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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000009.1:601845..606233- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_11345-T1 ID=CAN33_11345-T1|Name=CAN33_11345-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=4389bp|location=Sequence derived from alignment at NKJJ01000009.1:601845..606233- (Aspergillus niger FDAARGOS_311)
ATGTTTCAATCGGATGGGTATGAAGACCGCGATGGAATTGCAACACCAGA
ATCTATCAAAGAATTTTCCGACAAACCCCAACGCGTCGCGCTTGCAATCG
GAACCGGAATTGGTGTCTGGTTATCGTTATCGGAAGTTGTTGTGTTCAGC
ATTGTGTCTGCTTCCACTGATGATTTCACACGATGGATGCGACTTGGAGC
CTGGGGAACCCTGGCCCTCAGTACATGTGCGGTCTGGATGGAAGACGAAT
GCACGCTTCGGTTCCGACACGGCATTCAAACAAGCATCGGGTGCATCGCC
ATGATGGTCCTTCTAGTTGCAGATCAGTACCAATGTTACAAGGCATTGGA
TTTTTCCTTCCTGTCTTGGTTCTTTCTGCTTGGCCAGTCTTGCGCCGCTT
TGGGCGCCTGCATTGCTGGAACGTCATTACCTCGTCGACCGGATGTTTTT
CACAATGGGACTGTGGTGGACCGCAAAGGATCAGCAACCTTCTTGGACCA
GCTTTTCTTCGGATGGGTGGGTCAGCTGCTTTCTGCGGGTCAGAAAGATG
AGCTGGAGATCAGCCACCTGCCTGAGCTCGAGTTCAACAGCCGTTCACCT
CAGCTATTTCACGCTTTTAGCCAACAATGCACGGCTTCTACCTCAAGCCT
TTGGAAGGTCCTTGTCCTCAGTCATCGGAAAGCCCTATCCATTCAACTCC
TTTTGACCTTCCTGAATGGGACCATGGCATTCGTGCCCCAGTTTTTTATC
TTGGGAATCTTGCAGCGTCTGGAAAACGACCCTGATGATCCTTGGCTATG
GCTTTTTGTTCTTGGACTGGGCGCATCGACTATCGTGTCCGCTCTTATTG
AAAATTGGAACCTCTATGTCTCATCCAATCTGATTGCAGTGAGGCTGCAG
GAACAGCTATCAACAGTGATCTATGACAAAGCGTTACGTTGTCGTGCAGT
GAACAATGTCGGGACGGATTCGCAGAGTGCCAGTACCACCAGCCCATCTA
GTCAGGGTACCATGAACTTGGTCGCTGTGGATGCAAAGAAAGTGGCTGAC
TTTTCAGCCGTTGGCTTTCATCTTTACGAGGCACCACTGAAACTCATTAT
TGCGGCTATTTCGATTGGCCGGTTGCTTGGACCTCAGTGCCTACTGGTCG
GTGGCTTAGTACTTTTTCTTGTATCTGCTGGAAACTTTTACTCAGTCAGC
CAGTTTTCGAAGCAACAAAGAGGTCTTTTAAGGTCTCGTGACAGCAAGAT
GGGAGTCATCAACGAGGTTCTCCAGGGTATCCGCCAAGTCAAATTATCCG
CTCTGGAGGAAAAATGGGAAAACCGCATCAACGACTCAAGAGGGAAGGAG
CTACACAGCCAGTGGCAAGTTTATAAGTGGGAACTTCTCATGTTCGTTGC
TTATAATGTCACCCCGGTTGCTGTTTCCGCCGCTTGCTTAGGTACATATG
CCCTTTTACATGGGGACATGCCGGCGTCTCTCGCTTTCACCTCGGTCTCG
CTTCTTGGTGCACTTGAAACGCCTCTTGCAGTTCTCCCCCAAATCCTGCT
TAATGCGACGGGGGCTCAAATTAGCCTGCGACGGATCGAACGTTTCCTTC
GAACTCCAGACAGGGATGTCGATATTGCGCCCGCTGATGGGGTTGTGCTG
GATCAGGCCACAATTTGCTGGAACGAAAATCAATACACTAAATGCTTCAC
CTTGAAAGACATGTCTCTAACCTTCCCATCTGGCGCTTTGAGTATCATTA
CGGGGCCATCTGGCTCCGGCAAAAGTCTCGTTCTTGCAGCAATCCTTGGT
GAATGCGAGTTTCTGCAAGGTTGTGTACGACGGTCCCCAAGCCTGGCGGT
TGCCTACGTTGCTCAGGAGCCGTGCTTGAAAGATGGAACGATCAGGGACA
ACATTCTTTATGGCCTGCCGTTTCAGCAGGAGCGCTACCGCCGCGTTATT
TTCGCCTGCTCCCTTGACAGCGACATAAATAGTCTGAGGCTGAAAGATGA
CACTCAAATGGATGACCAAGGGAGCAATCTCAGTGGTGGCCAGAAATGGC
GTATCTCTCTTGCGCGCGCTCTCTATTCCGATGTCGAGATAATCGTACTG
GATGATATTTTCAGCTCCATTGATTCTCATACGGCGCAGCATCTATATCA
GTATGCTCTGACGGGGAGTCTCGCCGAGGGGCGCACACGTATACTGGCCA
CTTATCACCTGGAACTGTGCTTACCAAGAGCTGAATACGTTGTTGCCCTT
GACGCCAATGGACTGCAGTATGCTGGCCCCAGACAAAATCTGAGGGATAT
GGGCATATTCAAGCATATGGCCCAGGCTGCAGCAGGAGTGGAGAGGGCTT
CTCACATCAAGAAAGGCTCTGTGGTGTCGAATGTTCCGTCTTCAGAAAAC
TGGATCGGAACGCTATTGCCCAGTGAGCAAGAGCAACTAGAAGACTCAGC
AGGGCAAGATGGTTTGGTTGGTGAGGCCAATACACGAGACCGTAAATGGC
GAAATCGCCAGCGAATTTTCCGCTTGACTGACGCCAAGTATCGTTGCTTG
CTTGTTTTGTTCTTGCATCTGAGCTATGGCGGACTAGCAGTTGGCCGAGG
TCTGTGGATGATGATCTGGAGTAACAGCACGAACAAGAGCAGGTACACAG
AAGACATGAATATGAAAGGAGCTGAGTCCACGGGAGTGAACATTACGTGG
TTTCTATCTATCTACCTATTATTGTCGATCTGTTCATGCATCGTCGCGAT
CAGTCGGAGCTTCTTGGCAGTGCGCATTACCTTAAAGATGTCAAGAAAGC
TATTTGAAAGGTTTCTCTCTTCGATACTACGCGCTCCCCTGCAATGGCTC
GACCAGATACCAGCCGGCAACATTCTAAACAACTTTTCCGCCGACTTTAG
CTTGATAGACTCGCGCCTTGGATATGATCTCAACTACGCACTGGGTGTTG
TGTTTGATCTCCTATCCATCGTGTTGGCTGCCTCCCTGGTGAATGTCTGG
CTGAATCTCCTCTCCGCCTGTTCACTCTTACTGGCGTTTTACTACGGGCA
ATTATTTATTAAGAAAATCCGCGCCATCAAGGAACTCGAAAGTACAATGC
GAAGCCCGGTACTTCACCACCTGTGTGCAACCATGGACGGAATAATGACC
GTTCGCGCCTACCGTCAAGAGGAGACCTACCGAAAGGAAATGTTTGGCAA
GATTGACCGGCATTGCCGGGCATCCTGGTGTCTCTGGCTGCTTACACGTT
GGATCGCCGTCCGCGCAAGCACCATTGGCGCCGCTTTTACCACTGCGGCC
TCTATACTCGTGCTGTCTTCCAACGGCATCACGGCGTCGACTGCTGGATT
TGCCATCACATTCATCATGCGGTATAGTGGCGTTATGTCGCAGGTGATCA
GGCAATACGCAAACCTCGAGATATCTCTTAACAGTGTTGAACGTGTTTCG
TGGTCCCTCGACATCCCTGCAGAGAAATATGAATCCACCGACCCGATGCC
AGAGTCGTGGCCCGCGGACGGCCAACTGGACGTATCAGACTTGACCGTCT
GTTATTCGCCCGATTTGCCACCTGTTCTCTCCGATCTATCTTTTTCCATC
CCGCCAAACACCAGAGTCGGAGTGGTCGGTCGTACCGGTGCAGGCAAGTC
CTCGTTGGCAATGGCCCTCTTCCGCTTCCTGGAAGCTCAGCAAGGAAGTA
TTCATGTGGCGGGGGTGGACATTTCGACTGTTCCGCTTCGCCAGCTACGG
ACGCGCCTGGCAATCGTACCACAAGACCCGATCTTGTTCTCCGGCACGAT
ACGGTCTAATCTCGATCCGTTTAACGAGCACTCAGAGCAAGAACTCTTGT
CTGCTTTGCGACGCGTGCACTGGACTATCCCTGATGCTGATCACGACGAA
AACCATCCTGGATCGCCTTTGATAAAACTAGATGAGGATGAAGAACCCAG
AGAAAACCCTTTTAACTCTCTGGAACTCCAATTCCAGCACCCTCCAAGCA
TTCTAAACACTGCAGTCACCGAAAGAGGCGCGAACTTCTCCCAAGGTCAA
AGACAGTGTCTCTGCCTCGCCCGGGCCATCCTCCGCCGGCCCAAAATCCT
TGTTCTAGACGAGGCAACCTCAGCCATCGACAAGCCCACAGACGCAGTAA
TCCAGAAATCCATCCGGGCTGAGTTTGGGCACAATGACTCTACACTATTA
GTCATCGCCCATCGCATTAGCACTATCGTTGACTTTGATCGGGTGCTTGT
GCTAGACGCCGGTCGGGCTATCGAGTACGGCACACCCCGGGAACTGATAG
CGAATCGGAATGGAGTCTTTCGCAGCCTAGTTGAGAGCAGCGTTGAGAGA
GACGAGTTGTTGGAGACTATGCATGCTGCCGGTCCGTGA back to topCoding sequence (CDS) from alignment at NKJJ01000009.1:601845..606233- >CAN33_11345-T1 ID=CAN33_11345-T1|Name=CAN33_11345-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=8664bp|location=Sequence derived from alignment at NKJJ01000009.1:601845..606233- (Aspergillus niger FDAARGOS_311)
TCGGAGCTTCTTGGCAGTGCGCATTACCTTAAAGATGTCAAGAAAGCTAT
TTGAAAGGTTTCTCTCTTCGATACTACGCGCTCCCCTGCAATGGCTCGAC
CAGATACCAGCCGGCAACATTCTAAACAACTTTTCCGCCGACTTTAGCTT
GATAGACTCGCGCCTTGGATATGATCTCAACTACGCACTGGGTGTTGTGT
TTGATCTCCTATCCATCGTGTTGGCTGCCTCCCTGGTGAATGTCTGGCTG
AATCTCCTCTCCGCCTGTTCACTCTTACTGGCGTTTTACTACGGGCAATT
ATTTATTAAGAAAATCCGCGCCATCAAGGAACTCGAAAGTACAATGCGAA
GCCCGGTACTTCACCACCTGTGTGCAACCATGGACGGAATAATGACCGTT
CGCGCCTACCGTCAAGAGGAGACCTACCGAAAGGAAATGTTTGGCAAGAT
TGACCGGCATTGCCGGGCATCCTGGTGTCTCTGGCTGCTTACACGTTGGA
TCGCCGTCCGCGCAAGCACCATTGGCGCCGCTTTTACCACTGCGGCCTCT
ATACTCGTGCTGTCTTCCAACGGCATCACGGCGTCGACTGCTGGATTTGC
CATCACATTCATCATGCGGTATAGTGGCGTTATGTCGCAGGTGATCAGGC
AATACGCAAACCTCGAGATATCTCTTAACAGTGTTGAACGTGTTTCGTGG
TCCCTCGACATCCCTGCAGAGAAATATGAATCCACCGACCCGATGCCAGA
GTCGTGGCCCGCGGACGGCCAACTGGACGTATCAGACTTGACCGTCTGTT
ATTCGCCCGATTTGCCACCTGTTCTCTCCGATCTATCTTTTTCCATCCCG
CCAAACACCAGAGTCGGAGTGGTCGGTCGTACCGGTGCAGGCAAGTCCTC
GTTGGCAATGGCCCTCTTCCGCTTCCTGGAAGCTCAGCAAGGAAGTATTC
ATGTGGCGGGGGTGGACATTTCGACTGTTCCGCTTCGCCAGCTACGGACG
CGCCTGGCAATCGTACCACAAGACCCGATCTTGTTCTCCGGCACGATACG
GTCTAATCTCGATCCGTTTAACGAGCACTCAGAGCAAGAACTCTTGTCTG
CTTTGCGACGCGTGCACTGGACTATCCCTGATGCTGATCACGACGAAAAC
CATCCTGGATCGCCTTTGATAAAACTAGATGAGGATGAAGAACCCAGAGA
AAACCCTTTTAACTCTCTGGAACTCCAATTCCAGCACCCTCCAAGCATTC
TAAACACTGCAGTCACCGAAAGAGGCGCGAACTTCTCCCAAGGTCAAAGA
CAGTGTCTCTGCCTCGCCCGGGCCATCCTCCGCCGGCCCAAAATCCTTGT
TCTAGACGAGGCAACCTCAGCCATCGACAAGCCCACAGACGCAGTAATCC
AGAAATCCATCCGGGCTGAGTTTGGGCACAATGACTCTACACTATTAGTC
ATCGCCCATCGCATTAGCACTATCGTTGACTTTGATCGGGTGCTTGTGCT
AGACGCCGGTCGGGCTATCGAGTACGGCACACCCCGGGAACTGATAGCGA
ATCGGAATGGAGTCTTTCGCAGCCTAGTTGAGAGCAGCGTTGAGAGAGAC
GAGTTGTTGGAGACTATGCATGCTGCCGGTCCGTGAATGTTTCAATCGGA
TGGGTATGAAGACCGCGATGGAATTGCAACACCAGAATCTATCAAAGAAT
TTTCCGACAAACCCCAACGCGTCGCGCTTGCAATCGGAACCGGAATTGGT
GTCTGGTTATCGTTATCGGAAGTTGTTGTGTTCAGCATTGTGTCTGCTTC
CACTGATGATTTCACACGATGGATGCGACTTGGAGCCTGGGGAACCCTGG
CCCTCAGTACATGTGCGGTCTGGATGGAAGACGAATGCACGCTTCGGTTC
CGACACGGCATTCAAACAAGCATCGGGTGCATCGCCATGATGGTCCTTCT
AGTTGCAGATCAGTACCAATGTTACAAGGCATTGGATTTTTCCTTCCTGT
CTTGGTTCTTTCTGCTTGGCCAGTCTTGCGCCGCTTTGGGCGCCTGCATT
GCTGGAACGTCATTACCTCGTCGACCGGATGTTTTTCACAATGGGACTGT
GGTGGACCGCAAAGGATCAGCAACCTTCTTGGACCAGCTTTTCTTCGGAT
GGGTGGGTCAGCTGCTTTCTGCGGGTCAGAAAGATGAGCTGGAGATCAGC
CACCTGCCTGAGCTCGAGTTCAACAGCCGTTCACCTCAGCTATTTCACGC
TTTTAGCCAACAATGCACGGCTTCTACCTCAAGCCTTTGGAAGGTCCTTG
TCCTCAGTCATCGGAAAGCCCTATCCATTCAACTCCTTTTGACCTTCCTG
AATGGGACCATGGCATTCGTGCCCCAGTTTTTTATCTTGGGAATCTTGCA
GCGTCTGGAAAACGACCCTGATGATCCTTGGCTATGGCTTTTTGTTCTTG
GACTGGGCGCATCGACTATCGTGTCCGCTCTTATTGAAAATTGGAACCTC
TATGTCTCATCCAATCTGATTGCAGTGAGGCTGCAGGAACAGCTATCAAC
AGTGATCTATGACAAAGCGTTACGTTGTCGTGCAGTGAACAATGTCGGGA
CGGATTCGCAGAGTGCCAGTACCACCAGCCCATCTAGTCAGGGTACCATG
AACTTGGTCGCTGTGGATGCAAAGAAAGTGGCTGACTTTTCAGCCGTTGG
CTTTCATCTTTACGAGGCACCACTGAAACTCATTATTGCGGCTATTTCGA
TTGGCCGGTTGCTTGGACCTCAGTGCCTACTGGTCGGTGGCTTAGTACTT
TTTCTTGTATCTGCTGGAAACTTTTACTCAGTCAGCCAGTTTTCGAAGCA
ACAAAGAGGTCTTTTAAGGTCTCGTGACAGCAAGATGGGAGTCATCAACG
AGGTTCTCCAGGGTATCCGCCAAGTCAAATTATCCGCTCTGGAGGAAAAA
TGGGAAAACCGCATCAACGACTCAAGAGGGAAGGAGCTACACAGCCAGTG
GCAAGTTTATAAGTGGGAACTTCTCATGTTCGTTGCTTATAATGTCACCC
CGGTTGCTGTTTCCGCCGCTTGCTTAGGTACATATGCCCTTTTACATGGG
GACATGCCGGCGTCTCTCGCTTTCACCTCGGTCTCGCTTCTTGGTGCACT
TGAAACGCCTCTTGCAGTTCTCCCCCAAATCCTGCTTAATGCGACGGGGG
CTCAAATTAGCCTGCGACGGATCGAACGTTTCCTTCGAACTCCAGACAGG
GATGTCGATATTGCGCCCGCTGATGGGGTTGTGCTGGATCAGGCCACAAT
TTGCTGGAACGAAAATCAATACACTAAATGCTTCACCTTGAAAGACATGT
CTCTAACCTTCCCATCTGGCGCTTTGAGTATCATTACGGGGCCATCTGGC
TCCGGCAAAAGTCTCGTTCTTGCAGCAATCCTTGGTGAATGCGAGTTTCT
GCAAGGTTGTGTACGACGGTCCCCAAGCCTGGCGGTTGCCTACGTTGCTC
AGGAGCCGTGCTTGAAAGATGGAACGATCAGGGACAACATTCTTTATGGC
CTGCCGTTTCAGCAGGAGCGCTACCGCCGCGTTATTTTCGCCTGCTCCCT
TGACAGCGACATAAATAGTCTGAGGCTGAAAGATGACACTCAAATGGATG
ACCAAGGGAGCAATCTCAGTGGTGGCCAGAAATGGCGTATCTCTCTTGCG
CGCGCTCTCTATTCCGATGTCGAGATAATCGTACTGGATGATATTTTCAG
CTCCATTGATTCTCATACGGCGCAGCATCTATATCAGTATGCTCTGACGG
GGAGTCTCGCCGAGGGGCGCACACGTATACTGGCCACTTATCACCTGGAA
CTGTGCTTACCAAGAGCTGAATACGTTGTTGCCCTTGACGCCAATGGACT
GCAGTATGCTGGCCCCAGACAAAATCTGAGGGATATGGGCATATTCAAGC
ATATGGCCCAGGCTGCAGCAGGAGTGGAGAGGGCTTCTCACATCAAGAAA
GGCTCTGTGGTGTCGAATGTTCCGTCTTCAGAAAACTGGATCGGAACGCT
ATTGCCCAGTGAGCAAGAGCAACTAGAAGACTCAGCAGGGCAAGATGGTT
TGGTTGGTGAGGCCAATACACGAGACCGTAAATGGCGAAATCGCCAGCGA
ATTTTCCGCTTGACTGACGCCAAGTATCGTTGCTTGCTTGTTTTGTTCTT
GCATCTGAGCTATGGCGGACTAGCAGTTGGCCGAGGTCTGTGGATGATGA
TCTGGAGTAACAGCACGAACAAGAGCAGGTACACAGAAGACATGAATATG
AAAGGAGCTGAGTCCACGGGAGTGAACATTACTCGGAGCTTCTTGGCAGT
GCGCATTACCTTAAAGATGTCAAGAAAGCTATTTGAAAGGTTTCTCTCTT
CGATACTACGCGCTCCCCTGCAATGGCTCGACCAGATACCAGCCGGCAAC
ATTCTAAACAACTTTTCCGCCGACTTTAGCTTGATAGACTCGCGCCTTGG
ATATGATCTCAACTACGCACTGGGTGTTGTGTTTGATCTCCTATCCATCG
TGTTGGCTGCCTCCCTGGTGAATGTCTGGCTGAATCTCCTCTCCGCCTGT
TCACTCTTACTGGCGTTTTACTACGGGCAATTATTTATTAAGAAAATCCG
CGCCATCAAGGAACTCGAAAGTACAATGCGAAGCCCGGTACTTCACCACC
TGTGTGCAACCATGGACGGAATAATGACCGTTCGCGCCTACCGTCAAGAG
GAGACCTACCGAAAGGAAATGTTTGGCAAGATTGACCGGCATTGCCGGGC
ATCCTGGTGTCTCTGGCTGCTTACACGTTGGATCGCCGTCCGCGCAAGCA
CCATTGGCGCCGCTTTTACCACTGCGGCCTCTATACTCGTGCTGTCTTCC
AACGGCATCACGGCGTCGACTGCTGGATTTGCCATCACATTCATCATGCG
GTATAGTGGCGTTATGTCGCAGGTGATCAGGCAATACGCAAACCTCGAGA
TATCTCTTAACAGTGTTGAACGTGTTTCGTGGTCCCTCGACATCCCTGCA
GAGAAATATGAATCCACCGACCCGATGCCAGAGTCGTGGCCCGCGGACGG
CCAACTGGACGTATCAGACTTGACCGTCTGTTATTCGCCCGATTTGCCAC
CTGTTCTCTCCGATCTATCTTTTTCCATCCCGCCAAACACCAGAGTCGGA
GTGGTCGGTCGTACCGGTGCAGGCAAGTCCTCGTTGGCAATGGCCCTCTT
CCGCTTCCTGGAAGCTCAGCAAGGAAGTATTCATGTGGCGGGGGTGGACA
TTTCGACTGTTCCGCTTCGCCAGCTACGGACGCGCCTGGCAATCGTACCA
CAAGACCCGATCTTGTTCTCCGGCACGATACGGTCTAATCTCGATCCGTT
TAACGAGCACTCAGAGCAAGAACTCTTGTCTGCTTTGCGACGCGTGCACT
GGACTATCCCTGATGCTGATCACGACGAAAACCATCCTGGATCGCCTTTG
ATAAAACTAGATGAGGATGAAGAACCCAGAGAAAACCCTTTTAACTCTCT
GGAACTCCAATTCCAGCACCCTCCAAGCATTCTAAACACTGCAGTCACCG
AAAGAGGCGCGAACTTCTCCCAAGGTCAAAGACAGTGTCTCTGCCTCGCC
CGGGCCATCCTCCGCCGGCCCAAAATCCTTGTTCTAGACGAGGCAACCTC
AGCCATCGACAAGCCCACAGACGCAGTAATCCAGAAATCCATCCGGGCTG
AGTTTGGGCACAATGACTCTACACTATTAGTCATCGCCCATCGCATTAGC
ACTATCGTTGACTTTGATCGGGTGCTTGTGCTAGACGCCGGTCGGGCTAT
CGAGTACGGCACACCCCGGGAACTGATAGCGAATCGGAATGGAGTCTTTC
GCAGCCTAGTTGAGAGCAGCGTTGAGAGAGACGAGTTGTTGGAGACTATG
CATGCTGCCGGTCCGTGAATGTTTCAATCGGATGGGTATGAAGACCGCGA
TGGAATTGCAACACCAGAATCTATCAAAGAATTTTCCGACAAACCCCAAC
GCGTCGCGCTTGCAATCGGAACCGGAATTGGTGTCTGGTTATCGTTATCG
GAAGTTGTTGTGTTCAGCATTGTGTCTGCTTCCACTGATGATTTCACACG
ATGGATGCGACTTGGAGCCTGGGGAACCCTGGCCCTCAGTACATGTGCGG
TCTGGATGGAAGACGAATGCACGCTTCGGTTCCGACACGGCATTCAAACA
AGCATCGGGTGCATCGCCATGATGGTCCTTCTAGTTGCAGATCAGTACCA
ATGTTACAAGGCATTGGATTTTTCCTTCCTGTCTTGGTTCTTTCTGCTTG
GCCAGTCTTGCGCCGCTTTGGGCGCCTGCATTGCTGGAACGTCATTACCT
CGTCGACCGGATGTTTTTCACAATGGGACTGTGGTGGACCGCAAAGGATC
AGCAACCTTCTTGGACCAGCTTTTCTTCGGATGGGTGGGTCAGCTGCTTT
CTGCGGGTCAGAAAGATGAGCTGGAGATCAGCCACCTGCCTGAGCTCGAG
TTCAACAGCCGTTCACCTCAGCTATTTCACGCTTTTAGCCAACAATGCAC
GGCTTCTACCTCAAGCCTTTGGAAGGTCCTTGTCCTCAGTCATCGGAAAG
CCCTATCCATTCAACTCCTTTTGACCTTCCTGAATGGGACCATGGCATTC
GTGCCCCAGTTTTTTATCTTGGGAATCTTGCAGCGTCTGGAAAACGACCC
TGATGATCCTTGGCTATGGCTTTTTGTTCTTGGACTGGGCGCATCGACTA
TCGTGTCCGCTCTTATTGAAAATTGGAACCTCTATGTCTCATCCAATCTG
ATTGCAGTGAGGCTGCAGGAACAGCTATCAACAGTGATCTATGACAAAGC
GTTACGTTGTCGTGCAGTGAACAATGTCGGGACGGATTCGCAGAGTGCCA
GTACCACCAGCCCATCTAGTCAGGGTACCATGAACTTGGTCGCTGTGGAT
GCAAAGAAAGTGGCTGACTTTTCAGCCGTTGGCTTTCATCTTTACGAGGC
ACCACTGAAACTCATTATTGCGGCTATTTCGATTGGCCGGTTGCTTGGAC
CTCAGTGCCTACTGGTCGGTGGCTTAGTACTTTTTCTTGTATCTGCTGGA
AACTTTTACTCAGTCAGCCAGTTTTCGAAGCAACAAAGAGGTCTTTTAAG
GTCTCGTGACAGCAAGATGGGAGTCATCAACGAGGTTCTCCAGGGTATCC
GCCAAGTCAAATTATCCGCTCTGGAGGAAAAATGGGAAAACCGCATCAAC
GACTCAAGAGGGAAGGAGCTACACAGCCAGTGGCAAGTTTATAAGTGGGA
ACTTCTCATGTTCGTTGCTTATAATGTCACCCCGGTTGCTGTTTCCGCCG
CTTGCTTAGGTACATATGCCCTTTTACATGGGGACATGCCGGCGTCTCTC
GCTTTCACCTCGGTCTCGCTTCTTGGTGCACTTGAAACGCCTCTTGCAGT
TCTCCCCCAAATCCTGCTTAATGCGACGGGGGCTCAAATTAGCCTGCGAC
GGATCGAACGTTTCCTTCGAACTCCAGACAGGGATGTCGATATTGCGCCC
GCTGATGGGGTTGTGCTGGATCAGGCCACAATTTGCTGGAACGAAAATCA
ATACACTAAATGCTTCACCTTGAAAGACATGTCTCTAACCTTCCCATCTG
GCGCTTTGAGTATCATTACGGGGCCATCTGGCTCCGGCAAAAGTCTCGTT
CTTGCAGCAATCCTTGGTGAATGCGAGTTTCTGCAAGGTTGTGTACGACG
GTCCCCAAGCCTGGCGGTTGCCTACGTTGCTCAGGAGCCGTGCTTGAAAG
ATGGAACGATCAGGGACAACATTCTTTATGGCCTGCCGTTTCAGCAGGAG
CGCTACCGCCGCGTTATTTTCGCCTGCTCCCTTGACAGCGACATAAATAG
TCTGAGGCTGAAAGATGACACTCAAATGGATGACCAAGGGAGCAATCTCA
GTGGTGGCCAGAAATGGCGTATCTCTCTTGCGCGCGCTCTCTATTCCGAT
GTCGAGATAATCGTACTGGATGATATTTTCAGCTCCATTGATTCTCATAC
GGCGCAGCATCTATATCAGTATGCTCTGACGGGGAGTCTCGCCGAGGGGC
GCACACGTATACTGGCCACTTATCACCTGGAACTGTGCTTACCAAGAGCT
GAATACGTTGTTGCCCTTGACGCCAATGGACTGCAGTATGCTGGCCCCAG
ACAAAATCTGAGGGATATGGGCATATTCAAGCATATGGCCCAGGCTGCAG
CAGGAGTGGAGAGGGCTTCTCACATCAAGAAAGGCTCTGTGGTGTCGAAT
GTTCCGTCTTCAGAAAACTGGATCGGAACGCTATTGCCCAGTGAGCAAGA
GCAACTAGAAGACTCAGCAGGGCAAGATGGTTTGGTTGGTGAGGCCAATA
CACGAGACCGTAAATGGCGAAATCGCCAGCGAATTTTCCGCTTGACTGAC
GCCAAGTATCGTTGCTTGCTTGTTTTGTTCTTGCATCTGAGCTATGGCGG
ACTAGCAGTTGGCCGAGGTCTGTGGATGATGATCTGGAGTAACAGCACGA
ACAAGAGCAGGTACACAGAAGACATGAATATGAAAGGAGCTGAGTCCACG
GGAGTGAACATTAC 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:0005524 | ATP binding |
| GO:0016887 | ATPase activity |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | EggNog:ENOG41 |
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR017871 |
| DBxref | InterPro:IPR011527 |
| DBxref | InterPro:IPR036640 |
| DBxref | InterPro:IPR003439 |
| DBxref | InterPro:IPR003593 |
| DBxref | PFAM:PF00005 |
| DBxref | PFAM:PF00664 |
| Product | ABC transporter 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 |
|---|
| NKJJ01000009.1 | supercontig | NKJJ01000009.1:601845..606233 - |
|
