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ASPNIDRAFT_179076-T1, ASPNIDRAFT_179076-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_179076-T1
Unique NameASPNIDRAFT_179076-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000019.1:2435902..2438630-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_179076-T1 ID=ASPNIDRAFT_179076-T1|Name=ASPNIDRAFT_179076-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2729bp|location=Sequence derived from alignment at ACJE01000019.1:2435902..2438630- (Aspergillus niger ATCC 1015)
ATGGAAGACCGACCTGGTTCCTCCGGCGCGTCTCCCGCGACTCCCGCAAC
CCTTTCGGACCTCAAGAAGCACACGCACGAGCACCTCGAAGGCACAATGG
CCTTCGAATATACCGAACAACTCCTCACTCCCGAAAATAGTCGCTCCGAA
ACCTCCAGCAACAACGATAACGCGTCCACCGACGAGAAACCCACCCTCCG
CCGACGATCTACACGTGTAACACGCGCTTCTTTACGAGGGGCAGTCCAGC
TCGGTGACCATCTGGACGCGGATAACCATGGATTACCTTCTCCGGCGGAT
GAAAATGATCGTACGGTCCCCGGTGATGTCCTGGCCAGTGCAGTCGAGGC
TGCGGAAGTGAAGAGGACGAGGTCGTCCAAGTCTTCCTCCCACCTCCGGC
ACAGCATAGCGGTTATGGAAACTGCCTTATGGAGCGAGACAACACTTCCG
CAGAATAAGGAGGATGGTGACGACCACCCAATGGCGCCAGATACCCCCGT
CTCCAAATCGTCTCAGGAACCGCAGCCCGGCGACCTCGGCGTGTCTCTAC
AACAACGGACGTTACGAAAGCGCGTGGAAAAGGTGTTGACCCAGGAAGAC
AACAAGGACCAAGAAAAGGCTTCTGCGCCTGCCAAACCTGACCGTCGCAA
TTCAGTACGTCGGTCAACCCGGTTAAGTATACTTGACAAGGCTTCTGGCC
TTGTTGGCCGGGCTACCAGCGTTTTGGGAAAACGCTCGCGTGATAAGGTA
GAAAAGAGCAGTGGTCCGGATCGACGTGCCAGTCTACGGCCGCGAAATGT
TGCCGCTCCCAAGGAAGAACCCCCTGCGCCTACCCCGAGTGCTCCAGCTC
CCAAGAAGAGACGGGTCTCGGAAAGTGATCTCCCGTCCAAGGTTGAGTCT
ACAGAGGAGCCGCCGCAGGAGCAATCCGCCCCAGCCGAACCAGTCCCGCG
CTTGAAGCGGAAGCTGTGGCTGGCGCATGGTCTTTACACCGGACAAGAAC
ATACCGACTCTCCGCCAGTTCAAAGCAGGAATAGGAGTAGGCGGAAGAGT
CACCCTCAGTCTCAGACTCAGTCTCAGCGGAAACTGCTGCCGTTGCCTAT
GTTCGCAGGCGACCGACTCTTGAAGAATGGACGCGATTTTCAGCTGCCTT
TCGACGTCTTCTCGCCGCTGCCTCCTGGTCAACCCAAACCTGACGAGTGG
AGAAAGACCAACAAGAGTACGTATTCTAAGCATGACTGATCAGATGGCCA
TTGCTAACACAGTCTATAGACGTCTTTGTGGGAGAGGCGTCCAGTATATG
GCGGGCAAACAAGCACTGTGAACTGTCCAAGTGCATGTGCACGCCAGAAA
CGGGCTGCGACGAGGAATGTCAGAACCGCTACATGTTCTACGAGTGTGAT
GAAGGTAATTGCGGAGTGGGTGAGGAGTGCGGTAACCGCAGTTTCGAGGA
GCTCAAGCAAAGGACCAAGGCTGGAGGCAAGTACAACATCGGCGTGGAAG
TCATCAAGACGGCGGATCGTGGGTACGGTGTTCGGAGCAACCGCACCTTT
GAGCCCAACCAGATTATTGTGGAGTACACGGGTGAGATTATCACCCAAAC
GGAGTGTGAGAAACGAATGCGGACGATCTATAAGCATAACGAGGTTCGTT
CGTCCTTGTCACGGTTCTTCCACGGCTATAATCGCTAACGGCGCTCCAGT
GCTACTATCTGATGTACTTTGATCAGAACATGATCATTGATGCCACTCGA
GGGTCCATTGCCCGCTTCGTTAATCACTCATGTGAGCCCAACTGTCGGAT
GGAAAAGTGGACTGTCGCTGGGAAACCGCGCATGGCTCTCTTTGCTGGCG
ATCGTGGCATCATGACGGGTGAGGAACTGACCTATGACTACAACTTTGAG
TGAGTTATTCTGTCTGCGGATTTTACAGCCATTAGCAATGCTAATCTTGG
AATCTAGCCCATATTCCCAGAAGAATGTCCAGCAATGCAGATGTGGCTCA
TCAAATTGCCGTGGCATTCTGGGCCCGAGGCCCAAAGAAAAGGTTCAACG
TGCGAAAGAGCAGAAGGTGGAGAAATCGAAGAAATCCGCCACCAAACGGG
CAAATGGCAAGGCAGCCGGAACCAAGCGCAAGTCCGGTGATGCGCTCGAC
GAATCATCTTCGCGCGCCAACAAGAAACAGAAACTTGCGGTAGCCAAGTC
AATCAGGTCCGGTGTCAAGAAGGCGGTTTCGCGAGCGCGTGCAACCGTCT
CTAAATCCACTGCTTCTCGAACAAAGCAGGCAAAGAAGGAAAAAGGCATC
CCTGTCAAACAAAAGACCGCGAAGGCCGCGAAAACGACGAAATCACCGAC
GAAGAGGACAGCAGCGAAGAAGGATGAACCTAAAGGAAAGAGTAACATCA
AGCTCCCTAAGGTTAAAGCCACGAAGGTCAAGGCAAGGGCCACAGTGCCC
AAGAAGACAGCCCAGGCCGCGAAAGGCAAGACTCAGGATGCCGCTCCATC
ATCGTCGAAATTGAGCCGCCCTTCTGCAGCCACCAAAGCGAAAATCCTCG
CTGCGGCCAAAGGTGCAAACCCACGGAGGAAATCGACAAAAAAGGAAGAT
ACGAAGACAGATCATAAGACTACCGCGAATAAGGCTCAGAAGAAAACGCA
AGCACCCAAACAGGAGCCCAAGTCCAAAGGTGCGATAAAGCGTACGGGCA
CTGCAGCCACGAAAAGCAGTAAAAAGTGA
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Coding sequence (CDS) from alignment at ACJE01000019.1:2435902..2438630-

>ASPNIDRAFT_179076-T1 ID=ASPNIDRAFT_179076-T1|Name=ASPNIDRAFT_179076-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=10248bp|location=Sequence derived from alignment at ACJE01000019.1:2435902..2438630- (Aspergillus niger ATCC 1015)
CCCATATTCCCAGAAGAATGTCCAGCAATGCAGATGTGGCTCATCAAATT
GCCGTGGCATTCTGGGCCCGAGGCCCAAAGAAAAGGTTCAACGTGCGAAA
GAGCAGAAGGTGGAGAAATCGAAGAAATCCGCCACCAAACGGGCAAATGG
CAAGGCAGCCGGAACCAAGCGCAAGTCCGGTGATGCGCTCGACGAATCAT
CTTCGCGCGCCAACAAGAAACAGAAACTTGCGGTAGCCAAGTCAATCAGG
TCCGGTGTCAAGAAGGCGGTTTCGCGAGCGCGTGCAACCGTCTCTAAATC
CACTGCTTCTCGAACAAAGCAGGCAAAGAAGGAAAAAGGCATCCCTGTCA
AACAAAAGACCGCGAAGGCCGCGAAAACGACGAAATCACCGACGAAGAGG
ACAGCAGCGAAGAAGGATGAACCTAAAGGAAAGAGTAACATCAAGCTCCC
TAAGGTTAAAGCCACGAAGGTCAAGGCAAGGGCCACAGTGCCCAAGAAGA
CAGCCCAGGCCGCGAAAGGCAAGACTCAGGATGCCGCTCCATCATCGTCG
AAATTGAGCCGCCCTTCTGCAGCCACCAAAGCGAAAATCCTCGCTGCGGC
CAAAGGTGCAAACCCACGGAGGAAATCGACAAAAAAGGAAGATACGAAGA
CAGATCATAAGACTACCGCGAATAAGGCTCAGAAGAAAACGCAAGCACCC
AAACAGGAGCCCAAGTCCAAAGGTGCGATAAAGCGTACGGGCACTGCAGC
CACGAAAAGCAGTAAAAAGTGATGCTACTATCTGATGTACTTTGATCAGA
ACATGATCATTGATGCCACTCGAGGGTCCATTGCCCGCTTCGTTAATCAC
TCATGTGAGCCCAACTGTCGGATGGAAAAGTGGACTGTCGCTGGGAAACC
GCGCATGGCTCTCTTTGCTGGCGATCGTGGCATCATGACGGGTGAGGAAC
TGACCTATGACTACAACTTTGAACGTCTTTGTGGGAGAGGCGTCCAGTAT
ATGGCGGGCAAACAAGCACTGTGAACTGTCCAAGTGCATGTGCACGCCAG
AAACGGGCTGCGACGAGGAATGTCAGAACCGCTACATGTTCTACGAGTGT
GATGAAGGTAATTGCGGAGTGGGTGAGGAGTGCGGTAACCGCAGTTTCGA
GGAGCTCAAGCAAAGGACCAAGGCTGGAGGCAAGTACAACATCGGCGTGG
AAGTCATCAAGACGGCGGATCGTGGGTACGGTGTTCGGAGCAACCGCACC
TTTGAGCCCAACCAGATTATTGTGGAGTACACGGGTGAGATTATCACCCA
AACGGAGTGTGAGAAACGAATGCGGACGATCTATAAGCATAACGAGATGG
AAGACCGACCTGGTTCCTCCGGCGCGTCTCCCGCGACTCCCGCAACCCTT
TCGGACCTCAAGAAGCACACGCACGAGCACCTCGAAGGCACAATGGCCTT
CGAATATACCGAACAACTCCTCACTCCCGAAAATAGTCGCTCCGAAACCT
CCAGCAACAACGATAACGCGTCCACCGACGAGAAACCCACCCTCCGCCGA
CGATCTACACGTGTAACACGCGCTTCTTTACGAGGGGCAGTCCAGCTCGG
TGACCATCTGGACGCGGATAACCATGGATTACCTTCTCCGGCGGATGAAA
ATGATCGTACGGTCCCCGGTGATGTCCTGGCCAGTGCAGTCGAGGCTGCG
GAAGTGAAGAGGACGAGGTCGTCCAAGTCTTCCTCCCACCTCCGGCACAG
CATAGCGGTTATGGAAACTGCCTTATGGAGCGAGACAACACTTCCGCAGA
ATAAGGAGGATGGTGACGACCACCCAATGGCGCCAGATACCCCCGTCTCC
AAATCGTCTCAGGAACCGCAGCCCGGCGACCTCGGCGTGTCTCTACAACA
ACGGACGTTACGAAAGCGCGTGGAAAAGGTGTTGACCCAGGAAGACAACA
AGGACCAAGAAAAGGCTTCTGCGCCTGCCAAACCTGACCGTCGCAATTCA
GTACGTCGGTCAACCCGGTTAAGTATACTTGACAAGGCTTCTGGCCTTGT
TGGCCGGGCTACCAGCGTTTTGGGAAAACGCTCGCGTGATAAGGTAGAAA
AGAGCAGTGGTCCGGATCGACGTGCCAGTCTACGGCCGCGAAATGTTGCC
GCTCCCAAGGAAGAACCCCCTGCGCCTACCCCGAGTGCTCCAGCTCCCAA
GAAGAGACGGGTCTCGGAAAGTGATCTCCCGTCCAAGGTTGAGTCTACAG
AGGAGCCGCCGCAGGAGCAATCCGCCCCAGCCGAACCAGTCCCGCGCTTG
AAGCGGAAGCTGTGGCTGGCGCATGGTCTTTACACCGGACAAGAACATAC
CGACTCTCCGCCAGTTCAAAGCAGGAATAGGAGTAGGCGGAAGAGTCACC
CTCAGTCTCAGACTCAGTCTCAGCGGAAACTGCTGCCGTTGCCTATGTTC
GCAGGCGACCGACTCTTGAAGAATGGACGCGATTTTCAGCTGCCTTTCGA
CGTCTTCTCGCCGCTGCCTCCTGGTCAACCCAAACCTGACGAGTGGAGAA
AGACCAACAAGACCCATATTCCCAGAAGAATGTCCAGCAATGCAGATGTG
GCTCATCAAATTGCCGTGGCATTCTGGGCCCGAGGCCCAAAGAAAAGGTT
CAACGTGCGAAAGAGCAGAAGGTGGAGAAATCGAAGAAATCCGCCACCAA
ACGGGCAAATGGCAAGGCAGCCGGAACCAAGCGCAAGTCCGGTGATGCGC
TCGACGAATCATCTTCGCGCGCCAACAAGAAACAGAAACTTGCGGTAGCC
AAGTCAATCAGGTCCGGTGTCAAGAAGGCGGTTTCGCGAGCGCGTGCAAC
CGTCTCTAAATCCACTGCTTCTCGAACAAAGCAGGCAAAGAAGGAAAAAG
GCATCCCTGTCAAACAAAAGACCGCGAAGGCCGCGAAAACGACGAAATCA
CCGACGAAGAGGACAGCAGCGAAGAAGGATGAACCTAAAGGAAAGAGTAA
CATCAAGCTCCCTAAGGTTAAAGCCACGAAGGTCAAGGCAAGGGCCACAG
TGCCCAAGAAGACAGCCCAGGCCGCGAAAGGCAAGACTCAGGATGCCGCT
CCATCATCGTCGAAATTGAGCCGCCCTTCTGCAGCCACCAAAGCGAAAAT
CCTCGCTGCGGCCAAAGGTGCAAACCCACGGAGGAAATCGACAAAAAAGG
AAGATACGAAGACAGATCATAAGACTACCGCGAATAAGGCTCAGAAGAAA
ACGCAAGCACCCAAACAGGAGCCCAAGTCCAAAGGTGCGATAAAGCGTAC
GGGCACTGCAGCCACGAAAAGCAGTAAAAAGTGATGCTACTATCTGATGT
ACTTTGATCAGAACATGATCATTGATGCCACTCGAGGGTCCATTGCCCGC
TTCGTTAATCACTCATGTGAGCCCAACTGTCGGATGGAAAAGTGGACTGT
CGCTGGGAAACCGCGCATGGCTCTCTTTGCTGGCGATCGTGGCATCATGA
CGGGTGAGGAACTGACCTATGACTACAACTTTGAACGTCTTTGTGGGAGA
GGCGTCCAGTATATGGCGGGCAAACAAGCACTGTGAACTGTCCAAGTGCA
TGTGCACGCCAGAAACGGGCTGCGACGAGGAATGTCAGAACCGCTACATG
TTCTACGAGTGTGATGAAGGTAATTGCGGAGTGGGTGAGGAGTGCGGTAA
CCGCAGTTTCGAGGAGCTCAAGCAAAGGACCAAGGCTGGAGGCAAGTACA
ACATCGGCGTGGAAGTCATCAAGACGGCGGATCGTGGGTACGGTGTTCGG
AGCAACCGCACCTTTGAGCCCAACCAGATTATTGTGGAGTACACGGGTGA
GATTATCACCCAAACGGAGTGTGAGAAACGAATGCGGACGATCTATAAGC
ATAACGAGATGGAAGACCGACCTGGTTCCTCCGGCGCGTCTCCCGCGACT
CCCGCAACCCTTTCGGACCTCAAGAAGCACACGCACGAGCACCTCGAAGG
CACAATGGCCTTCGAATATACCGAACAACTCCTCACTCCCGAAAATAGTC
GCTCCGAAACCTCCAGCAACAACGATAACGCGTCCACCGACGAGAAACCC
ACCCTCCGCCGACGATCTACACGTGTAACACGCGCTTCTTTACGAGGGGC
AGTCCAGCTCGGTGACCATCTGGACGCGGATAACCATGGATTACCTTCTC
CGGCGGATGAAAATGATCGTACGGTCCCCGGTGATGTCCTGGCCAGTGCA
GTCGAGGCTGCGGAAGTGAAGAGGACGAGGTCGTCCAAGTCTTCCTCCCA
CCTCCGGCACAGCATAGCGGTTATGGAAACTGCCTTATGGAGCGAGACAA
CACTTCCGCAGAATAAGGAGGATGGTGACGACCACCCAATGGCGCCAGAT
ACCCCCGTCTCCAAATCGTCTCAGGAACCGCAGCCCGGCGACCTCGGCGT
GTCTCTACAACAACGGACGTTACGAAAGCGCGTGGAAAAGGTGTTGACCC
AGGAAGACAACAAGGACCAAGAAAAGGCTTCTGCGCCTGCCAAACCTGAC
CGTCGCAATTCAGTACGTCGGTCAACCCGGTTAAGTATACTTGACAAGGC
TTCTGGCCTTGTTGGCCGGGCTACCAGCGTTTTGGGAAAACGCTCGCGTG
ATAAGGTAGAAAAGAGCAGTGGTCCGGATCGACGTGCCAGTCTACGGCCG
CGAAATGTTGCCGCTCCCAAGGAAGAACCCCCTGCGCCTACCCCGAGTGC
TCCAGCTCCCAAGAAGAGACGGGTCTCGGAAAGTGATCTCCCGTCCAAGG
TTGAGTCTACAGAGGAGCCGCCGCAGGAGCAATCCGCCCCAGCCGAACCA
GTCCCGCGCTTGAAGCGGAAGCTGTGGCTGGCGCATGGTCTTTACACCGG
ACAAGAACATACCGACTCTCCGCCAGTTCAAAGCAGGAATAGGAGTAGGC
GGAAGAGTCACCCTCAGTCTCAGACTCAGTCTCAGCGGAAACTGCTGCCG
TTGCCTATGTTCGCAGGCGACCGACTCTTGAAGAATGGACGCGATTTTCA
GCTGCCTTTCGACGTCTTCTCGCCGCTGCCTCCTGGTCAACCCAAACCTG
ACGAGTGGAGAAAGACCAACAAGACCCATATTCCCAGAAGAATGTCCAGC
AATGCAGATGTGGCTCATCAAATTGCCGTGGCATTCTGGGCCCGAGGCCC
AAAGAAAAGGTTCAACGTGCGAAAGAGCAGAAGGTGGAGAAATCGAAGAA
ATCCGCCACCAAACGGGCAAATGGCAAGGCAGCCGGAACCAAGCGCAAGT
CCGGTGATGCGCTCGACGAATCATCTTCGCGCGCCAACAAGAAACAGAAA
CTTGCGGTAGCCAAGTCAATCAGGTCCGGTGTCAAGAAGGCGGTTTCGCG
AGCGCGTGCAACCGTCTCTAAATCCACTGCTTCTCGAACAAAGCAGGCAA
AGAAGGAAAAAGGCATCCCTGTCAAACAAAAGACCGCGAAGGCCGCGAAA
ACGACGAAATCACCGACGAAGAGGACAGCAGCGAAGAAGGATGAACCTAA
AGGAAAGAGTAACATCAAGCTCCCTAAGGTTAAAGCCACGAAGGTCAAGG
CAAGGGCCACAGTGCCCAAGAAGACAGCCCAGGCCGCGAAAGGCAAGACT
CAGGATGCCGCTCCATCATCGTCGAAATTGAGCCGCCCTTCTGCAGCCAC
CAAAGCGAAAATCCTCGCTGCGGCCAAAGGTGCAAACCCACGGAGGAAAT
CGACAAAAAAGGAAGATACGAAGACAGATCATAAGACTACCGCGAATAAG
GCTCAGAAGAAAACGCAAGCACCCAAACAGGAGCCCAAGTCCAAAGGTGC
GATAAAGCGTACGGGCACTGCAGCCACGAAAAGCAGTAAAAAGTGATGCT
ACTATCTGATGTACTTTGATCAGAACATGATCATTGATGCCACTCGAGGG
TCCATTGCCCGCTTCGTTAATCACTCATGTGAGCCCAACTGTCGGATGGA
AAAGTGGACTGTCGCTGGGAAACCGCGCATGGCTCTCTTTGCTGGCGATC
GTGGCATCATGACGGGTGAGGAACTGACCTATGACTACAACTTTGAACGT
CTTTGTGGGAGAGGCGTCCAGTATATGGCGGGCAAACAAGCACTGTGAAC
TGTCCAAGTGCATGTGCACGCCAGAAACGGGCTGCGACGAGGAATGTCAG
AACCGCTACATGTTCTACGAGTGTGATGAAGGTAATTGCGGAGTGGGTGA
GGAGTGCGGTAACCGCAGTTTCGAGGAGCTCAAGCAAAGGACCAAGGCTG
GAGGCAAGTACAACATCGGCGTGGAAGTCATCAAGACGGCGGATCGTGGG
TACGGTGTTCGGAGCAACCGCACCTTTGAGCCCAACCAGATTATTGTGGA
GTACACGGGTGAGATTATCACCCAAACGGAGTGTGAGAAACGAATGCGGA
CGATCTATAAGCATAACGAGATGGAAGACCGACCTGGTTCCTCCGGCGCG
TCTCCCGCGACTCCCGCAACCCTTTCGGACCTCAAGAAGCACACGCACGA
GCACCTCGAAGGCACAATGGCCTTCGAATATACCGAACAACTCCTCACTC
CCGAAAATAGTCGCTCCGAAACCTCCAGCAACAACGATAACGCGTCCACC
GACGAGAAACCCACCCTCCGCCGACGATCTACACGTGTAACACGCGCTTC
TTTACGAGGGGCAGTCCAGCTCGGTGACCATCTGGACGCGGATAACCATG
GATTACCTTCTCCGGCGGATGAAAATGATCGTACGGTCCCCGGTGATGTC
CTGGCCAGTGCAGTCGAGGCTGCGGAAGTGAAGAGGACGAGGTCGTCCAA
GTCTTCCTCCCACCTCCGGCACAGCATAGCGGTTATGGAAACTGCCTTAT
GGAGCGAGACAACACTTCCGCAGAATAAGGAGGATGGTGACGACCACCCA
ATGGCGCCAGATACCCCCGTCTCCAAATCGTCTCAGGAACCGCAGCCCGG
CGACCTCGGCGTGTCTCTACAACAACGGACGTTACGAAAGCGCGTGGAAA
AGGTGTTGACCCAGGAAGACAACAAGGACCAAGAAAAGGCTTCTGCGCCT
GCCAAACCTGACCGTCGCAATTCAGTACGTCGGTCAACCCGGTTAAGTAT
ACTTGACAAGGCTTCTGGCCTTGTTGGCCGGGCTACCAGCGTTTTGGGAA
AACGCTCGCGTGATAAGGTAGAAAAGAGCAGTGGTCCGGATCGACGTGCC
AGTCTACGGCCGCGAAATGTTGCCGCTCCCAAGGAAGAACCCCCTGCGCC
TACCCCGAGTGCTCCAGCTCCCAAGAAGAGACGGGTCTCGGAAAGTGATC
TCCCGTCCAAGGTTGAGTCTACAGAGGAGCCGCCGCAGGAGCAATCCGCC
CCAGCCGAACCAGTCCCGCGCTTGAAGCGGAAGCTGTGGCTGGCGCATGG
TCTTTACACCGGACAAGAACATACCGACTCTCCGCCAGTTCAAAGCAGGA
ATAGGAGTAGGCGGAAGAGTCACCCTCAGTCTCAGACTCAGTCTCAGCGG
AAACTGCTGCCGTTGCCTATGTTCGCAGGCGACCGACTCTTGAAGAATGG
ACGCGATTTTCAGCTGCCTTTCGACGTCTTCTCGCCGCTGCCTCCTGGTC
AACCCAAACCTGACGAGTGGAGAAAGACCAACAAGACCCATATTCCCAGA
AGAATGTCCAGCAATGCAGATGTGGCTCATCAAATTGCCGTGGCATTCTG
GGCCCGAGGCCCAAAGAAAAGGTTCAACGTGCGAAAGAGCAGAAGGTGGA
GAAATCGAAGAAATCCGCCACCAAACGGGCAAATGGCAAGGCAGCCGGAA
CCAAGCGCAAGTCCGGTGATGCGCTCGACGAATCATCTTCGCGCGCCAAC
AAGAAACAGAAACTTGCGGTAGCCAAGTCAATCAGGTCCGGTGTCAAGAA
GGCGGTTTCGCGAGCGCGTGCAACCGTCTCTAAATCCACTGCTTCTCGAA
CAAAGCAGGCAAAGAAGGAAAAAGGCATCCCTGTCAAACAAAAGACCGCG
AAGGCCGCGAAAACGACGAAATCACCGACGAAGAGGACAGCAGCGAAGAA
GGATGAACCTAAAGGAAAGAGTAACATCAAGCTCCCTAAGGTTAAAGCCA
CGAAGGTCAAGGCAAGGGCCACAGTGCCCAAGAAGACAGCCCAGGCCGCG
AAAGGCAAGACTCAGGATGCCGCTCCATCATCGTCGAAATTGAGCCGCCC
TTCTGCAGCCACCAAAGCGAAAATCCTCGCTGCGGCCAAAGGTGCAAACC
CACGGAGGAAATCGACAAAAAAGGAAGATACGAAGACAGATCATAAGACT
ACCGCGAATAAGGCTCAGAAGAAAACGCAAGCACCCAAACAGGAGCCCAA
GTCCAAAGGTGCGATAAAGCGTACGGGCACTGCAGCCACGAAAAGCAGTA
AAAAGTGATGCTACTATCTGATGTACTTTGATCAGAACATGATCATTGAT
GCCACTCGAGGGTCCATTGCCCGCTTCGTTAATCACTCATGTGAGCCCAA
CTGTCGGATGGAAAAGTGGACTGTCGCTGGGAAACCGCGCATGGCTCTCT
TTGCTGGCGATCGTGGCATCATGACGGGTGAGGAACTGACCTATGACTAC
AACTTTGAACGTCTTTGTGGGAGAGGCGTCCAGTATATGGCGGGCAAACA
AGCACTGTGAACTGTCCAAGTGCATGTGCACGCCAGAAACGGGCTGCGAC
GAGGAATGTCAGAACCGCTACATGTTCTACGAGTGTGATGAAGGTAATTG
CGGAGTGGGTGAGGAGTGCGGTAACCGCAGTTTCGAGGAGCTCAAGCAAA
GGACCAAGGCTGGAGGCAAGTACAACATCGGCGTGGAAGTCATCAAGACG
GCGGATCGTGGGTACGGTGTTCGGAGCAACCGCACCTTTGAGCCCAACCA
GATTATTGTGGAGTACACGGGTGAGATTATCACCCAAACGGAGTGTGAGA
AACGAATGCGGACGATCTATAAGCATAACGAGATGGAAGACCGACCTGGT
TCCTCCGGCGCGTCTCCCGCGACTCCCGCAACCCTTTCGGACCTCAAGAA
GCACACGCACGAGCACCTCGAAGGCACAATGGCCTTCGAATATACCGAAC
AACTCCTCACTCCCGAAAATAGTCGCTCCGAAACCTCCAGCAACAACGAT
AACGCGTCCACCGACGAGAAACCCACCCTCCGCCGACGATCTACACGTGT
AACACGCGCTTCTTTACGAGGGGCAGTCCAGCTCGGTGACCATCTGGACG
CGGATAACCATGGATTACCTTCTCCGGCGGATGAAAATGATCGTACGGTC
CCCGGTGATGTCCTGGCCAGTGCAGTCGAGGCTGCGGAAGTGAAGAGGAC
GAGGTCGTCCAAGTCTTCCTCCCACCTCCGGCACAGCATAGCGGTTATGG
AAACTGCCTTATGGAGCGAGACAACACTTCCGCAGAATAAGGAGGATGGT
GACGACCACCCAATGGCGCCAGATACCCCCGTCTCCAAATCGTCTCAGGA
ACCGCAGCCCGGCGACCTCGGCGTGTCTCTACAACAACGGACGTTACGAA
AGCGCGTGGAAAAGGTGTTGACCCAGGAAGACAACAAGGACCAAGAAAAG
GCTTCTGCGCCTGCCAAACCTGACCGTCGCAATTCAGTACGTCGGTCAAC
CCGGTTAAGTATACTTGACAAGGCTTCTGGCCTTGTTGGCCGGGCTACCA
GCGTTTTGGGAAAACGCTCGCGTGATAAGGTAGAAAAGAGCAGTGGTCCG
GATCGACGTGCCAGTCTACGGCCGCGAAATGTTGCCGCTCCCAAGGAAGA
ACCCCCTGCGCCTACCCCGAGTGCTCCAGCTCCCAAGAAGAGACGGGTCT
CGGAAAGTGATCTCCCGTCCAAGGTTGAGTCTACAGAGGAGCCGCCGCAG
GAGCAATCCGCCCCAGCCGAACCAGTCCCGCGCTTGAAGCGGAAGCTGTG
GCTGGCGCATGGTCTTTACACCGGACAAGAACATACCGACTCTCCGCCAG
TTCAAAGCAGGAATAGGAGTAGGCGGAAGAGTCACCCTCAGTCTCAGACT
CAGTCTCAGCGGAAACTGCTGCCGTTGCCTATGTTCGCAGGCGACCGACT
CTTGAAGAATGGACGCGATTTTCAGCTGCCTTTCGACGTCTTCTCGCCGC
TGCCTCCTGGTCAACCCAAACCTGACGAGTGGAGAAAGACCAACAAGA
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
TermDefinition
GO:0005634nucleus
Vocabulary: Molecular Function
TermDefinition
GO:0018024histone-lysine N-methyltransferase activity
GO:0005515protein binding
Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameSpeciesType
ASPNIDRAFT_179076ASPNIDRAFT_179076Aspergillus niger ATCC 1015gene


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesType
ASPNIDRAFT_179076-T1ASPNIDRAFT_179076-T1-proteinAspergillus niger ATCC 1015polypeptide


The following CDS feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
ASPNIDRAFT_179076-T1.cdsASPNIDRAFT_179076-T1.cdsAspergillus niger ATCC 1015CDS


The following exon feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
ASPNIDRAFT_179076-T1.exon4ASPNIDRAFT_179076-T1.exon4Aspergillus niger ATCC 1015exon
ASPNIDRAFT_179076-T1.exon3ASPNIDRAFT_179076-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_179076-T1.exon2ASPNIDRAFT_179076-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_179076-T1.exon1ASPNIDRAFT_179076-T1.exon1Aspergillus niger ATCC 1015exon


Properties
Property NameValue
DBxrefInterPro:IPR006560
DBxrefInterPro:IPR003616
DBxrefInterPro:IPR001214
DBxrefPFAM:PF00856
DBxrefPFAM:PF17907
Producthypothetical protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger ATCC 1015 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
ACJE01000019.1supercontigACJE01000019.1:2435902..2438630 -
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