SEARCH

Sequence

GENOMES

Enrichment analyses (GO, KEGG, KOG, NR, SwissProt) were conducted,
including CDS regions and upstream 2k sequences.

Darmor - A02p07520.1_BnaDAR

CDS Sequence (766 bp)
ATGGTCGGTCAAAACTCTAGCCATGTTATCATCATCATCTTCACCAAACCCGAACACATTCATAACTTCA
TATATCGTGGAAGTCTTCGTCTGAGGGACAAGAATCCTAGTTTGTGCCCGAAGCTTCAAGCTATGGCTGT
CACCAAGATTTATATAGTGTACTACTCGTTGCACGGACACGTGGAGACAATGGCAAGAGAGGTACTCAGA
GGAGCGAACGAAGTTCCAGACGTGGAGGCAACTCTCTGGCAAATACCAGAGACGTTACCTGAGAAGATAC
TTGAGAAAGTGCAGGCTGCTCCAAGACCGGACGATGTGCCGGAGATTCAAGGGGAGCAGCTAGGTGAAGC
TGATGGGTTCATGTTCGGTTTCCCTTCCAGGTTTGGAGTGATGGCGTCACAGGTCATGACGTTCTTTGAC
AACACAAGTGATCTCTGGACTTCACAGGCTCTCGCTGGGAAACCCGCAGGGATCTTCTGGAGCACGGGGT
TCCACGGTGGAGGTCAAGAACTCACTGCATTGACGGCAGTGACGAAACTGGCTCATCATGGGATGATATT
TGTACCGTTAGGGTACACGTTTGGTAAAGGTATGTATGAGATGGGAGAGGTGAAAGGTGGATCGCCGTAT
GGATCAGGGACTTATGCAGCTGATGGGTCGCGCGAGCCGACTGAGCTGGAGATTGAGCAGGCAAATTACC
ATGGTAAGTACTTTGCAGGAATAGCCAAGAAACTCAAGAAGCGGTCTCCTGTCTAG
Upstream Sequence
ATGGTCGGTCAAAACTCTAGCCATGTTATCATCATCATCTTCACCAAACCCGAACACATTCATAACTTCA
TATATCGTGGAAGTCTTCGTCTGAGGGACAAGAATCCTAGTTTGTGCCCGAAGCTTCAAGCTATGGCTGT
CACCAAGATTTATATAGTGTACTACTCGTTGCACGGACACGTGGAGACAATGGCAAGAGAGGTACTCAGA
GGAGCGAACGAAGTTCCAGACGTGGAGGCAACTCTCTGGCAAATACCAGAGACGTTACCTGAGAAGATAC
TTGAGAAAGTGCAGGCTGCTCCAAGACCGGACGATGTGCCGGAGATTCAAGGGGAGCAGCTAGGTGAAGC
TGATGGGTTCATGTTCGGTTTCCCTTCCAGGTTTGGAGTGATGGCGTCACAGGTCATGACGTTCTTTGAC
AACACAAGTGATCTCTGGACTTCACAGGCTCTCGCTGGGAAACCCGCAGGGATCTTCTGGAGCACGGGGT
TCCACGGTGGAGGTCAAGAACTCACTGCATTGACGGCAGTGACGAAACTGGCTCATCATGGGATGATATT
TGTACCGTTAGGGTACACGTTTGGTAAAGGTATGTATGAGATGGGAGAGGTGAAAGGTGGATCGCCGTAT
GGATCAGGGACTTATGCAGCTGATGGGTCGCGCGAGCCGACTGAGCTGGAGATTGAGCAGGCAAATTACC
ATGGTAAGTACTTTGCAGGAATAGCCAAGAAACTCAAGAAGCGGTCTCCTGTCTAGAAAGGTATTACTCT
GTGTTTTTCCTGTACCTATCAATCTGTAAATGTAAAGGAGAAGACGTGAATAAGATCTACATATACGATA
CAAAGGAAACATGTGTAAGCTAATGATCAACAAATCTTATCTCCCATAGCTTATAGTTTTGTCAACTGAG
AAACTATTAATCATGTAAAGCATTACCACTTTGATATCAAT
Downstream Sequence
GTTCCTGATCATTCCCGAAGCTAATTCCTCTCCTCCTTGGCTTGGCTCTTCGAGAAAGGT
TAGTTATTTTCTTAGAACTTGTTATATTTAAGTCTGATTCTAATTTGTAACAGATCGTGG
AAGTCTTCGTCTGAGGGACAAGAATCCTAGTTTGTGCCCGAAGCTTCAAGCTATGGCTGT
CACCAAGATTTATATAGTGTGAGTCTTGATTCTATCTGTTCAGTCAAGATTCTGTACCGG
TTATCATACCGGTTTGGTTTTAACGATCCGGTTCTCTGTTTTCCTCGTAGGTACTACTCG
TTGCACGGACACGTGGAGACAATGGCAAGAGAGGTACTCAGAGGAGCGAACGAAGTTCCA
GACGTGGAGGCAACTCTCTGGCAAATACCAGAGACGTTACCTGAGAAGATACTTGAGAAA
GTGCAGGCTGCTCCAAGACCGGACGATGTGCCGGAGATTCAAGGGGAGCAGCTAGGTGAA
GCTGATGGGTTCATGTTCGGTTTCCCTTCCAGGTTTGGAGTGATGGCGTCACAGGTCATG
ACGTTCTTTGACAACACAAGTGATCTCTGGACTTCACAGGCTCTCGCTGGGAAACCCGCA
GGGATCTTCTGGAGCACGGGGTTCCACGGTGGAGGTCAAGAACTCACTGCGTAAGAACAT
AGTCATGAAGTAGCACATAAGCAATGTTAGTAGAACATAGTAGCATAGCCAATGCCGTCT
CAAATTACTTTTAGGCTCAGAAAAATATTAATGGTATATTTAACAAAATAATGATGTATC
TTTGTATCTTTTGAAGTTATAATCATTAATTAAATTTAGAAGTATATATCTGAAAAGTTA
AAAATTTAGACTTTAATTTCTACATTTATTTTTAAACAATTATAATTTATATTTAGATTT
TGTTAGACCGCTTCACTTTCACGTGCTAAAATAGCTTTGAGCGTAAGTGATTGGTTTTGT
TGTGTGTAGATTGACGGCAGTGACGAAACTGGCTCATCATGGGATGATATTTGTACCGTT
AGGGTACACGTTTGGTAAAGGTATGTATGAGATGGGAGAGGTGAAAGGTGGATCGCCGTA
TGGATCAGGGACTTATGCAGCTGATGGGTCGCGCGAGCCGACTGAGCTGGAGATTGAGCA
GGCAAATTACCATGGTAAGTACTTTGCAGGAATAGCCAAGAAACTCAAGAAGCGGTCTCC
TGTCTAGAAAGGTATTACTCTGTGTTTTTCCTGTACCTATCAATCTGTAAATGTAAAGGA
GAAGACGTGAATAAGATCTACATATACGATACAAAGGAAACATGTGTAAGCTAATGATCA
ACAAATCTTATCTCCCATAGCTTATAGTTTTGTCAACTGAGAAACTATTAATCATGTAAA
GCATTACCACTTTGATATCAATATACATCATACCTATTTCTCCTACACGTCGTTGTGATC
TTGCCTTGATATCAATTCTGCTTTGTTTCATCATCTTCCTCTTTGCTCTCTTTACGTATT
CACCACAATGGTACACTTTGTGACCCCACCCGCAACACCTCAGCTTCATTCAGATTATCT
GCAACTTATGAGAAAGAAAAATGATGAACTAATGAATGTGTAAGAACAAAACTTAGAAAG
GGTCTCTAGACTAACCAACAGCAAGAGTGGTACTTCTCTGATTATATGGAGTTAATGCTC
TCTATCTTCTGCTTCACAGATGTCAGCTAAAAAAATACCTGAGATGTTCAGCTTCAAGTC
AACTTAGTTAAGAAGAAGAATCTCAAGAAACAAGTGAAGTCATTATGAGCTAAAACAGTT
CAAGTGGAGATGAACCCTAACTCAGTGATCATCTGAATACCAAAAAAAAAAAAAAAACAC
AAAGCCTAATTCTTACACCATAAGAACTAACCACTAGTGTGATGACCAAATAGAATCAAG
CTACAGAATCTGAAAGTGATTTTCAGAGATTTCACTTCAAACAAGACGGAACCTTCAAGT
ATATACTCTTACATGCAGAC
mRNA Sequence
ATGGTCGGTCAAAACTCTAGCCATGTTATCATCATCATCTTCACCAAACCCGAACACATTCATAACTTCA
TATATCGTGGAAGTCTTCGTCTGAGGGACAAGAATCCTAGTTTGTGCCCGAAGCTTCAAGCTATGGCTGT
CACCAAGATTTATATAGTGTACTACTCGTTGCACGGACACGTGGAGACAATGGCAAGAGAGGTACTCAGA
GGAGCGAACGAAGTTCCAGACGTGGAGGCAACTCTCTGGCAAATACCAGAGACGTTACCTGAGAAGATAC
TTGAGAAAGTGCAGGCTGCTCCAAGACCGGACGATGTGCCGGAGATTCAAGGGGAGCAGCTAGGTGAAGC
TGATGGGTTCATGTTCGGTTTCCCTTCCAGGTTTGGAGTGATGGCGTCACAGGTCATGACGTTCTTTGAC
AACACAAGTGATCTCTGGACTTCACAGGCTCTCGCTGGGAAACCCGCAGGGATCTTCTGGAGCACGGGGT
TCCACGGTGGAGGTCAAGAACTCACTGCATTGACGGCAGTGACGAAACTGGCTCATCATGGGATGATATT
TGTACCGTTAGGGTACACGTTTGGTAAAGGTATGTATGAGATGGGAGAGGTGAAAGGTGGATCGCCGTAT
GGATCAGGGACTTATGCAGCTGATGGGTCGCGCGAGCCGACTGAGCTGGAGATTGAGCAGGCAAATTACC
ATGGTAAGTACTTTGCAGGAATAGCCAAGAAACTCAAGAAGCGGTCTCCTGTCTAGAAAGGTATTACTCT
GTGTTTTTCCTGTACCTATCAATCTGTAAATGTAAAGGAGAAGACGTGAATAAGATCTACATATACGATA
CAAAGGAAACATGTGTAAGCTAATGATCAACAAATCTTATCTCCCATAGCTTATAGTTTTGTCAACTGAG
AAACTATTAATCATGTAAAGCATTACCACTTTGATATCAAT
Pro Sequence
MVGQNSSHVIIIIFTKPEHIHNFIYRGSLRLRDKNPSLCPKLQAMAVTKIYIVYYSLHGHVETMAREVLR
GANEVPDVEATLWQIPETLPEKILEKVQAAPRPDDVPEIQGEQLGEADGFMFGFPSRFGVMASQVMTFFD
NTSDLWTSQALAGKPAGIFWSTGFHGGGQELTALTAVTKLAHHGMIFVPLGYTFGKGMYEMGEVKGGSPY
GSGTYAADGSREPTELEIEQANYHGKYFAGIAKKLKKRSPV