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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000010.1:3487978..3490788+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_197959-T1 ID=ASPNIDRAFT_197959-T1|Name=ASPNIDRAFT_197959-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2811bp|location=Sequence derived from alignment at ACJE01000010.1:3487978..3490788+ (Aspergillus niger ATCC 1015)
ATGTCTGAGGCTATCAGTGCACCGAAGCAATACAAGCAGCCTTCTCGCAA
AGGCAAGAAGGCCTGGCGCAAGAATGTCGATATCGATGAGGTTCAGGAAG
GCCTTCGGGTTCTGAAGGAAGAAGAGATCAAAGGGTAAGTAAGGATTGAT
GTTACTCCACCGCCAATGTCGGTCACAACAAGCTAACTTTGGTCGCTTTC
TGCTAGTGGTCTTCTATCAGAGAAGCCATCCGATGAGCTGTTCGTCATCG
ACACCAAAGGTTCATCAGAGATCCGTGATGCGTACCGGAAGAAGCACAAG
CCTTTGAAGTCGGAAGAGATCTTGGCGCAACGCTCCGCTATCCCAGGCCT
CGACACACGCAAGCGCACCAACTCCAAGGTCACCGACGGTGTTATTGAAC
CGAAGAACAAGCGTCAAAAGAGCGACTGGGTTACGAGGAAAGACTGGCTG
CGCTTGAAGCAGGTGGCTAAGGAAGGCAACCCCGTCAACAAGCCCGCTGA
AAATGACCTTTACGATCCATGGGGAGATGCAGAGGAACCCACCCCCTTGG
ATGACCCTCAGTTCGACTTCTTGGAGAAACCGAAGCCGAAGGTAGAACCG
GTAACCTTGAAGCAGGCTCCGATCTCGCTCGCCGCGAATGGCAAGCCGGT
TCCCGCGGTACGCAAGCCTACTGCCGGAATAAGTTACAACCCCACGTTTG
AGGACTGGGACCGGCTGCTGCAGGAGCAGGGGGAGAAAGCAGTTGAAGCC
GAAAAGAAGCGCCTGGAGGAAGAGCGTAAAGAGGAGGAAAGACAGCGCTT
AATCGCCGAAGCCCAAGACGATGATGGTATGGTGAAGTCGGATGATGAGA
GCGCATGGGAAGGGTTTGAAAGTGAATATGAGAAGCCAGACTGGCTAAAT
AAGAAGCGTCCGGAGCGGAAAACAAAGGCTCAGAGGAACAAGATAAAGAG
ACGCAAGGAAGCAGAGAGGCAGGCCAAATGGGAAGAACAGATGAAGAGGA
AGGAAGAACAGGCCGCATATGCTAAGGAGGCCGCCGAACGTGTGGAAGCA
CAGGCGCTTGCTCGTGCCGACGATTCTGAGGACAGCTCTTCCGAGGAAGG
TGACGATACCGTTTTGCGTCGGAAACCGCTTGGTGGAAAGCTATAGTAAG
TGATCTGCTCGTCTGTTTATGCTCTGAACCCTACTAATCCAATCAATAGC
GCTCCTGAGAAGCCTCTGGAGGTTGTGTTGCCGGACGAGTTGCAGGATTC
TCTGCGTCTGCTCAAGCCCGAGGGCAACCTGCTTGACGACCGATTCCGCA
CTTTGGTGGTTCAGGGAAAGCTGGAGTCTCGCAAGCCGGTGACGCAGGCA
AAGAAGCCGAAGAGAAAGGTGACAGAGAAGTGGTCTCACAAGGACTTCAA
GATTCCGGGTCTGTAAATATTTACTCTTTTGGCGTTTGCTTGTGTCGGTT
CTTTCAAGATAGATTCCACGTAATATGGGCTAGTGCTGGACATAAAAAAG
TTTGTATGAGCCTCAACTAAATCCATGAACTTCACGACTATAGCCAGGTC
TCAGTGCTTCTCGTAGTTCTACCCACCAAGACCATATATAAACTCCGTAA
ATAGTCTGTAGAATACACTGCGCATGTCGGACAGCAATATCTACTTCGCA
GCGTTCGAGACTTGTAGGTGGGCCCTTCCGAAATTTTAGCGCGGACCGTT
AAGGTTGCTTTTGGAAAGTTGCCGGGCCAGTCTCCGCAACGCCCATCTTT
TTTCTCCGGCCCCTCGTGGATTCTCAGATCCCTTCACCATGCAATAGTCT
GAGGCCTATCACTGGAATGGACTTGAAAAACCTCTCCAGCAATTGGAAGA
AACTCCAGGGGACGCTGAAAAAGGAAAGCGTCTCCGCCACGAAACGGAAA
CCTTCAGACCGCGAGACGGAGAATGGTGTGGTAAAGAAACGGAAAAGAGA
AACTGTCGACGGACAACAAAAACCTGAGCGCAAACCGGTCTCAACCAAGA
GAAAGAAGATGTCTACGAACGGTACTGATGGCGGCGAGAATGGCACCGAG
GAGCCTACAAAGAAGTCGATCTCTCGGAGGAATTCTACGGCCGCTGTTGC
GGAATCAAAGCCGAAGATTAATGAAGGCCGTTCACCTACGTGAGCACACC
TCTTGTTGCTGTTTTGCGAGAGTTCTTTCTCTGTAATAACTACTAACGTT
CTATTAGCGCGGAGCTAGGAAAATATGTTGCGATGGATTGCGAAATGGTG
GGCGTTGGCCCCAATCCAGATCACGACTCCGCTCTCGCGCGAGTCAGTAT
TGTCAACTTCAACGGCGAACAAATATACGACTCTTACGTGAGACCCAAGG
AAATGGTTACAGACTGGCGGACGCATGTCAGCGGCATCCTTCCGAAGCAT
ATGGTGGAGGCACGAACACTCGAGCAGGTGCAGAAAGACGTTATCAATAT
CCTCGATGGGCGAATACTCGTGGGACATGCGGTCAGCAACGACTTGGACG
CTCTTCTTCTCAGCCACCCTAAGCGCGACATCAGAGACACCAGCAAACAT
CCCCCGTACAGAAAGATTGCTGGCGGCGGCTCCCCTAGGCTGAAGATGTT
GGCTTCGGAGTTTCTTGGGCTAGAAATCCAGGATGGCGCTCATTCTAGTG
TGGAGGATGCTAGGGCTACAATGCTTCTGTACCGGCGGGACAAGGACACA
TTCGAGCGGGAACATCTCAAGAAGTGGCCTGTGCGAGTAGTTGTCGAAAA
GAAAGACCAAGACGATGATCAAAAGAAAAAGAAGAAGAAGAAGAAGAAGA
CCCGTAAGAGG back to topCoding sequence (CDS) from alignment at ACJE01000010.1:3487978..3490788+ >ASPNIDRAFT_197959-T1 ID=ASPNIDRAFT_197959-T1|Name=ASPNIDRAFT_197959-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=10950bp|location=Sequence derived from alignment at ACJE01000010.1:3487978..3490788+ (Aspergillus niger ATCC 1015)
ATGTCTGAGGCTATCAGTGCACCGAAGCAATACAAGCAGCCTTCTCGCAA
AGGCAAGAAGGCCTGGCGCAAGAATGTCGATATCGATGAGGTTCAGGAAG
GCCTTCGGGTTCTGAAGGAAGAAGAGATCAAAGGTGGTCTTCTATCAGAG
AAGCCATCCGATGAGCTGTTCGTCATCGACACCAAAGGTTCATCAGAGAT
CCGTGATGCGTACCGGAAGAAGCACAAGCCTTTGAAGTCGGAAGAGATCT
TGGCGCAACGCTCCGCTATCCCAGGCCTCGACACACGCAAGCGCACCAAC
TCCAAGGTCACCGACGGTGTTATTGAACCGAAGAACAAGCGTCAAAAGAG
CGACTGGGTTACGAGGAAAGACTGGCTGCGCTTGAAGCAGGTGGCTAAGG
AAGGCAACCCCGTCAACAAGCCCGCTGAAAATGACCTTTACGATCCATGG
GGAGATGCAGAGGAACCCACCCCCTTGGATGACCCTCAGTTCGACTTCTT
GGAGAAACCGAAGCCGAAGGTAGAACCGGTAACCTTGAAGCAGGCTCCGA
TCTCGCTCGCCGCGAATGGCAAGCCGGTTCCCGCGGTACGCAAGCCTACT
GCCGGAATAAGTTACAACCCCACGTTTGAGGACTGGGACCGGCTGCTGCA
GGAGCAGGGGGAGAAAGCAGTTGAAGCCGAAAAGAAGCGCCTGGAGGAAG
AGCGTAAAGAGGAGGAAAGACAGCGCTTAATCGCCGAAGCCCAAGACGAT
GATGGTATGGTGAAGTCGGATGATGAGAGCGCATGGGAAGGGTTTGAAAG
TGAATATGAGAAGCCAGACTGGCTAAATAAGAAGCGTCCGGAGCGGAAAA
CAAAGGCTCAGAGGAACAAGATAAAGAGACGCAAGGAAGCAGAGAGGCAG
GCCAAATGGGAAGAACAGATGAAGAGGAAGGAAGAACAGGCCGCATATGC
TAAGGAGGCCGCCGAACGTGTGGAAGCACAGGCGCTTGCTCGTGCCGACG
ATTCTGAGGACAGCTCTTCCGAGGAAGGTGACGATACCGTTTTGCGTCGG
AAACCGCTTGGTGGAAAGCTATACGCTCCTGAGAAGCCTCTGGAGGTTGT
GTTGCCGGACGAGTTGCAGGATTCTCTGCGTCTGCTCAAGCCCGAGGGCA
ACCTGCTTGACGACCGATTCCGCACTTTGGTGGTTCAGGGAAAGCTGGAG
TCTCGCAAGCCGGTGACGCAGGCAAAGAAGCCGAAGAGAAAGGTGACAGA
GAAGTGGTCTCACAAGGACTTCAAGATTCCGGGTCTCAATTGGAAGAAAC
TCCAGGGGACGCTGAAAAAGGAAAGCGTCTCCGCCACGAAACGGAAACCT
TCAGACCGCGAGACGGAGAATGGTGTGGTAAAGAAACGGAAAAGAGAAAC
TGTCGACGGACAACAAAAACCTGAGCGCAAACCGGTCTCAACCAAGAGAA
AGAAGATGTCTACGAACGGTACTGATGGCGGCGAGAATGGCACCGAGGAG
CCTACAAAGAAGTCGATCTCTCGGAGGAATTCTACGGCCGCTGTTGCGGA
ATCAAAGCCGAAGATTAATGAAGGCCGTTCACCTACCGCGGAGCTAGGAA
AATATGTTGCGATGGATTGCGAAATGGTGGGCGTTGGCCCCAATCCAGAT
CACGACTCCGCTCTCGCGCGAGTCAGTATTGTCAACTTCAACGGCGAACA
AATATACGACTCTTACGTGAGACCCAAGGAAATGGTTACAGACTGGCGGA
CGCATGTCAGCGGCATCCTTCCGAAGCATATGGTGGAGGCACGAACACTC
GAGCAGGTGCAGAAAGACGTTATCAATATCCTCGATGGGCGAATACTCGT
GGGACATGCGGTCAGCAACGACTTGGACGCTCTTCTTCTCAGCCACCCTA
AGCGCGACATCAGAGACACCAGCAAACATCCCCCGTACAGAAAGATTGCT
GGCGGCGGCTCCCCTAGGCTGAAGATGTTGGCTTCGGAGTTTCTTGGGCT
AGAAATCCAGGATGGCGCTCATTCTAGTGTGGAGGATGCTAGGGCTACAA
TGCTTCTGTACCGGCGGGACAAGGACACATTCGAGCGGGAACATCTCAAG
AAGTGGCCTGTGCGAGTAGTTGTCGAAAAGAAAGACCAAGACGATGATCA
AAAGAAAAAGAAGAAGAAGAAGAAGAAGACCCGTAAGAGGATGTCTGAGG
CTATCAGTGCACCGAAGCAATACAAGCAGCCTTCTCGCAAAGGCAAGAAG
GCCTGGCGCAAGAATGTCGATATCGATGAGGTTCAGGAAGGCCTTCGGGT
TCTGAAGGAAGAAGAGATCAAAGGTGGTCTTCTATCAGAGAAGCCATCCG
ATGAGCTGTTCGTCATCGACACCAAAGGTTCATCAGAGATCCGTGATGCG
TACCGGAAGAAGCACAAGCCTTTGAAGTCGGAAGAGATCTTGGCGCAACG
CTCCGCTATCCCAGGCCTCGACACACGCAAGCGCACCAACTCCAAGGTCA
CCGACGGTGTTATTGAACCGAAGAACAAGCGTCAAAAGAGCGACTGGGTT
ACGAGGAAAGACTGGCTGCGCTTGAAGCAGGTGGCTAAGGAAGGCAACCC
CGTCAACAAGCCCGCTGAAAATGACCTTTACGATCCATGGGGAGATGCAG
AGGAACCCACCCCCTTGGATGACCCTCAGTTCGACTTCTTGGAGAAACCG
AAGCCGAAGGTAGAACCGGTAACCTTGAAGCAGGCTCCGATCTCGCTCGC
CGCGAATGGCAAGCCGGTTCCCGCGGTACGCAAGCCTACTGCCGGAATAA
GTTACAACCCCACGTTTGAGGACTGGGACCGGCTGCTGCAGGAGCAGGGG
GAGAAAGCAGTTGAAGCCGAAAAGAAGCGCCTGGAGGAAGAGCGTAAAGA
GGAGGAAAGACAGCGCTTAATCGCCGAAGCCCAAGACGATGATGGTATGG
TGAAGTCGGATGATGAGAGCGCATGGGAAGGGTTTGAAAGTGAATATGAG
AAGCCAGACTGGCTAAATAAGAAGCGTCCGGAGCGGAAAACAAAGGCTCA
GAGGAACAAGATAAAGAGACGCAAGGAAGCAGAGAGGCAGGCCAAATGGG
AAGAACAGATGAAGAGGAAGGAAGAACAGGCCGCATATGCTAAGGAGGCC
GCCGAACGTGTGGAAGCACAGGCGCTTGCTCGTGCCGACGATTCTGAGGA
CAGCTCTTCCGAGGAAGGTGACGATACCGTTTTGCGTCGGAAACCGCTTG
GTGGAAAGCTATACGCTCCTGAGAAGCCTCTGGAGGTTGTGTTGCCGGAC
GAGTTGCAGGATTCTCTGCGTCTGCTCAAGCCCGAGGGCAACCTGCTTGA
CGACCGATTCCGCACTTTGGTGGTTCAGGGAAAGCTGGAGTCTCGCAAGC
CGGTGACGCAGGCAAAGAAGCCGAAGAGAAAGGTGACAGAGAAGTGGTCT
CACAAGGACTTCAAGATTCCGGGTCTCAATTGGAAGAAACTCCAGGGGAC
GCTGAAAAAGGAAAGCGTCTCCGCCACGAAACGGAAACCTTCAGACCGCG
AGACGGAGAATGGTGTGGTAAAGAAACGGAAAAGAGAAACTGTCGACGGA
CAACAAAAACCTGAGCGCAAACCGGTCTCAACCAAGAGAAAGAAGATGTC
TACGAACGGTACTGATGGCGGCGAGAATGGCACCGAGGAGCCTACAAAGA
AGTCGATCTCTCGGAGGAATTCTACGGCCGCTGTTGCGGAATCAAAGCCG
AAGATTAATGAAGGCCGTTCACCTACCGCGGAGCTAGGAAAATATGTTGC
GATGGATTGCGAAATGGTGGGCGTTGGCCCCAATCCAGATCACGACTCCG
CTCTCGCGCGAGTCAGTATTGTCAACTTCAACGGCGAACAAATATACGAC
TCTTACGTGAGACCCAAGGAAATGGTTACAGACTGGCGGACGCATGTCAG
CGGCATCCTTCCGAAGCATATGGTGGAGGCACGAACACTCGAGCAGGTGC
AGAAAGACGTTATCAATATCCTCGATGGGCGAATACTCGTGGGACATGCG
GTCAGCAACGACTTGGACGCTCTTCTTCTCAGCCACCCTAAGCGCGACAT
CAGAGACACCAGCAAACATCCCCCGTACAGAAAGATTGCTGGCGGCGGCT
CCCCTAGGCTGAAGATGTTGGCTTCGGAGTTTCTTGGGCTAGAAATCCAG
GATGGCGCTCATTCTAGTGTGGAGGATGCTAGGGCTACAATGCTTCTGTA
CCGGCGGGACAAGGACACATTCGAGCGGGAACATCTCAAGAAGTGGCCTG
TGCGAGTAGTTGTCGAAAAGAAAGACCAAGACGATGATCAAAAGAAAAAG
AAGAAGAAGAAGAAGAAGACCCGTAAGAGGATGTCTGAGGCTATCAGTGC
ACCGAAGCAATACAAGCAGCCTTCTCGCAAAGGCAAGAAGGCCTGGCGCA
AGAATGTCGATATCGATGAGGTTCAGGAAGGCCTTCGGGTTCTGAAGGAA
GAAGAGATCAAAGGTGGTCTTCTATCAGAGAAGCCATCCGATGAGCTGTT
CGTCATCGACACCAAAGGTTCATCAGAGATCCGTGATGCGTACCGGAAGA
AGCACAAGCCTTTGAAGTCGGAAGAGATCTTGGCGCAACGCTCCGCTATC
CCAGGCCTCGACACACGCAAGCGCACCAACTCCAAGGTCACCGACGGTGT
TATTGAACCGAAGAACAAGCGTCAAAAGAGCGACTGGGTTACGAGGAAAG
ACTGGCTGCGCTTGAAGCAGGTGGCTAAGGAAGGCAACCCCGTCAACAAG
CCCGCTGAAAATGACCTTTACGATCCATGGGGAGATGCAGAGGAACCCAC
CCCCTTGGATGACCCTCAGTTCGACTTCTTGGAGAAACCGAAGCCGAAGG
TAGAACCGGTAACCTTGAAGCAGGCTCCGATCTCGCTCGCCGCGAATGGC
AAGCCGGTTCCCGCGGTACGCAAGCCTACTGCCGGAATAAGTTACAACCC
CACGTTTGAGGACTGGGACCGGCTGCTGCAGGAGCAGGGGGAGAAAGCAG
TTGAAGCCGAAAAGAAGCGCCTGGAGGAAGAGCGTAAAGAGGAGGAAAGA
CAGCGCTTAATCGCCGAAGCCCAAGACGATGATGGTATGGTGAAGTCGGA
TGATGAGAGCGCATGGGAAGGGTTTGAAAGTGAATATGAGAAGCCAGACT
GGCTAAATAAGAAGCGTCCGGAGCGGAAAACAAAGGCTCAGAGGAACAAG
ATAAAGAGACGCAAGGAAGCAGAGAGGCAGGCCAAATGGGAAGAACAGAT
GAAGAGGAAGGAAGAACAGGCCGCATATGCTAAGGAGGCCGCCGAACGTG
TGGAAGCACAGGCGCTTGCTCGTGCCGACGATTCTGAGGACAGCTCTTCC
GAGGAAGGTGACGATACCGTTTTGCGTCGGAAACCGCTTGGTGGAAAGCT
ATACGCTCCTGAGAAGCCTCTGGAGGTTGTGTTGCCGGACGAGTTGCAGG
ATTCTCTGCGTCTGCTCAAGCCCGAGGGCAACCTGCTTGACGACCGATTC
CGCACTTTGGTGGTTCAGGGAAAGCTGGAGTCTCGCAAGCCGGTGACGCA
GGCAAAGAAGCCGAAGAGAAAGGTGACAGAGAAGTGGTCTCACAAGGACT
TCAAGATTCCGGGTCTCAATTGGAAGAAACTCCAGGGGACGCTGAAAAAG
GAAAGCGTCTCCGCCACGAAACGGAAACCTTCAGACCGCGAGACGGAGAA
TGGTGTGGTAAAGAAACGGAAAAGAGAAACTGTCGACGGACAACAAAAAC
CTGAGCGCAAACCGGTCTCAACCAAGAGAAAGAAGATGTCTACGAACGGT
ACTGATGGCGGCGAGAATGGCACCGAGGAGCCTACAAAGAAGTCGATCTC
TCGGAGGAATTCTACGGCCGCTGTTGCGGAATCAAAGCCGAAGATTAATG
AAGGCCGTTCACCTACCGCGGAGCTAGGAAAATATGTTGCGATGGATTGC
GAAATGGTGGGCGTTGGCCCCAATCCAGATCACGACTCCGCTCTCGCGCG
AGTCAGTATTGTCAACTTCAACGGCGAACAAATATACGACTCTTACGTGA
GACCCAAGGAAATGGTTACAGACTGGCGGACGCATGTCAGCGGCATCCTT
CCGAAGCATATGGTGGAGGCACGAACACTCGAGCAGGTGCAGAAAGACGT
TATCAATATCCTCGATGGGCGAATACTCGTGGGACATGCGGTCAGCAACG
ACTTGGACGCTCTTCTTCTCAGCCACCCTAAGCGCGACATCAGAGACACC
AGCAAACATCCCCCGTACAGAAAGATTGCTGGCGGCGGCTCCCCTAGGCT
GAAGATGTTGGCTTCGGAGTTTCTTGGGCTAGAAATCCAGGATGGCGCTC
ATTCTAGTGTGGAGGATGCTAGGGCTACAATGCTTCTGTACCGGCGGGAC
AAGGACACATTCGAGCGGGAACATCTCAAGAAGTGGCCTGTGCGAGTAGT
TGTCGAAAAGAAAGACCAAGACGATGATCAAAAGAAAAAGAAGAAGAAGA
AGAAGAAGACCCGTAAGAGGATGTCTGAGGCTATCAGTGCACCGAAGCAA
TACAAGCAGCCTTCTCGCAAAGGCAAGAAGGCCTGGCGCAAGAATGTCGA
TATCGATGAGGTTCAGGAAGGCCTTCGGGTTCTGAAGGAAGAAGAGATCA
AAGGTGGTCTTCTATCAGAGAAGCCATCCGATGAGCTGTTCGTCATCGAC
ACCAAAGGTTCATCAGAGATCCGTGATGCGTACCGGAAGAAGCACAAGCC
TTTGAAGTCGGAAGAGATCTTGGCGCAACGCTCCGCTATCCCAGGCCTCG
ACACACGCAAGCGCACCAACTCCAAGGTCACCGACGGTGTTATTGAACCG
AAGAACAAGCGTCAAAAGAGCGACTGGGTTACGAGGAAAGACTGGCTGCG
CTTGAAGCAGGTGGCTAAGGAAGGCAACCCCGTCAACAAGCCCGCTGAAA
ATGACCTTTACGATCCATGGGGAGATGCAGAGGAACCCACCCCCTTGGAT
GACCCTCAGTTCGACTTCTTGGAGAAACCGAAGCCGAAGGTAGAACCGGT
AACCTTGAAGCAGGCTCCGATCTCGCTCGCCGCGAATGGCAAGCCGGTTC
CCGCGGTACGCAAGCCTACTGCCGGAATAAGTTACAACCCCACGTTTGAG
GACTGGGACCGGCTGCTGCAGGAGCAGGGGGAGAAAGCAGTTGAAGCCGA
AAAGAAGCGCCTGGAGGAAGAGCGTAAAGAGGAGGAAAGACAGCGCTTAA
TCGCCGAAGCCCAAGACGATGATGGTATGGTGAAGTCGGATGATGAGAGC
GCATGGGAAGGGTTTGAAAGTGAATATGAGAAGCCAGACTGGCTAAATAA
GAAGCGTCCGGAGCGGAAAACAAAGGCTCAGAGGAACAAGATAAAGAGAC
GCAAGGAAGCAGAGAGGCAGGCCAAATGGGAAGAACAGATGAAGAGGAAG
GAAGAACAGGCCGCATATGCTAAGGAGGCCGCCGAACGTGTGGAAGCACA
GGCGCTTGCTCGTGCCGACGATTCTGAGGACAGCTCTTCCGAGGAAGGTG
ACGATACCGTTTTGCGTCGGAAACCGCTTGGTGGAAAGCTATACGCTCCT
GAGAAGCCTCTGGAGGTTGTGTTGCCGGACGAGTTGCAGGATTCTCTGCG
TCTGCTCAAGCCCGAGGGCAACCTGCTTGACGACCGATTCCGCACTTTGG
TGGTTCAGGGAAAGCTGGAGTCTCGCAAGCCGGTGACGCAGGCAAAGAAG
CCGAAGAGAAAGGTGACAGAGAAGTGGTCTCACAAGGACTTCAAGATTCC
GGGTCTCAATTGGAAGAAACTCCAGGGGACGCTGAAAAAGGAAAGCGTCT
CCGCCACGAAACGGAAACCTTCAGACCGCGAGACGGAGAATGGTGTGGTA
AAGAAACGGAAAAGAGAAACTGTCGACGGACAACAAAAACCTGAGCGCAA
ACCGGTCTCAACCAAGAGAAAGAAGATGTCTACGAACGGTACTGATGGCG
GCGAGAATGGCACCGAGGAGCCTACAAAGAAGTCGATCTCTCGGAGGAAT
TCTACGGCCGCTGTTGCGGAATCAAAGCCGAAGATTAATGAAGGCCGTTC
ACCTACCGCGGAGCTAGGAAAATATGTTGCGATGGATTGCGAAATGGTGG
GCGTTGGCCCCAATCCAGATCACGACTCCGCTCTCGCGCGAGTCAGTATT
GTCAACTTCAACGGCGAACAAATATACGACTCTTACGTGAGACCCAAGGA
AATGGTTACAGACTGGCGGACGCATGTCAGCGGCATCCTTCCGAAGCATA
TGGTGGAGGCACGAACACTCGAGCAGGTGCAGAAAGACGTTATCAATATC
CTCGATGGGCGAATACTCGTGGGACATGCGGTCAGCAACGACTTGGACGC
TCTTCTTCTCAGCCACCCTAAGCGCGACATCAGAGACACCAGCAAACATC
CCCCGTACAGAAAGATTGCTGGCGGCGGCTCCCCTAGGCTGAAGATGTTG
GCTTCGGAGTTTCTTGGGCTAGAAATCCAGGATGGCGCTCATTCTAGTGT
GGAGGATGCTAGGGCTACAATGCTTCTGTACCGGCGGGACAAGGACACAT
TCGAGCGGGAACATCTCAAGAAGTGGCCTGTGCGAGTAGTTGTCGAAAAG
AAAGACCAAGACGATGATCAAAAGAAAAAGAAGAAGAAGAAGAAGAAGAC
CCGTAAGAGGATGTCTGAGGCTATCAGTGCACCGAAGCAATACAAGCAGC
CTTCTCGCAAAGGCAAGAAGGCCTGGCGCAAGAATGTCGATATCGATGAG
GTTCAGGAAGGCCTTCGGGTTCTGAAGGAAGAAGAGATCAAAGGTGGTCT
TCTATCAGAGAAGCCATCCGATGAGCTGTTCGTCATCGACACCAAAGGTT
CATCAGAGATCCGTGATGCGTACCGGAAGAAGCACAAGCCTTTGAAGTCG
GAAGAGATCTTGGCGCAACGCTCCGCTATCCCAGGCCTCGACACACGCAA
GCGCACCAACTCCAAGGTCACCGACGGTGTTATTGAACCGAAGAACAAGC
GTCAAAAGAGCGACTGGGTTACGAGGAAAGACTGGCTGCGCTTGAAGCAG
GTGGCTAAGGAAGGCAACCCCGTCAACAAGCCCGCTGAAAATGACCTTTA
CGATCCATGGGGAGATGCAGAGGAACCCACCCCCTTGGATGACCCTCAGT
TCGACTTCTTGGAGAAACCGAAGCCGAAGGTAGAACCGGTAACCTTGAAG
CAGGCTCCGATCTCGCTCGCCGCGAATGGCAAGCCGGTTCCCGCGGTACG
CAAGCCTACTGCCGGAATAAGTTACAACCCCACGTTTGAGGACTGGGACC
GGCTGCTGCAGGAGCAGGGGGAGAAAGCAGTTGAAGCCGAAAAGAAGCGC
CTGGAGGAAGAGCGTAAAGAGGAGGAAAGACAGCGCTTAATCGCCGAAGC
CCAAGACGATGATGGTATGGTGAAGTCGGATGATGAGAGCGCATGGGAAG
GGTTTGAAAGTGAATATGAGAAGCCAGACTGGCTAAATAAGAAGCGTCCG
GAGCGGAAAACAAAGGCTCAGAGGAACAAGATAAAGAGACGCAAGGAAGC
AGAGAGGCAGGCCAAATGGGAAGAACAGATGAAGAGGAAGGAAGAACAGG
CCGCATATGCTAAGGAGGCCGCCGAACGTGTGGAAGCACAGGCGCTTGCT
CGTGCCGACGATTCTGAGGACAGCTCTTCCGAGGAAGGTGACGATACCGT
TTTGCGTCGGAAACCGCTTGGTGGAAAGCTATACGCTCCTGAGAAGCCTC
TGGAGGTTGTGTTGCCGGACGAGTTGCAGGATTCTCTGCGTCTGCTCAAG
CCCGAGGGCAACCTGCTTGACGACCGATTCCGCACTTTGGTGGTTCAGGG
AAAGCTGGAGTCTCGCAAGCCGGTGACGCAGGCAAAGAAGCCGAAGAGAA
AGGTGACAGAGAAGTGGTCTCACAAGGACTTCAAGATTCCGGGTCTCAAT
TGGAAGAAACTCCAGGGGACGCTGAAAAAGGAAAGCGTCTCCGCCACGAA
ACGGAAACCTTCAGACCGCGAGACGGAGAATGGTGTGGTAAAGAAACGGA
AAAGAGAAACTGTCGACGGACAACAAAAACCTGAGCGCAAACCGGTCTCA
ACCAAGAGAAAGAAGATGTCTACGAACGGTACTGATGGCGGCGAGAATGG
CACCGAGGAGCCTACAAAGAAGTCGATCTCTCGGAGGAATTCTACGGCCG
CTGTTGCGGAATCAAAGCCGAAGATTAATGAAGGCCGTTCACCTACCGCG
GAGCTAGGAAAATATGTTGCGATGGATTGCGAAATGGTGGGCGTTGGCCC
CAATCCAGATCACGACTCCGCTCTCGCGCGAGTCAGTATTGTCAACTTCA
ACGGCGAACAAATATACGACTCTTACGTGAGACCCAAGGAAATGGTTACA
GACTGGCGGACGCATGTCAGCGGCATCCTTCCGAAGCATATGGTGGAGGC
ACGAACACTCGAGCAGGTGCAGAAAGACGTTATCAATATCCTCGATGGGC
GAATACTCGTGGGACATGCGGTCAGCAACGACTTGGACGCTCTTCTTCTC
AGCCACCCTAAGCGCGACATCAGAGACACCAGCAAACATCCCCCGTACAG
AAAGATTGCTGGCGGCGGCTCCCCTAGGCTGAAGATGTTGGCTTCGGAGT
TTCTTGGGCTAGAAATCCAGGATGGCGCTCATTCTAGTGTGGAGGATGCT
AGGGCTACAATGCTTCTGTACCGGCGGGACAAGGACACATTCGAGCGGGA
ACATCTCAAGAAGTGGCCTGTGCGAGTAGTTGTCGAAAAGAAAGACCAAG
ACGATGATCAAAAGAAAAAGAAGAAGAAGAAGAAGAAGACCCGTAAGAGG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006364 | rRNA processing |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0008408 | 3'-5' exonuclease activity |
| GO:0003676 | nucleic acid binding |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG092646PE |
| Note | BUSCO:EOG09263C55 |
| DBxref | InterPro:IPR012337 |
| DBxref | InterPro:IPR037431 |
| DBxref | InterPro:IPR036397 |
| DBxref | InterPro:IPR011687 |
| DBxref | InterPro:IPR013520 |
| DBxref | PFAM:PF00929 |
| DBxref | PFAM:PF07767 |
| Product | hypothetical 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 |
|---|
| ACJE01000010.1 | supercontig | ACJE01000010.1:3487978..3490788 + |
|
