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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000004.1:885379..890447+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_1495-T1 ID=CAN33_1495-T1|Name=CAN33_1495-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=5069bp|location=Sequence derived from alignment at NKJJ01000004.1:885379..890447+ (Aspergillus niger FDAARGOS_311)
ATGGCGGTCGACTGCCACGGGCCCATTTGGGCTATCGATGATGTTTCCCG
TTGCTTCCAACGCAAGTACGTCAACTATGTCGCTGCTACCATTGTTTTTA
ACCCCCGAGATTCGCCGGCTAACGTATAACTGTCAATTGTAGCTATCTCC
AAGTAATATTTCCACTCACGGCCTGCGGGCTCTCATTACTATTCGTCATT
TTTCGCGTCGCATACCAATGTACCGTTTCTCGAAAAAGCGCCTCCTACAA
GTTACTGGATCACAATGCGGCTGAAGGCGACACACAGGTTGCAACCTTGG
ATGATGAAGGGGAGGAAAGCGACCTAATGCTCAGCAAAGCGGCACAATCC
GAGTTACCGACATTCGAAGTTGATCGTCCCCGCGGAGAAATCGCAACTCT
AACGTTGGAGATCCTTGCGCTCGTAGGAGAAGTAGCCGTCTTCGTGGCTG
TCCTTTCCACAGGCGCATGGGGTCGCCAGGGTACTCTTCCCGCCATCGCC
AAGCTCGTTTCCTGGGGCTACATATTGTTCCTGGCATTGGTTAGATTGCT
GCTTTCGACATTCGACCTCCATTCATCTCCCAGGCTGTGGAACCATACGG
CATCTTTGTACGGACTGCAATGGGTTTTCACCGTCTTCGTGTTTCGCTCC
GCCGTTATCCACCCCTTGTCAAATCGGGCCATGATCTTCAGCTCCATTGA
ATTTGGCTTGTCCACTTTGCTTTTGCTCATCGCGGTCACTACCCGTAGAG
GAAACAAAGTGGTTTTGGTGTCGCATGATGAGGGCCTGGAGCCTGCGAGA
CATCCCACAGCCAGCTTGTTCTCGCTGGCTACTTTTGCTTGGCTGGATCC
TCTCATTCTCAAGGGCTACAGGCAGCCGCTGGAGCTCGAAGATGTCTGGG
ATCTGACAGCGTCTCAGAAAGCAGCCACAGTGTTAGAAGACTTCCGCCGT
AGGAACTATCAGGGCTCACTGGTGTGGAAACTGTGTCGGTACTTCTACGG
TACCCTCCTTCTCCAAGGTGCCTGGACCATCTTTTCGAACCTGTTCACCT
ACCTGCCCACCATCCTCCTCCGGGTACTTCTGCAATACGTGGAGGATCCA
AGGTCGTCGACTGCAAACGCCGCGTGGCTCTATGCTATCTTACTGTTCTG
CTCTGGGGCTATTCAAGGTATCGCCGATGGTCAGGCTCTTTGGATTGGAC
GCAAGCTGGGTGTCAAACTTCGGGCTATTATTATTGGCGAAATTTACGCG
AAGGCCCTCAGGCGGAAAGCGGGTTCGACTGTAGAATCCGCGAAGAAGCA
GCCGGAAGAGCCTGCGAAGGATCAGAAGAAAGGCGGTTTCTTCTCATTTG
GCCGGAAGAACAAGAAGGCAACAACCGACCCCGAGACTAATAATGCAAAG
GCGAAGAAGTCGGAAGATGAGGAGGAGGACAAAGAACACATGGCTAACAT
TGGTACTATCATCAATTTGATGGCGATTGACTCTTTCAAAGTTAGCGAAG
TCGGCGCCTACCTGCACTTTTTGTGGGCTAGCGTGCCAGTGCAGATCATC
ATTGCCGTAACACTATTGTACCGCCTCCTGGGCTTCAGCTCGTTTGCTGG
AATTGTTATTATGGTCTTTATGTTGCCTATCAACCTTACGATCGCCAAAC
AGTTTACGAAGGTTCAGAATCGGATCCTGAAAGGCACTGATGCTCGGATT
CATAGCACCAACGAGATCCTCCAGAATATCCGAATCATCAAGTACTTCGC
CTGGGAGCAGCGTTTTGAAGACATTGTCAACGAGAAGCGAAAGGCGGAGC
TTAAGGCCTTGCGTTTCCGGTACATCATCTGGTCTACGGCGGCGACTGTC
TGGTATGGCACGCCCATCCTTATCACGTTCGCCTCATTCTTCTTGTATAC
GGTGGTGGAGGGAAAGAAGTTGACACCCTCGATCGCATTCCCGGCACTGT
CGATGTTCTCATTGCTCCGCGTTCCCCTAGACCAGCTAGCCGACATGGTA
GCACACGTTCAAGAGTCCAAGGTCTCCCTTGATCGTGTTGACACTTACCT
AAACGAAGAAGAGACTCAGAAATACCGTCAACTCGAGGAGGAGAACTCTG
ATGGACAACCGCCCAAGATCGCGTTGGAAAATGCTACCCTTACCTGGGGA
TCTGCCCCGGGCCAGTACAAAGATGATCCGTCAGAAGAGGTCGCGGATGG
TTTCCGTCTGATCAATATGGACGTGGACTTCCAGATTGGCAAACTCAACC
TGATTACTGGTCCGACTGGCTCTGGCAAGACGTCGCTGCTTATGGCGCTT
CTTGGCGAAATGAAGCTTCTGCAAGGAAAGGTTCACTTGCCTGGAGGCAC
GGCTAACCGCTCCGAACTCCCGGTCGATCCTCAGACAGGTCTCATCGAAA
GCGTTGCCTACTGCGCACAAGAAGCATGGCTCGTGAATGCTACTGTCAAG
GATAACATCGTGTTTGCTTCCCCCTTTGATCAACGCCGATACAATGCTGT
AATCAAGGCCTGTGCCTTGGAGCGGGACCTGGCAATTCTCGATGCAGGCG
ACCAGACCCTTGTGGGAGAAAAGGGCATCAGTCTTTCAGGAGGCCAGAAA
CAGAGAATATCGCTTGCGCGCGCTGTGTACAGCAGAGCTCGGCACTTGCT
TCTGGATGATTGCCTGAGTGCAGTCGATTCGCACACCGCTAAGCACATCT
TCCGACAGGCTTTGACCGGTCCCTTGATGATGAACCGAACTTGTGTTCTG
GTCACACACAATGTTGCTCTAACCGTGTTTGAAGCTGCCCATGTCATTGC
ACTTGATAATGGTAAAATCATTGCTCAGGGTCCTCCAGACGAAGTGGCGG
CATCTGGTGCGTTGGGTGATGAACTCCTCAAATCCCGACCGACTTCCAGG
ACTACTACCCCCCGTCCTTCCCGCAGACCTTCGGATCATGCAGAGCAAGA
TGACGAATCTCTTACGAACGGAAATGCTACCAACGCCCCCAACGGAAAGG
CCAAGGACAGTTCCGAACCTAAGTTGGTAGAGTCAAAGGCTGTTGGCAGT
ATCAAGTTGTCTACGGTTAAGATGTACCTTCAATCGATGGGATCCTGGCG
TTACTGGATCGTGGCTGTGCTTGTTTTTTGCCTGCAACAGCTTGGGTCTG
TGTCGACCAATATCTGGATCAGACAATGGGCCAATTCTTACCAGACTGAG
GACGTCGGGGCGGATCCTGGTGACTACGCGGCGATGGCGGCCTTCAAGAT
TCCGTCGTTCAATGTTGGCGGTGTTCCTCGCACATCCACTTTTAGCGCAC
CCCAATTTGGCACGCAGTCAGTAACCGTCAATGCCAACGGCAATGTGAAT
GTATCATATTATCTCGGAGTCTACGCATTATTGGGAGTTGCTTTCGTTGC
TATTTCGCTAATCAGAGAGGGTGTCCTTTTCTGGGGTTCCCTGCACGCGT
CTTTCAAGATCCACCAGCGCCTGTTGAGAGCGGTCATGCATGCAAAGTTC
AAGTTCTTTGATTCGACCCCCCTGGGTCAACTGATGAACCGATTCTCCAA
GGATGTGGAATCCGTTGATCAGGAAGTCGCTCCCGTAGCGATTGGCATGC
TCCATAGTCTGGCATCGGTCGTGATGATTGTCATTCTTATTTCCGTCATC
ACGCCCGGATTCTTGATCGCGGGTATCTTCATCACCTTGGTTTATGTCGC
TCTCGGTGCCGTCTACTTGAACGCCTCTCGCGACCTTAAGCGACTTGAAT
CCGTGCAGCGGAGTCCTCTGTACCAGCAGTTTGGTGAGACCTTGAACGGT
ATTGTTACCATCCGTGCCTATGGAGATGGACCGAGATTCATCGTTGACAA
TCACCGTCGCATCAACGCCTACAACCGCCCTCACATCTATCTGTGGGCGA
GTAATCGCTGGTTGGCGCTCCGTGTTGATGTAACAGGTGCCCTGGTGTCA
TTCTTCACCGCTGTCTTTGTCCTGATAAACATTGGGAAGATTGATGCCGG
TGCTGCTGGACTTTCGCTGACATACGCAGTCACGTTCACCGAGAACGTTC
TCTGGCTAGTCCGGCTGTACTCGGAGGTTCAACAGAACATGAACTCTGTC
GAACGTGTCAGGGAGTACCTCGAAGTCGAGCAAGAGGCAGATGCAGTTAT
TCCTGACTCTAGACCGCCGGCCAACTGGCCCAGTGGCGGCGCGGTTGACT
TCATTGGGTATACAACTCGGTATCGACCCGACCTTGACCCCGTTCTCAGG
AACGTCTCATTCACCGTGCAACCTGGAGAGAAGGTCGGTATCGTCGGCCG
CACTGGTGCTGGCAAGAGCTCGCTTGCTCTGGCGCTTTTCCGTGGCCTCG
AAGCTGAAAAGGGCCGCATCGTCATTGACGGCGTGGACACCAGCGCAATC
GGTCTCCGTGACTTGCGAGAGTCGATTACCATCGTTCCCCAAGACCCTAC
TCTGTTTACAGGAACTATCCGCAGCAATCTGGACCCGTTCGACCTCTTCA
CGGATGAGCAGATTTTTACCGCCCTGCGACGTGTGCACTTGATCGGCCCT
GGTACCTCTGGCACCGCGACTCCATTGACCACTAGTACGCTCGCGGAGCC
CAGTTCTGCAACTCCCACCGGTGTCACTAGTAGCGCTATCCTGGACAACA
AGAACATCTTCCTCAACCTGGACACTGCGGTCTCCGAATCCGGGTCCAAC
CTGTCCCAAGGCCAGCGACAGCTCTTGTGTCTTGCACGTGCACTACTCAA
GAATCCCAAGGTCTTGATGATGGACGAAGCCACCGCCTCCATAGACTACA
ACACCGACTCCAAGATCCAAGAAACCCTCCGGGAACTCCGGGAAAGCACC
ATTATCACCATTGCGCACCGTCTACAGACAATCATTGACTACGACAAGGT
CTTGGTCCTGGATCACGGCCGAGTTATCGAGTACGACCACCCCTGGACAT
TAATAAATAAGGGTGACGGTCTCTTCCGAAGCATGTGTGAAAACAGCGGT
AACATGGATAGTCTTCTGGAAGGAGCCAAGAAAGCGTGGGATCATAAAAA
TAGTGGTAATGATTCATAG back to topCoding sequence (CDS) from alignment at NKJJ01000004.1:885379..890447+ >CAN33_1495-T1 ID=CAN33_1495-T1|Name=CAN33_1495-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=9984bp|location=Sequence derived from alignment at NKJJ01000004.1:885379..890447+ (Aspergillus niger FDAARGOS_311)
ATGGCGGTCGACTGCCACGGGCCCATTTGGGCTATCGATGATGTTTCCCG
TTGCTTCCAACGCAACTATCTCCAAGTAATATTTCCACTCACGGCCTGCG
GGCTCTCATTACTATTCGTCATTTTTCGCGTCGCATACCAATGTACCGTT
TCTCGAAAAAGCGCCTCCTACAAGTTACTGGATCACAATGCGGCTGAAGG
CGACACACAGGTTGCAACCTTGGATGATGAAGGGGAGGAAAGCGACCTAA
TGCTCAGCAAAGCGGCACAATCCGAGTTACCGACATTCGAAGTTGATCGT
CCCCGCGGAGAAATCGCAACTCTAACGTTGGAGATCCTTGCGCTCGTAGG
AGAAGTAGCCGTCTTCGTGGCTGTCCTTTCCACAGGCGCATGGGGTCGCC
AGGGTACTCTTCCCGCCATCGCCAAGCTCGTTTCCTGGGGCTACATATTG
TTCCTGGCATTGGTTAGATTGCTGCTTTCGACATTCGACCTCCATTCATC
TCCCAGGCTGTGGAACCATACGGCATCTTTGTACGGACTGCAATGGGTTT
TCACCGTCTTCGTGTTTCGCTCCGCCGTTATCCACCCCTTGTCAAATCGG
GCCATGATCTTCAGCTCCATTGAATTTGGCTTGTCCACTTTGCTTTTGCT
CATCGCGGTCACTACCCGTAGAGGAAACAAAGTGGTTTTGGTGTCGCATG
ATGAGGGCCTGGAGCCTGCGAGACATCCCACAGCCAGCTTGTTCTCGCTG
GCTACTTTTGCTTGGCTGGATCCTCTCATTCTCAAGGGCTACAGGCAGCC
GCTGGAGCTCGAAGATGTCTGGGATCTGACAGCGTCTCAGAAAGCAGCCA
CAGTGTTAGAAGACTTCCGCCGTAGGAACTATCAGGGCTCACTGGTGTGG
AAACTGTGTCGGTACTTCTACGGTACCCTCCTTCTCCAAGGTGCCTGGAC
CATCTTTTCGAACCTGTTCACCTACCTGCCCACCATCCTCCTCCGGGTAC
TTCTGCAATACGTGGAGGATCCAAGGTCGTCGACTGCAAACGCCGCGTGG
CTCTATGCTATCTTACTGTTCTGCTCTGGGGCTATTCAAGGTATCGCCGA
TGGTCAGGCTCTTTGGATTGGACGCAAGCTGGGTGTCAAACTTCGGGCTA
TTATTATTGGCGAAATTTACGCGAAGGCCCTCAGGCGGAAAGCGGGTTCG
ACTGTAGAATCCGCGAAGAAGCAGCCGGAAGAGCCTGCGAAGGATCAGAA
GAAAGGCGGTTTCTTCTCATTTGGCCGGAAGAACAAGAAGGCAACAACCG
ACCCCGAGACTAATAATGCAAAGGCGAAGAAGTCGGAAGATGAGGAGGAG
GACAAAGAACACATGGCTAACATTGGTACTATCATCAATTTGATGGCGAT
TGACTCTTTCAAAGTTAGCGAAGTCGGCGCCTACCTGCACTTTTTGTGGG
CTAGCGTGCCAGTGCAGATCATCATTGCCGTAACACTATTGTACCGCCTC
CTGGGCTTCAGCTCGTTTGCTGGAATTGTTATTATGGTCTTTATGTTGCC
TATCAACCTTACGATCGCCAAACAGTTTACGAAGGTTCAGAATCGGATCC
TGAAAGGCACTGATGCTCGGATTCATAGCACCAACGAGATCCTCCAGAAT
ATCCGAATCATCAAGTACTTCGCCTGGGAGCAGCGTTTTGAAGACATTGT
CAACGAGAAGCGAAAGGCGGAGCTTAAGGCCTTGCGTTTCCGGTACATCA
TCTGGTCTACGGCGGCGACTGTCTGGTATGGCACGCCCATCCTTATCACG
TTCGCCTCATTCTTCTTGTATACGGTGGTGGAGGGAAAGAAGTTGACACC
CTCGATCGCATTCCCGGCACTGTCGATGTTCTCATTGCTCCGCGTTCCCC
TAGACCAGCTAGCCGACATGGTAGCACACGTTCAAGAGTCCAAGGTCTCC
CTTGATCGTGTTGACACTTACCTAAACGAAGAAGAGACTCAGAAATACCG
TCAACTCGAGGAGGAGAACTCTGATGGACAACCGCCCAAGATCGCGTTGG
AAAATGCTACCCTTACCTGGGGATCTGCCCCGGGCCAGTACAAAGATGAT
CCGTCAGAAGAGGTCGCGGATGGTTTCCGTCTGATCAATATGGACGTGGA
CTTCCAGATTGGCAAACTCAACCTGATTACTGGTCCGACTGGCTCTGGCA
AGACGTCGCTGCTTATGGCGCTTCTTGGCGAAATGAAGCTTCTGCAAGGA
AAGGTTCACTTGCCTGGAGGCACGGCTAACCGCTCCGAACTCCCGGTCGA
TCCTCAGACAGGTCTCATCGAAAGCGTTGCCTACTGCGCACAAGAAGCAT
GGCTCGTGAATGCTACTGTCAAGGATAACATCGTGTTTGCTTCCCCCTTT
GATCAACGCCGATACAATGCTGTAATCAAGGCCTGTGCCTTGGAGCGGGA
CCTGGCAATTCTCGATGCAGGCGACCAGACCCTTGTGGGAGAAAAGGGCA
TCAGTCTTTCAGGAGGCCAGAAACAGAGAATATCGCTTGCGCGCGCTGTG
TACAGCAGAGCTCGGCACTTGCTTCTGGATGATTGCCTGAGTGCAGTCGA
TTCGCACACCGCTAAGCACATCTTCCGACAGGCTTTGACCGGTCCCTTGA
TGATGAACCGAACTTGTGTTCTGGTCACACACAATGTTGCTCTAACCGTG
TTTGAAGCTGCCCATGTCATTGCACTTGATAATGGTAAAATCATTGCTCA
GGGTCCTCCAGACGAAGTGGCGGCATCTGGTGCGTTGGGTGATGAACTCC
TCAAATCCCGACCGACTTCCAGGACTACTACCCCCCGTCCTTCCCGCAGA
CCTTCGGATCATGCAGAGCAAGATGACGAATCTCTTACGAACGGAAATGC
TACCAACGCCCCCAACGGAAAGGCCAAGGACAGTTCCGAACCTAAGTTGG
TAGAGTCAAAGGCTGTTGGCAGTATCAAGTTGTCTACGGTTAAGATGTAC
CTTCAATCGATGGGATCCTGGCGTTACTGGATCGTGGCTGTGCTTGTTTT
TTGCCTGCAACAGCTTGGGTCTGTGTCGACCAATATCTGGATCAGACAAT
GGGCCAATTCTTACCAGACTGAGGACGTCGGGGCGGATCCTGGTGACTAC
GCGGCGATGGCGGCCTTCAAGATTCCGTCGTTCAATGTTGGCGGTGTTCC
TCGCACATCCACTTTTAGCGCACCCCAATTTGGCACGCAGTCAGTAACCG
TCAATGCCAACGGCAATGTGAATGTATCATATTATCTCGGAGTCTACGCA
TTATTGGGAGTTGCTTTCGTTGCTATTTCGCTAATCAGAGAGGGTGTCCT
TTTCTGGGGTTCCCTGCACGCGTCTTTCAAGATCCACCAGCGCCTGTTGA
GAGCGGTCATGCATGCAAAGTTCAAGTTCTTTGATTCGACCCCCCTGGGT
CAACTGATGAACCGATTCTCCAAGGATGTGGAATCCGTTGATCAGGAAGT
CGCTCCCGTAGCGATTGGCATGCTCCATAGTCTGGCATCGGTCGTGATGA
TTGTCATTCTTATTTCCGTCATCACGCCCGGATTCTTGATCGCGGGTATC
TTCATCACCTTGGTTTATGTCGCTCTCGGTGCCGTCTACTTGAACGCCTC
TCGCGACCTTAAGCGACTTGAATCCGTGCAGCGGAGTCCTCTGTACCAGC
AGTTTGGTGAGACCTTGAACGGTATTGTTACCATCCGTGCCTATGGAGAT
GGACCGAGATTCATCGTTGACAATCACCGTCGCATCAACGCCTACAACCG
CCCTCACATCTATCTGTGGGCGAGTAATCGCTGGTTGGCGCTCCGTGTTG
ATGTAACAGGTGCCCTGGTGTCATTCTTCACCGCTGTCTTTGTCCTGATA
AACATTGGGAAGATTGATGCCGGTGCTGCTGGACTTTCGCTGACATACGC
AGTCACGTTCACCGAGAACGTTCTCTGGCTAGTCCGGCTGTACTCGGAGG
TTCAACAGAACATGAACTCTGTCGAACGTGTCAGGGAGTACCTCGAAGTC
GAGCAAGAGGCAGATGCAGTTATTCCTGACTCTAGACCGCCGGCCAACTG
GCCCAGTGGCGGCGCGGTTGACTTCATTGGGTATACAACTCGGTATCGAC
CCGACCTTGACCCCGTTCTCAGGAACGTCTCATTCACCGTGCAACCTGGA
GAGAAGGTCGGTATCGTCGGCCGCACTGGTGCTGGCAAGAGCTCGCTTGC
TCTGGCGCTTTTCCGTGGCCTCGAAGCTGAAAAGGGCCGCATCGTCATTG
ACGGCGTGGACACCAGCGCAATCGGTCTCCGTGACTTGCGAGAGTCGATT
ACCATCGTTCCCCAAGACCCTACTCTGTTTACAGGAACTATCCGCAGCAA
TCTGGACCCGTTCGACCTCTTCACGGATGAGCAGATTTTTACCGCCCTGC
GACGTGTGCACTTGATCGGCCCTGGTACCTCTGGCACCGCGACTCCATTG
ACCACTAGTACGCTCGCGGAGCCCAGTTCTGCAACTCCCACCGGTGTCAC
TAGTAGCGCTATCCTGGACAACAAGAACATCTTCCTCAACCTGGACACTG
CGGTCTCCGAATCCGGGTCCAACCTGTCCCAAGGCCAGCGACAGCTCTTG
TGTCTTGCACGTGCACTACTCAAGAATCCCAAGGTCTTGATGATGGACGA
AGCCACCGCCTCCATAGACTACAACACCGACTCCAAGATCCAAGAAACCC
TCCGGGAACTCCGGGAAAGCACCATTATCACCATTGCGCACCGTCTACAG
ACAATCATTGACTACGACAAGGTCTTGGTCCTGGATCACGGCCGAGTTAT
CGAGTACGACCACCCCTGGACATTAATAAATAAGGGTGACGGTCTCTTCC
GAAGCATGTGTGAAAACAGCGGTAACATGGATAGTCTTCTGGAAGGAGCC
AAGAAAGCGTGGGATCATAAAAATAGTGGTAATGATTCATAGATGGCGGT
CGACTGCCACGGGCCCATTTGGGCTATCGATGATGTTTCCCGTTGCTTCC
AACGCAACTATCTCCAAGTAATATTTCCACTCACGGCCTGCGGGCTCTCA
TTACTATTCGTCATTTTTCGCGTCGCATACCAATGTACCGTTTCTCGAAA
AAGCGCCTCCTACAAGTTACTGGATCACAATGCGGCTGAAGGCGACACAC
AGGTTGCAACCTTGGATGATGAAGGGGAGGAAAGCGACCTAATGCTCAGC
AAAGCGGCACAATCCGAGTTACCGACATTCGAAGTTGATCGTCCCCGCGG
AGAAATCGCAACTCTAACGTTGGAGATCCTTGCGCTCGTAGGAGAAGTAG
CCGTCTTCGTGGCTGTCCTTTCCACAGGCGCATGGGGTCGCCAGGGTACT
CTTCCCGCCATCGCCAAGCTCGTTTCCTGGGGCTACATATTGTTCCTGGC
ATTGGTTAGATTGCTGCTTTCGACATTCGACCTCCATTCATCTCCCAGGC
TGTGGAACCATACGGCATCTTTGTACGGACTGCAATGGGTTTTCACCGTC
TTCGTGTTTCGCTCCGCCGTTATCCACCCCTTGTCAAATCGGGCCATGAT
CTTCAGCTCCATTGAATTTGGCTTGTCCACTTTGCTTTTGCTCATCGCGG
TCACTACCCGTAGAGGAAACAAAGTGGTTTTGGTGTCGCATGATGAGGGC
CTGGAGCCTGCGAGACATCCCACAGCCAGCTTGTTCTCGCTGGCTACTTT
TGCTTGGCTGGATCCTCTCATTCTCAAGGGCTACAGGCAGCCGCTGGAGC
TCGAAGATGTCTGGGATCTGACAGCGTCTCAGAAAGCAGCCACAGTGTTA
GAAGACTTCCGCCGTAGGAACTATCAGGGCTCACTGGTGTGGAAACTGTG
TCGGTACTTCTACGGTACCCTCCTTCTCCAAGGTGCCTGGACCATCTTTT
CGAACCTGTTCACCTACCTGCCCACCATCCTCCTCCGGGTACTTCTGCAA
TACGTGGAGGATCCAAGGTCGTCGACTGCAAACGCCGCGTGGCTCTATGC
TATCTTACTGTTCTGCTCTGGGGCTATTCAAGGTATCGCCGATGGTCAGG
CTCTTTGGATTGGACGCAAGCTGGGTGTCAAACTTCGGGCTATTATTATT
GGCGAAATTTACGCGAAGGCCCTCAGGCGGAAAGCGGGTTCGACTGTAGA
ATCCGCGAAGAAGCAGCCGGAAGAGCCTGCGAAGGATCAGAAGAAAGGCG
GTTTCTTCTCATTTGGCCGGAAGAACAAGAAGGCAACAACCGACCCCGAG
ACTAATAATGCAAAGGCGAAGAAGTCGGAAGATGAGGAGGAGGACAAAGA
ACACATGGCTAACATTGGTACTATCATCAATTTGATGGCGATTGACTCTT
TCAAAGTTAGCGAAGTCGGCGCCTACCTGCACTTTTTGTGGGCTAGCGTG
CCAGTGCAGATCATCATTGCCGTAACACTATTGTACCGCCTCCTGGGCTT
CAGCTCGTTTGCTGGAATTGTTATTATGGTCTTTATGTTGCCTATCAACC
TTACGATCGCCAAACAGTTTACGAAGGTTCAGAATCGGATCCTGAAAGGC
ACTGATGCTCGGATTCATAGCACCAACGAGATCCTCCAGAATATCCGAAT
CATCAAGTACTTCGCCTGGGAGCAGCGTTTTGAAGACATTGTCAACGAGA
AGCGAAAGGCGGAGCTTAAGGCCTTGCGTTTCCGGTACATCATCTGGTCT
ACGGCGGCGACTGTCTGGTATGGCACGCCCATCCTTATCACGTTCGCCTC
ATTCTTCTTGTATACGGTGGTGGAGGGAAAGAAGTTGACACCCTCGATCG
CATTCCCGGCACTGTCGATGTTCTCATTGCTCCGCGTTCCCCTAGACCAG
CTAGCCGACATGGTAGCACACGTTCAAGAGTCCAAGGTCTCCCTTGATCG
TGTTGACACTTACCTAAACGAAGAAGAGACTCAGAAATACCGTCAACTCG
AGGAGGAGAACTCTGATGGACAACCGCCCAAGATCGCGTTGGAAAATGCT
ACCCTTACCTGGGGATCTGCCCCGGGCCAGTACAAAGATGATCCGTCAGA
AGAGGTCGCGGATGGTTTCCGTCTGATCAATATGGACGTGGACTTCCAGA
TTGGCAAACTCAACCTGATTACTGGTCCGACTGGCTCTGGCAAGACGTCG
CTGCTTATGGCGCTTCTTGGCGAAATGAAGCTTCTGCAAGGAAAGGTTCA
CTTGCCTGGAGGCACGGCTAACCGCTCCGAACTCCCGGTCGATCCTCAGA
CAGGTCTCATCGAAAGCGTTGCCTACTGCGCACAAGAAGCATGGCTCGTG
AATGCTACTGTCAAGGATAACATCGTGTTTGCTTCCCCCTTTGATCAACG
CCGATACAATGCTGTAATCAAGGCCTGTGCCTTGGAGCGGGACCTGGCAA
TTCTCGATGCAGGCGACCAGACCCTTGTGGGAGAAAAGGGCATCAGTCTT
TCAGGAGGCCAGAAACAGAGAATATCGCTTGCGCGCGCTGTGTACAGCAG
AGCTCGGCACTTGCTTCTGGATGATTGCCTGAGTGCAGTCGATTCGCACA
CCGCTAAGCACATCTTCCGACAGGCTTTGACCGGTCCCTTGATGATGAAC
CGAACTTGTGTTCTGGTCACACACAATGTTGCTCTAACCGTGTTTGAAGC
TGCCCATGTCATTGCACTTGATAATGGTAAAATCATTGCTCAGGGTCCTC
CAGACGAAGTGGCGGCATCTGGTGCGTTGGGTGATGAACTCCTCAAATCC
CGACCGACTTCCAGGACTACTACCCCCCGTCCTTCCCGCAGACCTTCGGA
TCATGCAGAGCAAGATGACGAATCTCTTACGAACGGAAATGCTACCAACG
CCCCCAACGGAAAGGCCAAGGACAGTTCCGAACCTAAGTTGGTAGAGTCA
AAGGCTGTTGGCAGTATCAAGTTGTCTACGGTTAAGATGTACCTTCAATC
GATGGGATCCTGGCGTTACTGGATCGTGGCTGTGCTTGTTTTTTGCCTGC
AACAGCTTGGGTCTGTGTCGACCAATATCTGGATCAGACAATGGGCCAAT
TCTTACCAGACTGAGGACGTCGGGGCGGATCCTGGTGACTACGCGGCGAT
GGCGGCCTTCAAGATTCCGTCGTTCAATGTTGGCGGTGTTCCTCGCACAT
CCACTTTTAGCGCACCCCAATTTGGCACGCAGTCAGTAACCGTCAATGCC
AACGGCAATGTGAATGTATCATATTATCTCGGAGTCTACGCATTATTGGG
AGTTGCTTTCGTTGCTATTTCGCTAATCAGAGAGGGTGTCCTTTTCTGGG
GTTCCCTGCACGCGTCTTTCAAGATCCACCAGCGCCTGTTGAGAGCGGTC
ATGCATGCAAAGTTCAAGTTCTTTGATTCGACCCCCCTGGGTCAACTGAT
GAACCGATTCTCCAAGGATGTGGAATCCGTTGATCAGGAAGTCGCTCCCG
TAGCGATTGGCATGCTCCATAGTCTGGCATCGGTCGTGATGATTGTCATT
CTTATTTCCGTCATCACGCCCGGATTCTTGATCGCGGGTATCTTCATCAC
CTTGGTTTATGTCGCTCTCGGTGCCGTCTACTTGAACGCCTCTCGCGACC
TTAAGCGACTTGAATCCGTGCAGCGGAGTCCTCTGTACCAGCAGTTTGGT
GAGACCTTGAACGGTATTGTTACCATCCGTGCCTATGGAGATGGACCGAG
ATTCATCGTTGACAATCACCGTCGCATCAACGCCTACAACCGCCCTCACA
TCTATCTGTGGGCGAGTAATCGCTGGTTGGCGCTCCGTGTTGATGTAACA
GGTGCCCTGGTGTCATTCTTCACCGCTGTCTTTGTCCTGATAAACATTGG
GAAGATTGATGCCGGTGCTGCTGGACTTTCGCTGACATACGCAGTCACGT
TCACCGAGAACGTTCTCTGGCTAGTCCGGCTGTACTCGGAGGTTCAACAG
AACATGAACTCTGTCGAACGTGTCAGGGAGTACCTCGAAGTCGAGCAAGA
GGCAGATGCAGTTATTCCTGACTCTAGACCGCCGGCCAACTGGCCCAGTG
GCGGCGCGGTTGACTTCATTGGGTATACAACTCGGTATCGACCCGACCTT
GACCCCGTTCTCAGGAACGTCTCATTCACCGTGCAACCTGGAGAGAAGGT
CGGTATCGTCGGCCGCACTGGTGCTGGCAAGAGCTCGCTTGCTCTGGCGC
TTTTCCGTGGCCTCGAAGCTGAAAAGGGCCGCATCGTCATTGACGGCGTG
GACACCAGCGCAATCGGTCTCCGTGACTTGCGAGAGTCGATTACCATCGT
TCCCCAAGACCCTACTCTGTTTACAGGAACTATCCGCAGCAATCTGGACC
CGTTCGACCTCTTCACGGATGAGCAGATTTTTACCGCCCTGCGACGTGTG
CACTTGATCGGCCCTGGTACCTCTGGCACCGCGACTCCATTGACCACTAG
TACGCTCGCGGAGCCCAGTTCTGCAACTCCCACCGGTGTCACTAGTAGCG
CTATCCTGGACAACAAGAACATCTTCCTCAACCTGGACACTGCGGTCTCC
GAATCCGGGTCCAACCTGTCCCAAGGCCAGCGACAGCTCTTGTGTCTTGC
ACGTGCACTACTCAAGAATCCCAAGGTCTTGATGATGGACGAAGCCACCG
CCTCCATAGACTACAACACCGACTCCAAGATCCAAGAAACCCTCCGGGAA
CTCCGGGAAAGCACCATTATCACCATTGCGCACCGTCTACAGACAATCAT
TGACTACGACAAGGTCTTGGTCCTGGATCACGGCCGAGTTATCGAGTACG
ACCACCCCTGGACATTAATAAATAAGGGTGACGGTCTCTTCCGAAGCATG
TGTGAAAACAGCGGTAACATGGATAGTCTTCTGGAAGGAGCCAAGAAAGC
GTGGGATCATAAAAATAGTGGTAATGATTCATAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0016021 | integral component of membrane |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0055085 | transmembrane transport |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0042626 | ATPase-coupled transmembrane transporter activity |
| GO:0016887 | ATPase activity |
| GO:0005524 | ATP binding |
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
Properties
| Property Name | Value |
|---|
| Note | EggNog:ENOG41 |
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR017871 |
| DBxref | InterPro:IPR011527 |
| DBxref | InterPro:IPR003439 |
| DBxref | InterPro:IPR036640 |
| DBxref | InterPro:IPR003593 |
| DBxref | PFAM:PF00005 |
| DBxref | PFAM:PF00664 |
| Product | ABC transporter transmembrane region family protein |
Analyses
This mRNA is derived from or has results from the following analyses
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
|---|
| NKJJ01000004.1 | supercontig | NKJJ01000004.1:885379..890447 + |
|
