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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000004.1:456726..459892+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_0900-T1 ID=CAN33_0900-T1|Name=CAN33_0900-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=3167bp|location=Sequence derived from alignment at NKJJ01000004.1:456726..459892+ (Aspergillus niger FDAARGOS_311)
ATGACCATCCCCACTGATTCCCAATCCCCTTCCCAGCAAACGGAGCTCGA
GACTCAGCGCGACCCAAGCTCCAACAGCAATCCGGCCACGAGTGGGCCTG
TGCCCGTCCCGGTCCCTGGCTCAGCTCCACTCCCTGCCACCACCAGCGAC
TCCAGCAGTGCTACCACTACTGGTACCACCATGGCCGACGCTAGTGGCCC
CGTCTCCTCCTCCCCCGAATCCAAGCTCGACGCCGACCCGCCCGTCGATG
CTCCCCAGTCAAGTCCGACCCCAAAGCCCCCGTCGCGGTCTCCGAACCCG
TCGCCAAAAAGTCCGTGTGTTCCAAGCATGCGACAAAAGACCAGGATCCC
AACCGCTCGAAAAAGAAAAAGTCCCACCGCAAGGCCGCCTCGATCGTCAC
CCCCAGCGATGATAGCTCTTCGGAGTTAAATTCCTCTTCCGAGGAATCCA
GCGCGGAATCTACTGACGACGACGAAGACGCTCAATCGGACGAGGACGAG
GACTCCGAGTCGGATCGCAAACAACGTCGCCGCCGGGCCAAAAACAAGGT
CAAGAAATCGCTCAAAAGTGTCAGTCGTAAGAAGAAGAGCCGGTCGCACC
AGACGGAATCGGAATCCGCTTCCGATCTCGAGGATAGTAGCGACTCCGAT
TCGTCTCTTGATGAAAAGACACTGAAGAAGCTGGTCGCCAAGCTGAAGGC
GAAGAAGAACTCCAAGAAGTCGCGCTCCAAGGAAGACTCTTCCGAGGAGC
AACAGGACGATGATGACGATGCCGACGAGGATGCAGACGCCGACGAGCTA
GCTCTGCTGCTAGCCAAGCAGAAGTTGGCTTCCTTGCGAGTCAAGTTGGC
CGATGGGCGTCGCAAAGGCCGCGGCAGGCGTGGCTCGGGCGATGGTAACA
CCGACGGCCAGAAAGGGAGCTCGCAAAAGTCCAAGGGACGCAAGAAGGCT
GCCTCGAAGATTGCCTTCAAACGTGTAGATCAGCGTGCGTCTTCCCTACT
CTCATCACCACTCTCTCATGGATTTCACTGACACGAAACTTGCAGTATGG
GACAATACGATCCACAACTTCAAGCTGACGGAGACGGTCGACGACCCCGA
CGCAAATGAGTGGGACCAATACCTCTTCACCGTGCGCCGCAAGTTCGACT
GGGACAATAAGTACCTGGAGACGGTGGTAGACCTGAAGAGCAAGTACCTG
CGCGATGCGCTGTCCAAGGTCATGGATGGAGTCAAGGGTGTCAGCTTGGT
GCAGGAGACAGCAGTTGTCGATCCCAACATGCTCTTCCTCTACCTTGAGG
AGACGCGGCAATACATGAAAGAGCTCCGGCAGCTGGCCAAGACCGAGAAG
AAGAAGAAAGCTCGCAAGCTCGCCGAGGTCAAAGCATCGCATCTCAAGGT
GCTCGTCAAGTATCTGGACACCGACTATGCTGAGACCAAGAAAACCCTCT
ACCCTCTGTTGGACGCCAGTATGATCACCTTCGATCTGCTCTGGGCCATC
TTCAAGCCCAACACCGTCGCCTACTCCTCCACCTACGGCAACCAGGATGA
GCCTCGCGCCTTCAAGATCGAGTACGCAACCAAAGAGTCCTCGTTCATGA
AGGGTCAATGGTACAGCATCGAGGGTCGCTATCTCGAATACGATGGCAAG
GCCTTTGGCATGGGCACCATGGCCGCCGAGGTGGAGTCCTTCAAAGGTGC
CCGCAAAATCACCAGTCTCAGTTGCTATCCGCTCAAGTATCATCGCGAAG
CCGATAGTGTCAAGGCCAAGCTCATCGAGCGGGGCAAGAAGTTTGTGGCG
CTGCGAGGCATGAACTACCGGTACCACAAGGGTATGGCCTTCTACAAAAA
GAAGCGGTCCGTCATCAAGGTCAACATCAACGGCCGGGTTATGGTTGATC
CCGCCATCCACCGGCGCATCAATCCCAACTACCCCATTAGCACGGTCCGT
CCCAAGGACCCGGACTACCTTGACGGCTCCGACGATGAGGGAAGCAACAA
TGGGTGCTGCTGTGTTCTGTCGGACTCAGAATCGGATCCAACCTCTGGGC
ACCCGCGCGACTCAGACACCCCTCAGCTCCTATTCAAGGTGGTACGGGAC
AAGGAGGGCAAGCCGCACGTCGTCGAGGTCGAGCTGGATGAGAACGGCAA
TGAAATTGTCAAAGAGAACATGGACGAAGTTGCAGACCCCTCCGACCGCG
AATTCACTGAAGAGGAGCTGCTCATCGCAAGCCCGGTGGTACTCGGCTTC
GCCTTCAGTGAGAAGCTGTGGCTCGAATTCAGCATCTCGGGCATCAGTGA
CATTGAATGGAACGAAGATGCCTTTGACTCGCTGGTCCTCCCCGACAACC
AGAAGTCCATTGTCAAGGCATTGGTCGAATCGCACACCTTCCGCGCGGCC
CAGAACATCGACGATGTCATCCAAGGCAAGGGCAAGGGCCTCGTGGCCGT
GCTCCACGGACCTCCCGGTACTGGTAAAACTCTGACTGCCGAAGGCATCG
CAGAGCTCCTCAAACGCCCGCTCTACATGGTGAGCGCCGGCGAGCTGGGC
ACCGATCCGCGCACCCTCGAAGCAGAGCTCAACAAGATCCTTGACATCGC
ACATTCCTGGGGCGCTGTTCTACTGCTCGATGAGGCTGATATCTTCCTGG
AGAAGCGCACCATCCAGGACATTCACCGCAACGCTCTGGTCAGCATCTTC
CTGCGGTTGTTGGAATACTTCCAAGGCATTCTCTTCCTGACCACCAACCG
CGTCGAAACATTTGATGACGCCTTCCAATCCCGCATTCACGTCGCTTTGC
GCTACGGTGAACTCACCACGAAAGCAAAGCGCAGCGTCTGGAAGATGTTT
CTGGAGCGAGTGCAGGCCAAAGAGGGCGTGCAGACCGCCACTTTCAATGA
AAAGGATTTTGATTTATTGGCTCGGCATAATCTCAACGGGCGTCAGGTGA
GAATCCCCATCTAGCCTCCGCGAACAACACGTATGGATCCTAACCCATCC
GTCTATAGATCAAAAACTCCGTCCGCACAGCCCAAGCATTGGCTGTTAAC
GAGCAAACCCCTCTGTCCATGGAACACATCCGACGTGTCCTGGAGGTCGC
TGAAACCTTCGACCGCGACCTTCGCGGTGGGTCAGGATACCTCGATGCCA
TGAGAAGTTATACGTAA back to topCoding sequence (CDS) from alignment at NKJJ01000004.1:456726..459892+ >CAN33_0900-T1 ID=CAN33_0900-T1|Name=CAN33_0900-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10212bp|location=Sequence derived from alignment at NKJJ01000004.1:456726..459892+ (Aspergillus niger FDAARGOS_311)
ATGACCATCCCCACTGATTCCCAATCCCCTTCCCAGCAAACGGAGCTCGA
GACTCAGCGCGACCCAAGCTCCAACAGCAATCCGGCCACGAGTGGGCCTG
TGCCCGTCCCGGTCCCTGGCTCAGCTCCACTCCCTGCCACCACCAGCGAC
TCCAGCAGTGCTACCACTACTGGTACCACCATGGCCGACGCTAGTGGCCC
CGTCTCCTCCTCCCCCGAATCCAAGCTCGACGCCGACCCGCCCGTCGATG
CTCCCCAGTCAAGTCCGACCCCAAAGCCCCCGTCGCGGTCTCCGAACCCG
TCGCCAAAAACTCTGCTGCTAGCCAAGCAGAAGTTGGCTTCCTTGCGAGT
CAAGTTGGCCGATGGGCGTCGCAAAGGCCGCGGCAGGCGTGGCTCGGGCG
ATGGTAACACCGACGGCCAGAAAGGGAGCTCGCAAAAGTCCAAGGGACGC
AAGAAGGCTGCCTCGAAGATTGCCTTCAAACGTGTAGATCAGCTATGGGA
CAATACGATCCACAACTTCAAGCTGACGGAGACGGTCGACGACCCCGACG
CAAATGAGTGGGACCAATACCTCTTCACCGTGCGCCGCAAGTTCGACTGG
GACAATAAGTACCTGGAGACGGTGGTAGACCTGAAGAGCAAGTACCTGCG
CGATGCGCTGTCCAAGGTCATGGATGGAGTCAAGGGTGTCAGCTTGGTGC
AGGAGACAGCAGTTGTCGATCCCAACATGCTCTTCCTCTACCTTGAGGAG
ACGCGGCAATACATGAAAGAGCTCCGGCAGCTGGCCAAGACCGAGAAGAA
GAAGAAAGCTCGCAAGCTCGCCGAGGTCAAAGCATCGCATCTCAAGGTGC
TCGTCAAGTATCTGGACACCGACTATGCTGAGACCAAGAAAACCCTCTAC
CCTCTGTTGGACGCCAGTATGATCACCTTCGATCTGCTCTGGGCCATCTT
CAAGCCCAACACCGTCGCCTACTCCTCCACCTACGGCAACCAGGATGAGC
CTCGCGCCTTCAAGATCGAGTACGCAACCAAAGAGTCCTCGTTCATGAAG
GGTCAATGGTACAGCATCGAGGGTCGCTATCTCGAATACGATGGCAAGGC
CTTTGGCATGGGCACCATGGCCGCCGAGGTGGAGTCCTTCAAAGGTGCCC
GCAAAATCACCAGTCTCAGTTGCTATCCGCTCAAGTATCATCGCGAAGCC
GATAGTGTCAAGGCCAAGCTCATCGAGCGGGGCAAGAAGTTTGTGGCGCT
GCGAGGCATGAACTACCGGTACCACAAGGGTATGGCCTTCTACAAAAAGA
AGCGGTCCGTCATCAAGGTCAACATCAACGGCCGGGTTATGGTTGATCCC
GCCATCCACCGGCGCATCAATCCCAACTACCCCATTAGCACGGTCCGTCC
CAAGGACCCGGACTACCTTGACGGCTCCGACGATGAGGGAAGCAACAATG
GGTGCTGCTGTGTTCTGTCGGACTCAGAATCGGATCCAACCTCTGGGCAC
CCGCGCGACTCAGACACCCCTCAGCTCCTATTCAAGGTGGTACGGGACAA
GGAGGGCAAGCCGCACGTCGTCGAGGTCGAGCTGGATGAGAACGGCAATG
AAATTGTCAAAGAGAACATGGACGAAGTTGCAGACCCCTCCGACCGCGAA
TTCACTGAAGAGGAGCTGCTCATCGCAAGCCCGGTGGTACTCGGCTTCGC
CTTCAGTGAGAAGCTGTGGCTCGAATTCAGCATCTCGGGCATCAGTGACA
TTGAATGGAACGAAGATGCCTTTGACTCGCTGGTCCTCCCCGACAACCAG
AAGTCCATTGTCAAGGCATTGGTCGAATCGCACACCTTCCGCGCGGCCCA
GAACATCGACGATGTCATCCAAGGCAAGGGCAAGGGCCTCGTGGCCGTGC
TCCACGGACCTCCCGGTACTGGTAAAACTCTGACTGCCGAAGGCATCGCA
GAGCTCCTCAAACGCCCGCTCTACATGGTGAGCGCCGGCGAGCTGGGCAC
CGATCCGCGCACCCTCGAAGCAGAGCTCAACAAGATCCTTGACATCGCAC
ATTCCTGGGGCGCTGTTCTACTGCTCGATGAGGCTGATATCTTCCTGGAG
AAGCGCACCATCCAGGACATTCACCGCAACGCTCTGGTCAGCATCTTCCT
GCGGTTGTTGGAATACTTCCAAGGCATTCTCTTCCTGACCACCAACCGCG
TCGAAACATTTGATGACGCCTTCCAATCCCGCATTCACGTCGCTTTGCGC
TACGGTGAACTCACCACGAAAGCAAAGCGCAGCGTCTGGAAGATGTTTCT
GGAGCGAGTGCAGGCCAAAGAGGGCGTGCAGACCGCCACTTTCAATGAAA
AGGATTTTGATTTATTGGCTCGGCATAATCTCAACGGGCGTCAGATCAAA
AACTCCGTCCGCACAGCCCAAGCATTGGCTGTTAACGAGCAAACCCCTCT
GTCCATGGAACACATCCGACGTGTCCTGGAGGTCGCTGAAACCTTCGACC
GCGACCTTCGCGGTGGGTCAGGATACCTCGATGCCATGAGAAGTTATACG
TAAATGACCATCCCCACTGATTCCCAATCCCCTTCCCAGCAAACGGAGCT
CGAGACTCAGCGCGACCCAAGCTCCAACAGCAATCCGGCCACGAGTGGGC
CTGTGCCCGTCCCGGTCCCTGGCTCAGCTCCACTCCCTGCCACCACCAGC
GACTCCAGCAGTGCTACCACTACTGGTACCACCATGGCCGACGCTAGTGG
CCCCGTCTCCTCCTCCCCCGAATCCAAGCTCGACGCCGACCCGCCCGTCG
ATGCTCCCCAGTCAAGTCCGACCCCAAAGCCCCCGTCGCGGTCTCCGAAC
CCGTCGCCAAAAACTCTGCTGCTAGCCAAGCAGAAGTTGGCTTCCTTGCG
AGTCAAGTTGGCCGATGGGCGTCGCAAAGGCCGCGGCAGGCGTGGCTCGG
GCGATGGTAACACCGACGGCCAGAAAGGGAGCTCGCAAAAGTCCAAGGGA
CGCAAGAAGGCTGCCTCGAAGATTGCCTTCAAACGTGTAGATCAGCTATG
GGACAATACGATCCACAACTTCAAGCTGACGGAGACGGTCGACGACCCCG
ACGCAAATGAGTGGGACCAATACCTCTTCACCGTGCGCCGCAAGTTCGAC
TGGGACAATAAGTACCTGGAGACGGTGGTAGACCTGAAGAGCAAGTACCT
GCGCGATGCGCTGTCCAAGGTCATGGATGGAGTCAAGGGTGTCAGCTTGG
TGCAGGAGACAGCAGTTGTCGATCCCAACATGCTCTTCCTCTACCTTGAG
GAGACGCGGCAATACATGAAAGAGCTCCGGCAGCTGGCCAAGACCGAGAA
GAAGAAGAAAGCTCGCAAGCTCGCCGAGGTCAAAGCATCGCATCTCAAGG
TGCTCGTCAAGTATCTGGACACCGACTATGCTGAGACCAAGAAAACCCTC
TACCCTCTGTTGGACGCCAGTATGATCACCTTCGATCTGCTCTGGGCCAT
CTTCAAGCCCAACACCGTCGCCTACTCCTCCACCTACGGCAACCAGGATG
AGCCTCGCGCCTTCAAGATCGAGTACGCAACCAAAGAGTCCTCGTTCATG
AAGGGTCAATGGTACAGCATCGAGGGTCGCTATCTCGAATACGATGGCAA
GGCCTTTGGCATGGGCACCATGGCCGCCGAGGTGGAGTCCTTCAAAGGTG
CCCGCAAAATCACCAGTCTCAGTTGCTATCCGCTCAAGTATCATCGCGAA
GCCGATAGTGTCAAGGCCAAGCTCATCGAGCGGGGCAAGAAGTTTGTGGC
GCTGCGAGGCATGAACTACCGGTACCACAAGGGTATGGCCTTCTACAAAA
AGAAGCGGTCCGTCATCAAGGTCAACATCAACGGCCGGGTTATGGTTGAT
CCCGCCATCCACCGGCGCATCAATCCCAACTACCCCATTAGCACGGTCCG
TCCCAAGGACCCGGACTACCTTGACGGCTCCGACGATGAGGGAAGCAACA
ATGGGTGCTGCTGTGTTCTGTCGGACTCAGAATCGGATCCAACCTCTGGG
CACCCGCGCGACTCAGACACCCCTCAGCTCCTATTCAAGGTGGTACGGGA
CAAGGAGGGCAAGCCGCACGTCGTCGAGGTCGAGCTGGATGAGAACGGCA
ATGAAATTGTCAAAGAGAACATGGACGAAGTTGCAGACCCCTCCGACCGC
GAATTCACTGAAGAGGAGCTGCTCATCGCAAGCCCGGTGGTACTCGGCTT
CGCCTTCAGTGAGAAGCTGTGGCTCGAATTCAGCATCTCGGGCATCAGTG
ACATTGAATGGAACGAAGATGCCTTTGACTCGCTGGTCCTCCCCGACAAC
CAGAAGTCCATTGTCAAGGCATTGGTCGAATCGCACACCTTCCGCGCGGC
CCAGAACATCGACGATGTCATCCAAGGCAAGGGCAAGGGCCTCGTGGCCG
TGCTCCACGGACCTCCCGGTACTGGTAAAACTCTGACTGCCGAAGGCATC
GCAGAGCTCCTCAAACGCCCGCTCTACATGGTGAGCGCCGGCGAGCTGGG
CACCGATCCGCGCACCCTCGAAGCAGAGCTCAACAAGATCCTTGACATCG
CACATTCCTGGGGCGCTGTTCTACTGCTCGATGAGGCTGATATCTTCCTG
GAGAAGCGCACCATCCAGGACATTCACCGCAACGCTCTGGTCAGCATCTT
CCTGCGGTTGTTGGAATACTTCCAAGGCATTCTCTTCCTGACCACCAACC
GCGTCGAAACATTTGATGACGCCTTCCAATCCCGCATTCACGTCGCTTTG
CGCTACGGTGAACTCACCACGAAAGCAAAGCGCAGCGTCTGGAAGATGTT
TCTGGAGCGAGTGCAGGCCAAAGAGGGCGTGCAGACCGCCACTTTCAATG
AAAAGGATTTTGATTTATTGGCTCGGCATAATCTCAACGGGCGTCAGATC
AAAAACTCCGTCCGCACAGCCCAAGCATTGGCTGTTAACGAGCAAACCCC
TCTGTCCATGGAACACATCCGACGTGTCCTGGAGGTCGCTGAAACCTTCG
ACCGCGACCTTCGCGGTGGGTCAGGATACCTCGATGCCATGAGAAGTTAT
ACGTAAATGACCATCCCCACTGATTCCCAATCCCCTTCCCAGCAAACGGA
GCTCGAGACTCAGCGCGACCCAAGCTCCAACAGCAATCCGGCCACGAGTG
GGCCTGTGCCCGTCCCGGTCCCTGGCTCAGCTCCACTCCCTGCCACCACC
AGCGACTCCAGCAGTGCTACCACTACTGGTACCACCATGGCCGACGCTAG
TGGCCCCGTCTCCTCCTCCCCCGAATCCAAGCTCGACGCCGACCCGCCCG
TCGATGCTCCCCAGTCAAGTCCGACCCCAAAGCCCCCGTCGCGGTCTCCG
AACCCGTCGCCAAAAACTCTGCTGCTAGCCAAGCAGAAGTTGGCTTCCTT
GCGAGTCAAGTTGGCCGATGGGCGTCGCAAAGGCCGCGGCAGGCGTGGCT
CGGGCGATGGTAACACCGACGGCCAGAAAGGGAGCTCGCAAAAGTCCAAG
GGACGCAAGAAGGCTGCCTCGAAGATTGCCTTCAAACGTGTAGATCAGCT
ATGGGACAATACGATCCACAACTTCAAGCTGACGGAGACGGTCGACGACC
CCGACGCAAATGAGTGGGACCAATACCTCTTCACCGTGCGCCGCAAGTTC
GACTGGGACAATAAGTACCTGGAGACGGTGGTAGACCTGAAGAGCAAGTA
CCTGCGCGATGCGCTGTCCAAGGTCATGGATGGAGTCAAGGGTGTCAGCT
TGGTGCAGGAGACAGCAGTTGTCGATCCCAACATGCTCTTCCTCTACCTT
GAGGAGACGCGGCAATACATGAAAGAGCTCCGGCAGCTGGCCAAGACCGA
GAAGAAGAAGAAAGCTCGCAAGCTCGCCGAGGTCAAAGCATCGCATCTCA
AGGTGCTCGTCAAGTATCTGGACACCGACTATGCTGAGACCAAGAAAACC
CTCTACCCTCTGTTGGACGCCAGTATGATCACCTTCGATCTGCTCTGGGC
CATCTTCAAGCCCAACACCGTCGCCTACTCCTCCACCTACGGCAACCAGG
ATGAGCCTCGCGCCTTCAAGATCGAGTACGCAACCAAAGAGTCCTCGTTC
ATGAAGGGTCAATGGTACAGCATCGAGGGTCGCTATCTCGAATACGATGG
CAAGGCCTTTGGCATGGGCACCATGGCCGCCGAGGTGGAGTCCTTCAAAG
GTGCCCGCAAAATCACCAGTCTCAGTTGCTATCCGCTCAAGTATCATCGC
GAAGCCGATAGTGTCAAGGCCAAGCTCATCGAGCGGGGCAAGAAGTTTGT
GGCGCTGCGAGGCATGAACTACCGGTACCACAAGGGTATGGCCTTCTACA
AAAAGAAGCGGTCCGTCATCAAGGTCAACATCAACGGCCGGGTTATGGTT
GATCCCGCCATCCACCGGCGCATCAATCCCAACTACCCCATTAGCACGGT
CCGTCCCAAGGACCCGGACTACCTTGACGGCTCCGACGATGAGGGAAGCA
ACAATGGGTGCTGCTGTGTTCTGTCGGACTCAGAATCGGATCCAACCTCT
GGGCACCCGCGCGACTCAGACACCCCTCAGCTCCTATTCAAGGTGGTACG
GGACAAGGAGGGCAAGCCGCACGTCGTCGAGGTCGAGCTGGATGAGAACG
GCAATGAAATTGTCAAAGAGAACATGGACGAAGTTGCAGACCCCTCCGAC
CGCGAATTCACTGAAGAGGAGCTGCTCATCGCAAGCCCGGTGGTACTCGG
CTTCGCCTTCAGTGAGAAGCTGTGGCTCGAATTCAGCATCTCGGGCATCA
GTGACATTGAATGGAACGAAGATGCCTTTGACTCGCTGGTCCTCCCCGAC
AACCAGAAGTCCATTGTCAAGGCATTGGTCGAATCGCACACCTTCCGCGC
GGCCCAGAACATCGACGATGTCATCCAAGGCAAGGGCAAGGGCCTCGTGG
CCGTGCTCCACGGACCTCCCGGTACTGGTAAAACTCTGACTGCCGAAGGC
ATCGCAGAGCTCCTCAAACGCCCGCTCTACATGGTGAGCGCCGGCGAGCT
GGGCACCGATCCGCGCACCCTCGAAGCAGAGCTCAACAAGATCCTTGACA
TCGCACATTCCTGGGGCGCTGTTCTACTGCTCGATGAGGCTGATATCTTC
CTGGAGAAGCGCACCATCCAGGACATTCACCGCAACGCTCTGGTCAGCAT
CTTCCTGCGGTTGTTGGAATACTTCCAAGGCATTCTCTTCCTGACCACCA
ACCGCGTCGAAACATTTGATGACGCCTTCCAATCCCGCATTCACGTCGCT
TTGCGCTACGGTGAACTCACCACGAAAGCAAAGCGCAGCGTCTGGAAGAT
GTTTCTGGAGCGAGTGCAGGCCAAAGAGGGCGTGCAGACCGCCACTTTCA
ATGAAAAGGATTTTGATTTATTGGCTCGGCATAATCTCAACGGGCGTCAG
ATCAAAAACTCCGTCCGCACAGCCCAAGCATTGGCTGTTAACGAGCAAAC
CCCTCTGTCCATGGAACACATCCGACGTGTCCTGGAGGTCGCTGAAACCT
TCGACCGCGACCTTCGCGGTGGGTCAGGATACCTCGATGCCATGAGAAGT
TATACGTAAATGACCATCCCCACTGATTCCCAATCCCCTTCCCAGCAAAC
GGAGCTCGAGACTCAGCGCGACCCAAGCTCCAACAGCAATCCGGCCACGA
GTGGGCCTGTGCCCGTCCCGGTCCCTGGCTCAGCTCCACTCCCTGCCACC
ACCAGCGACTCCAGCAGTGCTACCACTACTGGTACCACCATGGCCGACGC
TAGTGGCCCCGTCTCCTCCTCCCCCGAATCCAAGCTCGACGCCGACCCGC
CCGTCGATGCTCCCCAGTCAAGTCCGACCCCAAAGCCCCCGTCGCGGTCT
CCGAACCCGTCGCCAAAAACTCTGCTGCTAGCCAAGCAGAAGTTGGCTTC
CTTGCGAGTCAAGTTGGCCGATGGGCGTCGCAAAGGCCGCGGCAGGCGTG
GCTCGGGCGATGGTAACACCGACGGCCAGAAAGGGAGCTCGCAAAAGTCC
AAGGGACGCAAGAAGGCTGCCTCGAAGATTGCCTTCAAACGTGTAGATCA
GCTATGGGACAATACGATCCACAACTTCAAGCTGACGGAGACGGTCGACG
ACCCCGACGCAAATGAGTGGGACCAATACCTCTTCACCGTGCGCCGCAAG
TTCGACTGGGACAATAAGTACCTGGAGACGGTGGTAGACCTGAAGAGCAA
GTACCTGCGCGATGCGCTGTCCAAGGTCATGGATGGAGTCAAGGGTGTCA
GCTTGGTGCAGGAGACAGCAGTTGTCGATCCCAACATGCTCTTCCTCTAC
CTTGAGGAGACGCGGCAATACATGAAAGAGCTCCGGCAGCTGGCCAAGAC
CGAGAAGAAGAAGAAAGCTCGCAAGCTCGCCGAGGTCAAAGCATCGCATC
TCAAGGTGCTCGTCAAGTATCTGGACACCGACTATGCTGAGACCAAGAAA
ACCCTCTACCCTCTGTTGGACGCCAGTATGATCACCTTCGATCTGCTCTG
GGCCATCTTCAAGCCCAACACCGTCGCCTACTCCTCCACCTACGGCAACC
AGGATGAGCCTCGCGCCTTCAAGATCGAGTACGCAACCAAAGAGTCCTCG
TTCATGAAGGGTCAATGGTACAGCATCGAGGGTCGCTATCTCGAATACGA
TGGCAAGGCCTTTGGCATGGGCACCATGGCCGCCGAGGTGGAGTCCTTCA
AAGGTGCCCGCAAAATCACCAGTCTCAGTTGCTATCCGCTCAAGTATCAT
CGCGAAGCCGATAGTGTCAAGGCCAAGCTCATCGAGCGGGGCAAGAAGTT
TGTGGCGCTGCGAGGCATGAACTACCGGTACCACAAGGGTATGGCCTTCT
ACAAAAAGAAGCGGTCCGTCATCAAGGTCAACATCAACGGCCGGGTTATG
GTTGATCCCGCCATCCACCGGCGCATCAATCCCAACTACCCCATTAGCAC
GGTCCGTCCCAAGGACCCGGACTACCTTGACGGCTCCGACGATGAGGGAA
GCAACAATGGGTGCTGCTGTGTTCTGTCGGACTCAGAATCGGATCCAACC
TCTGGGCACCCGCGCGACTCAGACACCCCTCAGCTCCTATTCAAGGTGGT
ACGGGACAAGGAGGGCAAGCCGCACGTCGTCGAGGTCGAGCTGGATGAGA
ACGGCAATGAAATTGTCAAAGAGAACATGGACGAAGTTGCAGACCCCTCC
GACCGCGAATTCACTGAAGAGGAGCTGCTCATCGCAAGCCCGGTGGTACT
CGGCTTCGCCTTCAGTGAGAAGCTGTGGCTCGAATTCAGCATCTCGGGCA
TCAGTGACATTGAATGGAACGAAGATGCCTTTGACTCGCTGGTCCTCCCC
GACAACCAGAAGTCCATTGTCAAGGCATTGGTCGAATCGCACACCTTCCG
CGCGGCCCAGAACATCGACGATGTCATCCAAGGCAAGGGCAAGGGCCTCG
TGGCCGTGCTCCACGGACCTCCCGGTACTGGTAAAACTCTGACTGCCGAA
GGCATCGCAGAGCTCCTCAAACGCCCGCTCTACATGGTGAGCGCCGGCGA
GCTGGGCACCGATCCGCGCACCCTCGAAGCAGAGCTCAACAAGATCCTTG
ACATCGCACATTCCTGGGGCGCTGTTCTACTGCTCGATGAGGCTGATATC
TTCCTGGAGAAGCGCACCATCCAGGACATTCACCGCAACGCTCTGGTCAG
CATCTTCCTGCGGTTGTTGGAATACTTCCAAGGCATTCTCTTCCTGACCA
CCAACCGCGTCGAAACATTTGATGACGCCTTCCAATCCCGCATTCACGTC
GCTTTGCGCTACGGTGAACTCACCACGAAAGCAAAGCGCAGCGTCTGGAA
GATGTTTCTGGAGCGAGTGCAGGCCAAAGAGGGCGTGCAGACCGCCACTT
TCAATGAAAAGGATTTTGATTTATTGGCTCGGCATAATCTCAACGGGCGT
CAGATCAAAAACTCCGTCCGCACAGCCCAAGCATTGGCTGTTAACGAGCA
AACCCCTCTGTCCATGGAACACATCCGACGTGTCCTGGAGGTCGCTGAAA
CCTTCGACCGCGACCTTCGCGGTGGGTCAGGATACCTCGATGCCATGAGA
AGTTATACGTAA 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 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:IPR003959 |
| DBxref | InterPro:IPR003593 |
| DBxref | PFAM:PF00004 |
| Product | ATPase family associated with various cellular activities (AAA) 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 | NKJJ01000004.1:456726..459892 + |
|
