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ASPNIDRAFT_47488-T1, ASPNIDRAFT_47488-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_47488-T1
Unique NameASPNIDRAFT_47488-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000021.1:1407734..1410493-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_47488-T1 ID=ASPNIDRAFT_47488-T1|Name=ASPNIDRAFT_47488-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2760bp|location=Sequence derived from alignment at ACJE01000021.1:1407734..1410493- (Aspergillus niger ATCC 1015)
ATGGATATATCGGAGGACATTGAGGGGATGGATGTAAAGGCGAAGGCGCT
GATGCACCTTCTGAACACTAGTGAGGTGCGATTGTTCGATCTTGGGCCTG
GAGAAAATCTGGGTGGCGCAGAACTATTGCTGATGTGTTTGCTATCTCCT
GATAGGTCTTCGTTGCGATCATGGCGGACAAAATGAAGAAACAGCAGGAG
GAGGCGAGACTTGAAGCAGCCAAGCAGCAACAACAGCAACAAAAGCAAGT
GAAAAAGACCGAAACCAAACCCAAGGGTGCTAGCGAGCCGGTGGGACGGC
GACAGACGCGCACGAGTGCAAGGCAGTCAGCTGCCACGTCAACGGAAGGT
ACTGCTGAAGAAGGGAAGAAGGAGGAAGAACAGGAGACCAGTAAGACCAG
GAGGGGCCGGGGAAGGAAGCCTGCTTCTTCTGCGGCTGCGAATGGTAACA
CCATCTCCAGCTACTTCAAGAAGGCGGATGTGAAGGTCGACGAGGATAAG
CCAACGGTCCAGGAAGCTTTGGAACATGCTGCAGATGAGTATGAAGCGAA
TCCAACCGCACTTGGTGGTCAGGAACTGGTTGCTACCCAGCAGCCGGAGT
TGGTGACCGGAGGAACGATGAAGAAGTATCAATTGGAGGGGCTGGAGTGG
CTCAAGTCGCTTTGGATGAACGGACTGTGTGGCATTCTGGCCGATGAGAT
GGGCCTTGGGAAGACTGTTCAGGCGATCTCTCTAATTGCTTTCTTCAAGG
AGAAGAATATATCTGGCCCTTTCCTGATCGCTGCTCCTTTGAGCACGGTG
AGCAATTGGGTGGACGAGTTCGCAAAGTGGACTCCGGAAATCAAGACAGT
CTTGTACCATGGGACAAGGGATGAACGTGCAACGATCAGGAGGAAGTTTA
TGAATATGAAGGACCAGAGAAGTGCGGATTTTCCTGTCGTCTGCACTTCC
TATGAGATCTGCATGAACGATCGAAAATTCCTCGCGCAATATCAGTGGCG
GTATATCATTGTGGTATGTTCTACTCTCCGTCGCAAGTCCATCTGGGATA
ATCTGATTCTCTAACATGTCTGCAGGATGAAGGACATCGCTTGAAGAACA
TGAATTGCAAATTGATCAAAGAACTGCTCACCTACAATTCGGCCAACAGA
CTCCTCATCACGGGCACGCCATTGCAGAACAACATCACGGAACTTTGGTC
ACTGCTACACTTCCTTCTACCTGAGATCTTCAATGATCTCAACAGCTTCC
AGAGCTGGTTTGACTTCTCGTCCATGCTGGACAACAATGGCCAGACGGAT
GTCATGGAACGCCGAAAGCGCACGCTGGTCTCCACGATGCACTCGATCTT
GAAGCCTTTCCTCCTCAGACGTGTGAAGACCGACGTTGAGACATCCCTTC
CCAAGAAGCGGGAATACATCCTGTACGCGCCGTTAACAGCAGAACAGAAG
GACCTCTACCGTGAAATTCTCAACGGCACTGGCCGCCAGTACCTCGAGGA
AAAAGCCACAGAGCGTCTTATGGCCAAGAGCGGAAGACCGTCACGATCTC
AGAGCCTGAAACGCAGCGCCGACACTAGCGGAGCTTCATCACCGAACAAG
AGTCTCAAATCCAGCCGCTCATCCACACCAGCCAGTACAGCATTGCCCAC
ATCCCGGAGACGCGGCAAGGTGTCGAGCTACAAGGAGCTGAGCGACCGCG
AATTCAACTCTAGACTTCGCAGACTCGAGCAAGGCCTAGAAGAAGATCTG
GACATTGCCGAACAGCCCAGCGAGACAGAACAGGAAGAGCAAGAGAGAGC
CAAAACCATCCGGCTTGCCAGTAAGCACTCCCCTTCCCCCTGCCCCCCTT
CATCCCACACCCAAAAGCTAACCTCCCCCTCCCACCCCCCCCAGAGAAAG
AAATCGCTCAAAAGAAGATGCAAAACCCCATCATGCAAGCCCGACTTGCC
TGCAACTCTCCGCATAACTTCTATTGGCCGTGGATGGACGACCCGACCTC
CATCGACGAGACCCTCGTCACAGCCTCAGGCAAAATGCTCCTCCTCGACC
GTCTAGTTCCCTGCCTTCTCAACAAGGGCCACAAAATCCTCATCTTCTCC
CAATTCAAGACCCAACTCGACATCCTCCAAGACTGGGCCACGCAACTCCG
CTCCTGGAACTGCTGCCGCATCGACGGCGCCGTCAGCCAAGAAGACCGCC
GCGCCCAAATCAAAGCCTTCAACACCGACAAAAACTACAAGCTCTTCCTC
CTCAGCACCCGCGCCGGTGGCCAAGGAATCAACCTCATGGCCGCCGACAC
CGTCATCCTCTTCGACTCTGACTGGAACCCGCAGCAGGATCTCCAGGCGC
AGGACCGGGCCCACCGCATCGGCCAAACGAAACCGGTCATTGTCTATCGG
CTCGCGACAAAGGGAACTGTGGAGCAGACGCTGCTCGAGAAAGCGGATTC
GAAGCGTCGTCTCGAACGTCTAGTTATCCAGAAGGGCAAGTTCCGGAGTC
TGTTGGATCCGGGTAGCCTTAGCTCCAATGATGTTGATGACTTGAAGAAG
GCGCTGGGGCAGGATGAATATGAGAGTTTTGAGGCTGGAGCGGATCCAGC
CACTTTGCTGTCAAAGAAGGATTTGGATATTCTGACTGACCGGAGTGAGG
AGGCGTATGTTCGTGCTGAGAAGGGGTTGGATACTACTGGACGGGCTTTT
ATGGCTGTCGAGACGAAGAGAGATGGGGATGGTTTGATGGCGCAGATCAT
TGGGAAGTAA
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Coding sequence (CDS) from alignment at ACJE01000021.1:1407734..1410493-

>ASPNIDRAFT_47488-T1 ID=ASPNIDRAFT_47488-T1|Name=ASPNIDRAFT_47488-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=10176bp|location=Sequence derived from alignment at ACJE01000021.1:1407734..1410493- (Aspergillus niger ATCC 1015)
AGAAAGAAATCGCTCAAAAGAAGATGCAAAACCCCATCATGCAAGCCCGA
CTTGCCTGCAACTCTCCGCATAACTTCTATTGGCCGTGGATGGACGACCC
GACCTCCATCGACGAGACCCTCGTCACAGCCTCAGGCAAAATGCTCCTCC
TCGACCGTCTAGTTCCCTGCCTTCTCAACAAGGGCCACAAAATCCTCATC
TTCTCCCAATTCAAGACCCAACTCGACATCCTCCAAGACTGGGCCACGCA
ACTCCGCTCCTGGAACTGCTGCCGCATCGACGGCGCCGTCAGCCAAGAAG
ACCGCCGCGCCCAAATCAAAGCCTTCAACACCGACAAAAACTACAAGCTC
TTCCTCCTCAGCACCCGCGCCGGTGGCCAAGGAATCAACCTCATGGCCGC
CGACACCGTCATCCTCTTCGACTCTGACTGGAACCCGCAGCAGGATCTCC
AGGCGCAGGACCGGGCCCACCGCATCGGCCAAACGAAACCGGTCATTGTC
TATCGGCTCGCGACAAAGGGAACTGTGGAGCAGACGCTGCTCGAGAAAGC
GGATTCGAAGCGTCGTCTCGAACGTCTAGTTATCCAGAAGGGCAAGTTCC
GGAGTCTGTTGGATCCGGGTAGCCTTAGCTCCAATGATGTTGATGACTTG
AAGAAGGCGCTGGGGCAGGATGAATATGAGAGTTTTGAGGCTGGAGCGGA
TCCAGCCACTTTGCTGTCAAAGAAGGATTTGGATATTCTGACTGACCGGA
GTGAGGAGGCGTATGTTCGTGCTGAGAAGGGGTTGGATACTACTGGACGG
GCTTTTATGGCTGTCGAGACGAAGAGAGATGGGGATGGTTTGATGGCGCA
GATCATTGGGAAGTAAGATGAAGGACATCGCTTGAAGAACATGAATTGCA
AATTGATCAAAGAACTGCTCACCTACAATTCGGCCAACAGACTCCTCATC
ACGGGCACGCCATTGCAGAACAACATCACGGAACTTTGGTCACTGCTACA
CTTCCTTCTACCTGAGATCTTCAATGATCTCAACAGCTTCCAGAGCTGGT
TTGACTTCTCGTCCATGCTGGACAACAATGGCCAGACGGATGTCATGGAA
CGCCGAAAGCGCACGCTGGTCTCCACGATGCACTCGATCTTGAAGCCTTT
CCTCCTCAGACGTGTGAAGACCGACGTTGAGACATCCCTTCCCAAGAAGC
GGGAATACATCCTGTACGCGCCGTTAACAGCAGAACAGAAGGACCTCTAC
CGTGAAATTCTCAACGGCACTGGCCGCCAGTACCTCGAGGAAAAAGCCAC
AGAGCGTCTTATGGCCAAGAGCGGAAGACCGTCACGATCTCAGAGCCTGA
AACGCAGCGCCGACACTAGCGGAGCTTCATCACCGAACAAGAGTCTCAAA
TCCAGCCGCTCATCCACACCAGCCAGTACAGCATTGCCCACATCCCGGAG
ACGCGGCAAGGTGTCGAGCTACAAGGAGCTGAGCGACCGCGAATTCAACT
CTAGACTTCGCAGACTCGAGCAAGGCCTAGAAGAAGATCTGGACATTGCC
GAACAGCCCAGCGAGACAGAACAGGAAGAGCAAGAGAGAGCCAAAACCAT
CCGGCTTGCCAGTCTTCGTTGCGATCATGGCGGACAAAATGAAGAAACAG
CAGGAGGAGGCGAGACTTGAAGCAGCCAAGCAGCAACAACAGCAACAAAA
GCAAGTGAAAAAGACCGAAACCAAACCCAAGGGTGCTAGCGAGCCGGTGG
GACGGCGACAGACGCGCACGAGTGCAAGGCAGTCAGCTGCCACGTCAACG
GAAGGTACTGCTGAAGAAGGGAAGAAGGAGGAAGAACAGGAGACCAGTAA
GACCAGGAGGGGCCGGGGAAGGAAGCCTGCTTCTTCTGCGGCTGCGAATG
GTAACACCATCTCCAGCTACTTCAAGAAGGCGGATGTGAAGGTCGACGAG
GATAAGCCAACGGTCCAGGAAGCTTTGGAACATGCTGCAGATGAGTATGA
AGCGAATCCAACCGCACTTGGTGGTCAGGAACTGGTTGCTACCCAGCAGC
CGGAGTTGGTGACCGGAGGAACGATGAAGAAGTATCAATTGGAGGGGCTG
GAGTGGCTCAAGTCGCTTTGGATGAACGGACTGTGTGGCATTCTGGCCGA
TGAGATGGGCCTTGGGAAGACTGTTCAGGCGATCTCTCTAATTGCTTTCT
TCAAGGAGAAGAATATATCTGGCCCTTTCCTGATCGCTGCTCCTTTGAGC
ACGGTGAGCAATTGGGTGGACGAGTTCGCAAAGTGGACTCCGGAAATCAA
GACAGTCTTGTACCATGGGACAAGGGATGAACGTGCAACGATCAGGAGGA
AGTTTATGAATATGAAGGACCAGAGAAGTGCGGATTTTCCTGTCGTCTGC
ACTTCCTATGAGATCTGCATGAACGATCGAAAATTCCTCGCGCAATATCA
GTGGCGGTATATCATTGTGATGGATATATCGGAGGACATTGAGGGGATGG
ATGTAAAGGCGAAGGCGCTGATGCACCTTCTGAACACTAGTGAGAGAAAG
AAATCGCTCAAAAGAAGATGCAAAACCCCATCATGCAAGCCCGACTTGCC
TGCAACTCTCCGCATAACTTCTATTGGCCGTGGATGGACGACCCGACCTC
CATCGACGAGACCCTCGTCACAGCCTCAGGCAAAATGCTCCTCCTCGACC
GTCTAGTTCCCTGCCTTCTCAACAAGGGCCACAAAATCCTCATCTTCTCC
CAATTCAAGACCCAACTCGACATCCTCCAAGACTGGGCCACGCAACTCCG
CTCCTGGAACTGCTGCCGCATCGACGGCGCCGTCAGCCAAGAAGACCGCC
GCGCCCAAATCAAAGCCTTCAACACCGACAAAAACTACAAGCTCTTCCTC
CTCAGCACCCGCGCCGGTGGCCAAGGAATCAACCTCATGGCCGCCGACAC
CGTCATCCTCTTCGACTCTGACTGGAACCCGCAGCAGGATCTCCAGGCGC
AGGACCGGGCCCACCGCATCGGCCAAACGAAACCGGTCATTGTCTATCGG
CTCGCGACAAAGGGAACTGTGGAGCAGACGCTGCTCGAGAAAGCGGATTC
GAAGCGTCGTCTCGAACGTCTAGTTATCCAGAAGGGCAAGTTCCGGAGTC
TGTTGGATCCGGGTAGCCTTAGCTCCAATGATGTTGATGACTTGAAGAAG
GCGCTGGGGCAGGATGAATATGAGAGTTTTGAGGCTGGAGCGGATCCAGC
CACTTTGCTGTCAAAGAAGGATTTGGATATTCTGACTGACCGGAGTGAGG
AGGCGTATGTTCGTGCTGAGAAGGGGTTGGATACTACTGGACGGGCTTTT
ATGGCTGTCGAGACGAAGAGAGATGGGGATGGTTTGATGGCGCAGATCAT
TGGGAAGTAAGATGAAGGACATCGCTTGAAGAACATGAATTGCAAATTGA
TCAAAGAACTGCTCACCTACAATTCGGCCAACAGACTCCTCATCACGGGC
ACGCCATTGCAGAACAACATCACGGAACTTTGGTCACTGCTACACTTCCT
TCTACCTGAGATCTTCAATGATCTCAACAGCTTCCAGAGCTGGTTTGACT
TCTCGTCCATGCTGGACAACAATGGCCAGACGGATGTCATGGAACGCCGA
AAGCGCACGCTGGTCTCCACGATGCACTCGATCTTGAAGCCTTTCCTCCT
CAGACGTGTGAAGACCGACGTTGAGACATCCCTTCCCAAGAAGCGGGAAT
ACATCCTGTACGCGCCGTTAACAGCAGAACAGAAGGACCTCTACCGTGAA
ATTCTCAACGGCACTGGCCGCCAGTACCTCGAGGAAAAAGCCACAGAGCG
TCTTATGGCCAAGAGCGGAAGACCGTCACGATCTCAGAGCCTGAAACGCA
GCGCCGACACTAGCGGAGCTTCATCACCGAACAAGAGTCTCAAATCCAGC
CGCTCATCCACACCAGCCAGTACAGCATTGCCCACATCCCGGAGACGCGG
CAAGGTGTCGAGCTACAAGGAGCTGAGCGACCGCGAATTCAACTCTAGAC
TTCGCAGACTCGAGCAAGGCCTAGAAGAAGATCTGGACATTGCCGAACAG
CCCAGCGAGACAGAACAGGAAGAGCAAGAGAGAGCCAAAACCATCCGGCT
TGCCAGTCTTCGTTGCGATCATGGCGGACAAAATGAAGAAACAGCAGGAG
GAGGCGAGACTTGAAGCAGCCAAGCAGCAACAACAGCAACAAAAGCAAGT
GAAAAAGACCGAAACCAAACCCAAGGGTGCTAGCGAGCCGGTGGGACGGC
GACAGACGCGCACGAGTGCAAGGCAGTCAGCTGCCACGTCAACGGAAGGT
ACTGCTGAAGAAGGGAAGAAGGAGGAAGAACAGGAGACCAGTAAGACCAG
GAGGGGCCGGGGAAGGAAGCCTGCTTCTTCTGCGGCTGCGAATGGTAACA
CCATCTCCAGCTACTTCAAGAAGGCGGATGTGAAGGTCGACGAGGATAAG
CCAACGGTCCAGGAAGCTTTGGAACATGCTGCAGATGAGTATGAAGCGAA
TCCAACCGCACTTGGTGGTCAGGAACTGGTTGCTACCCAGCAGCCGGAGT
TGGTGACCGGAGGAACGATGAAGAAGTATCAATTGGAGGGGCTGGAGTGG
CTCAAGTCGCTTTGGATGAACGGACTGTGTGGCATTCTGGCCGATGAGAT
GGGCCTTGGGAAGACTGTTCAGGCGATCTCTCTAATTGCTTTCTTCAAGG
AGAAGAATATATCTGGCCCTTTCCTGATCGCTGCTCCTTTGAGCACGGTG
AGCAATTGGGTGGACGAGTTCGCAAAGTGGACTCCGGAAATCAAGACAGT
CTTGTACCATGGGACAAGGGATGAACGTGCAACGATCAGGAGGAAGTTTA
TGAATATGAAGGACCAGAGAAGTGCGGATTTTCCTGTCGTCTGCACTTCC
TATGAGATCTGCATGAACGATCGAAAATTCCTCGCGCAATATCAGTGGCG
GTATATCATTGTGATGGATATATCGGAGGACATTGAGGGGATGGATGTAA
AGGCGAAGGCGCTGATGCACCTTCTGAACACTAGTGAGAGAAAGAAATCG
CTCAAAAGAAGATGCAAAACCCCATCATGCAAGCCCGACTTGCCTGCAAC
TCTCCGCATAACTTCTATTGGCCGTGGATGGACGACCCGACCTCCATCGA
CGAGACCCTCGTCACAGCCTCAGGCAAAATGCTCCTCCTCGACCGTCTAG
TTCCCTGCCTTCTCAACAAGGGCCACAAAATCCTCATCTTCTCCCAATTC
AAGACCCAACTCGACATCCTCCAAGACTGGGCCACGCAACTCCGCTCCTG
GAACTGCTGCCGCATCGACGGCGCCGTCAGCCAAGAAGACCGCCGCGCCC
AAATCAAAGCCTTCAACACCGACAAAAACTACAAGCTCTTCCTCCTCAGC
ACCCGCGCCGGTGGCCAAGGAATCAACCTCATGGCCGCCGACACCGTCAT
CCTCTTCGACTCTGACTGGAACCCGCAGCAGGATCTCCAGGCGCAGGACC
GGGCCCACCGCATCGGCCAAACGAAACCGGTCATTGTCTATCGGCTCGCG
ACAAAGGGAACTGTGGAGCAGACGCTGCTCGAGAAAGCGGATTCGAAGCG
TCGTCTCGAACGTCTAGTTATCCAGAAGGGCAAGTTCCGGAGTCTGTTGG
ATCCGGGTAGCCTTAGCTCCAATGATGTTGATGACTTGAAGAAGGCGCTG
GGGCAGGATGAATATGAGAGTTTTGAGGCTGGAGCGGATCCAGCCACTTT
GCTGTCAAAGAAGGATTTGGATATTCTGACTGACCGGAGTGAGGAGGCGT
ATGTTCGTGCTGAGAAGGGGTTGGATACTACTGGACGGGCTTTTATGGCT
GTCGAGACGAAGAGAGATGGGGATGGTTTGATGGCGCAGATCATTGGGAA
GTAAGATGAAGGACATCGCTTGAAGAACATGAATTGCAAATTGATCAAAG
AACTGCTCACCTACAATTCGGCCAACAGACTCCTCATCACGGGCACGCCA
TTGCAGAACAACATCACGGAACTTTGGTCACTGCTACACTTCCTTCTACC
TGAGATCTTCAATGATCTCAACAGCTTCCAGAGCTGGTTTGACTTCTCGT
CCATGCTGGACAACAATGGCCAGACGGATGTCATGGAACGCCGAAAGCGC
ACGCTGGTCTCCACGATGCACTCGATCTTGAAGCCTTTCCTCCTCAGACG
TGTGAAGACCGACGTTGAGACATCCCTTCCCAAGAAGCGGGAATACATCC
TGTACGCGCCGTTAACAGCAGAACAGAAGGACCTCTACCGTGAAATTCTC
AACGGCACTGGCCGCCAGTACCTCGAGGAAAAAGCCACAGAGCGTCTTAT
GGCCAAGAGCGGAAGACCGTCACGATCTCAGAGCCTGAAACGCAGCGCCG
ACACTAGCGGAGCTTCATCACCGAACAAGAGTCTCAAATCCAGCCGCTCA
TCCACACCAGCCAGTACAGCATTGCCCACATCCCGGAGACGCGGCAAGGT
GTCGAGCTACAAGGAGCTGAGCGACCGCGAATTCAACTCTAGACTTCGCA
GACTCGAGCAAGGCCTAGAAGAAGATCTGGACATTGCCGAACAGCCCAGC
GAGACAGAACAGGAAGAGCAAGAGAGAGCCAAAACCATCCGGCTTGCCAG
TCTTCGTTGCGATCATGGCGGACAAAATGAAGAAACAGCAGGAGGAGGCG
AGACTTGAAGCAGCCAAGCAGCAACAACAGCAACAAAAGCAAGTGAAAAA
GACCGAAACCAAACCCAAGGGTGCTAGCGAGCCGGTGGGACGGCGACAGA
CGCGCACGAGTGCAAGGCAGTCAGCTGCCACGTCAACGGAAGGTACTGCT
GAAGAAGGGAAGAAGGAGGAAGAACAGGAGACCAGTAAGACCAGGAGGGG
CCGGGGAAGGAAGCCTGCTTCTTCTGCGGCTGCGAATGGTAACACCATCT
CCAGCTACTTCAAGAAGGCGGATGTGAAGGTCGACGAGGATAAGCCAACG
GTCCAGGAAGCTTTGGAACATGCTGCAGATGAGTATGAAGCGAATCCAAC
CGCACTTGGTGGTCAGGAACTGGTTGCTACCCAGCAGCCGGAGTTGGTGA
CCGGAGGAACGATGAAGAAGTATCAATTGGAGGGGCTGGAGTGGCTCAAG
TCGCTTTGGATGAACGGACTGTGTGGCATTCTGGCCGATGAGATGGGCCT
TGGGAAGACTGTTCAGGCGATCTCTCTAATTGCTTTCTTCAAGGAGAAGA
ATATATCTGGCCCTTTCCTGATCGCTGCTCCTTTGAGCACGGTGAGCAAT
TGGGTGGACGAGTTCGCAAAGTGGACTCCGGAAATCAAGACAGTCTTGTA
CCATGGGACAAGGGATGAACGTGCAACGATCAGGAGGAAGTTTATGAATA
TGAAGGACCAGAGAAGTGCGGATTTTCCTGTCGTCTGCACTTCCTATGAG
ATCTGCATGAACGATCGAAAATTCCTCGCGCAATATCAGTGGCGGTATAT
CATTGTGATGGATATATCGGAGGACATTGAGGGGATGGATGTAAAGGCGA
AGGCGCTGATGCACCTTCTGAACACTAGTGAGAGAAAGAAATCGCTCAAA
AGAAGATGCAAAACCCCATCATGCAAGCCCGACTTGCCTGCAACTCTCCG
CATAACTTCTATTGGCCGTGGATGGACGACCCGACCTCCATCGACGAGAC
CCTCGTCACAGCCTCAGGCAAAATGCTCCTCCTCGACCGTCTAGTTCCCT
GCCTTCTCAACAAGGGCCACAAAATCCTCATCTTCTCCCAATTCAAGACC
CAACTCGACATCCTCCAAGACTGGGCCACGCAACTCCGCTCCTGGAACTG
CTGCCGCATCGACGGCGCCGTCAGCCAAGAAGACCGCCGCGCCCAAATCA
AAGCCTTCAACACCGACAAAAACTACAAGCTCTTCCTCCTCAGCACCCGC
GCCGGTGGCCAAGGAATCAACCTCATGGCCGCCGACACCGTCATCCTCTT
CGACTCTGACTGGAACCCGCAGCAGGATCTCCAGGCGCAGGACCGGGCCC
ACCGCATCGGCCAAACGAAACCGGTCATTGTCTATCGGCTCGCGACAAAG
GGAACTGTGGAGCAGACGCTGCTCGAGAAAGCGGATTCGAAGCGTCGTCT
CGAACGTCTAGTTATCCAGAAGGGCAAGTTCCGGAGTCTGTTGGATCCGG
GTAGCCTTAGCTCCAATGATGTTGATGACTTGAAGAAGGCGCTGGGGCAG
GATGAATATGAGAGTTTTGAGGCTGGAGCGGATCCAGCCACTTTGCTGTC
AAAGAAGGATTTGGATATTCTGACTGACCGGAGTGAGGAGGCGTATGTTC
GTGCTGAGAAGGGGTTGGATACTACTGGACGGGCTTTTATGGCTGTCGAG
ACGAAGAGAGATGGGGATGGTTTGATGGCGCAGATCATTGGGAAGTAAGA
TGAAGGACATCGCTTGAAGAACATGAATTGCAAATTGATCAAAGAACTGC
TCACCTACAATTCGGCCAACAGACTCCTCATCACGGGCACGCCATTGCAG
AACAACATCACGGAACTTTGGTCACTGCTACACTTCCTTCTACCTGAGAT
CTTCAATGATCTCAACAGCTTCCAGAGCTGGTTTGACTTCTCGTCCATGC
TGGACAACAATGGCCAGACGGATGTCATGGAACGCCGAAAGCGCACGCTG
GTCTCCACGATGCACTCGATCTTGAAGCCTTTCCTCCTCAGACGTGTGAA
GACCGACGTTGAGACATCCCTTCCCAAGAAGCGGGAATACATCCTGTACG
CGCCGTTAACAGCAGAACAGAAGGACCTCTACCGTGAAATTCTCAACGGC
ACTGGCCGCCAGTACCTCGAGGAAAAAGCCACAGAGCGTCTTATGGCCAA
GAGCGGAAGACCGTCACGATCTCAGAGCCTGAAACGCAGCGCCGACACTA
GCGGAGCTTCATCACCGAACAAGAGTCTCAAATCCAGCCGCTCATCCACA
CCAGCCAGTACAGCATTGCCCACATCCCGGAGACGCGGCAAGGTGTCGAG
CTACAAGGAGCTGAGCGACCGCGAATTCAACTCTAGACTTCGCAGACTCG
AGCAAGGCCTAGAAGAAGATCTGGACATTGCCGAACAGCCCAGCGAGACA
GAACAGGAAGAGCAAGAGAGAGCCAAAACCATCCGGCTTGCCAGTCTTCG
TTGCGATCATGGCGGACAAAATGAAGAAACAGCAGGAGGAGGCGAGACTT
GAAGCAGCCAAGCAGCAACAACAGCAACAAAAGCAAGTGAAAAAGACCGA
AACCAAACCCAAGGGTGCTAGCGAGCCGGTGGGACGGCGACAGACGCGCA
CGAGTGCAAGGCAGTCAGCTGCCACGTCAACGGAAGGTACTGCTGAAGAA
GGGAAGAAGGAGGAAGAACAGGAGACCAGTAAGACCAGGAGGGGCCGGGG
AAGGAAGCCTGCTTCTTCTGCGGCTGCGAATGGTAACACCATCTCCAGCT
ACTTCAAGAAGGCGGATGTGAAGGTCGACGAGGATAAGCCAACGGTCCAG
GAAGCTTTGGAACATGCTGCAGATGAGTATGAAGCGAATCCAACCGCACT
TGGTGGTCAGGAACTGGTTGCTACCCAGCAGCCGGAGTTGGTGACCGGAG
GAACGATGAAGAAGTATCAATTGGAGGGGCTGGAGTGGCTCAAGTCGCTT
TGGATGAACGGACTGTGTGGCATTCTGGCCGATGAGATGGGCCTTGGGAA
GACTGTTCAGGCGATCTCTCTAATTGCTTTCTTCAAGGAGAAGAATATAT
CTGGCCCTTTCCTGATCGCTGCTCCTTTGAGCACGGTGAGCAATTGGGTG
GACGAGTTCGCAAAGTGGACTCCGGAAATCAAGACAGTCTTGTACCATGG
GACAAGGGATGAACGTGCAACGATCAGGAGGAAGTTTATGAATATGAAGG
ACCAGAGAAGTGCGGATTTTCCTGTCGTCTGCACTTCCTATGAGATCTGC
ATGAACGATCGAAAATTCCTCGCGCAATATCAGTGGCGGTATATCATTGT
GATGGATATATCGGAGGACATTGAGGGGATGGATGTAAAGGCGAAGGCGC
TGATGCACCTTCTGAACACTAGTGAG
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0005524ATP binding
Relationships

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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_47488ASPNIDRAFT_47488Aspergillus niger ATCC 1015gene


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_47488-T1ASPNIDRAFT_47488-T1-proteinAspergillus niger ATCC 1015polypeptide


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_47488-T1.cdsASPNIDRAFT_47488-T1.cdsAspergillus niger ATCC 1015CDS


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_47488-T1.exon4ASPNIDRAFT_47488-T1.exon4Aspergillus niger ATCC 1015exon
ASPNIDRAFT_47488-T1.exon3ASPNIDRAFT_47488-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_47488-T1.exon2ASPNIDRAFT_47488-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_47488-T1.exon1ASPNIDRAFT_47488-T1.exon1Aspergillus niger ATCC 1015exon


Properties
Property NameValue
DBxrefInterPro:IPR027417
DBxrefInterPro:IPR000330
DBxrefInterPro:IPR038718
DBxrefInterPro:IPR014001
DBxrefInterPro:IPR001650
DBxrefPFAM:PF00176
DBxrefPFAM:PF04851
DBxrefPFAM:PF00271
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
ACJE01000021.1supercontigACJE01000021.1:1407734..1410493 -
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