACCGCCCACTCACTGAACGAGGAAGTGAAACTACACCTTGCTTTGTTGGCTGTTTTTTGTGTTCTATATTTAGATGTGAAACTGAAAGGCAGGAATTTACCCATTACTATAATGTTAAAGGGTTTATATATAGGGAGAGTATGAATGAGTGGTAAATTCCAGATTTATTTTGATACAAATTCACGTGTAGTGCTCATTTTAATTCAAAGTACTCATTTTATCATATGTACATAAAATCTTCATGCCAATCAATTGTTGCATTTGGTATTATTGTAACATACAGCTTGGTGTGGTTGTATTTTGTCCAAAAAAATTACGCATTTGTAAATATTTTACATATTTTGTATACAATATTTTTATTGCAAATGTAGCTCATTGTAAATAAAGTACAAGTAATACCCCAAAAAAAAAAAAAAAAAA 2236-2260 611 671
610 Cg_CompC3_F ATGGAGAAGGCCAAACAGCG 3/23/2010
609 Cg_AURKA_F ATGGGGCTGACAGGGGAACTCAAAA 5/26/2009 25 52.00 60.00 C.gigas AURKA NM_198433 ACAAGGCAGCCUCGCUCGAGCGCAGGCCAAUCGGCUUUCUAGCUAGAGGGUUUAACUCCUAUUUAAAAAGAAGAACCUUUGAAUUCUAACGGCUGAGCUCUUGGAAGACUUGGGUCCUUGGGUCGCAGGUGGGAGCCGACGGGUGGGUAGACCGUGGGGGAUAUCUCAGUGGCGGACGAGGACGGCGGGGACAAGGGGCGGCUGGUCGGAGUGGCGGAGCGUCAAGUCCCCUGUCGGUUCCUCCGUCCCUGAGUGUCCUUGGCGCUGCCUUGUGCCCGCCCAGCGCCUUUGCAUCCGCUCCUGGGCACCGAGGCGCCCUGUAGGAUACUGCUUGUUACUUAUUACAGCUAGAGGGUCUCACUCCAUUGCCCAGGCCAGAGUGCGGGGAUAUUUGAUAAGAAACUUCAGUGAAGGCCGGGCGCGGUGGCUCAUGCCCGUAAUCCCAGCAUUUUCGGAGGCCGAGGCUGGAGUGCAAUGGUGUGAUCUCAGCUCACUGCAACCUCUGCUUCCUGGGUUUAAGUGAUUCUCCUGCCUCAGCCUCCCGAGUAGCUGGGAUUACAGGCAUCAUGGACCGAUCUAAAGAAAACUGCAUUUCAGGACCUGUUAAGGCUACAGCUCCAGUUGGAGGUCCAAAACGUGUUCUCGUGACUCAGCAAUUUCCUUGUCAGAAUCCAUUACCUGUAAAUAGUGGCCAGGCUCAGCGGGUCUUGUGUCCUUCAAAUUCUUCCCAGCGCAUUCCUUUGCAAGCACAAAAGCUUGUCUCCAGUCACAAGCCGGUUCAGAAUCAGAAGCAGAAGCAAUUGCAGGCAACCAGUGUACCUCAUCCUGUCUCCAGGCCACUGAAUAACACCCAAAAGAGCAAGCAGCCCCUGCCAUCGGCACCUGAAAAUAAUCCUGAGGAGGAACUGGCAUCAAAACAGAAAAAUGAAGAAUCAAAAAAGAGGCAGUGGGCUUUGGAAGACUUUGAAAUUGGUCGCCCUCUGGGUAAAGGAAAGUUUGGUAAUGUUUAUUUGGCAAGAGAAAAGCAAAGCAAGUUUAUUCUGGCUCUUAAAGUGUUAUUUAAAGCUCAGCUGGAGAAAGCCGGAGUGGAGCAUCAGCUCAGAAGAGAAGUAGAAAUACAGUCCCACCUUCGGCAUCCUAAUAUUCUUAGACUGUAUGGUUAUUUCCAUGAUGCUACCAGAGUCUACCUAAUUCUGGAAUAUGCACCACUUGGAACAGUUUAUAGAGAACUUCAGAAACUUUCAAAGUUUGAUGAGCAGAGAACUGCUACUUAUAUAACAGAAUUGGCAAAUGCCCUGUCUUACUGUCAUUCGAAGAGAGUUAUUCAUAGAGACAUUAAGCCAGAGAACUUACUUCUUGGAUCAGCUGGAGAGCUUAAAAUUGCAGAUUUUGGGUGGUCAGUACAUGCUCCAUCUUCCAGGAGGACCACUCUCUGUGGCACCCUGGACUACCUGCCCCCUGAAAUGAUUGAAGGUCGGAUGCAUGAUGAGAAGGUGGAUCUCUGGAGCCUUGGAGUUCUUUGCUAUGAAUUUUUAGUUGGGAAGCCUCCUUUUGAGGCAAACACAUACCAAGAGACCUACAAAAGAAUAUCACGGGUUGAAUUCACAUUCCCUGACUUUGUAACAGAGGGAGCCAGGGACCUCAUUUCAAGACUGUUGAAGCAUAAUCCCAGCCAGAGGCCAAUGCUCAGAGAAGUACUUGAACACCCCUGGAUCACAGCAAAUUCAUCAAAACCAUCAAAUUGCCAAAACAAAGAAUCAGCUAGCAAACAGUCUUAGGAAUCGUGCAGGGGGAGAAAUCCUUGAGCCAGGGCUGCCAUAUAACCUGACAGGAACAUGCUACUGAAGUUUAUUUUACCAUUGACUGCUGCCCUCAAUCUAGAACGCUACACAAGAAAUAUUUGUUUUACUCAGCAGGUGUGCCUUAACCUCCCUAUUCAGAAAGCUCCACAUCAAUAAACAUGACACUCUGAAGUGAAAGUAGCCACGAGAAUUGUGCUACUUAUACUGGUUCAUAAUCUGGAGGCAAGGUUCGACUGCAGCCGCCCCGUCAGCCUGUGCUAGGCAUGGUGUCUUCACAGGAGGCAAAUCCAGAGCCUGGCUGUGGGGAAAGUGACCACUCUGCCCUGACCCCGAUCAGUUAAGGAGCUGUGCAAUAACCUUCCUAGUACCUGAGUGAGUGUGUAACUUAUUGGGUUGGCGAAGCCUGGUAAAGCUGUUGGAAUGAGUAUGUGAUUCUUUUUAAGUAUGAAAAUAAAGAUAUAUGUACAGACUUGUAUUUUUUCUCUGGUGGCAUUCCUUUAGGAAUGCUGUGUGUCUGUCCGGCACCCCGGUAGGCCUGAUUGGGUUUCUAGUCCUCCUUAACCACUUAUCUCCCAUAUGAGAGUGUGAAAAAUAGGAACACGUGCUCUACCUCCAUUUAGGGAUUUGCUUGGGAUACAGAAGAGGCCAUGUGUCUCAGAGCUGUUAAGGGCUUAUUUUUUUAAAACAUUGGAGUCAUAGCAUGUGUGUAAACUUUAAAUAUGCAAAUAAAUAAGUAUCUAUGUCUAAAAAAA 155-179 608 138
609 Cg_CompC3_R TCTCTCTGATCTCATCGTCCGAA 3/23/2010
608 Cg_AURKA_R ACGCTCATCATGAAGCTGTCCCTCA 5/26/2009 25 52.00 60.00 C.gigas AURKA NM_198433 ACAAGGCAGCCUCGCUCGAGCGCAGGCCAAUCGGCUUUCUAGCUAGAGGGUUUAACUCCUAUUUAAAAAGAAGAACCUUUGAAUUCUAACGGCUGAGCUCUUGGAAGACUUGGGUCCUUGGGUCGCAGGUGGGAGCCGACGGGUGGGUAGACCGUGGGGGAUAUCUCAGUGGCGGACGAGGACGGCGGGGACAAGGGGCGGCUGGUCGGAGUGGCGGAGCGUCAAGUCCCCUGUCGGUUCCUCCGUCCCUGAGUGUCCUUGGCGCUGCCUUGUGCCCGCCCAGCGCCUUUGCAUCCGCUCCUGGGCACCGAGGCGCCCUGUAGGAUACUGCUUGUUACUUAUUACAGCUAGAGGGUCUCACUCCAUUGCCCAGGCCAGAGUGCGGGGAUAUUUGAUAAGAAACUUCAGUGAAGGCCGGGCGCGGUGGCUCAUGCCCGUAAUCCCAGCAUUUUCGGAGGCCGAGGCUGGAGUGCAAUGGUGUGAUCUCAGCUCACUGCAACCUCUGCUUCCUGGGUUUAAGUGAUUCUCCUGCCUCAGCCUCCCGAGUAGCUGGGAUUACAGGCAUCAUGGACCGAUCUAAAGAAAACUGCAUUUCAGGACCUGUUAAGGCUACAGCUCCAGUUGGAGGUCCAAAACGUGUUCUCGUGACUCAGCAAUUUCCUUGUCAGAAUCCAUUACCUGUAAAUAGUGGCCAGGCUCAGCGGGUCUUGUGUCCUUCAAAUUCUUCCCAGCGCAUUCCUUUGCAAGCACAAAAGCUUGUCUCCAGUCACAAGCCGGUUCAGAAUCAGAAGCAGAAGCAAUUGCAGGCAACCAGUGUACCUCAUCCUGUCUCCAGGCCACUGAAUAACACCCAAAAGAGCAAGCAGCCCCUGCCAUCGGCACCUGAAAAUAAUCCUGAGGAGGAACUGGCAUCAAAACAGAAAAAUGAAGAAUCAAAAAAGAGGCAGUGGGCUUUGGAAGACUUUGAAAUUGGUCGCCCUCUGGGUAAAGGAAAGUUUGGUAAUGUUUAUUUGGCAAGAGAAAAGCAAAGCAAGUUUAUUCUGGCUCUUAAAGUGUUAUUUAAAGCUCAGCUGGAGAAAGCCGGAGUGGAGCAUCAGCUCAGAAGAGAAGUAGAAAUACAGUCCCACCUUCGGCAUCCUAAUAUUCUUAGACUGUAUGGUUAUUUCCAUGAUGCUACCAGAGUCUACCUAAUUCUGGAAUAUGCACCACUUGGAACAGUUUAUAGAGAACUUCAGAAACUUUCAAAGUUUGAUGAGCAGAGAACUGCUACUUAUAUAACAGAAUUGGCAAAUGCCCUGUCUUACUGUCAUUCGAAGAGAGUUAUUCAUAGAGACAUUAAGCCAGAGAACUUACUUCUUGGAUCAGCUGGAGAGCUUAAAAUUGCAGAUUUUGGGUGGUCAGUACAUGCUCCAUCUUCCAGGAGGACCACUCUCUGUGGCACCCUGGACUACCUGCCCCCUGAAAUGAUUGAAGGUCGGAUGCAUGAUGAGAAGGUGGAUCUCUGGAGCCUUGGAGUUCUUUGCUAUGAAUUUUUAGUUGGGAAGCCUCCUUUUGAGGCAAACACAUACCAAGAGACCUACAAAAGAAUAUCACGGGUUGAAUUCACAUUCCCUGACUUUGUAACAGAGGGAGCCAGGGACCUCAUUUCAAGACUGUUGAAGCAUAAUCCCAGCCAGAGGCCAAUGCUCAGAGAAGUACUUGAACACCCCUGGAUCACAGCAAAUUCAUCAAAACCAUCAAAUUGCCAAAACAAAGAAUCAGCUAGCAAACAGUCUUAGGAAUCGUGCAGGGGGAGAAAUCCUUGAGCCAGGGCUGCCAUAUAACCUGACAGGAACAUGCUACUGAAGUUUAUUUUACCAUUGACUGCUGCCCUCAAUCUAGAACGCUACACAAGAAAUAUUUGUUUUACUCAGCAGGUGUGCCUUAACCUCCCUAUUCAGAAAGCUCCACAUCAAUAAACAUGACACUCUGAAGUGAAAGUAGCCACGAGAAUUGUGCUACUUAUACUGGUUCAUAAUCUGGAGGCAAGGUUCGACUGCAGCCGCCCCGUCAGCCUGUGCUAGGCAUGGUGUCUUCACAGGAGGCAAAUCCAGAGCCUGGCUGUGGGGAAAGUGACCACUCUGCCCUGACCCCGAUCAGUUAAGGAGCUGUGCAAUAACCUUCCUAGUACCUGAGUGAGUGUGUAACUUAUUGGGUUGGCGAAGCCUGGUAAAGCUGUUGGAAUGAGUAUGUGAUUCUUUUUAAGUAUGAAAAUAAAGAUAUAUGUACAGACUUGUAUUUUUUCUCUGGUGGCAUUCCUUUAGGAAUGCUGUGUGUCUGUCCGGCACCCCGGUAGGCCUGAUUGGGUUUCUAGUCCUCCUUAACCACUUAUCUCCCAUAUGAGAGUGUGAAAAAUAGGAACACGUGCUCUACCUCCAUUUAGGGAUUUGCUUGGGAUACAGAAGAGGCCAUGUGUCUCAGAGCUGUUAAGGGCUUAUUUUUUUAAAACAUUGGAGUCAUAGCAUGUGUGUAAACUUUAAAUAUGCAAAUAAAUAAGUAUCUAUGUCUAAAAAAA 268-292 609 138
608 Cg_Properdin_F TGGATGCATCAACCGCCAAA 3/23/2010
607 27F AGAGTTTGATCMTGGCTCAG 5/26/2009 20 bacteria 16s (universal) 606 Sequence from Sara Kelly 5/21/2009 45712420
607 Cg_Properdin_R TATGCACGCTTCAGCTTCGT 3/23/2010
606 1492R TACGGYTACCTTGTTACGACTT 5/26/2009 21 bacteria 16s (universal) 607 Sequence from Sara Kelly 5/21/2009 45712421
606 Cg_CompRecep_F ACAAGCGTGGACTTTGGTACTG 3/23/2010
605 Cg_HIF1a_F GGATCAGATGACCTTTTTGA 5/8/2009 20 40.00 55.00 C.gigas hypoxia induced factor 1a AB289857
605 Cg_CompRecep_R GGACTGAGCCAGTTAGACAGC 3/23/2010
604 Cg_HIF1a_R GCAATCAAGTTTTTGTAGGC 5/8/2009 20 40.00 55.00 C.gigas hypoxia induced factor 1a
604 Cg_Ficolin_F TGTGGATCCCCAGTCGTACC 3/23/2010
603 Cg_MTIV_F GTACATGTAAAGGCAAAGCC 5/8/2009 20 35.00 55.00 C.gigas metallothionein IV AM265501
603 Cg_Ficolin_R TCTGGAGAGAGAGCTCATGC 3/23/2010 AM050547
602 Cg_MTIV_R ATAAGCGAATAGCCAATCAA 5/8/2009 20 40.00 55.00 C.gigas metallothionein IV
603 salmo_DNMT3 R CCCCCTATGGCAGGGCTGGT SA 10/20/2010 20 70.00 59.96 Salmonidae DNMT3a DW554405 368
602 CgDefen_F TTGCTGAGTAGAATGAAAGTATTCG 3/15/2010 AM050547 50646173
601 Cg_SOD_F GGACTTCAGATCCACGAGTA 5/8/2009 20 50.00 55.00 C.gigas superoxide dismutase DQ010420
602 salmo_danio_DNMT3b R GCCTGGCCAGCCGACTCATG SA 10/20/2010 20 70.00 60.11 Salmonidae/D. reio DNMT3b GE838101 274
601 CgDefen_R CAGATTGCATAAAGATTTATTACACG 3/15/2010 50646174
600 Cg_SOD_R GATAGTGAGCCAATCGAAAG 5/8/2009 20 45.00 55.00 C.gigas superoxide dismutase
601 salmo_danio_DNMT3b F TGGGGGAACCTGCCTGGCAT SA 10/20/2010 20 65.00 60.11 Salmonidae/D.reio DNMT3b GE838101 274
600 Cg-Prp_F atgttctctc ggaggattta 3/15/2010
599 Cg_HSP70_F AGATTGACGTGGAGTTTGAC 5/8/2009 20 45.00 55.00 C.gigas heat shock protein 70 AB122063
599 Cg-Prp_R gaccaagaccagagggttga 3/15/2010
598 Cg_HSP70_R CCTTACTCAGACGACCTTTG 5/8/2009 50 50.00 55.00 C.gigas heat shock protein 70
598 Cg-Defh2_F GTATTCGTACTTCTTACATTAGC 3/15/2010
597 Cg_Vtg_F GACCTGTCCAGACCTATCAA 5/8/2009 20 50.00 55.00 C.gigas vitellogenin
597 Cg-Defh2_R GCTCTACAACCGATGGACCT 3/15/2010
596 Cg_Vtg_R TGAGTTCCTTCCTCTTCTCA 5/8/2009 20 45.00 55.00 C.gigas vitellogenin
596 Cg-_F AAGACCCCCGGCTTACAGACTAGAATC 3/15/2010
595 Sea_Actin_Rv5 CAGCTTATCCTGTTCAATA 4/14/2009 25 36.80 46.60 Sea scallop actin
595 Cg-_R AATTATTGCGGCCGCGTCTCAGCCACTGTATTTCAG 3/15/2010
594 Sea_Actin_Rv4 GCCTCCGGACAGGACAGTGTT 4/14/2009 25 61.90 61.60 Sea scallop actin
593 H.discus_806_F GATGATGGAGGACGAGAGGA 4/9/2009 25 55.00 55.60 H.discus TOLLIP CX726806 GGAATTCGGCACGAGGGTATCTCGGGGCAACCCACACAGATGATGGAGGACGAGAGGATAGCCCAGATCCTGCAGGCTCAGCAGCAAGCAGGGGTGGGGATGATGCCTGCCAACATAGCTGGCAGACTCAGCATTACTGTCGTTCAGGCCAAGCTGGCGAAGAACTATGGTCTGACCAAGATGGACCCCTACTGCAGAATCAGACTGGGGCACACGGTGTTTGAGACGCCCACAGCTTGTAATGGCGCCAAAAATCCCAGATGGAACAAGACTGTGCAGACGTATCTCCCGAATGGAGTGGATTCGATGTATATCGAGATCTTTGATGAGAGGTCCTTCACGGTGGATGACCGGATTGCATGGGCCCACGTCACTATTCCGGCATCGTCCCTGAATGGCGAAACTTCCGATGACTGGTATCCTCTGAGTGGTCGCCAAGGAGACGAAAAGGAGGGAATGATCAACCTTGTGATGAGCTTCACAGCTGCGGCAGATATGCCAGCATCAGCGTTCACGTATGCGCCCCCCACGTTCCAGACAGTTCCCGCTATGATGCCTATGTACTACCCAGCAGTGCAGCCTGTCGTTGTTGGAGTTGCACCAGGGATGCAGCCCGGTGTGCAGCCGGNGATGGTGTACCCACAGCAGATGGTGCAGCAGCAGCAGCAACAGCAACGAGGACCTTTGTACACAGAACAGGACCTCCAACAAGTCAAGGACATGTTCCCAAATATGGA 39-58 592 133 Replaces Cullen's 866F primer. Product (not primer) will include intron if gDNA present.
592 Ab_866_Rv GACCATAGTTCTTCGCCAGC 4/7/2009 25 55.00 55.80 H.discus TOLLIP CX726806 ggaattcggcacgagggtatctcggggcaacccacacagatgatggaggacgagaggatagcccagatcctgcaggctcagcagcaagcaggggtggggatgatgcctgccaacatagctggcagactcagcattactgtcgttcaggccaagctggcgaagaactatggtctgaccaagatggacccctactgcagaatcagactggggcacacggtgtttgagacgcccacagcttgtaatggcgccaaaaatcccagatggaacaagactgtgcagacgtatctcccgaatggagtggattcgatgtatatcgagatctttgatgagaggtccttcacggtggatgaccggattgcatgggcccacgtcactattccggcatcgtccctgaatggcgaaacttccgatgactggtatcctctgagtggtcgccaaggagacgaaaaggagggaatgatcaaccttgtgatgagcttcacagctgcggcagatatgccagcatcagcgttcacgtatgcgccccccacgttccagacagttcccgctatgatgcctatgtactacccagcagtgcagcctgtcgttgttggagttgcaccagggatgcagcccggtgtgcagccggngatggtgtacccacagcagatggtgcagcagcagcagcaacagcaacgaggacctttgtacacagaacaggacctccaacaagtcaaggacatgttcccaaatatgga 172-153 593 133 Use with Cullen's 866F primer. Product (not primer) will include intron if gDNA present.
591 EukA CTGGTTGATCCTGCCAG 4/7/2009 25 58.80 52.90
590 EukB TGATCCTTCYGCAGGTTC 4/7/2009 25 52.80 53.20
589 Octo_Hedgehog_R GCTCGACCCTCGTAGTGAAG 20 60.00 Octopus bimaculoides Hedgehog
588 Octo_18S_F ATGGCCGTTCTTAGTTGGTG 20 50.00 Octopus vulgaris 18S Ribosomal RNA
587 Octo_18S_R ACGCTACCGGAAAAGCACTA 20 50.00 Octopus vulgaris 18S Ribosomal RNA
586 Octo_Hedgehog_F TTGTGTTTCGCGATGAAGAG 20 45.00 Octopus bimaculoides Hedgehog
585 Octo_OTX_F CTGTACCCTCGGTCAACGAT 20 55.00 Octopus bimaculoides Orthodenticle-like protein
584 Octo_OTX_R CTGGTTGGTGGACATCACAG 20 55.00 Octopus bimaculoides Orthodenticle-like protein
583 Bay_Actin_Rv2 TGTCCTTAGTTGTCCATACGGTTAG 3/5/2009 25 44.00 56.00 Bay scallop
582 Sea_Actin_Rv3 GTATACATAGCTGTCCATATACTTTGGT 3/6/2009 25 35.70 54.20 Sea scallop