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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000002.1:2960576..2965708- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_26370-T1 ID=CAN33_26370-T1|Name=CAN33_26370-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=5133bp|location=Sequence derived from alignment at NKJJ01000002.1:2960576..2965708- (Aspergillus niger FDAARGOS_311)
ATGCAAAACGGCAGCCCGAACGGAATCTCCCATCAAGATGAACGCGTGAC
CCCCAACCTCGAGGGCCTTCCGACCGACCTGCCTGCGTCTGAGCCTCCGA
TCGAGTCGCTGAGCCGGGATTCGACCTCTGCCGACCTCAAAGAAGAAGAC
GGTACTACGACCGCAGTCGACCAGCTCGAAGGACCTCCTTCTAAGAAACG
AAAGCTCGCCGGTCCTTCCTCTCGTCGCTCAACCTCCCGTCCAGCATCCC
CCCCGTGGAAAAAGGCCGGCGTCGATGGTCCGACATCTTTCATCCAAGAT
GGGAGGCGTAAGTCCTCTCGCGTTAACGCGATCCCGCTCCAGTTGCAAAG
TCCATCCGAGAAAAGGAGCACGCGCGGCGCTCAGAATAAGGTCATAGGCC
GGAATGTTTCCGGTGCTACGAAGGGAGTCGCGTCGTCTCCGTTGTCGATG
TCCCCGCCTCAGCCGGAGCCAAATGGGAGGTTGGCTGGTGGCAGCGCCGC
AGTCAATGGTTCCCCAAGGAACGCGACCACCAGAGGGTCGGCCAGCAGGC
GCCACCAGATCTCTCAGTCACCAGCTCCCAAGCAATCTCATACGCGAACA
CGATCTTACAGCTCTGGTACGGCGCGTCGATCGTCGAATATTGGCACCGC
TAGCTCCACTCGCTCACATCGTTCCTCTATGAACAACGTTTCGACGACTA
TGGCAGAGACTGGTGATGGCGATTTTGATAATGCAGAAGATGATGAAGAA
TATGGCCAGCAAGCGCCACGGCTACGGATTAAGGTCAAAAGACCACCCAT
CGGTATCCAGCATCCAGGCCACGTTCTAGCTCCGCGGAAGTATGGCTCAT
TCAAGGAATGGTTGGAGAGTGATGACGGGCGAATAAGGGATCCATCCGTG
CTCACACCAGCTGACGCACTTGAGGAGGCTCTAAAGAGGCGTCGAATAGC
TGTGGCAGCTGAACCGGGCGGACTGTTAAGTCCAGATGTCTGTTCTGCAT
ACTTGCCCGAGCAACAAGAGGAACCTCCCCAGCAATACTCCCATCAAGAC
CATTTGGTCGCGCACGCTCTCTATTTCAAGAAGCTTCTCGACCAGGAACA
CAGACGTCATCGAAATACGGCCAAGCTATTCGCTCAGTGGTGCGCGGATG
CGTGGCGGAAGCGCAATAAGGATCCGGAGGACATCCTCCGGGAACAGCAG
GAGGAAATGCGTGGGAAGCGCAAACAGCTGGCTAAGGATCTCCAGAAAAT
GTTCGACCTTGCGCGAGCGGAGGTGGATCGGATGCGCCTGGCACGCTGGG
AGGAGGAGCGGAAGGCTGAAGATCAGCAAGCTCTGGATCGTGCTATCAAG
CAATCTACAATGCTTTTTGAGAAAAGACGCATGGAGATTCTCGGCGAAGG
TGGGAGCGACGCACCCGATACCAGTGATGCAGAACAGGAGGATTCGGATG
AGCTATCGGGTGGTTCGGAAGATGAAGACAATATGTCGTCGACCGATTCA
GAAAGTGAAGATGAAAATAATGTAGATGATGACGAAGGCTTGACAGCAGA
GGAACTGCGGTTGAAATACGCTAATTTACCCAACACCAACCATGATTCTG
ACCACGAGTCCGTGGTCTCTGATGCTACAGCATTTTCCGACGAGAGTGAC
ACCTCAGAAGTTGATCGTTCTGTGGACCGTGCTACTGAGTCTCTCGATCC
ATCGGCAGAGGTGCAACCAGAGCTTGAAGATGTGGATCCCGTGCTCCTGG
ACGACAGTGAAGACGAGTCCACTGATATGGATGATGATATGGGCGACACC
GATGAGCATGAATCTGACGAGCCCGACTCCGATGCAGAGACTGATGGACC
CGGGCTATTAGGTTTCTTCTCCTCCAAGGACATAGCAACGAACTATGGCG
GATCGCAGAGCGATGTTGATGGTGGAGATAATGCCATTATCGACGACTTA
GATACCAAACTAGCATCGGCTGGGGAAGATGGGGAGGAGGAAGAGGAACC
GGAAGATCCTGATGAAGTCTCCCTTGTGCCTAATGGACCGGCGCTAGAAA
TGTCGATACTCAATGATGAAGAGGAAGCCGTTTTCGCGCCCGAGCCTGAT
CCAGCCCCGACGTCCCCTTCTGCCCCCGACTCCGCTGTTCATTTAACTGC
TGATGCTGAGCCAAAGGCTGCTGTTGAATCTGCGTCAGAATTGACTCCCG
CGCCTACTCCAGCCGCGGACAAAACACCTGATGTTGAGATGACAGACGCC
AGTTACAACGGGGACGCAGTTCTGCCCGACGCATCTGATGCAGTGGCTCA
GACTAACCCCCATGAAGAGCATGAACACACCCGCCACGAAGCTTACCAAA
GCGGCGAGCCCTCAAGTGAAGCATCACCGGGCACGCTTGTCACCAAGCCA
TCGGAGCCCGAATCCATCTCCTCGTACGAAACACCGGAGAAACACCCACA
GCCCAGCGAATCCCCTGCTCCCGGATTGAAGACCCCGGTGCCGCACCTTC
TCCGAGGCACTCTGCGGGAGTACCAGCATTTCGGTCTGGATTGGCTTGCT
GGCCTGTATACAAACCACATCAATGGCATCCTGGCAGATGAAATGGGCCT
CGGTAAAACAATCCAAACGATAGCGCTTCTGGCGCACTTGGCCGTGGAGC
ACGAGGTTTGGGGGCCACACTTAGTCGTCGTGCCTACTAGTGTGATTCTC
AACTGGGAGATGGAGTTTAAGAAGTGGTGCCCCGGATTCAAAATCATGAC
CTATTACGGAAACCAAGAGGAGCGTCGACAGAAGCGAAAGGGCTGGATGG
ATGATACGAGTTGGAATGTGTTGATCACCTCTTACCAACTAGTCCTCCAG
GATCAGCAAGTCCTGAAAAGAAGAAGCTGGCATTATATGATTCTTGACGA
GGCACACAACATCAAGAACTTCCGCTCGCAAAGGTGGCAGGCACTGCTCA
CTTTCAGGACACGAGCCCGACTCTTGTTAACCGGCACACCGCTTCAAAAC
AATCTGACTGAACTATGGTCGTTGCTGTTCTTCTTGATGCCCTCTGATGG
CGATGAGGAAGGGATCGAAGGGTTCGCTGATCTCAGGAACTTTTCTGAGT
GGTTCCGACGCCCCGTGGAGCAGATCTTGGAGCATGGCAGGGAGACAATG
GATGATGAAGCAAAGCGAGTGGTCACCAAGCTTCACACTGTACTCCGACC
CTACATTTTGCGTCGTCTCAAAGCCGATGTGGAGAAGCAGATGCCGGCGA
AGTACGAACATGTCGTTTATTGCAGACTCTCGAAGCGTCAAAGATTCCTC
TATGATGGCTTTATGTCTCGCGCACAGACCAAGGAGACGCTTGCGTCTGG
AAATTACCTGTCCATCATCAACTGTCTAATGCAACTACGGAAGGTGTGCA
ATCATCCCGATCTCTTCGAAACTCGGCCCATATCTACGTCGTTTGCCATG
TCTCGCTCTGTGGTCACGGAATATGAGATCAAAGACCTTCTCGTCCGTCG
GCGCCTATTGTATGAGCATCCACTCACCAAGCTCGACCTTGATTTCCTCA
ACCTAGTACCCATATCCCGAGAAGATATTTCTCGGCGGTTGGCCGATGAC
AGTACCCGTCTCATGGCTTATGGTCCCTTCAACACGCTCAGGGAACGCCA
GTATCACCGTACCAACTGGCAGATGAGCTTCGATGGTACCACGGTGCAGT
CCACATTAGACGCTCTGGAGAATGAGTCCAGGAAAAGGAGGATGGCAGAG
CTCGAGAGATGTCTTTATTTTGAGTCAAAGCGCCATGGTCGTCGCCCGGT
GTACGGATCAAGTCTCATCGAATTTCTCACGGCCGACAGTAAGCAGCGGC
CTACCGCCAACGGGCCCCTACGGAAACGCTCCTTAGCCGACTGGCTGTCG
AGCCAGTCGTCAGTCCTCGCATCGATGATCTTGTCCATTGAAGAACGGTC
CCAGGCAATGGACGGTTATGTTCAGAAATTCGCTTGCGTTACCCCTGCTG
CCGTGGCGACTGGTATCACCGAGGCTGCCCTGACTCCCATAGAGACGAGG
TATCTCACGAAGAAGGAACGGTTCCCGCCATATGACCCCTTTCACGAGGC
ACAGATGCGTCTTTCGATCGCATTCCCCGACAAGAGACTTTTGCAGTACG
ACTGTGGCAAGTTGCAAAGACTCGATAAATTGCTTCGGGACCTCAAAGCA
GGTGGCCACCGAGCTTTGATCTTCACCCAGATGACCAAGATGCTCGACAT
CTTGGAACAGTTCCTTAACATCCACGGACACCGATACCTCCGTCTAGACG
GTACGACGAAAGTTGAGCAGCGTCAGATCCTTACCGATCGGTTCAACAAC
GACAACCGTATCCTCGCATTTATCTTGTCCAGTCGTTCCGGTGGTCTGGG
TATCAACCTCACAGGTGCTGACACCGTCATATTCTACGACCTAGACTGGA
ACCCCGCGATGGACAAGCAGTGTCAAGATCGTTGTCACCGTATCGGCCAA
ACACGCGACGTGCACATCTATCGATTCGTTTCTGAATATACCATTGAATC
AAACATCCTCCGTAAAGCCAACCAGAAGCGCATGCTTGACGACGTCGTCA
TCCAAGAGGGAGAGTTTACAACGGATTACTTCACTAAACTAGACGTCCGC
GATATGATTGACACTGAAGACGTCCTTGAAGGTCACGACGAAGCCAGCGC
AGCCATGGATCGGGTCCTCGAGAACCGCGTCGCAGCCAGTTCACGTGTTT
TCGAACAAGCCGAAGACAAAGAAGATATCGATGCGGCCAAGAATGCACAA
AAGGAATTGGAACACGCGGACGACGGCGACTTCGACGACCGCACACCTGG
CCAAACCCAGGCCGGCACACCGCTGGCAACTGGGCCCACGACCGGGCCCG
ATGAATCAACAACAGCGAACACCACTCCCGGTCCACAATTACTCACCTCA
CCGCAGGTGCATGCGGTCGACGAACCCGTAGACGTCGAGCCCCAACCTGG
CCATATCGATAATTACCTACTACGGTTTATGGAGTGGAATATGAAGGACG
AACCACTTGTCTTACCAGCGGATAAGAGCAAAAAGAAGTCCAAGAAAGGC
AAGGAGCACCGGCTCCGTAAAAGGCGTCGTTGA back to topCoding sequence (CDS) from alignment at NKJJ01000002.1:2960576..2965708- >CAN33_26370-T1 ID=CAN33_26370-T1|Name=CAN33_26370-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10098bp|location=Sequence derived from alignment at NKJJ01000002.1:2960576..2965708- (Aspergillus niger FDAARGOS_311)
CAGAGGAACTGCGGTTGAAATACGCTAATTTACCCAACACCAACCATGAT
TCTGACCACGAGTCCGTGGTCTCTGATGCTACAGCATTTTCCGACGAGAG
TGACACCTCAGAAGTTGATCGTTCTGTGGACCGTGCTACTGAGTCTCTCG
ATCCATCGGCAGAGGTGCAACCAGAGCTTGAAGATGTGGATCCCGTGCTC
CTGGACGACAGTGAAGACGAGTCCACTGATATGGATGATGATATGGGCGA
CACCGATGAGCATGAATCTGACGAGCCCGACTCCGATGCAGAGACTGATG
GACCCGGGCTATTAGGTTTCTTCTCCTCCAAGGACATAGCAACGAACTAT
GGCGGATCGCAGAGCGATGTTGATGGTGGAGATAATGCCATTATCGACGA
CTTAGATACCAAACTAGCATCGGCTGGGGAAGATGGGGAGGAGGAAGAGG
AACCGGAAGATCCTGATGAAGTCTCCCTTGTGCCTAATGGACCGGCGCTA
GAAATGTCGATACTCAATGATGAAGAGGAAGCCGTTTTCGCGCCCGAGCC
TGATCCAGCCCCGACGTCCCCTTCTGCCCCCGACTCCGCTGTTCATTTAA
CTGCTGATGCTGAGCCAAAGGCTGCTGTTGAATCTGCGTCAGAATTGACT
CCCGCGCCTACTCCAGCCGCGGACAAAACACCTGATGTTGAGATGACAGA
CGCCAGTTACAACGGGGACGCAGTTCTGCCCGACGCATCTGATGCAGTGG
CTCAGACTAACCCCCATGAAGAGCATGAACACACCCGCCACGAAGCTTAC
CAAAGCGGCGAGCCCTCAAGTGAAGCATCACCGGGCACGCTTGTCACCAA
GCCATCGGAGCCCGAATCCATCTCCTCGTACGAAACACCGGAGAAACACC
CACAGCCCAGCGAATCCCCTGCTCCCGGATTGAAGACCCCGGTGCCGCAC
CTTCTCCGAGGCACTCTGCGGGAGTACCAGCATTTCGGTCTGGATTGGCT
TGCTGGCCTGTATACAAACCACATCAATGGCATCCTGGCAGATGAAATGG
GCCTCGGTAAAACAATCCAAACGATAGCGCTTCTGGCGCACTTGGCCGTG
GAGCACGAGGTTTGGGGGCCACACTTAGTCGTCGTGCCTACTAGTGTGAT
TCTCAACTGGGAGATGGAGTTTAAGAAGTGGTGCCCCGGATTCAAAATCA
TGACCTATTACGGAAACCAAGAGGAGCGTCGACAGAAGCGAAAGGGCTGG
ATGGATGATACGAGTTGGAATGTGTTGATCACCTCTTACCAACTAGTCCT
CCAGGATCAGCAAGTCCTGAAAAGAAGAAGCTGGCATTATATGATTCTTG
ACGAGGCACACAACATCAAGAACTTCCGCTCGCAAAGGTGGCAGGCACTG
CTCACTTTCAGGACACGAGCCCGACTCTTGTTAACCGGCACACCGCTTCA
AAACAATCTGACTGAACTATGGTCGTTGCTGTTCTTCTTGATGCCCTCTG
ATGGCGATGAGGAAGGGATCGAAGGGTTCGCTGATCTCAGGAACTTTTCT
GAGTGGTTCCGACGCCCCGTGGAGCAGATCTTGGAGCATGGCAGGGAGAC
AATGGATGATGAAGCAAAGCGAGTGGTCACCAAGCTTCACACTGTACTCC
GACCCTACATTTTGCGTCGTCTCAAAGCCGATGTGGAGAAGCAGATGCCG
GCGAAGTACGAACATGTCGTTTATTGCAGACTCTCGAAGCGTCAAAGATT
CCTCTATGATGGCTTTATGTCTCGCGCACAGACCAAGGAGACGCTTGCGT
CTGGAAATTACCTGTCCATCATCAACTGTCTAATGCAACTACGGAAGGTG
TGCAATCATCCCGATCTCTTCGAAACTCGGCCCATATCTACGTCGTTTGC
CATGTCTCGCTCTGTGGTCACGGAATATGAGATCAAAGACCTTCTCGTCC
GTCGGCGCCTATTGTATGAGCATCCACTCACCAAGCTCGACCTTGATTTC
CTCAACCTAGTACCCATATCCCGAGAAGATATTTCTCGGCGGTTGGCCGA
TGACAGTACCCGTCTCATGGCTTATGGTCCCTTCAACACGCTCAGGGAAC
GCCAGTATCACCGTACCAACTGGCAGATGAGCTTCGATGGTACCACGGTG
CAGTCCACATTAGACGCTCTGGAGAATGAGTCCAGGAAAAGGAGGATGGC
AGAGCTCGAGAGATGTCTTTATTTTGAGTCAAAGCGCCATGGTCGTCGCC
CGGTGTACGGATCAAGTCTCATCGAATTTCTCACGGCCGACAGTAAGCAG
CGGCCTACCGCCAACGGGCCCCTACGGAAACGCTCCTTAGCCGACTGGCT
GTCGAGCCAGTCGTCAGTCCTCGCATCGATGATCTTGTCCATTGAAGAAC
GGTCCCAGGCAATGGACGGTTATGTTCAGAAATTCGCTTGCGTTACCCCT
GCTGCCGTGGCGACTGGTATCACCGAGGCTGCCCTGACTCCCATAGAGAC
GAGGTATCTCACGAAGAAGGAACGGTTCCCGCCATATGACCCCTTTCACG
AGGCACAGATGCGTCTTTCGATCGCATTCCCCGACAAGAGACTTTTGCAG
TACGACTGTGGCAAGTTGCAAAGACTCGATAAATTGCTTCGGGACCTCAA
AGCAGGTGGCCACCGAGCTTTGATCTTCACCCAGATGACCAAGATGCTCG
ACATCTTGGAACAGTTCCTTAACATCCACGGACACCGATACCTCCGTCTA
GACGGTACGACGAAAGTTGAGCAGCGTCAGATCCTTACCGATCGGTTCAA
CAACGACAACCGTATCCTCGCATTTATCTTGTCCAGTCGTTCCGGTGGTC
TGGGTATCAACCTCACAGGTGCTGACACCGTCATATTCTACGACCTAGAC
TGGAACCCCGCGATGGACAAGCAGTGTCAAGATCGTTGTCACCGTATCGG
CCAAACACGCGACGTGCACATCTATCGATTCGTTTCTGAATATACCATTG
AATCAAACATCCTCCGTAAAGCCAACCAGAAGCGCATGCTTGACGACGTC
GTCATCCAAGAGGGAGAGTTTACAACGGATTACTTCACTAAACTAGACGT
CCGCGATATGATTGACACTGAAGACGTCCTTGAAGGTCACGACGAAGCCA
GCGCAGCCATGGATCGGGTCCTCGAGAACCGCGTCGCAGCCAGTTCACGT
GTTTTCGAACAAGCCGAAGACAAAGAAGATATCGATGCGGCCAAGAATGC
ACAAAAGGAATTGGAACACGCGGACGACGGCGACTTCGACGACCGCACAC
CTGGCCAAACCCAGGCCGGCACACCGCTGGCAACTGGGCCCACGACCGGG
CCCGATGAATCAACAACAGCGAACACCACTCCCGGTCCACAATTACTCAC
CTCACCGCAGGTGCATGCGGTCGACGAACCCGTAGACGTCGAGCCCCAAC
CTGGCCATATCGATAATTACCTACTACGGTTTATGGAGTGGAATATGAAG
GACGAACCACTTGTCTTACCAGCGGATAAGAGCAAAAAGAAGTCCAAGAA
AGGCAAGGAGCACCGGCTCCGTAAAAGGCGTCGTTGAATGCAAAACGGCA
GCCCGAACGGAATCTCCCATCAAGATGAACGCGTGACCCCCAACCTCGAG
GGCCTTCCGACCGACCTGCCTGCGTCTGAGCCTCCGATCGAGTCGCTGAG
CCGGGATTCGACCTCTGCCGACCTCAAAGAAGAAGACGGTACTACGACCG
CAGTCGACCAGCTCGAAGGACCTCCTTCTAAGAAACGAAAGCTCGCCGGT
CCTTCCTCTCGTCGCTCAACCTCCCGTCCAGCATCCCCCCCGTGGAAAAA
GGCCGGCGTCGATGGTCCGACATCTTTCATCCAAGATGGGAGGCGTAAGT
CCTCTCGCGTTAACGCGATCCCGCTCCAGTTGCAAAGTCCATCCGAGAAA
AGGAGCACGCGCGGCGCTCAGAATAAGGTCATAGGCCGGAATGTTTCCGG
TGCTACGAAGGGAGTCGCGTCGTCTCCGTTGTCGATGTCCCCGCCTCAGC
CGGAGCCAAATGGGAGGTTGGCTGGTGGCAGCGCCGCAGTCAATGGTTCC
CCAAGGAACGCGACCACCAGAGGGTCGGCCAGCAGGCGCCACCAGATCTC
TCAGTCACCAGCTCCCAAGCAATCTCATACGCGAACACGATCTTACAGCT
CTGGTACGGCGCGTCGATCGTCGAATATTGGCACCGCTAGCTCCACTCGC
TCACATCGTTCCTCTATGAACAACGTTTCGACGACTATGGCAGAGACTGG
TGATGGCGATTTTGATAATGCAGAAGATGATGAAGAATATGGCCAGCAAG
CGCCACGGCTACGGATTAAGGTCAAAAGACCACCCATCGGTATCCAGCAT
CCAGGCCACGTTCTAGCTCCGCGGAAGTATGGCTCATTCAAGGAATGGTT
GGAGAGTGATGACGGGCGAATAAGGGATCCATCCGTGCTCACACCAGCTG
ACGCACTTGAGGAGGCTCTAAAGAGGCGTCGAATAGCTGTGGCAGCTGAA
CCGGGCGGACTGTTAAGTCCAGATGTCTGTTCTGCATACTTGCCCGAGCA
ACAAGAGGAACCTCCCCAGCAATACTCCCATCAAGACCATTTGGTCGCGC
ACGCTCTCTATTTCAAGAAGCTTCTCGACCAGGAACACAGACGTCATCGA
AATACGGCCAAGCTATTCGCTCAGTGGTGCGCGGATGCGTGGCGGAAGCG
CAATAAGGATCCGGAGGACATCCTCCGGGAACAGCAGGAGGAAATGCGTG
GGAAGCGCAAACAGCTGGCTAAGGATCTCCAGAAAATGTTCGACCTTGCG
CGAGCGGAGGTGGATCGGATGCGCCTGGCACGCTGGGAGGAGGAGCGGAA
GGCTGAAGATCAGCAAGCTCTGGATCGTGCTATCAAGCAATCTACAATGC
TTTTTGAGAAAAGACGCATGGAGATTCTCGGCGAAGGTGGGAGCGACGCA
CCCGATACCAGTGATGCAGAACAGGAGGATTCGGATGAGCTATCGGGTGC
AGAGGAACTGCGGTTGAAATACGCTAATTTACCCAACACCAACCATGATT
CTGACCACGAGTCCGTGGTCTCTGATGCTACAGCATTTTCCGACGAGAGT
GACACCTCAGAAGTTGATCGTTCTGTGGACCGTGCTACTGAGTCTCTCGA
TCCATCGGCAGAGGTGCAACCAGAGCTTGAAGATGTGGATCCCGTGCTCC
TGGACGACAGTGAAGACGAGTCCACTGATATGGATGATGATATGGGCGAC
ACCGATGAGCATGAATCTGACGAGCCCGACTCCGATGCAGAGACTGATGG
ACCCGGGCTATTAGGTTTCTTCTCCTCCAAGGACATAGCAACGAACTATG
GCGGATCGCAGAGCGATGTTGATGGTGGAGATAATGCCATTATCGACGAC
TTAGATACCAAACTAGCATCGGCTGGGGAAGATGGGGAGGAGGAAGAGGA
ACCGGAAGATCCTGATGAAGTCTCCCTTGTGCCTAATGGACCGGCGCTAG
AAATGTCGATACTCAATGATGAAGAGGAAGCCGTTTTCGCGCCCGAGCCT
GATCCAGCCCCGACGTCCCCTTCTGCCCCCGACTCCGCTGTTCATTTAAC
TGCTGATGCTGAGCCAAAGGCTGCTGTTGAATCTGCGTCAGAATTGACTC
CCGCGCCTACTCCAGCCGCGGACAAAACACCTGATGTTGAGATGACAGAC
GCCAGTTACAACGGGGACGCAGTTCTGCCCGACGCATCTGATGCAGTGGC
TCAGACTAACCCCCATGAAGAGCATGAACACACCCGCCACGAAGCTTACC
AAAGCGGCGAGCCCTCAAGTGAAGCATCACCGGGCACGCTTGTCACCAAG
CCATCGGAGCCCGAATCCATCTCCTCGTACGAAACACCGGAGAAACACCC
ACAGCCCAGCGAATCCCCTGCTCCCGGATTGAAGACCCCGGTGCCGCACC
TTCTCCGAGGCACTCTGCGGGAGTACCAGCATTTCGGTCTGGATTGGCTT
GCTGGCCTGTATACAAACCACATCAATGGCATCCTGGCAGATGAAATGGG
CCTCGGTAAAACAATCCAAACGATAGCGCTTCTGGCGCACTTGGCCGTGG
AGCACGAGGTTTGGGGGCCACACTTAGTCGTCGTGCCTACTAGTGTGATT
CTCAACTGGGAGATGGAGTTTAAGAAGTGGTGCCCCGGATTCAAAATCAT
GACCTATTACGGAAACCAAGAGGAGCGTCGACAGAAGCGAAAGGGCTGGA
TGGATGATACGAGTTGGAATGTGTTGATCACCTCTTACCAACTAGTCCTC
CAGGATCAGCAAGTCCTGAAAAGAAGAAGCTGGCATTATATGATTCTTGA
CGAGGCACACAACATCAAGAACTTCCGCTCGCAAAGGTGGCAGGCACTGC
TCACTTTCAGGACACGAGCCCGACTCTTGTTAACCGGCACACCGCTTCAA
AACAATCTGACTGAACTATGGTCGTTGCTGTTCTTCTTGATGCCCTCTGA
TGGCGATGAGGAAGGGATCGAAGGGTTCGCTGATCTCAGGAACTTTTCTG
AGTGGTTCCGACGCCCCGTGGAGCAGATCTTGGAGCATGGCAGGGAGACA
ATGGATGATGAAGCAAAGCGAGTGGTCACCAAGCTTCACACTGTACTCCG
ACCCTACATTTTGCGTCGTCTCAAAGCCGATGTGGAGAAGCAGATGCCGG
CGAAGTACGAACATGTCGTTTATTGCAGACTCTCGAAGCGTCAAAGATTC
CTCTATGATGGCTTTATGTCTCGCGCACAGACCAAGGAGACGCTTGCGTC
TGGAAATTACCTGTCCATCATCAACTGTCTAATGCAACTACGGAAGGTGT
GCAATCATCCCGATCTCTTCGAAACTCGGCCCATATCTACGTCGTTTGCC
ATGTCTCGCTCTGTGGTCACGGAATATGAGATCAAAGACCTTCTCGTCCG
TCGGCGCCTATTGTATGAGCATCCACTCACCAAGCTCGACCTTGATTTCC
TCAACCTAGTACCCATATCCCGAGAAGATATTTCTCGGCGGTTGGCCGAT
GACAGTACCCGTCTCATGGCTTATGGTCCCTTCAACACGCTCAGGGAACG
CCAGTATCACCGTACCAACTGGCAGATGAGCTTCGATGGTACCACGGTGC
AGTCCACATTAGACGCTCTGGAGAATGAGTCCAGGAAAAGGAGGATGGCA
GAGCTCGAGAGATGTCTTTATTTTGAGTCAAAGCGCCATGGTCGTCGCCC
GGTGTACGGATCAAGTCTCATCGAATTTCTCACGGCCGACAGTAAGCAGC
GGCCTACCGCCAACGGGCCCCTACGGAAACGCTCCTTAGCCGACTGGCTG
TCGAGCCAGTCGTCAGTCCTCGCATCGATGATCTTGTCCATTGAAGAACG
GTCCCAGGCAATGGACGGTTATGTTCAGAAATTCGCTTGCGTTACCCCTG
CTGCCGTGGCGACTGGTATCACCGAGGCTGCCCTGACTCCCATAGAGACG
AGGTATCTCACGAAGAAGGAACGGTTCCCGCCATATGACCCCTTTCACGA
GGCACAGATGCGTCTTTCGATCGCATTCCCCGACAAGAGACTTTTGCAGT
ACGACTGTGGCAAGTTGCAAAGACTCGATAAATTGCTTCGGGACCTCAAA
GCAGGTGGCCACCGAGCTTTGATCTTCACCCAGATGACCAAGATGCTCGA
CATCTTGGAACAGTTCCTTAACATCCACGGACACCGATACCTCCGTCTAG
ACGGTACGACGAAAGTTGAGCAGCGTCAGATCCTTACCGATCGGTTCAAC
AACGACAACCGTATCCTCGCATTTATCTTGTCCAGTCGTTCCGGTGGTCT
GGGTATCAACCTCACAGGTGCTGACACCGTCATATTCTACGACCTAGACT
GGAACCCCGCGATGGACAAGCAGTGTCAAGATCGTTGTCACCGTATCGGC
CAAACACGCGACGTGCACATCTATCGATTCGTTTCTGAATATACCATTGA
ATCAAACATCCTCCGTAAAGCCAACCAGAAGCGCATGCTTGACGACGTCG
TCATCCAAGAGGGAGAGTTTACAACGGATTACTTCACTAAACTAGACGTC
CGCGATATGATTGACACTGAAGACGTCCTTGAAGGTCACGACGAAGCCAG
CGCAGCCATGGATCGGGTCCTCGAGAACCGCGTCGCAGCCAGTTCACGTG
TTTTCGAACAAGCCGAAGACAAAGAAGATATCGATGCGGCCAAGAATGCA
CAAAAGGAATTGGAACACGCGGACGACGGCGACTTCGACGACCGCACACC
TGGCCAAACCCAGGCCGGCACACCGCTGGCAACTGGGCCCACGACCGGGC
CCGATGAATCAACAACAGCGAACACCACTCCCGGTCCACAATTACTCACC
TCACCGCAGGTGCATGCGGTCGACGAACCCGTAGACGTCGAGCCCCAACC
TGGCCATATCGATAATTACCTACTACGGTTTATGGAGTGGAATATGAAGG
ACGAACCACTTGTCTTACCAGCGGATAAGAGCAAAAAGAAGTCCAAGAAA
GGCAAGGAGCACCGGCTCCGTAAAAGGCGTCGTTGAATGCAAAACGGCAG
CCCGAACGGAATCTCCCATCAAGATGAACGCGTGACCCCCAACCTCGAGG
GCCTTCCGACCGACCTGCCTGCGTCTGAGCCTCCGATCGAGTCGCTGAGC
CGGGATTCGACCTCTGCCGACCTCAAAGAAGAAGACGGTACTACGACCGC
AGTCGACCAGCTCGAAGGACCTCCTTCTAAGAAACGAAAGCTCGCCGGTC
CTTCCTCTCGTCGCTCAACCTCCCGTCCAGCATCCCCCCCGTGGAAAAAG
GCCGGCGTCGATGGTCCGACATCTTTCATCCAAGATGGGAGGCGTAAGTC
CTCTCGCGTTAACGCGATCCCGCTCCAGTTGCAAAGTCCATCCGAGAAAA
GGAGCACGCGCGGCGCTCAGAATAAGGTCATAGGCCGGAATGTTTCCGGT
GCTACGAAGGGAGTCGCGTCGTCTCCGTTGTCGATGTCCCCGCCTCAGCC
GGAGCCAAATGGGAGGTTGGCTGGTGGCAGCGCCGCAGTCAATGGTTCCC
CAAGGAACGCGACCACCAGAGGGTCGGCCAGCAGGCGCCACCAGATCTCT
CAGTCACCAGCTCCCAAGCAATCTCATACGCGAACACGATCTTACAGCTC
TGGTACGGCGCGTCGATCGTCGAATATTGGCACCGCTAGCTCCACTCGCT
CACATCGTTCCTCTATGAACAACGTTTCGACGACTATGGCAGAGACTGGT
GATGGCGATTTTGATAATGCAGAAGATGATGAAGAATATGGCCAGCAAGC
GCCACGGCTACGGATTAAGGTCAAAAGACCACCCATCGGTATCCAGCATC
CAGGCCACGTTCTAGCTCCGCGGAAGTATGGCTCATTCAAGGAATGGTTG
GAGAGTGATGACGGGCGAATAAGGGATCCATCCGTGCTCACACCAGCTGA
CGCACTTGAGGAGGCTCTAAAGAGGCGTCGAATAGCTGTGGCAGCTGAAC
CGGGCGGACTGTTAAGTCCAGATGTCTGTTCTGCATACTTGCCCGAGCAA
CAAGAGGAACCTCCCCAGCAATACTCCCATCAAGACCATTTGGTCGCGCA
CGCTCTCTATTTCAAGAAGCTTCTCGACCAGGAACACAGACGTCATCGAA
ATACGGCCAAGCTATTCGCTCAGTGGTGCGCGGATGCGTGGCGGAAGCGC
AATAAGGATCCGGAGGACATCCTCCGGGAACAGCAGGAGGAAATGCGTGG
GAAGCGCAAACAGCTGGCTAAGGATCTCCAGAAAATGTTCGACCTTGCGC
GAGCGGAGGTGGATCGGATGCGCCTGGCACGCTGGGAGGAGGAGCGGAAG
GCTGAAGATCAGCAAGCTCTGGATCGTGCTATCAAGCAATCTACAATGCT
TTTTGAGAAAAGACGCATGGAGATTCTCGGCGAAGGTGGGAGCGACGCAC
CCGATACCAGTGATGCAGAACAGGAGGATTCGGATGAGCTATCGGGTG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005524 | ATP binding |
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:IPR027417 |
| DBxref | InterPro:IPR002464 |
| DBxref | InterPro:IPR038718 |
| DBxref | InterPro:IPR014012 |
| DBxref | InterPro:IPR000330 |
| DBxref | InterPro:IPR014001 |
| DBxref | InterPro:IPR001650 |
| DBxref | PFAM:PF00176 |
| DBxref | PFAM:PF04851 |
| DBxref | PFAM:PF07529 |
| DBxref | PFAM:PF00271 |
| Product | swr1 complex component |
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 |
|---|
| NKJJ01000002.1 | supercontig | NKJJ01000002.1:2960576..2965708 - |
|
