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ATCC10864_009310-T1, ATCC10864_009310-T1 (mRNA) Aspergillus niger ATCC 10864

Overview
NameATCC10864_009310-T1
Unique NameATCC10864_009310-T1
TypemRNA
OrganismAspergillus niger ATCC 10864
Sequences
The following sequences are available for this feature:

mRNA from alignment at MCQH01000209:283027..285668+

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>ATCC10864_009310-T1 ID=ATCC10864_009310-T1|Name=ATCC10864_009310-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2642bp|location=Sequence derived from alignment at MCQH01000209:283027..285668+ (Aspergillus niger ATCC 10864)
ATGGCCTTCCAAGTCCCCTTCCCCAAGCCGGTAAGTCTTGCTATCTGTCC
ACGCTCGAACTCGGTTTCTCTAACTAATGACTCTCCCCGCAGGGTCTTGC
GGCCGTGACCTCAGATCTCTGGCCGTCAATGACACGGTTGTTTAATGCGC
CCCGAAATAACGTCGAACACGCCTCCCGCTCCGGATATGCCGCCCCTCAG
CCCTCCCAGCGCGCGGTTGCGGAAGCAACCTCCACGGTATGTCTCGCTAG
TCGGCCGTATGACGATGGAGTTGGTGCGCTGATATACATACACATAGGGA
TCAAGTAGTGCCCAGCTGCCGGAGTTTCTGGCTACTGTGTCCTCCGAGGC
GTTGAAGGCAAGCATCTTGAGCAAGACCACTCAAAGCGGATGGTCTCGCT
CCTTGCTCAATGGTATACATTTCTCGTCATATCCTTGGGAAGCTTGCTCT
AACTTGAACCTATTTGCAGGAACCACAATGTGGACCTCGCCGTCTCTCGC
TACCCGTCATCTTGCCTCTCCCTCTGCTCGTTCCTACTCCACGATATCCA
TGTCCTTCAACCGTCTTCGCCACGCTCCCAAAGTACAAGGTCTCTCCCGG
TTACAGCAACAGCGTTTTCTGTTCGGTGGTTCTTCTCACAATCTATTGGC
GCAGAAGGAGAAAACTGCCAACAACAACCCTAGCAGCGCAAACGCTCAGA
ATGCTTTCTACCAGGCCCTCCTCCGTGCAAACCACCCTGCCATTGTTGTT
GAACGGTACAAAAGCGGTCATTTCGCCACGAATGCGGCCACGGACGAACT
CTACATGAAAGCCTTACAACGCGTTGGTGGCGTGGATTCTGCGGTAGCGG
TCCCTGCGTCCGGCCAGGCCGTCAGCCCCGAGCGGCTGCAAGCCATCGGC
CAGGCCGTCGCAACTCAGTTTCACGGTGGACAATTCGGTAATTCTACACA
CTACGGTACGGCAGTCAAGCAGACTGGCACTGGAAACAAGGAAGATCCGC
TGCACGTAGTTGTGGAGGAGTCAACAGGAAGTGCTGTCTTCAGATGGGTC
AAGTTCTTGTTCTACTTCGCCTTCTTTGCTTATCTGTCTCTGGTCATGAT
CACGATCTTGGTTGAAACGACTGGTGCTTTGAAGAACATCAGGGGACCGC
AGAACAGCGAAGCTCAGCCTCAGCAGCAGACCGTCCGTTTCAGTGATGTG
CATGGTTGCGATGAGGCCAAGGAAGAACTTCAGGAACTCGTCGAATTCCT
CACTAACCCCGATCGCTTCTCTTCGCTTGGTGGCAAGCTGCCCAAGGGTG
TTCTCCTGGTCGGTCCTCCTGGTACCGGAAAGACTTTGCTGGCTCGTGCT
GTTGCTGGAGAGGCTGGTGTTCCCTTCTTCTACATGTCTGGCTCTGAATT
CGACGAGGTTTACGTGGGTGTTGGTGCCAAGCGCGTCCGTGAATTGTTCA
CCCAAGCCCGCAGCAAGTCCCCTGCCATCATCTTCATTGATGAGTTGGAT
GCCATTGGTGCTAAGAGGAATGAAAGGGATGCCGCCTATGTGAAGCAAAC
CCTGAACCAATTGCTTACCGAACTTGACGGCTTCTCCCAAAGCAGCGGGG
TGATCATCATTGCCGCAACCAACTACCCCCAACTCCTGGATAAGGCTCTC
ACACGTCCCGGTCGCTTTGATCGCAAGGTGACTGTTGGCCTTCCCGACGT
TCGTGGCCGTATGGATATTCTCCGTCACCACATGAAGGACGTCCAGGTCA
GCATGGATGTTGATGTTGGTGTCATTGCTCGTGGTACCCCTGGTTTCTCT
GGTGCTGATTTGGAGAACCTTGTTAACCAAGCTGCCATCTATGCCAGCCG
TAACAAGCAAACCAAGGTTGGCCCCAAGGACTTTGACTGGGCTAAGGACA
AGATCATGATGGGTGCCGAGGCTCGCAGCCGTATCATCCAGGACAAGGAT
AAACTCCTCACTGCCTACCACGAGGCCGGCCACGCTCTTGTTGCTTACTT
CTCTCCTTCCTCTACGCCCTTGTACAAGATCACCATTGTTCCCCGAGGCA
TGGCCTTGGGTGTGACTCACTTCTTGCCTGAGATGGATATGGTGTCGAGA
AACTACACCGAATACCTTTCGGATATTGACGTCTCCATGGGCGGTAAGGC
TGCTGAGGAGCTTGTTTTCGGCCCTGACAAAGTCACCAGTGGAATTTCTG
CAGTAAGTCTAACATATCAGCTCAAGAAGACATGGTTACTGACAAATAAC
AGGACATTCAACAAGCCACTGAAACCGCCTTTACTTTGGTCACCCGTTTC
GGCTACTCTAAGAAGCTCGGAAACGTGGACCTGTCGAGCAACTATGACAG
CCTCTCGTCGGAGACGAAGCAGGAGATTGAATCCGAAGTCCGTCGTTTAG
TGGAAGAGGGTCGTGTCCGCGCCAGCAACATTCTGACTGAAAAGCGGGAG
GAGCTGGAAATTTTGACCAAAGCTTTGATTGAATACGAGACACTGACAAA
GGAGGAGATGGAGAAGGTCCTGCGAGGCGAAAAGCTCGACAAGCTGCAGT
CGGCTCCCGCAGCGCCGCTGAAATTGCCCGAAGCCTTACAGACGGCCCGG
CTACCACCTACAGTGGCCAGCGGAAACTCCGTCCAGGAATAA
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Coding sequence (CDS) from alignment at MCQH01000209:283027..285668+

>ATCC10864_009310-T1 ID=ATCC10864_009310-T1|Name=ATCC10864_009310-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=12060bp|location=Sequence derived from alignment at MCQH01000209:283027..285668+ (Aspergillus niger ATCC 10864)
ATGGCCTTCCAAGTCCCCTTCCCCAAGCCGGGTCTTGCGGCCGTGACCTC
AGATCTCTGGCCGTCAATGACACGGTTGTTTAATGCGCCCCGAAATAACG
TCGAACACGCCTCCCGCTCCGGATATGCCGCCCCTCAGCCCTCCCAGCGC
GCGGTTGCGGAAGCAACCTCCACGGGATCAAGTAGTGCCCAGCTGCCGGA
GTTTCTGGCTACTGTGTCCTCCGAGGCGTTGAAGGCAAGCATCTTGAGCA
AGACCACTCAAAGCGGATGGTCTCGCTCCTTGCTCAATGGAACCACAATG
TGGACCTCGCCGTCTCTCGCTACCCGTCATCTTGCCTCTCCCTCTGCTCG
TTCCTACTCCACGATATCCATGTCCTTCAACCGTCTTCGCCACGCTCCCA
AAGTACAAGGTCTCTCCCGGTTACAGCAACAGCGTTTTCTGTTCGGTGGT
TCTTCTCACAATCTATTGGCGCAGAAGGAGAAAACTGCCAACAACAACCC
TAGCAGCGCAAACGCTCAGAATGCTTTCTACCAGGCCCTCCTCCGTGCAA
ACCACCCTGCCATTGTTGTTGAACGGTACAAAAGCGGTCATTTCGCCACG
AATGCGGCCACGGACGAACTCTACATGAAAGCCTTACAACGCGTTGGTGG
CGTGGATTCTGCGGTAGCGGTCCCTGCGTCCGGCCAGGCCGTCAGCCCCG
AGCGGCTGCAAGCCATCGGCCAGGCCGTCGCAACTCAGTTTCACGGTGGA
CAATTCGGTAATTCTACACACTACGGTACGGCAGTCAAGCAGACTGGCAC
TGGAAACAAGGAAGATCCGCTGCACGTAGTTGTGGAGGAGTCAACAGGAA
GTGCTGTCTTCAGATGGGTCAAGTTCTTGTTCTACTTCGCCTTCTTTGCT
TATCTGTCTCTGGTCATGATCACGATCTTGGTTGAAACGACTGGTGCTTT
GAAGAACATCAGGGGACCGCAGAACAGCGAAGCTCAGCCTCAGCAGCAGA
CCGTCCGTTTCAGTGATGTGCATGGTTGCGATGAGGCCAAGGAAGAACTT
CAGGAACTCGTCGAATTCCTCACTAACCCCGATCGCTTCTCTTCGCTTGG
TGGCAAGCTGCCCAAGGGTGTTCTCCTGGTCGGTCCTCCTGGTACCGGAA
AGACTTTGCTGGCTCGTGCTGTTGCTGGAGAGGCTGGTGTTCCCTTCTTC
TACATGTCTGGCTCTGAATTCGACGAGGTTTACGTGGGTGTTGGTGCCAA
GCGCGTCCGTGAATTGTTCACCCAAGCCCGCAGCAAGTCCCCTGCCATCA
TCTTCATTGATGAGTTGGATGCCATTGGTGCTAAGAGGAATGAAAGGGAT
GCCGCCTATGTGAAGCAAACCCTGAACCAATTGCTTACCGAACTTGACGG
CTTCTCCCAAAGCAGCGGGGTGATCATCATTGCCGCAACCAACTACCCCC
AACTCCTGGATAAGGCTCTCACACGTCCCGGTCGCTTTGATCGCAAGGTG
ACTGTTGGCCTTCCCGACGTTCGTGGCCGTATGGATATTCTCCGTCACCA
CATGAAGGACGTCCAGGTCAGCATGGATGTTGATGTTGGTGTCATTGCTC
GTGGTACCCCTGGTTTCTCTGGTGCTGATTTGGAGAACCTTGTTAACCAA
GCTGCCATCTATGCCAGCCGTAACAAGCAAACCAAGGTTGGCCCCAAGGA
CTTTGACTGGGCTAAGGACAAGATCATGATGGGTGCCGAGGCTCGCAGCC
GTATCATCCAGGACAAGGATAAACTCCTCACTGCCTACCACGAGGCCGGC
CACGCTCTTGTTGCTTACTTCTCTCCTTCCTCTACGCCCTTGTACAAGAT
CACCATTGTTCCCCGAGGCATGGCCTTGGGTGTGACTCACTTCTTGCCTG
AGATGGATATGGTGTCGAGAAACTACACCGAATACCTTTCGGATATTGAC
GTCTCCATGGGCGGTAAGGCTGCTGAGGAGCTTGTTTTCGGCCCTGACAA
AGTCACCAGTGGAATTTCTGCAGACATTCAACAAGCCACTGAAACCGCCT
TTACTTTGGTCACCCGTTTCGGCTACTCTAAGAAGCTCGGAAACGTGGAC
CTGTCGAGCAACTATGACAGCCTCTCGTCGGAGACGAAGCAGGAGATTGA
ATCCGAAGTCCGTCGTTTAGTGGAAGAGGGTCGTGTCCGCGCCAGCAACA
TTCTGACTGAAAAGCGGGAGGAGCTGGAAATTTTGACCAAAGCTTTGATT
GAATACGAGACACTGACAAAGGAGGAGATGGAGAAGGTCCTGCGAGGCGA
AAAGCTCGACAAGCTGCAGTCGGCTCCCGCAGCGCCGCTGAAATTGCCCG
AAGCCTTACAGACGGCCCGGCTACCACCTACAGTGGCCAGCGGAAACTCC
GTCCAGGAATAAATGGCCTTCCAAGTCCCCTTCCCCAAGCCGGGTCTTGC
GGCCGTGACCTCAGATCTCTGGCCGTCAATGACACGGTTGTTTAATGCGC
CCCGAAATAACGTCGAACACGCCTCCCGCTCCGGATATGCCGCCCCTCAG
CCCTCCCAGCGCGCGGTTGCGGAAGCAACCTCCACGGGATCAAGTAGTGC
CCAGCTGCCGGAGTTTCTGGCTACTGTGTCCTCCGAGGCGTTGAAGGCAA
GCATCTTGAGCAAGACCACTCAAAGCGGATGGTCTCGCTCCTTGCTCAAT
GGAACCACAATGTGGACCTCGCCGTCTCTCGCTACCCGTCATCTTGCCTC
TCCCTCTGCTCGTTCCTACTCCACGATATCCATGTCCTTCAACCGTCTTC
GCCACGCTCCCAAAGTACAAGGTCTCTCCCGGTTACAGCAACAGCGTTTT
CTGTTCGGTGGTTCTTCTCACAATCTATTGGCGCAGAAGGAGAAAACTGC
CAACAACAACCCTAGCAGCGCAAACGCTCAGAATGCTTTCTACCAGGCCC
TCCTCCGTGCAAACCACCCTGCCATTGTTGTTGAACGGTACAAAAGCGGT
CATTTCGCCACGAATGCGGCCACGGACGAACTCTACATGAAAGCCTTACA
ACGCGTTGGTGGCGTGGATTCTGCGGTAGCGGTCCCTGCGTCCGGCCAGG
CCGTCAGCCCCGAGCGGCTGCAAGCCATCGGCCAGGCCGTCGCAACTCAG
TTTCACGGTGGACAATTCGGTAATTCTACACACTACGGTACGGCAGTCAA
GCAGACTGGCACTGGAAACAAGGAAGATCCGCTGCACGTAGTTGTGGAGG
AGTCAACAGGAAGTGCTGTCTTCAGATGGGTCAAGTTCTTGTTCTACTTC
GCCTTCTTTGCTTATCTGTCTCTGGTCATGATCACGATCTTGGTTGAAAC
GACTGGTGCTTTGAAGAACATCAGGGGACCGCAGAACAGCGAAGCTCAGC
CTCAGCAGCAGACCGTCCGTTTCAGTGATGTGCATGGTTGCGATGAGGCC
AAGGAAGAACTTCAGGAACTCGTCGAATTCCTCACTAACCCCGATCGCTT
CTCTTCGCTTGGTGGCAAGCTGCCCAAGGGTGTTCTCCTGGTCGGTCCTC
CTGGTACCGGAAAGACTTTGCTGGCTCGTGCTGTTGCTGGAGAGGCTGGT
GTTCCCTTCTTCTACATGTCTGGCTCTGAATTCGACGAGGTTTACGTGGG
TGTTGGTGCCAAGCGCGTCCGTGAATTGTTCACCCAAGCCCGCAGCAAGT
CCCCTGCCATCATCTTCATTGATGAGTTGGATGCCATTGGTGCTAAGAGG
AATGAAAGGGATGCCGCCTATGTGAAGCAAACCCTGAACCAATTGCTTAC
CGAACTTGACGGCTTCTCCCAAAGCAGCGGGGTGATCATCATTGCCGCAA
CCAACTACCCCCAACTCCTGGATAAGGCTCTCACACGTCCCGGTCGCTTT
GATCGCAAGGTGACTGTTGGCCTTCCCGACGTTCGTGGCCGTATGGATAT
TCTCCGTCACCACATGAAGGACGTCCAGGTCAGCATGGATGTTGATGTTG
GTGTCATTGCTCGTGGTACCCCTGGTTTCTCTGGTGCTGATTTGGAGAAC
CTTGTTAACCAAGCTGCCATCTATGCCAGCCGTAACAAGCAAACCAAGGT
TGGCCCCAAGGACTTTGACTGGGCTAAGGACAAGATCATGATGGGTGCCG
AGGCTCGCAGCCGTATCATCCAGGACAAGGATAAACTCCTCACTGCCTAC
CACGAGGCCGGCCACGCTCTTGTTGCTTACTTCTCTCCTTCCTCTACGCC
CTTGTACAAGATCACCATTGTTCCCCGAGGCATGGCCTTGGGTGTGACTC
ACTTCTTGCCTGAGATGGATATGGTGTCGAGAAACTACACCGAATACCTT
TCGGATATTGACGTCTCCATGGGCGGTAAGGCTGCTGAGGAGCTTGTTTT
CGGCCCTGACAAAGTCACCAGTGGAATTTCTGCAGACATTCAACAAGCCA
CTGAAACCGCCTTTACTTTGGTCACCCGTTTCGGCTACTCTAAGAAGCTC
GGAAACGTGGACCTGTCGAGCAACTATGACAGCCTCTCGTCGGAGACGAA
GCAGGAGATTGAATCCGAAGTCCGTCGTTTAGTGGAAGAGGGTCGTGTCC
GCGCCAGCAACATTCTGACTGAAAAGCGGGAGGAGCTGGAAATTTTGACC
AAAGCTTTGATTGAATACGAGACACTGACAAAGGAGGAGATGGAGAAGGT
CCTGCGAGGCGAAAAGCTCGACAAGCTGCAGTCGGCTCCCGCAGCGCCGC
TGAAATTGCCCGAAGCCTTACAGACGGCCCGGCTACCACCTACAGTGGCC
AGCGGAAACTCCGTCCAGGAATAAATGGCCTTCCAAGTCCCCTTCCCCAA
GCCGGGTCTTGCGGCCGTGACCTCAGATCTCTGGCCGTCAATGACACGGT
TGTTTAATGCGCCCCGAAATAACGTCGAACACGCCTCCCGCTCCGGATAT
GCCGCCCCTCAGCCCTCCCAGCGCGCGGTTGCGGAAGCAACCTCCACGGG
ATCAAGTAGTGCCCAGCTGCCGGAGTTTCTGGCTACTGTGTCCTCCGAGG
CGTTGAAGGCAAGCATCTTGAGCAAGACCACTCAAAGCGGATGGTCTCGC
TCCTTGCTCAATGGAACCACAATGTGGACCTCGCCGTCTCTCGCTACCCG
TCATCTTGCCTCTCCCTCTGCTCGTTCCTACTCCACGATATCCATGTCCT
TCAACCGTCTTCGCCACGCTCCCAAAGTACAAGGTCTCTCCCGGTTACAG
CAACAGCGTTTTCTGTTCGGTGGTTCTTCTCACAATCTATTGGCGCAGAA
GGAGAAAACTGCCAACAACAACCCTAGCAGCGCAAACGCTCAGAATGCTT
TCTACCAGGCCCTCCTCCGTGCAAACCACCCTGCCATTGTTGTTGAACGG
TACAAAAGCGGTCATTTCGCCACGAATGCGGCCACGGACGAACTCTACAT
GAAAGCCTTACAACGCGTTGGTGGCGTGGATTCTGCGGTAGCGGTCCCTG
CGTCCGGCCAGGCCGTCAGCCCCGAGCGGCTGCAAGCCATCGGCCAGGCC
GTCGCAACTCAGTTTCACGGTGGACAATTCGGTAATTCTACACACTACGG
TACGGCAGTCAAGCAGACTGGCACTGGAAACAAGGAAGATCCGCTGCACG
TAGTTGTGGAGGAGTCAACAGGAAGTGCTGTCTTCAGATGGGTCAAGTTC
TTGTTCTACTTCGCCTTCTTTGCTTATCTGTCTCTGGTCATGATCACGAT
CTTGGTTGAAACGACTGGTGCTTTGAAGAACATCAGGGGACCGCAGAACA
GCGAAGCTCAGCCTCAGCAGCAGACCGTCCGTTTCAGTGATGTGCATGGT
TGCGATGAGGCCAAGGAAGAACTTCAGGAACTCGTCGAATTCCTCACTAA
CCCCGATCGCTTCTCTTCGCTTGGTGGCAAGCTGCCCAAGGGTGTTCTCC
TGGTCGGTCCTCCTGGTACCGGAAAGACTTTGCTGGCTCGTGCTGTTGCT
GGAGAGGCTGGTGTTCCCTTCTTCTACATGTCTGGCTCTGAATTCGACGA
GGTTTACGTGGGTGTTGGTGCCAAGCGCGTCCGTGAATTGTTCACCCAAG
CCCGCAGCAAGTCCCCTGCCATCATCTTCATTGATGAGTTGGATGCCATT
GGTGCTAAGAGGAATGAAAGGGATGCCGCCTATGTGAAGCAAACCCTGAA
CCAATTGCTTACCGAACTTGACGGCTTCTCCCAAAGCAGCGGGGTGATCA
TCATTGCCGCAACCAACTACCCCCAACTCCTGGATAAGGCTCTCACACGT
CCCGGTCGCTTTGATCGCAAGGTGACTGTTGGCCTTCCCGACGTTCGTGG
CCGTATGGATATTCTCCGTCACCACATGAAGGACGTCCAGGTCAGCATGG
ATGTTGATGTTGGTGTCATTGCTCGTGGTACCCCTGGTTTCTCTGGTGCT
GATTTGGAGAACCTTGTTAACCAAGCTGCCATCTATGCCAGCCGTAACAA
GCAAACCAAGGTTGGCCCCAAGGACTTTGACTGGGCTAAGGACAAGATCA
TGATGGGTGCCGAGGCTCGCAGCCGTATCATCCAGGACAAGGATAAACTC
CTCACTGCCTACCACGAGGCCGGCCACGCTCTTGTTGCTTACTTCTCTCC
TTCCTCTACGCCCTTGTACAAGATCACCATTGTTCCCCGAGGCATGGCCT
TGGGTGTGACTCACTTCTTGCCTGAGATGGATATGGTGTCGAGAAACTAC
ACCGAATACCTTTCGGATATTGACGTCTCCATGGGCGGTAAGGCTGCTGA
GGAGCTTGTTTTCGGCCCTGACAAAGTCACCAGTGGAATTTCTGCAGACA
TTCAACAAGCCACTGAAACCGCCTTTACTTTGGTCACCCGTTTCGGCTAC
TCTAAGAAGCTCGGAAACGTGGACCTGTCGAGCAACTATGACAGCCTCTC
GTCGGAGACGAAGCAGGAGATTGAATCCGAAGTCCGTCGTTTAGTGGAAG
AGGGTCGTGTCCGCGCCAGCAACATTCTGACTGAAAAGCGGGAGGAGCTG
GAAATTTTGACCAAAGCTTTGATTGAATACGAGACACTGACAAAGGAGGA
GATGGAGAAGGTCCTGCGAGGCGAAAAGCTCGACAAGCTGCAGTCGGCTC
CCGCAGCGCCGCTGAAATTGCCCGAAGCCTTACAGACGGCCCGGCTACCA
CCTACAGTGGCCAGCGGAAACTCCGTCCAGGAATAAATGGCCTTCCAAGT
CCCCTTCCCCAAGCCGGGTCTTGCGGCCGTGACCTCAGATCTCTGGCCGT
CAATGACACGGTTGTTTAATGCGCCCCGAAATAACGTCGAACACGCCTCC
CGCTCCGGATATGCCGCCCCTCAGCCCTCCCAGCGCGCGGTTGCGGAAGC
AACCTCCACGGGATCAAGTAGTGCCCAGCTGCCGGAGTTTCTGGCTACTG
TGTCCTCCGAGGCGTTGAAGGCAAGCATCTTGAGCAAGACCACTCAAAGC
GGATGGTCTCGCTCCTTGCTCAATGGAACCACAATGTGGACCTCGCCGTC
TCTCGCTACCCGTCATCTTGCCTCTCCCTCTGCTCGTTCCTACTCCACGA
TATCCATGTCCTTCAACCGTCTTCGCCACGCTCCCAAAGTACAAGGTCTC
TCCCGGTTACAGCAACAGCGTTTTCTGTTCGGTGGTTCTTCTCACAATCT
ATTGGCGCAGAAGGAGAAAACTGCCAACAACAACCCTAGCAGCGCAAACG
CTCAGAATGCTTTCTACCAGGCCCTCCTCCGTGCAAACCACCCTGCCATT
GTTGTTGAACGGTACAAAAGCGGTCATTTCGCCACGAATGCGGCCACGGA
CGAACTCTACATGAAAGCCTTACAACGCGTTGGTGGCGTGGATTCTGCGG
TAGCGGTCCCTGCGTCCGGCCAGGCCGTCAGCCCCGAGCGGCTGCAAGCC
ATCGGCCAGGCCGTCGCAACTCAGTTTCACGGTGGACAATTCGGTAATTC
TACACACTACGGTACGGCAGTCAAGCAGACTGGCACTGGAAACAAGGAAG
ATCCGCTGCACGTAGTTGTGGAGGAGTCAACAGGAAGTGCTGTCTTCAGA
TGGGTCAAGTTCTTGTTCTACTTCGCCTTCTTTGCTTATCTGTCTCTGGT
CATGATCACGATCTTGGTTGAAACGACTGGTGCTTTGAAGAACATCAGGG
GACCGCAGAACAGCGAAGCTCAGCCTCAGCAGCAGACCGTCCGTTTCAGT
GATGTGCATGGTTGCGATGAGGCCAAGGAAGAACTTCAGGAACTCGTCGA
ATTCCTCACTAACCCCGATCGCTTCTCTTCGCTTGGTGGCAAGCTGCCCA
AGGGTGTTCTCCTGGTCGGTCCTCCTGGTACCGGAAAGACTTTGCTGGCT
CGTGCTGTTGCTGGAGAGGCTGGTGTTCCCTTCTTCTACATGTCTGGCTC
TGAATTCGACGAGGTTTACGTGGGTGTTGGTGCCAAGCGCGTCCGTGAAT
TGTTCACCCAAGCCCGCAGCAAGTCCCCTGCCATCATCTTCATTGATGAG
TTGGATGCCATTGGTGCTAAGAGGAATGAAAGGGATGCCGCCTATGTGAA
GCAAACCCTGAACCAATTGCTTACCGAACTTGACGGCTTCTCCCAAAGCA
GCGGGGTGATCATCATTGCCGCAACCAACTACCCCCAACTCCTGGATAAG
GCTCTCACACGTCCCGGTCGCTTTGATCGCAAGGTGACTGTTGGCCTTCC
CGACGTTCGTGGCCGTATGGATATTCTCCGTCACCACATGAAGGACGTCC
AGGTCAGCATGGATGTTGATGTTGGTGTCATTGCTCGTGGTACCCCTGGT
TTCTCTGGTGCTGATTTGGAGAACCTTGTTAACCAAGCTGCCATCTATGC
CAGCCGTAACAAGCAAACCAAGGTTGGCCCCAAGGACTTTGACTGGGCTA
AGGACAAGATCATGATGGGTGCCGAGGCTCGCAGCCGTATCATCCAGGAC
AAGGATAAACTCCTCACTGCCTACCACGAGGCCGGCCACGCTCTTGTTGC
TTACTTCTCTCCTTCCTCTACGCCCTTGTACAAGATCACCATTGTTCCCC
GAGGCATGGCCTTGGGTGTGACTCACTTCTTGCCTGAGATGGATATGGTG
TCGAGAAACTACACCGAATACCTTTCGGATATTGACGTCTCCATGGGCGG
TAAGGCTGCTGAGGAGCTTGTTTTCGGCCCTGACAAAGTCACCAGTGGAA
TTTCTGCAGACATTCAACAAGCCACTGAAACCGCCTTTACTTTGGTCACC
CGTTTCGGCTACTCTAAGAAGCTCGGAAACGTGGACCTGTCGAGCAACTA
TGACAGCCTCTCGTCGGAGACGAAGCAGGAGATTGAATCCGAAGTCCGTC
GTTTAGTGGAAGAGGGTCGTGTCCGCGCCAGCAACATTCTGACTGAAAAG
CGGGAGGAGCTGGAAATTTTGACCAAAGCTTTGATTGAATACGAGACACT
GACAAAGGAGGAGATGGAGAAGGTCCTGCGAGGCGAAAAGCTCGACAAGC
TGCAGTCGGCTCCCGCAGCGCCGCTGAAATTGCCCGAAGCCTTACAGACG
GCCCGGCTACCACCTACAGTGGCCAGCGGAAACTCCGTCCAGGAATAAAT
GGCCTTCCAAGTCCCCTTCCCCAAGCCGGGTCTTGCGGCCGTGACCTCAG
ATCTCTGGCCGTCAATGACACGGTTGTTTAATGCGCCCCGAAATAACGTC
GAACACGCCTCCCGCTCCGGATATGCCGCCCCTCAGCCCTCCCAGCGCGC
GGTTGCGGAAGCAACCTCCACGGGATCAAGTAGTGCCCAGCTGCCGGAGT
TTCTGGCTACTGTGTCCTCCGAGGCGTTGAAGGCAAGCATCTTGAGCAAG
ACCACTCAAAGCGGATGGTCTCGCTCCTTGCTCAATGGAACCACAATGTG
GACCTCGCCGTCTCTCGCTACCCGTCATCTTGCCTCTCCCTCTGCTCGTT
CCTACTCCACGATATCCATGTCCTTCAACCGTCTTCGCCACGCTCCCAAA
GTACAAGGTCTCTCCCGGTTACAGCAACAGCGTTTTCTGTTCGGTGGTTC
TTCTCACAATCTATTGGCGCAGAAGGAGAAAACTGCCAACAACAACCCTA
GCAGCGCAAACGCTCAGAATGCTTTCTACCAGGCCCTCCTCCGTGCAAAC
CACCCTGCCATTGTTGTTGAACGGTACAAAAGCGGTCATTTCGCCACGAA
TGCGGCCACGGACGAACTCTACATGAAAGCCTTACAACGCGTTGGTGGCG
TGGATTCTGCGGTAGCGGTCCCTGCGTCCGGCCAGGCCGTCAGCCCCGAG
CGGCTGCAAGCCATCGGCCAGGCCGTCGCAACTCAGTTTCACGGTGGACA
ATTCGGTAATTCTACACACTACGGTACGGCAGTCAAGCAGACTGGCACTG
GAAACAAGGAAGATCCGCTGCACGTAGTTGTGGAGGAGTCAACAGGAAGT
GCTGTCTTCAGATGGGTCAAGTTCTTGTTCTACTTCGCCTTCTTTGCTTA
TCTGTCTCTGGTCATGATCACGATCTTGGTTGAAACGACTGGTGCTTTGA
AGAACATCAGGGGACCGCAGAACAGCGAAGCTCAGCCTCAGCAGCAGACC
GTCCGTTTCAGTGATGTGCATGGTTGCGATGAGGCCAAGGAAGAACTTCA
GGAACTCGTCGAATTCCTCACTAACCCCGATCGCTTCTCTTCGCTTGGTG
GCAAGCTGCCCAAGGGTGTTCTCCTGGTCGGTCCTCCTGGTACCGGAAAG
ACTTTGCTGGCTCGTGCTGTTGCTGGAGAGGCTGGTGTTCCCTTCTTCTA
CATGTCTGGCTCTGAATTCGACGAGGTTTACGTGGGTGTTGGTGCCAAGC
GCGTCCGTGAATTGTTCACCCAAGCCCGCAGCAAGTCCCCTGCCATCATC
TTCATTGATGAGTTGGATGCCATTGGTGCTAAGAGGAATGAAAGGGATGC
CGCCTATGTGAAGCAAACCCTGAACCAATTGCTTACCGAACTTGACGGCT
TCTCCCAAAGCAGCGGGGTGATCATCATTGCCGCAACCAACTACCCCCAA
CTCCTGGATAAGGCTCTCACACGTCCCGGTCGCTTTGATCGCAAGGTGAC
TGTTGGCCTTCCCGACGTTCGTGGCCGTATGGATATTCTCCGTCACCACA
TGAAGGACGTCCAGGTCAGCATGGATGTTGATGTTGGTGTCATTGCTCGT
GGTACCCCTGGTTTCTCTGGTGCTGATTTGGAGAACCTTGTTAACCAAGC
TGCCATCTATGCCAGCCGTAACAAGCAAACCAAGGTTGGCCCCAAGGACT
TTGACTGGGCTAAGGACAAGATCATGATGGGTGCCGAGGCTCGCAGCCGT
ATCATCCAGGACAAGGATAAACTCCTCACTGCCTACCACGAGGCCGGCCA
CGCTCTTGTTGCTTACTTCTCTCCTTCCTCTACGCCCTTGTACAAGATCA
CCATTGTTCCCCGAGGCATGGCCTTGGGTGTGACTCACTTCTTGCCTGAG
ATGGATATGGTGTCGAGAAACTACACCGAATACCTTTCGGATATTGACGT
CTCCATGGGCGGTAAGGCTGCTGAGGAGCTTGTTTTCGGCCCTGACAAAG
TCACCAGTGGAATTTCTGCAGACATTCAACAAGCCACTGAAACCGCCTTT
ACTTTGGTCACCCGTTTCGGCTACTCTAAGAAGCTCGGAAACGTGGACCT
GTCGAGCAACTATGACAGCCTCTCGTCGGAGACGAAGCAGGAGATTGAAT
CCGAAGTCCGTCGTTTAGTGGAAGAGGGTCGTGTCCGCGCCAGCAACATT
CTGACTGAAAAGCGGGAGGAGCTGGAAATTTTGACCAAAGCTTTGATTGA
ATACGAGACACTGACAAAGGAGGAGATGGAGAAGGTCCTGCGAGGCGAAA
AGCTCGACAAGCTGCAGTCGGCTCCCGCAGCGCCGCTGAAATTGCCCGAA
GCCTTACAGACGGCCCGGCTACCACCTACAGTGGCCAGCGGAAACTCCGT
CCAGGAATAA
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
TermDefinition
GO:0006508proteolysis
Vocabulary: Cellular Component
TermDefinition
GO:0016020membrane
Vocabulary: Molecular Function
TermDefinition
GO:0005524ATP binding
GO:0016887ATPase activity
GO:0004176ATP-dependent peptidase activity
GO:0004222metalloendopeptidase activity
Relationships

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

Feature NameUnique NameSpeciesType
ATCC10864_009310ATCC10864_009310Aspergillus niger ATCC 10864gene


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

Feature NameUnique NameSpeciesType
ATCC10864_009310-T1ATCC10864_009310-T1-proteinAspergillus niger ATCC 10864polypeptide


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

Feature NameUnique NameSpeciesType
ATCC10864_009310-T1.exon1ATCC10864_009310-T1.exon1Aspergillus niger ATCC 10864exon
ATCC10864_009310-T1.exon2ATCC10864_009310-T1.exon2Aspergillus niger ATCC 10864exon
ATCC10864_009310-T1.exon3ATCC10864_009310-T1.exon3Aspergillus niger ATCC 10864exon
ATCC10864_009310-T1.exon4ATCC10864_009310-T1.exon4Aspergillus niger ATCC 10864exon
ATCC10864_009310-T1.exon5ATCC10864_009310-T1.exon5Aspergillus niger ATCC 10864exon


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

Feature NameUnique NameSpeciesType
ATCC10864_009310-T1.cdsATCC10864_009310-T1.cdsAspergillus niger ATCC 10864CDS


Cross References
External references for this mRNA
DatabaseAccession
InterProIPR041569
PFAMPF00004
InterProIPR037219
InterProIPR027417
PFAMPF17862
PFAMPF01434
InterProIPR003959
InterProIPR003960
InterProIPR000642
InterProIPR003593
InterProIPR005936
PFAMPF07728
Properties
Property NameValue
NoteMEROPS:MER0002197
Producthypothetical protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger ATCC 10864 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
MCQH01000209supercontigMCQH01000209:283027..285668 +
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