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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000004.1:2057925..2061330- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_3220-T1 ID=CAN33_3220-T1|Name=CAN33_3220-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=3406bp|location=Sequence derived from alignment at NKJJ01000004.1:2057925..2061330- (Aspergillus niger FDAARGOS_311)
ATGCCCGGCAATACGCAAGTTTACCAAGTGGCCCAGCACCCCGGCTCATC
ACGGGCGGAGATCGAGAATGAACCGGACTGGGAGCTTCATTCTCGTGAAC
ACCGGCTGGGTTATCGTAACGCCAGCGGCAGATATGCAGGGATAACCCAC
ATTGGCGATGAACTGGCGGAAAACCCTGAGGAGGTTCGGGAGGCTCGCGA
GCAGATCGGCGACCTAAAACGAGAAATCGAGAAGGGGAAGCTTGTCAATT
TTCGTGATCTGATCGAGGACCAGAAAAATAGGGAGGTATGTGTGTTTCTT
GTATACAAAGATAGCAAGCGCCATTGAGCGAGCCGCATTTTTGATAGTGT
CATGTTATACTAATGGCTAATGCGTAGGCATTCCATCTTCGGCATCCCGA
GAAACGACCTTTCGGATGGCGATATGTGCCCGAATATACTGAGGAATGGG
TTAAATTGGGCCAGGAGTGGCCGACGAATGTTCGTCGGCGGCAGAAAGAA
GAAGAAAGTCAGAGGGAAGAGCAACAGAAGACGGAGCAGGAGGGGAGAAA
GGACGACGAGGACAAACAAGTGAATCAGGAAGAGCAGCATGACGAAGGTA
AAAATGAAGAAAAAGATACCCAGAAAGCAACGCCAGAGCAGGAGACTGAA
AAGTCAGTGGCCGATGGGGACGAAAGCGAAGAGAAATCCGAAAACGAACT
TAGCCTAGAGGAGATCTCACTCCTCCGAGCAGTCCGGCACGAGGAGGCGG
TTATAAAAAACCTAAAGCAGAATAATGGGCAAGGAAGATCATCAGCGCCC
GAGAACCCGTATATCACCATTGACGAAGCAGATCAGTTTACCGCGGATAA
CTGGGTGCCTCGATCTCCTGACCTCGTCCGGCTGACTGGAAAGCTGCCAC
TGAACGCCGAGCCGCAACTGTCAAAGCTCTTTAACGCCGGTCTCGTAACC
CCAAATGAGCTGCATTATGTGCGGAACCACGGCCCAGTCCCAAAATTGGT
CTGGGAATTTCATGAAATAGACATAGAAGGCGGCCGGGTGAAGCTTGGCA
TGGATGAGTTGACGAAGAACTTCAAAGCTATCAATATCCCCATCCTTCTG
GCCTGTGATAACACTCGGCGGAAAGAATTGAACATGATCAAGCGTACAAC
AGGGTTCAACTGGGGCCCTGGGGGGTGAGCTGTGCCTACTGGAAAGGCCC
ACTGCTCCGGGATGTTCTCCTTGCTGCTGGGGTGCCCGAGCGAATGCCTG
ACCAGGATAATCAACGGTATTGGATTCATTTTGAAGGAGCCGATGAGCCA
AACGAAGCAAAATATGCTACATCCATTCCATTCGACCATGTCATGGACCC
TAGAAATGATGTGATTCTTGCATATGAAATGAATGACCGTCCCCTGCCAC
CTGACCATGGGTATCCAGTCCGCGTTATGATCCCAGGTTATGTAGGAGGA
CGCTGTGTGAAATGGCTGAGCAAGATCTGGACCAGTAATAAAGAAAACAA
CTCATACTATCATCTCCACGACAACCGGATGTTGCCTAGTTCTGTCACTG
ATACAGAAAGCCAACTCGCCAAGTTGTTTTTCACTCACCCGGATACTGCC
TGCTATGAACAGACTCTTAACTCAGTTATTGCTAGGCCCGCTCAAGGGGA
GAAGATCTCAGTAAGTAATGCTCGGAAAGGGAAGACGTACCGCATTGCAG
GATTCGCCTACAGCGGCAGTGGCCATCCGGTCCGTCGAGTTGAGATATCT
CTAAATAATGGTAAGAGCTGGCTCTACTGCATCCGCGAATTCCCTGACCG
TCCTATACGTCACGGTAATAAATTCTGGGCTTGGGTACATTGGCACGTTG
ATGTCGAAATCCTCCAGCTAGCACAAGCGGAGAGCATCACCGTTGCATGC
GTCGATGGGGCGCATAATACACAGCCGGAGCAGCCGCGGTGGAATATTTC
AGGAACTTTGAATAGCTGCCGCTATGTGGTAAAGCCGGAATTGATTTATG
ATGACGGCGATAATCAATCAGGCGCAGCATCCGTTCTTTTCCGTCACCCT
GTGGAGCCAGGTACAGGGGAAGGGGGCTGGATGAAGCCCAGTGTTGATGT
GCAGGTACAGGCAGCCAAACAGAGCGCGGCTGCCCCGCAAAAGCAGTTTA
CGCGCGAGGAAATTGAGAAGCACCACAGTGAAGATGATTGCTGGATCGTC
GTAGACGGCAAAGTTTATGACGCAACGGGGGTTTTGTCCTGGCATCCAGG
CGGGAAAGCACCCATCCTTGCACATGCAGGCAAAGTTCATTATGAGACCA
GTGAAGAGTATGCAAGCATACATGATGACTACGCTGCAGAGAAGCTCCAA
GGTAGGACCTTTATACAGTGGTTTCTGGAGGCCAGTGACTAATATAACTA
TAGAGTGCATTCTGGGCGTGGTGACAGAAAAGGCGATGAAGTACATCGAG
AAGAATGCAGAGCAAGCCAAGAAGGAAAAACAGCAAACTGCGCAGCCCAA
TGATCAGGCATTGCAGAGACATCGGTGGGTCCCTGTCAAATTGCTCGACC
GCAAGGCCATCAGCAGAGACACCCGCGAATATACGTTCAAGTTGCCCGAG
GGGAAACCTACTCTAGGCATTGATGCTTGCCAGCACATCGAAGTAGCCTT
TCACATGAAGGACCGAATGCTCATACGACCGTATACGCCAACTCAGCCGC
TTCTCCCTCCCGCATCGTCGTCTTCAAACGGCTATCAGGAAAACGGAAAG
TCTCATTTCGTTAGTCAAGTTCGAGACGGCAAGGGGGCTTTCACATTGAC
CATCAAGACTTATTTCCCCAATGATGACCAGCCAGGAGGTGCAATGTCGA
ACGTTTTAGACTGTCTACCGTTGGGAGAAGAGGTTGACATCCGAGGTCCG
ACGGGGGATCTTGTTTATGAAGGATACGGCAACTTCACCATCGCAGGAGA
GAAGAAAAAATTCAAAAGGGTATCGCTAGTGATTGGAGGCAGTGGCATCA
CCCCAGCATATGCCCTGATAGCCCGTATACTTCTCACAGACGGAGACAAG
ACCAAGATTCGCGTCATCGATGCGAACAAGACAACAAGCGATATTCTCTT
ACGCGACCAACTGGATAAATTCGTAAAAGACAGTGCCAGCCAGCTGGAGA
TAACTCACGTTATCTCAAAACCAGACGAAAATTGGCATGGACTTTCAGGA
CACGTCAACGAGAGTATCCTTCGGAAACACATGTTTGAACCTTCTGATGA
AAATGTGGCCATTCTGTGCGGTCCCCCGACGATGATTGAAAAGGCAGTGT
TGCCTGCCCTTGATGGTAATTCCCGTCTCCCTTTGGCACCTAAATGCTTT
ACTGACAAGTGACAGAATGGGGATATGTGCGCGACGAGAATGTGTTTGGC
CTCTGA back to topCoding sequence (CDS) from alignment at NKJJ01000004.1:2057925..2061330- >CAN33_3220-T1 ID=CAN33_3220-T1|Name=CAN33_3220-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=15795bp|location=Sequence derived from alignment at NKJJ01000004.1:2057925..2061330- (Aspergillus niger FDAARGOS_311)
AATGGGGATATGTGCGCGACGAGAATGTGTTTGGCCTCTGAAGTGCATTC
TGGGCGTGGTGACAGAAAAGGCGATGAAGTACATCGAGAAGAATGCAGAG
CAAGCCAAGAAGGAAAAACAGCAAACTGCGCAGCCCAATGATCAGGCATT
GCAGAGACATCGGTGGGTCCCTGTCAAATTGCTCGACCGCAAGGCCATCA
GCAGAGACACCCGCGAATATACGTTCAAGTTGCCCGAGGGGAAACCTACT
CTAGGCATTGATGCTTGCCAGCACATCGAAGTAGCCTTTCACATGAAGGA
CCGAATGCTCATACGACCGTATACGCCAACTCAGCCGCTTCTCCCTCCCG
CATCGTCGTCTTCAAACGGCTATCAGGAAAACGGAAAGTCTCATTTCGTT
AGTCAAGTTCGAGACGGCAAGGGGGCTTTCACATTGACCATCAAGACTTA
TTTCCCCAATGATGACCAGCCAGGAGGTGCAATGTCGAACGTTTTAGACT
GTCTACCGTTGGGAGAAGAGGTTGACATCCGAGGTCCGACGGGGGATCTT
GTTTATGAAGGATACGGCAACTTCACCATCGCAGGAGAGAAGAAAAAATT
CAAAAGGGTATCGCTAGTGATTGGAGGCAGTGGCATCACCCCAGCATATG
CCCTGATAGCCCGTATACTTCTCACAGACGGAGACAAGACCAAGATTCGC
GTCATCGATGCGAACAAGACAACAAGCGATATTCTCTTACGCGACCAACT
GGATAAATTCGTAAAAGACAGTGCCAGCCAGCTGGAGATAACTCACGTTA
TCTCAAAACCAGACGAAAATTGGCATGGACTTTCAGGACACGTCAACGAG
AGTATCCTTCGGAAACACATGTTTGAACCTTCTGATGAAAATGTGGCCAT
TCTGTGCGGTCCCCCGACGATGATTGAAAAGGCAGTGTTGCCTGCCCTTG
ATGGCCCACTGCTCCGGGATGTTCTCCTTGCTGCTGGGGTGCCCGAGCGA
ATGCCTGACCAGGATAATCAACGGTATTGGATTCATTTTGAAGGAGCCGA
TGAGCCAAACGAAGCAAAATATGCTACATCCATTCCATTCGACCATGTCA
TGGACCCTAGAAATGATGTGATTCTTGCATATGAAATGAATGACCGTCCC
CTGCCACCTGACCATGGGTATCCAGTCCGCGTTATGATCCCAGGTTATGT
AGGAGGACGCTGTGTGAAATGGCTGAGCAAGATCTGGACCAGTAATAAAG
AAAACAACTCATACTATCATCTCCACGACAACCGGATGTTGCCTAGTTCT
GTCACTGATACAGAAAGCCAACTCGCCAAGTTGTTTTTCACTCACCCGGA
TACTGCCTGCTATGAACAGACTCTTAACTCAGTTATTGCTAGGCCCGCTC
AAGGGGAGAAGATCTCAGTAAGTAATGCTCGGAAAGGGAAGACGTACCGC
ATTGCAGGATTCGCCTACAGCGGCAGTGGCCATCCGGTCCGTCGAGTTGA
GATATCTCTAAATAATGGTAAGAGCTGGCTCTACTGCATCCGCGAATTCC
CTGACCGTCCTATACGTCACGGTAATAAATTCTGGGCTTGGGTACATTGG
CACGTTGATGTCGAAATCCTCCAGCTAGCACAAGCGGAGAGCATCACCGT
TGCATGCGTCGATGGGGCGCATAATACACAGCCGGAGCAGCCGCGGTGGA
ATATTTCAGGAACTTTGAATAGCTGCCGCTATGTGGTAAAGCCGGAATTG
ATTTATGATGACGGCGATAATCAATCAGGCGCAGCATCCGTTCTTTTCCG
TCACCCTGTGGAGCCAGGTACAGGGGAAGGGGGCTGGATGAAGCCCAGTG
TTGATGTGCAGGTACAGGCAGCCAAACAGAGCGCGGCTGCCCCGCAAAAG
CAGTTTACGCGCGAGGAAATTGAGAAGCACCACAGTGAAGATGATTGCTG
GATCGTCGTAGACGGCAAAGTTTATGACGCAACGGGGGTTTTGTCCTGGC
ATCCAGGCGGGAAAGCACCCATCCTTGCACATGCAGGCAAAGTTCATTAT
GAGACCAGTGAAGAGTATGCAAGCATACATGATGACTACGCTGCAGAGAA
GCTCCAAGGCATTCCATCTTCGGCATCCCGAGAAACGACCTTTCGGATGG
CGATATGTGCCCGAATATACTGAGGAATGGGTTAAATTGGGCCAGGAGTG
GCCGACGAATGTTCGTCGGCGGCAGAAAGAAGAAGAAAGTCAGAGGGAAG
AGCAACAGAAGACGGAGCAGGAGGGGAGAAAGGACGACGAGGACAAACAA
GTGAATCAGGAAGAGCAGCATGACGAAGGTAAAAATGAAGAAAAAGATAC
CCAGAAAGCAACGCCAGAGCAGGAGACTGAAAAGTCAGTGGCCGATGGGG
ACGAAAGCGAAGAGAAATCCGAAAACGAACTTAGCCTAGAGGAGATCTCA
CTCCTCCGAGCAGTCCGGCACGAGGAGGCGGTTATAAAAAACCTAAAGCA
GAATAATGGGCAAGGAAGATCATCAGCGCCCGAGAACCCGTATATCACCA
TTGACGAAGCAGATCAGTTTACCGCGGATAACTGGGTGCCTCGATCTCCT
GACCTCGTCCGGCTGACTGGAAAGCTGCCACTGAACGCCGAGCCGCAACT
GTCAAAGCTCTTTAACGCCGGTCTCGTAACCCCAAATGAGCTGCATTATG
TGCGGAACCACGGCCCAGTCCCAAAATTGGTCTGGGAATTTCATGAAATA
GACATAGAAGGCGGCCGGGTGAAGCTTGGCATGGATGAGTTGACGAAGAA
CTTCAAAGCTATCAATATCCCCATCCTTCTGGCCTGTGATAACACTCGGC
GGAAAGAATTGAACATGATCAAGCATGCCCGGCAATACGCAAGTTTACCA
AGTGGCCCAGCACCCCGGCTCATCACGGGCGGAGATCGAGAATGAACCGG
ACTGGGAGCTTCATTCTCGTGAACACCGGCTGGGTTATCGTAACGCCAGC
GGCAGATATGCAGGGATAACCCACATTGGCGATGAACTGGCGGAAAACCC
TGAGGAGGTTCGGGAGGCTCGCGAGCAGATCGGCGACCTAAAACGAGAAA
TCGAGAAGGGGAAGCTTGTCAATTTTCGTGATCTGATCGAGGACCAGAAA
AATAGGGAGAATGGGGATATGTGCGCGACGAGAATGTGTTTGGCCTCTGA
AGTGCATTCTGGGCGTGGTGACAGAAAAGGCGATGAAGTACATCGAGAAG
AATGCAGAGCAAGCCAAGAAGGAAAAACAGCAAACTGCGCAGCCCAATGA
TCAGGCATTGCAGAGACATCGGTGGGTCCCTGTCAAATTGCTCGACCGCA
AGGCCATCAGCAGAGACACCCGCGAATATACGTTCAAGTTGCCCGAGGGG
AAACCTACTCTAGGCATTGATGCTTGCCAGCACATCGAAGTAGCCTTTCA
CATGAAGGACCGAATGCTCATACGACCGTATACGCCAACTCAGCCGCTTC
TCCCTCCCGCATCGTCGTCTTCAAACGGCTATCAGGAAAACGGAAAGTCT
CATTTCGTTAGTCAAGTTCGAGACGGCAAGGGGGCTTTCACATTGACCAT
CAAGACTTATTTCCCCAATGATGACCAGCCAGGAGGTGCAATGTCGAACG
TTTTAGACTGTCTACCGTTGGGAGAAGAGGTTGACATCCGAGGTCCGACG
GGGGATCTTGTTTATGAAGGATACGGCAACTTCACCATCGCAGGAGAGAA
GAAAAAATTCAAAAGGGTATCGCTAGTGATTGGAGGCAGTGGCATCACCC
CAGCATATGCCCTGATAGCCCGTATACTTCTCACAGACGGAGACAAGACC
AAGATTCGCGTCATCGATGCGAACAAGACAACAAGCGATATTCTCTTACG
CGACCAACTGGATAAATTCGTAAAAGACAGTGCCAGCCAGCTGGAGATAA
CTCACGTTATCTCAAAACCAGACGAAAATTGGCATGGACTTTCAGGACAC
GTCAACGAGAGTATCCTTCGGAAACACATGTTTGAACCTTCTGATGAAAA
TGTGGCCATTCTGTGCGGTCCCCCGACGATGATTGAAAAGGCAGTGTTGC
CTGCCCTTGATGGCCCACTGCTCCGGGATGTTCTCCTTGCTGCTGGGGTG
CCCGAGCGAATGCCTGACCAGGATAATCAACGGTATTGGATTCATTTTGA
AGGAGCCGATGAGCCAAACGAAGCAAAATATGCTACATCCATTCCATTCG
ACCATGTCATGGACCCTAGAAATGATGTGATTCTTGCATATGAAATGAAT
GACCGTCCCCTGCCACCTGACCATGGGTATCCAGTCCGCGTTATGATCCC
AGGTTATGTAGGAGGACGCTGTGTGAAATGGCTGAGCAAGATCTGGACCA
GTAATAAAGAAAACAACTCATACTATCATCTCCACGACAACCGGATGTTG
CCTAGTTCTGTCACTGATACAGAAAGCCAACTCGCCAAGTTGTTTTTCAC
TCACCCGGATACTGCCTGCTATGAACAGACTCTTAACTCAGTTATTGCTA
GGCCCGCTCAAGGGGAGAAGATCTCAGTAAGTAATGCTCGGAAAGGGAAG
ACGTACCGCATTGCAGGATTCGCCTACAGCGGCAGTGGCCATCCGGTCCG
TCGAGTTGAGATATCTCTAAATAATGGTAAGAGCTGGCTCTACTGCATCC
GCGAATTCCCTGACCGTCCTATACGTCACGGTAATAAATTCTGGGCTTGG
GTACATTGGCACGTTGATGTCGAAATCCTCCAGCTAGCACAAGCGGAGAG
CATCACCGTTGCATGCGTCGATGGGGCGCATAATACACAGCCGGAGCAGC
CGCGGTGGAATATTTCAGGAACTTTGAATAGCTGCCGCTATGTGGTAAAG
CCGGAATTGATTTATGATGACGGCGATAATCAATCAGGCGCAGCATCCGT
TCTTTTCCGTCACCCTGTGGAGCCAGGTACAGGGGAAGGGGGCTGGATGA
AGCCCAGTGTTGATGTGCAGGTACAGGCAGCCAAACAGAGCGCGGCTGCC
CCGCAAAAGCAGTTTACGCGCGAGGAAATTGAGAAGCACCACAGTGAAGA
TGATTGCTGGATCGTCGTAGACGGCAAAGTTTATGACGCAACGGGGGTTT
TGTCCTGGCATCCAGGCGGGAAAGCACCCATCCTTGCACATGCAGGCAAA
GTTCATTATGAGACCAGTGAAGAGTATGCAAGCATACATGATGACTACGC
TGCAGAGAAGCTCCAAGGCATTCCATCTTCGGCATCCCGAGAAACGACCT
TTCGGATGGCGATATGTGCCCGAATATACTGAGGAATGGGTTAAATTGGG
CCAGGAGTGGCCGACGAATGTTCGTCGGCGGCAGAAAGAAGAAGAAAGTC
AGAGGGAAGAGCAACAGAAGACGGAGCAGGAGGGGAGAAAGGACGACGAG
GACAAACAAGTGAATCAGGAAGAGCAGCATGACGAAGGTAAAAATGAAGA
AAAAGATACCCAGAAAGCAACGCCAGAGCAGGAGACTGAAAAGTCAGTGG
CCGATGGGGACGAAAGCGAAGAGAAATCCGAAAACGAACTTAGCCTAGAG
GAGATCTCACTCCTCCGAGCAGTCCGGCACGAGGAGGCGGTTATAAAAAA
CCTAAAGCAGAATAATGGGCAAGGAAGATCATCAGCGCCCGAGAACCCGT
ATATCACCATTGACGAAGCAGATCAGTTTACCGCGGATAACTGGGTGCCT
CGATCTCCTGACCTCGTCCGGCTGACTGGAAAGCTGCCACTGAACGCCGA
GCCGCAACTGTCAAAGCTCTTTAACGCCGGTCTCGTAACCCCAAATGAGC
TGCATTATGTGCGGAACCACGGCCCAGTCCCAAAATTGGTCTGGGAATTT
CATGAAATAGACATAGAAGGCGGCCGGGTGAAGCTTGGCATGGATGAGTT
GACGAAGAACTTCAAAGCTATCAATATCCCCATCCTTCTGGCCTGTGATA
ACACTCGGCGGAAAGAATTGAACATGATCAAGCATGCCCGGCAATACGCA
AGTTTACCAAGTGGCCCAGCACCCCGGCTCATCACGGGCGGAGATCGAGA
ATGAACCGGACTGGGAGCTTCATTCTCGTGAACACCGGCTGGGTTATCGT
AACGCCAGCGGCAGATATGCAGGGATAACCCACATTGGCGATGAACTGGC
GGAAAACCCTGAGGAGGTTCGGGAGGCTCGCGAGCAGATCGGCGACCTAA
AACGAGAAATCGAGAAGGGGAAGCTTGTCAATTTTCGTGATCTGATCGAG
GACCAGAAAAATAGGGAGAATGGGGATATGTGCGCGACGAGAATGTGTTT
GGCCTCTGAAGTGCATTCTGGGCGTGGTGACAGAAAAGGCGATGAAGTAC
ATCGAGAAGAATGCAGAGCAAGCCAAGAAGGAAAAACAGCAAACTGCGCA
GCCCAATGATCAGGCATTGCAGAGACATCGGTGGGTCCCTGTCAAATTGC
TCGACCGCAAGGCCATCAGCAGAGACACCCGCGAATATACGTTCAAGTTG
CCCGAGGGGAAACCTACTCTAGGCATTGATGCTTGCCAGCACATCGAAGT
AGCCTTTCACATGAAGGACCGAATGCTCATACGACCGTATACGCCAACTC
AGCCGCTTCTCCCTCCCGCATCGTCGTCTTCAAACGGCTATCAGGAAAAC
GGAAAGTCTCATTTCGTTAGTCAAGTTCGAGACGGCAAGGGGGCTTTCAC
ATTGACCATCAAGACTTATTTCCCCAATGATGACCAGCCAGGAGGTGCAA
TGTCGAACGTTTTAGACTGTCTACCGTTGGGAGAAGAGGTTGACATCCGA
GGTCCGACGGGGGATCTTGTTTATGAAGGATACGGCAACTTCACCATCGC
AGGAGAGAAGAAAAAATTCAAAAGGGTATCGCTAGTGATTGGAGGCAGTG
GCATCACCCCAGCATATGCCCTGATAGCCCGTATACTTCTCACAGACGGA
GACAAGACCAAGATTCGCGTCATCGATGCGAACAAGACAACAAGCGATAT
TCTCTTACGCGACCAACTGGATAAATTCGTAAAAGACAGTGCCAGCCAGC
TGGAGATAACTCACGTTATCTCAAAACCAGACGAAAATTGGCATGGACTT
TCAGGACACGTCAACGAGAGTATCCTTCGGAAACACATGTTTGAACCTTC
TGATGAAAATGTGGCCATTCTGTGCGGTCCCCCGACGATGATTGAAAAGG
CAGTGTTGCCTGCCCTTGATGGCCCACTGCTCCGGGATGTTCTCCTTGCT
GCTGGGGTGCCCGAGCGAATGCCTGACCAGGATAATCAACGGTATTGGAT
TCATTTTGAAGGAGCCGATGAGCCAAACGAAGCAAAATATGCTACATCCA
TTCCATTCGACCATGTCATGGACCCTAGAAATGATGTGATTCTTGCATAT
GAAATGAATGACCGTCCCCTGCCACCTGACCATGGGTATCCAGTCCGCGT
TATGATCCCAGGTTATGTAGGAGGACGCTGTGTGAAATGGCTGAGCAAGA
TCTGGACCAGTAATAAAGAAAACAACTCATACTATCATCTCCACGACAAC
CGGATGTTGCCTAGTTCTGTCACTGATACAGAAAGCCAACTCGCCAAGTT
GTTTTTCACTCACCCGGATACTGCCTGCTATGAACAGACTCTTAACTCAG
TTATTGCTAGGCCCGCTCAAGGGGAGAAGATCTCAGTAAGTAATGCTCGG
AAAGGGAAGACGTACCGCATTGCAGGATTCGCCTACAGCGGCAGTGGCCA
TCCGGTCCGTCGAGTTGAGATATCTCTAAATAATGGTAAGAGCTGGCTCT
ACTGCATCCGCGAATTCCCTGACCGTCCTATACGTCACGGTAATAAATTC
TGGGCTTGGGTACATTGGCACGTTGATGTCGAAATCCTCCAGCTAGCACA
AGCGGAGAGCATCACCGTTGCATGCGTCGATGGGGCGCATAATACACAGC
CGGAGCAGCCGCGGTGGAATATTTCAGGAACTTTGAATAGCTGCCGCTAT
GTGGTAAAGCCGGAATTGATTTATGATGACGGCGATAATCAATCAGGCGC
AGCATCCGTTCTTTTCCGTCACCCTGTGGAGCCAGGTACAGGGGAAGGGG
GCTGGATGAAGCCCAGTGTTGATGTGCAGGTACAGGCAGCCAAACAGAGC
GCGGCTGCCCCGCAAAAGCAGTTTACGCGCGAGGAAATTGAGAAGCACCA
CAGTGAAGATGATTGCTGGATCGTCGTAGACGGCAAAGTTTATGACGCAA
CGGGGGTTTTGTCCTGGCATCCAGGCGGGAAAGCACCCATCCTTGCACAT
GCAGGCAAAGTTCATTATGAGACCAGTGAAGAGTATGCAAGCATACATGA
TGACTACGCTGCAGAGAAGCTCCAAGGCATTCCATCTTCGGCATCCCGAG
AAACGACCTTTCGGATGGCGATATGTGCCCGAATATACTGAGGAATGGGT
TAAATTGGGCCAGGAGTGGCCGACGAATGTTCGTCGGCGGCAGAAAGAAG
AAGAAAGTCAGAGGGAAGAGCAACAGAAGACGGAGCAGGAGGGGAGAAAG
GACGACGAGGACAAACAAGTGAATCAGGAAGAGCAGCATGACGAAGGTAA
AAATGAAGAAAAAGATACCCAGAAAGCAACGCCAGAGCAGGAGACTGAAA
AGTCAGTGGCCGATGGGGACGAAAGCGAAGAGAAATCCGAAAACGAACTT
AGCCTAGAGGAGATCTCACTCCTCCGAGCAGTCCGGCACGAGGAGGCGGT
TATAAAAAACCTAAAGCAGAATAATGGGCAAGGAAGATCATCAGCGCCCG
AGAACCCGTATATCACCATTGACGAAGCAGATCAGTTTACCGCGGATAAC
TGGGTGCCTCGATCTCCTGACCTCGTCCGGCTGACTGGAAAGCTGCCACT
GAACGCCGAGCCGCAACTGTCAAAGCTCTTTAACGCCGGTCTCGTAACCC
CAAATGAGCTGCATTATGTGCGGAACCACGGCCCAGTCCCAAAATTGGTC
TGGGAATTTCATGAAATAGACATAGAAGGCGGCCGGGTGAAGCTTGGCAT
GGATGAGTTGACGAAGAACTTCAAAGCTATCAATATCCCCATCCTTCTGG
CCTGTGATAACACTCGGCGGAAAGAATTGAACATGATCAAGCATGCCCGG
CAATACGCAAGTTTACCAAGTGGCCCAGCACCCCGGCTCATCACGGGCGG
AGATCGAGAATGAACCGGACTGGGAGCTTCATTCTCGTGAACACCGGCTG
GGTTATCGTAACGCCAGCGGCAGATATGCAGGGATAACCCACATTGGCGA
TGAACTGGCGGAAAACCCTGAGGAGGTTCGGGAGGCTCGCGAGCAGATCG
GCGACCTAAAACGAGAAATCGAGAAGGGGAAGCTTGTCAATTTTCGTGAT
CTGATCGAGGACCAGAAAAATAGGGAGAATGGGGATATGTGCGCGACGAG
AATGTGTTTGGCCTCTGAAGTGCATTCTGGGCGTGGTGACAGAAAAGGCG
ATGAAGTACATCGAGAAGAATGCAGAGCAAGCCAAGAAGGAAAAACAGCA
AACTGCGCAGCCCAATGATCAGGCATTGCAGAGACATCGGTGGGTCCCTG
TCAAATTGCTCGACCGCAAGGCCATCAGCAGAGACACCCGCGAATATACG
TTCAAGTTGCCCGAGGGGAAACCTACTCTAGGCATTGATGCTTGCCAGCA
CATCGAAGTAGCCTTTCACATGAAGGACCGAATGCTCATACGACCGTATA
CGCCAACTCAGCCGCTTCTCCCTCCCGCATCGTCGTCTTCAAACGGCTAT
CAGGAAAACGGAAAGTCTCATTTCGTTAGTCAAGTTCGAGACGGCAAGGG
GGCTTTCACATTGACCATCAAGACTTATTTCCCCAATGATGACCAGCCAG
GAGGTGCAATGTCGAACGTTTTAGACTGTCTACCGTTGGGAGAAGAGGTT
GACATCCGAGGTCCGACGGGGGATCTTGTTTATGAAGGATACGGCAACTT
CACCATCGCAGGAGAGAAGAAAAAATTCAAAAGGGTATCGCTAGTGATTG
GAGGCAGTGGCATCACCCCAGCATATGCCCTGATAGCCCGTATACTTCTC
ACAGACGGAGACAAGACCAAGATTCGCGTCATCGATGCGAACAAGACAAC
AAGCGATATTCTCTTACGCGACCAACTGGATAAATTCGTAAAAGACAGTG
CCAGCCAGCTGGAGATAACTCACGTTATCTCAAAACCAGACGAAAATTGG
CATGGACTTTCAGGACACGTCAACGAGAGTATCCTTCGGAAACACATGTT
TGAACCTTCTGATGAAAATGTGGCCATTCTGTGCGGTCCCCCGACGATGA
TTGAAAAGGCAGTGTTGCCTGCCCTTGATGGCCCACTGCTCCGGGATGTT
CTCCTTGCTGCTGGGGTGCCCGAGCGAATGCCTGACCAGGATAATCAACG
GTATTGGATTCATTTTGAAGGAGCCGATGAGCCAAACGAAGCAAAATATG
CTACATCCATTCCATTCGACCATGTCATGGACCCTAGAAATGATGTGATT
CTTGCATATGAAATGAATGACCGTCCCCTGCCACCTGACCATGGGTATCC
AGTCCGCGTTATGATCCCAGGTTATGTAGGAGGACGCTGTGTGAAATGGC
TGAGCAAGATCTGGACCAGTAATAAAGAAAACAACTCATACTATCATCTC
CACGACAACCGGATGTTGCCTAGTTCTGTCACTGATACAGAAAGCCAACT
CGCCAAGTTGTTTTTCACTCACCCGGATACTGCCTGCTATGAACAGACTC
TTAACTCAGTTATTGCTAGGCCCGCTCAAGGGGAGAAGATCTCAGTAAGT
AATGCTCGGAAAGGGAAGACGTACCGCATTGCAGGATTCGCCTACAGCGG
CAGTGGCCATCCGGTCCGTCGAGTTGAGATATCTCTAAATAATGGTAAGA
GCTGGCTCTACTGCATCCGCGAATTCCCTGACCGTCCTATACGTCACGGT
AATAAATTCTGGGCTTGGGTACATTGGCACGTTGATGTCGAAATCCTCCA
GCTAGCACAAGCGGAGAGCATCACCGTTGCATGCGTCGATGGGGCGCATA
ATACACAGCCGGAGCAGCCGCGGTGGAATATTTCAGGAACTTTGAATAGC
TGCCGCTATGTGGTAAAGCCGGAATTGATTTATGATGACGGCGATAATCA
ATCAGGCGCAGCATCCGTTCTTTTCCGTCACCCTGTGGAGCCAGGTACAG
GGGAAGGGGGCTGGATGAAGCCCAGTGTTGATGTGCAGGTACAGGCAGCC
AAACAGAGCGCGGCTGCCCCGCAAAAGCAGTTTACGCGCGAGGAAATTGA
GAAGCACCACAGTGAAGATGATTGCTGGATCGTCGTAGACGGCAAAGTTT
ATGACGCAACGGGGGTTTTGTCCTGGCATCCAGGCGGGAAAGCACCCATC
CTTGCACATGCAGGCAAAGTTCATTATGAGACCAGTGAAGAGTATGCAAG
CATACATGATGACTACGCTGCAGAGAAGCTCCAAGGCATTCCATCTTCGG
CATCCCGAGAAACGACCTTTCGGATGGCGATATGTGCCCGAATATACTGA
GGAATGGGTTAAATTGGGCCAGGAGTGGCCGACGAATGTTCGTCGGCGGC
AGAAAGAAGAAGAAAGTCAGAGGGAAGAGCAACAGAAGACGGAGCAGGAG
GGGAGAAAGGACGACGAGGACAAACAAGTGAATCAGGAAGAGCAGCATGA
CGAAGGTAAAAATGAAGAAAAAGATACCCAGAAAGCAACGCCAGAGCAGG
AGACTGAAAAGTCAGTGGCCGATGGGGACGAAAGCGAAGAGAAATCCGAA
AACGAACTTAGCCTAGAGGAGATCTCACTCCTCCGAGCAGTCCGGCACGA
GGAGGCGGTTATAAAAAACCTAAAGCAGAATAATGGGCAAGGAAGATCAT
CAGCGCCCGAGAACCCGTATATCACCATTGACGAAGCAGATCAGTTTACC
GCGGATAACTGGGTGCCTCGATCTCCTGACCTCGTCCGGCTGACTGGAAA
GCTGCCACTGAACGCCGAGCCGCAACTGTCAAAGCTCTTTAACGCCGGTC
TCGTAACCCCAAATGAGCTGCATTATGTGCGGAACCACGGCCCAGTCCCA
AAATTGGTCTGGGAATTTCATGAAATAGACATAGAAGGCGGCCGGGTGAA
GCTTGGCATGGATGAGTTGACGAAGAACTTCAAAGCTATCAATATCCCCA
TCCTTCTGGCCTGTGATAACACTCGGCGGAAAGAATTGAACATGATCAAG
CATGCCCGGCAATACGCAAGTTTACCAAGTGGCCCAGCACCCCGGCTCAT
CACGGGCGGAGATCGAGAATGAACCGGACTGGGAGCTTCATTCTCGTGAA
CACCGGCTGGGTTATCGTAACGCCAGCGGCAGATATGCAGGGATAACCCA
CATTGGCGATGAACTGGCGGAAAACCCTGAGGAGGTTCGGGAGGCTCGCG
AGCAGATCGGCGACCTAAAACGAGAAATCGAGAAGGGGAAGCTTGTCAAT
TTTCGTGATCTGATCGAGGACCAGAAAAATAGGGAGAATGGGGATATGTG
CGCGACGAGAATGTGTTTGGCCTCTGAAGTGCATTCTGGGCGTGGTGACA
GAAAAGGCGATGAAGTACATCGAGAAGAATGCAGAGCAAGCCAAGAAGGA
AAAACAGCAAACTGCGCAGCCCAATGATCAGGCATTGCAGAGACATCGGT
GGGTCCCTGTCAAATTGCTCGACCGCAAGGCCATCAGCAGAGACACCCGC
GAATATACGTTCAAGTTGCCCGAGGGGAAACCTACTCTAGGCATTGATGC
TTGCCAGCACATCGAAGTAGCCTTTCACATGAAGGACCGAATGCTCATAC
GACCGTATACGCCAACTCAGCCGCTTCTCCCTCCCGCATCGTCGTCTTCA
AACGGCTATCAGGAAAACGGAAAGTCTCATTTCGTTAGTCAAGTTCGAGA
CGGCAAGGGGGCTTTCACATTGACCATCAAGACTTATTTCCCCAATGATG
ACCAGCCAGGAGGTGCAATGTCGAACGTTTTAGACTGTCTACCGTTGGGA
GAAGAGGTTGACATCCGAGGTCCGACGGGGGATCTTGTTTATGAAGGATA
CGGCAACTTCACCATCGCAGGAGAGAAGAAAAAATTCAAAAGGGTATCGC
TAGTGATTGGAGGCAGTGGCATCACCCCAGCATATGCCCTGATAGCCCGT
ATACTTCTCACAGACGGAGACAAGACCAAGATTCGCGTCATCGATGCGAA
CAAGACAACAAGCGATATTCTCTTACGCGACCAACTGGATAAATTCGTAA
AAGACAGTGCCAGCCAGCTGGAGATAACTCACGTTATCTCAAAACCAGAC
GAAAATTGGCATGGACTTTCAGGACACGTCAACGAGAGTATCCTTCGGAA
ACACATGTTTGAACCTTCTGATGAAAATGTGGCCATTCTGTGCGGTCCCC
CGACGATGATTGAAAAGGCAGTGTTGCCTGCCCTTGATGGCCCACTGCTC
CGGGATGTTCTCCTTGCTGCTGGGGTGCCCGAGCGAATGCCTGACCAGGA
TAATCAACGGTATTGGATTCATTTTGAAGGAGCCGATGAGCCAAACGAAG
CAAAATATGCTACATCCATTCCATTCGACCATGTCATGGACCCTAGAAAT
GATGTGATTCTTGCATATGAAATGAATGACCGTCCCCTGCCACCTGACCA
TGGGTATCCAGTCCGCGTTATGATCCCAGGTTATGTAGGAGGACGCTGTG
TGAAATGGCTGAGCAAGATCTGGACCAGTAATAAAGAAAACAACTCATAC
TATCATCTCCACGACAACCGGATGTTGCCTAGTTCTGTCACTGATACAGA
AAGCCAACTCGCCAAGTTGTTTTTCACTCACCCGGATACTGCCTGCTATG
AACAGACTCTTAACTCAGTTATTGCTAGGCCCGCTCAAGGGGAGAAGATC
TCAGTAAGTAATGCTCGGAAAGGGAAGACGTACCGCATTGCAGGATTCGC
CTACAGCGGCAGTGGCCATCCGGTCCGTCGAGTTGAGATATCTCTAAATA
ATGGTAAGAGCTGGCTCTACTGCATCCGCGAATTCCCTGACCGTCCTATA
CGTCACGGTAATAAATTCTGGGCTTGGGTACATTGGCACGTTGATGTCGA
AATCCTCCAGCTAGCACAAGCGGAGAGCATCACCGTTGCATGCGTCGATG
GGGCGCATAATACACAGCCGGAGCAGCCGCGGTGGAATATTTCAGGAACT
TTGAATAGCTGCCGCTATGTGGTAAAGCCGGAATTGATTTATGATGACGG
CGATAATCAATCAGGCGCAGCATCCGTTCTTTTCCGTCACCCTGTGGAGC
CAGGTACAGGGGAAGGGGGCTGGATGAAGCCCAGTGTTGATGTGCAGGTA
CAGGCAGCCAAACAGAGCGCGGCTGCCCCGCAAAAGCAGTTTACGCGCGA
GGAAATTGAGAAGCACCACAGTGAAGATGATTGCTGGATCGTCGTAGACG
GCAAAGTTTATGACGCAACGGGGGTTTTGTCCTGGCATCCAGGCGGGAAA
GCACCCATCCTTGCACATGCAGGCAAAGTTCATTATGAGACCAGTGAAGA
GTATGCAAGCATACATGATGACTACGCTGCAGAGAAGCTCCAAGGCATTC
CATCTTCGGCATCCCGAGAAACGACCTTTCGGATGGCGATATGTGCCCGA
ATATACTGAGGAATGGGTTAAATTGGGCCAGGAGTGGCCGACGAATGTTC
GTCGGCGGCAGAAAGAAGAAGAAAGTCAGAGGGAAGAGCAACAGAAGACG
GAGCAGGAGGGGAGAAAGGACGACGAGGACAAACAAGTGAATCAGGAAGA
GCAGCATGACGAAGGTAAAAATGAAGAAAAAGATACCCAGAAAGCAACGC
CAGAGCAGGAGACTGAAAAGTCAGTGGCCGATGGGGACGAAAGCGAAGAG
AAATCCGAAAACGAACTTAGCCTAGAGGAGATCTCACTCCTCCGAGCAGT
CCGGCACGAGGAGGCGGTTATAAAAAACCTAAAGCAGAATAATGGGCAAG
GAAGATCATCAGCGCCCGAGAACCCGTATATCACCATTGACGAAGCAGAT
CAGTTTACCGCGGATAACTGGGTGCCTCGATCTCCTGACCTCGTCCGGCT
GACTGGAAAGCTGCCACTGAACGCCGAGCCGCAACTGTCAAAGCTCTTTA
ACGCCGGTCTCGTAACCCCAAATGAGCTGCATTATGTGCGGAACCACGGC
CCAGTCCCAAAATTGGTCTGGGAATTTCATGAAATAGACATAGAAGGCGG
CCGGGTGAAGCTTGGCATGGATGAGTTGACGAAGAACTTCAAAGCTATCA
ATATCCCCATCCTTCTGGCCTGTGATAACACTCGGCGGAAAGAATTGAAC
ATGATCAAGCATGCCCGGCAATACGCAAGTTTACCAAGTGGCCCAGCACC
CCGGCTCATCACGGGCGGAGATCGAGAATGAACCGGACTGGGAGCTTCAT
TCTCGTGAACACCGGCTGGGTTATCGTAACGCCAGCGGCAGATATGCAGG
GATAACCCACATTGGCGATGAACTGGCGGAAAACCCTGAGGAGGTTCGGG
AGGCTCGCGAGCAGATCGGCGACCTAAAACGAGAAATCGAGAAGGGGAAG
CTTGTCAATTTTCGTGATCTGATCGAGGACCAGAAAAATAGGGAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0042128 | nitrate assimilation |
| GO:0055114 | oxidation-reduction process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0030151 | molybdenum ion binding |
| GO:0016491 | oxidoreductase 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 |
|---|
| DBxref | InterPro:IPR017938 |
| DBxref | InterPro:IPR014756 |
| DBxref | InterPro:IPR017927 |
| DBxref | InterPro:IPR005066 |
| DBxref | InterPro:IPR001433 |
| DBxref | InterPro:IPR039261 |
| DBxref | InterPro:IPR036400 |
| DBxref | InterPro:IPR008333 |
| DBxref | InterPro:IPR000572 |
| DBxref | InterPro:IPR036374 |
| DBxref | InterPro:IPR001199 |
| DBxref | InterPro:IPR001834 |
| DBxref | InterPro:IPR008335 |
| DBxref | PFAM:PF00174 |
| DBxref | PFAM:PF00175 |
| DBxref | PFAM:PF03404 |
| DBxref | PFAM:PF00970 |
| DBxref | PFAM:PF00173 |
| Product | Oxidoreductase molybdopterin binding domain 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 | NKJJ01000004.1:2057925..2061330 - |
|
