SEARCH

Sequence

GENOMES

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

Darmor - C02p41060.1_BnaDAR

CDS Sequence (2263 bp)
ATGGAGCCAAAAAATTTCTTCCGTTTGATTTTTCTCATAGTCACCGCCGGTTTCATCATCTCTTTCACTT
CCACTAACTTCCCCCACGCGCCGTCGTCTACCACGGGGCTTCTTGACTGCACCGACTCTTCCTCTTCACC
TCTTTGTGCATCAAGAAACTTCCTCTTCAACAAACAAAAACCACAATTTTCTAAACAAGATCCTAAACCA
AAACCCAAGAACCATGACCACTTGTCTGACACATTAAACCACCCTCTGGACCCACTCACTGTCATGGAGT
TTAACAAAGTCCGATCTCTCCTCTCCTCTGACGCGCTCTTCTCCTCAGGCGCACCACACGCGTTCCACTC
CATCGTTCTTGAAGAGCCGGAGAAGAATCTCGTTAGAGCATGGGAAAAAGGAAACCCACTTCCTCCGAGA
AAAGCTTCCGTCATCGCACGCGTTGGCCCTGACACGCACGTGCTAACCGTTGACCTTTCTTCTAGTCGGG
TGGACATAGTGGATAGTCCGGTTCCTGTTTCGGGTTACCCGATGATGACTCTAGAAGAAATGAACGAAGT
AACGTTCGCACCGTTTTCAAGCGCTGATGTGAACCGTACGATTGTTTCTCGTGGAGTTAATCTGACGGAT
GTGTATTGCTTCCCGTTATCAAGTGGCTGGTACGGTAGAAAAGAAGGAAATAAAAGGGTTATTAAAAGTC
AGTGTTACTCAAGCCAAGGTACTGCTAACTTCTACATGCGACCCATCGAAGGTTTAACTATTCTTATCGA
TTTAGATACAAAGCAAGTGATCGAGATAGTTGATACCGGTCCGAATATTCCCATACCCGGTTCAGCCAAT
ACTGAATACCGCTTCAAAAACCTAGGGACCACTGACAAAACACGAGGTCTTAACCCGATCTCGATCGAGC
AGCCACGTGGTCCAAGCTTCGTAATAGAAGACAACCATCTAGTGAAATGGGCAAATTGGGAATTTCATCT
AAAGCCTGACTCGAGAGCAGGTGTGGTATTATCACAAGTTAGAGTACATGATCCTGATACACAAGAGACA
CGTGAAGTGATGTACCAAGGGTTCGTGTCGGAGCTTTTTGTTCCGTACATGGATCCATCCGACGCGTGGT
ACTTCAAGACTTACATGGACGCAGGTGAATACGGGTTCGGTTTACAAGCCATGCCGCTTGTACCGCTTAA
TGATTGTCCACGAAACGCAGCCTATATGGACGGAGTTTTCACGACGGCTGATGGAACGCCATTTGTGAGA
GAGAATATGATTTGTATCTTCGAGCGTTACGCCGGAGATATTGGTTGGCGTCACTCGGAAAGCCCCATCA
GCGGTTTACCGATAAAGGAAGTGAGACCAAAGGTGACGTTAGTGGTACGAATGGCAGCTTCGGTAGGTAA
CTATGATTACATCATTGATTATGAGTTCCAAACTGATGGGCTAATCAAAACTAAGGTGGGACTTAGTGGA
ATTCTAATGGTGAAAGGGACATCATATCAAAACAAAAATCAAGTGAATAAAGATAAAGAAGGTAACGAAG
AAGAGCTTCACGGCACGCTTCTGGCTGAAAATATAATAGGAGTAATTCATGATCACTATGTCACTTTCTA
CCTTGACCTCGACGTCGATGGCCCGGACAATTCATTTCTCAAAGTGAACCTCAAGAGGCAGATGACTGAG
CCAGGTGAGTCTCCAAGGAAGAGTTACATGAAAGCGGTTAAGAACATTGTGAAAACCGAAAAGGACGCTC
AGATCAAACTTAGTTTGTACGATCCATCTGAATTCCACGTTGTCAATTCTGCTAAAACCACCCGGGTCGG
TAACCCCACGGGTTACAAGATCGTCCCTAGAGCCACGGCGGCTAGTTTGCTTGACCATGATGATCCTCCG
CAGAAGAGAGGAGCTTTTACCAATAATCAAATTTGGGTGACACCGTATAATAAGACCGAGAAATGGGCTG
CCGGTTTGTTCACTTACCAAAGCCATGGAGATGATACTCTTGCAGTTTGGTCAGACAGGGATAGAGACAT
AGAGAACACGGATATAGTTGTGTGGTACACACTCGGATTCCATCACGTTCCATGTCAAGAAGACTTTCCA
ATAATGCCTACAGTTTCTTCGAGTTTTGATTTGAAACCCGCAAATTTCTTCGAGCGCAATCCAATCCTTA
GGGCCGCTCCAAACTTCGAACATGATCTCCCGGTTTGTGAAGCTAAATATGTATCTGCTTGA
Upstream Sequence
ATGGAGCCAAAAAATTTCTTCCGTTTGATTTTTCTCATAGTCACCGCCGGTTTCATCATCTCTTTCACTT
CCACTAACTTCCCCCACGCGCCGTCGTCTACCACGGGGCTTCTTGACTGCACCGACTCTTCCTCTTCACC
TCTTTGTGCATCAAGAAACTTCCTCTTCAACAAACAAAAACCACAATTTTCTAAACAAGATCCTAAACCA
AAACCCAAGAACCATGACCACTTGTCTGACACATTAAACCACCCTCTGGACCCACTCACTGTCATGGAGT
TTAACAAAGTCCGATCTCTCCTCTCCTCTGACGCGCTCTTCTCCTCAGGCGCACCACACGCGTTCCACTC
CATCGTTCTTGAAGAGCCGGAGAAGAATCTCGTTAGAGCATGGGAAAAAGGAAACCCACTTCCTCCGAGA
AAAGCTTCCGTCATCGCACGCGTTGGCCCTGACACGCACGTGCTAACCGTTGACCTTTCTTCTAGTCGGG
TGGACATAGTGGATAGTCCGGTTCCTGTTTCGGGTTACCCGATGATGACTCTAGAAGAAATGAACGAAGT
AACGTTCGCACCGTTTTCAAGCGCTGATGTGAACCGTACGATTGTTTCTCGTGGAGTTAATCTGACGGAT
GTGTATTGCTTCCCGTTATCAAGTGGCTGGTACGGTAGAAAAGAAGGAAATAAAAGGGTTATTAAAAGTC
AGTGTTACTCAAGCCAAGGTACTGCTAACTTCTACATGCGACCCATCGAAGGTTTAACTATTCTTATCGA
TTTAGATACAAAGCAAGTGATCGAGATAGTTGATACCGGTCCGAATATTCCCATACCCGGTTCAGCCAAT
ACTGAATACCGCTTCAAAAACCTAGGGACCACTGACAAAACACGAGGTCTTAACCCGATCTCGATCGAGC
AGCCACGTGGTCCAAGCTTCGTAATAGAAGACAACCATCTAGTGAAATGGGCAAATTGGGAATTTCATCT
AAAGCCTGACTCGAGAGCAGGTGTGGTATTATCACAAGTTAGAGTACATGATCCTGATACACAAGAGACA
CGTGAAGTGATGTACCAAGGGTTCGTGTCGGAGCTTTTTGTTCCGTACATGGATCCATCCGACGCGTGGT
ACTTCAAGACTTACATGGACGCAGGTGAATACGGGTTCGGTTTACAAGCCATGCCGCTTGTACCGCTTAA
TGATTGTCCACGAAACGCAGCCTATATGGACGGAGTTTTCACGACGGCTGATGGAACGCCATTTGTGAGA
GAGAATATGATTTGTATCTTCGAGCGTTACGCCGGAGATATTGGTTGGCGTCACTCGGAAAGCCCCATCA
GCGGTTTACCGATAAAGGAAGTGAGACCAAAGGTGACGTTAGTGGTACGAATGGCAGCTTCGGTAGGTAA
CTATGATTACATCATTGATTATGAGTTCCAAACTGATGGGCTAATCAAAACTAAGGTGGGACTTAGTGGA
ATTCTAATGGTGAAAGGGACATCATATCAAAACAAAAATCAAGTGAATAAAGATAAAGAAGGTAACGAAG
AAGAGCTTCACGGCACGCTTCTGGCTGAAAATATAATAGGAGTAATTCATGATCACTATGTCACTTTCTA
CCTTGACCTCGACGTCGATGGCCCGGACAATTCATTTCTCAAAGTGAACCTCAAGAGGCAGATGACTGAG
CCAGGTGAGTCTCCAAGGAAGAGTTACATGAAAGCGGTTAAGAACATTGTGAAAACCGAAAAGGACGCTC
AGATCAAACTTAGTTTGTACGATCCATCTGAATTCCACGTTGTCAATTCTGCTAAAACCACCCGGGTCGG
TAACCCCACGGGTTACAAGATCGTCCCTAGAGCCACGGCGGCTAGTTTGCTTGACCATGATGATCCTCCG
CAGAAGAGAGGAGCTTTTACCAATAATCAAATTTGGGTGACACCGTATAATAAGACCGAGAAATGGGCTG
CCGGTTTGTTCACTTACCAAAGCCATGGAGATGATACTCTTGCAGTTTGGTCAGACAGGGATAGAGACAT
AGAGAACACGGATATAGTTGTGTGGTACACACTCGGATTCCATCACGTTCCATGTCAAGAAGACTTTCCA
ATAATGCCTACAGTTTCTTCGAGTTTTGATTTGAAACCCGCAAATTTCTTCGAGCGCAATCCAATCCTTA
GGGCCGCTCCAAACTTCGAACATGATCTCCCGGTTTGTGAAGCTAAATATGTATCTGCTTGAAATGAGTG
ACGTACGGAATAAAACTTATAGATTTTCCTTCTGTATTTTCGTGGTGCTTTAATTAGTCAAGACAATGTT
TGTTACGAGATGTAAACTCGAAACCGATGTAT
Downstream Sequence
GGTTAGTCCATTTGCTTATCTGTTTATAATTCAAAATTTACGTAGAAATAATTTATGGTT
ATAATAATTCAATTAAAAAACCTTGATGGTGTTACTTACACTTAAGATAAGTTACATTTT
GATTAAATAGATAAAGGAAGTGAGACCAAAGGTGACGTTAGTGGTACGAATGGCAGCTTC
GGTAGGTAACTATGATTACATCATTGATTATGAGTTCCAAACTGATGGGCTAATCAAAAC
TAAGGTACTATAATTTCTACTTTACAATATCTTGCAAAAATAAAGATTTTTTTAAGTTCC
GTGGAACAATGAATATTCGTTTTTGTCACAAACCACACAAATGTATGGACAATGACTAGG
TGGGACTTAGTGGAATTCTAATGGTGAAAGGGACATCATATCAAAACAAAAATCAAGTGA
ATAAAGATAAAGAAGGTAACGAAGAAGAGCTTCACGGCACGCTTCTGGCTGAAAATATAA
TAGGAGTAATTCATGATCACTATGTCACTTTCTACCTTGACCTCGACGTCGATGGCCCGG
ACAATTCATTTCTCAAAGTGAACCTCAAGAGGCAGATGACTGAGCCAGGTGAGTCTCCAA
GGAAGAGTTACATGAAAGCGGTTAAGAACATTGTGAAAACCGAAAAGGACGCTCAGATCA
AACTTAGTTTGTACGATCCATCTGAATTCCACGTTGTCAATTCTGCTAAAACCACCCGGG
TCGGTAACCCCACGGGTTACAAGATCGTCCCTAGAGCCACGGCGGCTAGTTTGCTTGACC
ATGATGATCCTCCGCAGAAGAGAGGAGCTTTTACCAATAATCAAATTTGGGTGACACCGT
ATAATAAGACCGAGAAATGGGCTGCCGGTTTGTTCACTTACCAAAGCCATGGAGATGATA
CTCTTGCAGTTTGGTCAGACAGGTAAATTAAATGAAAGTTTTAATTATTCATCATATAGT
TAAGATTTGATTGTTTTGTTTAATTTAATATTGGTGCTATACAGGGATAGAGACATAGAG
AACACGGATATAGTTGTGTGGTACACACTCGGATTCCATCACGTTCCATGTCAAGAAGAC
TTTCCAATAATGCCTACAGTTTCTTCGAGTTTTGATTTGAAACCCGCAAATTTCTTCGAG
CGCAATCCAATCCTTAGGGCCGCTCCAAACTTCGAACATGATCTCCCGGTTTGTGAAGCT
AAATATGTATCTGCTTGAAATGAGTGACGTACGGAATAAAACTTATAGATTTTCCTTCTG
TATTTTCGTGGTGCTTTAATTAGTCAAGACAATGTTTGTTACGAGATGTAAACTCGAAAC
CGATGTATATACATTAGAACTTCTATAAATTAAAAATGTTGGGATTGTGAAATTTTATTA
ATTTATATAAATTTATATAAATATTAATTTACAAAAGTTTCTTTATTTAGATTTTTTATT
TTAAGATATATTTATTATAAGATAAGAAAAATATTTGGTTTTAGTGTATAGAAATTAATT
GTTATTTTTCGAAATTTGATATTTATATTAATTTTATTTTATTATTTTGTATATATAATA
TATATTGTATAGAATTTAAATGTGGTTTTAGATATAATATTACTTAATCTCATCAAAAAT
ATATTAAGTGTTAAGAAAATATAAAGATAATTTCATTGTGAATATAAAACAAACAATATA
ATAATAGGTTCTTACTTATAAAAAATATGTATACATATAAATTATTAATTTATAATTTTA
ATGGGACCATATATTTACATAGAATTTTCTAAAAAACTATTATCTTATTATTTTATCGAT
TTATGTCAAATTTTGACCTGTCCCAAATTGGGACCGACAAAATTTATTAATTTATAGAGA
TTATTAATTTATCTAGTATTATTTTATAGAGGTTCTACTACGTATATGCAAATGTATATG
CGTGTGTGACCTTTTACTATTAAAATAAAGATTTTAATAATTGTTGATATACTTTTAAAT
TCAATTTTCTATGGGACCTT
mRNA Sequence
ATGGAGCCAAAAAATTTCTTCCGTTTGATTTTTCTCATAGTCACCGCCGGTTTCATCATCTCTTTCACTT
CCACTAACTTCCCCCACGCGCCGTCGTCTACCACGGGGCTTCTTGACTGCACCGACTCTTCCTCTTCACC
TCTTTGTGCATCAAGAAACTTCCTCTTCAACAAACAAAAACCACAATTTTCTAAACAAGATCCTAAACCA
AAACCCAAGAACCATGACCACTTGTCTGACACATTAAACCACCCTCTGGACCCACTCACTGTCATGGAGT
TTAACAAAGTCCGATCTCTCCTCTCCTCTGACGCGCTCTTCTCCTCAGGCGCACCACACGCGTTCCACTC
CATCGTTCTTGAAGAGCCGGAGAAGAATCTCGTTAGAGCATGGGAAAAAGGAAACCCACTTCCTCCGAGA
AAAGCTTCCGTCATCGCACGCGTTGGCCCTGACACGCACGTGCTAACCGTTGACCTTTCTTCTAGTCGGG
TGGACATAGTGGATAGTCCGGTTCCTGTTTCGGGTTACCCGATGATGACTCTAGAAGAAATGAACGAAGT
AACGTTCGCACCGTTTTCAAGCGCTGATGTGAACCGTACGATTGTTTCTCGTGGAGTTAATCTGACGGAT
GTGTATTGCTTCCCGTTATCAAGTGGCTGGTACGGTAGAAAAGAAGGAAATAAAAGGGTTATTAAAAGTC
AGTGTTACTCAAGCCAAGGTACTGCTAACTTCTACATGCGACCCATCGAAGGTTTAACTATTCTTATCGA
TTTAGATACAAAGCAAGTGATCGAGATAGTTGATACCGGTCCGAATATTCCCATACCCGGTTCAGCCAAT
ACTGAATACCGCTTCAAAAACCTAGGGACCACTGACAAAACACGAGGTCTTAACCCGATCTCGATCGAGC
AGCCACGTGGTCCAAGCTTCGTAATAGAAGACAACCATCTAGTGAAATGGGCAAATTGGGAATTTCATCT
AAAGCCTGACTCGAGAGCAGGTGTGGTATTATCACAAGTTAGAGTACATGATCCTGATACACAAGAGACA
CGTGAAGTGATGTACCAAGGGTTCGTGTCGGAGCTTTTTGTTCCGTACATGGATCCATCCGACGCGTGGT
ACTTCAAGACTTACATGGACGCAGGTGAATACGGGTTCGGTTTACAAGCCATGCCGCTTGTACCGCTTAA
TGATTGTCCACGAAACGCAGCCTATATGGACGGAGTTTTCACGACGGCTGATGGAACGCCATTTGTGAGA
GAGAATATGATTTGTATCTTCGAGCGTTACGCCGGAGATATTGGTTGGCGTCACTCGGAAAGCCCCATCA
GCGGTTTACCGATAAAGGAAGTGAGACCAAAGGTGACGTTAGTGGTACGAATGGCAGCTTCGGTAGGTAA
CTATGATTACATCATTGATTATGAGTTCCAAACTGATGGGCTAATCAAAACTAAGGTGGGACTTAGTGGA
ATTCTAATGGTGAAAGGGACATCATATCAAAACAAAAATCAAGTGAATAAAGATAAAGAAGGTAACGAAG
AAGAGCTTCACGGCACGCTTCTGGCTGAAAATATAATAGGAGTAATTCATGATCACTATGTCACTTTCTA
CCTTGACCTCGACGTCGATGGCCCGGACAATTCATTTCTCAAAGTGAACCTCAAGAGGCAGATGACTGAG
CCAGGTGAGTCTCCAAGGAAGAGTTACATGAAAGCGGTTAAGAACATTGTGAAAACCGAAAAGGACGCTC
AGATCAAACTTAGTTTGTACGATCCATCTGAATTCCACGTTGTCAATTCTGCTAAAACCACCCGGGTCGG
TAACCCCACGGGTTACAAGATCGTCCCTAGAGCCACGGCGGCTAGTTTGCTTGACCATGATGATCCTCCG
CAGAAGAGAGGAGCTTTTACCAATAATCAAATTTGGGTGACACCGTATAATAAGACCGAGAAATGGGCTG
CCGGTTTGTTCACTTACCAAAGCCATGGAGATGATACTCTTGCAGTTTGGTCAGACAGGGATAGAGACAT
AGAGAACACGGATATAGTTGTGTGGTACACACTCGGATTCCATCACGTTCCATGTCAAGAAGACTTTCCA
ATAATGCCTACAGTTTCTTCGAGTTTTGATTTGAAACCCGCAAATTTCTTCGAGCGCAATCCAATCCTTA
GGGCCGCTCCAAACTTCGAACATGATCTCCCGGTTTGTGAAGCTAAATATGTATCTGCTTGAAATGAGTG
ACGTACGGAATAAAACTTATAGATTTTCCTTCTGTATTTTCGTGGTGCTTTAATTAGTCAAGACAATGTT
TGTTACGAGATGTAAACTCGAAACCGATGTAT
Pro Sequence
MEPKNFFRLIFLIVTAGFIISFTSTNFPHAPSSTTGLLDCTDSSSSPLCASRNFLFNKQKPQFSKQDPKP
KPKNHDHLSDTLNHPLDPLTVMEFNKVRSLLSSDALFSSGAPHAFHSIVLEEPEKNLVRAWEKGNPLPPR
KASVIARVGPDTHVLTVDLSSSRVDIVDSPVPVSGYPMMTLEEMNEVTFAPFSSADVNRTIVSRGVNLTD
VYCFPLSSGWYGRKEGNKRVIKSQCYSSQGTANFYMRPIEGLTILIDLDTKQVIEIVDTGPNIPIPGSAN
TEYRFKNLGTTDKTRGLNPISIEQPRGPSFVIEDNHLVKWANWEFHLKPDSRAGVVLSQVRVHDPDTQET
REVMYQGFVSELFVPYMDPSDAWYFKTYMDAGEYGFGLQAMPLVPLNDCPRNAAYMDGVFTTADGTPFVR
ENMICIFERYAGDIGWRHSESPISGLPIKEVRPKVTLVVRMAASVGNYDYIIDYEFQTDGLIKTKVGLSG
ILMVKGTSYQNKNQVNKDKEGNEEELHGTLLAENIIGVIHDHYVTFYLDLDVDGPDNSFLKVNLKRQMTE
PGESPRKSYMKAVKNIVKTEKDAQIKLSLYDPSEFHVVNSAKTTRVGNPTGYKIVPRATAASLLDHDDPP
QKRGAFTNNQIWVTPYNKTEKWAAGLFTYQSHGDDTLAVWSDRDRDIENTDIVVWYTLGFHHVPCQEDFP
IMPTVSSSFDLKPANFFERNPILRAAPNFEHDLPVCEAKYVSA