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ATCC10864_001115-T1, ATCC10864_001115-T1 (mRNA) Aspergillus niger ATCC 10864

Overview
NameATCC10864_001115-T1
Unique NameATCC10864_001115-T1
TypemRNA
OrganismAspergillus niger ATCC 10864
Sequences
The following sequences are available for this feature:

mRNA from alignment at MCQH01000019:934472..936364-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>ATCC10864_001115-T1 ID=ATCC10864_001115-T1|Name=ATCC10864_001115-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=1893bp|location=Sequence derived from alignment at MCQH01000019:934472..936364- (Aspergillus niger ATCC 10864)
ATGTTGTCCATAGCTAGCCTTCTTGTCGGACTTGCATCCATTTACGTTCT
CTATGTCTTTCTTAGACCTAAGAAGACATCAGCACCACTGCCCCCAGGGC
CTCCTCCAAAACCCGTTATCGGCAATCTCAATGATCTCCCACCTCCCGGT
TCCAAGGATTGGCAGCATTGGCTGGATCATAAGGAAAAATATGGTATATC
CCCCTTTTATCCTACCTTTAGAACGGCATCTTCCATTATAATAACCTTCG
ACTCTAGGCCCAATCAGCTCCGTCACTATATTTGGACAGACTCTCGTTGT
TCTTAATGATCCCGACATGGCCCTGGAGATGTTGGAGAAGCGTTCTGCAA
AACACTCCTCCCGACCCCATCTTCCCATCGCAGATCTGTTAGTTCCACAC
TAATCTCACTCGTTACAAGTGACACAATATACTAATCTGCACCCCTAGGT
CGGGATGGGACAAGACATTAGGCCTTCTCCCCTATAACAACCGGTTCCGC
GCCTATCGGAAAGCCACGTACCGCGAACTCGGCTCGGCCAACGCAGTAGC
TAAATTCGATGGAATCGTGGATAAAGAAGTTACCCGGTTTCTTCTGCGCG
TTATTCGGTCACCGAACGACTTGATTGATCATCTTCGCAAGTAAGTCCTG
CAGCTTGCAACAAAGTTGCTTTATGCCTAATCGTCCCATAGAGAGGCCGG
AGCAATCATCCTTCGGATCGGATACGGATACACCATTGAGCCAAATGCGC
GAGATCCCCTGGTGGACCTGGTCGACAAGGCCATGGATGACTTTTCTCAG
ATAGTTCTCCCAGGAGCCTGGCTGGTTAACTTTGTTCCTTTCTGTAAGTC
TGCTAACCTCCCTTGGATGATTTGGACGCTGACTTTGCAGTGAAATACCT
TCCCACTTGGCTGCCTGGAGGAAAGGAAAACCAGATAGCCAAGGAATACA
AAGAGAGACTGACCATCATGCACGACAAAACATACGACTTCGTGAAGAAC
CAAAGGGCCCGAGGTGTCCACCAGCCATCGTATGTCTCTGGCCTGCTTGA
GAAGGACACTGTCCTTCCAGGATCTGAAGAGGAAATTGTTGTCAAATACT
CGGCTGGTGCTCTGTATGGCGGTGGTGCTGATACGGTGCGTTTTAATCAC
CACAATCATCACCATATCTCCGCTAACCGCGCATAGACCGTCTCCGCTCT
ATCCTGCTTCTTTATGGCCATGGCCCTCAACCCATCCGTGCAAAAGAAAG
CCAAAGAAGAAATCGACCGGGTCATAGGAACCTCCCGACTACCCGACCTC
TCCGACCAGAACAACCTCCCGTACATCAACGCCGTAGTCCAAGAAGTGTT
CAGATGGCACCCCGTCACCCCTCTCAGCGTATCCCACGCATCCAGCGAAG
AAGACATCTTCAACGGCTATCTAATCCCCAAGGGTGCCATCATCGTTCCC
AACGTCTGGTATGCGTCCCCCTTCCCTCCTCAAACTCACCAACTCATACC
TAACCCAAAACCAGGGCCTTCATGCACGACCCAATCAACTACCGCAACCC
CAAGACATTCAACCCCGACCGCTTTCTTGGAGCAGTTCCTGAGCCAGACC
CACGGCTATACGCCTTTGGATTCGGCCGACGCATCTGTCCTGGTCGCTTG
CTTGCCGAGAAGAGCATTTTCCTTACTGTCGCGCGGGCACTTGCGGTACT
GGATATTCGGAAGAAAGTACGAGATGGCAAGGAAGTTCCGATCCGTATCG
AATTTTCTTCAGGGACTATTAGCCATCCTGTTCCTTTCGAGGTGGATCTG
AAACCGAGGAGTAAGGGGCATGAGGAGTTGGTGGGGGCAGTGGAGAGAGA
GTTTCCGTGGGAGGAGAGTCATGCGAAGGAGCTGGGGATCTGA
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Coding sequence (CDS) from alignment at MCQH01000019:934472..936364-

>ATCC10864_001115-T1 ID=ATCC10864_001115-T1|Name=ATCC10864_001115-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=10941bp|location=Sequence derived from alignment at MCQH01000019:934472..936364- (Aspergillus niger ATCC 10864)
GGCCTTCATGCACGACCCAATCAACTACCGCAACCCCAAGACATTCAACC
CCGACCGCTTTCTTGGAGCAGTTCCTGAGCCAGACCCACGGCTATACGCC
TTTGGATTCGGCCGACGCATCTGTCCTGGTCGCTTGCTTGCCGAGAAGAG
CATTTTCCTTACTGTCGCGCGGGCACTTGCGGTACTGGATATTCGGAAGA
AAGTACGAGATGGCAAGGAAGTTCCGATCCGTATCGAATTTTCTTCAGGG
ACTATTAGCCATCCTGTTCCTTTCGAGGTGGATCTGAAACCGAGGAGTAA
GGGGCATGAGGAGTTGGTGGGGGCAGTGGAGAGAGAGTTTCCGTGGGAGG
AGAGTCATGCGAAGGAGCTGGGGATCTGAACCGTCTCCGCTCTATCCTGC
TTCTTTATGGCCATGGCCCTCAACCCATCCGTGCAAAAGAAAGCCAAAGA
AGAAATCGACCGGGTCATAGGAACCTCCCGACTACCCGACCTCTCCGACC
AGAACAACCTCCCGTACATCAACGCCGTAGTCCAAGAAGTGTTCAGATGG
CACCCCGTCACCCCTCTCAGCGTATCCCACGCATCCAGCGAAGAAGACAT
CTTCAACGGCTATCTAATCCCCAAGGGTGCCATCATCGTTCCCAACGTCT
GTGAAATACCTTCCCACTTGGCTGCCTGGAGGAAAGGAAAACCAGATAGC
CAAGGAATACAAAGAGAGACTGACCATCATGCACGACAAAACATACGACT
TCGTGAAGAACCAAAGGGCCCGAGGTGTCCACCAGCCATCGTATGTCTCT
GGCCTGCTTGAGAAGGACACTGTCCTTCCAGGATCTGAAGAGGAAATTGT
TGTCAAATACTCGGCTGGTGCTCTGTATGGCGGTGGTGCTGATACGAGAG
GCCGGAGCAATCATCCTTCGGATCGGATACGGATACACCATTGAGCCAAA
TGCGCGAGATCCCCTGGTGGACCTGGTCGACAAGGCCATGGATGACTTTT
CTCAGATAGTTCTCCCAGGAGCCTGGCTGGTTAACTTTGTTCCTTTCTGT
CGGGATGGGACAAGACATTAGGCCTTCTCCCCTATAACAACCGGTTCCGC
GCCTATCGGAAAGCCACGTACCGCGAACTCGGCTCGGCCAACGCAGTAGC
TAAATTCGATGGAATCGTGGATAAAGAAGTTACCCGGTTTCTTCTGCGCG
TTATTCGGTCACCGAACGACTTGATTGATCATCTTCGCAAGCCCAATCAG
CTCCGTCACTATATTTGGACAGACTCTCGTTGTTCTTAATGATCCCGACA
TGGCCCTGGAGATGTTGGAGAAGCGTTCTGCAAAACACTCCTCCCGACCC
CATCTTCCCATCGCAGATCTATGTTGTCCATAGCTAGCCTTCTTGTCGGA
CTTGCATCCATTTACGTTCTCTATGTCTTTCTTAGACCTAAGAAGACATC
AGCACCACTGCCCCCAGGGCCTCCTCCAAAACCCGTTATCGGCAATCTCA
ATGATCTCCCACCTCCCGGTTCCAAGGATTGGCAGCATTGGCTGGATCAT
AAGGAAAAATATGGGCCTTCATGCACGACCCAATCAACTACCGCAACCCC
AAGACATTCAACCCCGACCGCTTTCTTGGAGCAGTTCCTGAGCCAGACCC
ACGGCTATACGCCTTTGGATTCGGCCGACGCATCTGTCCTGGTCGCTTGC
TTGCCGAGAAGAGCATTTTCCTTACTGTCGCGCGGGCACTTGCGGTACTG
GATATTCGGAAGAAAGTACGAGATGGCAAGGAAGTTCCGATCCGTATCGA
ATTTTCTTCAGGGACTATTAGCCATCCTGTTCCTTTCGAGGTGGATCTGA
AACCGAGGAGTAAGGGGCATGAGGAGTTGGTGGGGGCAGTGGAGAGAGAG
TTTCCGTGGGAGGAGAGTCATGCGAAGGAGCTGGGGATCTGAACCGTCTC
CGCTCTATCCTGCTTCTTTATGGCCATGGCCCTCAACCCATCCGTGCAAA
AGAAAGCCAAAGAAGAAATCGACCGGGTCATAGGAACCTCCCGACTACCC
GACCTCTCCGACCAGAACAACCTCCCGTACATCAACGCCGTAGTCCAAGA
AGTGTTCAGATGGCACCCCGTCACCCCTCTCAGCGTATCCCACGCATCCA
GCGAAGAAGACATCTTCAACGGCTATCTAATCCCCAAGGGTGCCATCATC
GTTCCCAACGTCTGTGAAATACCTTCCCACTTGGCTGCCTGGAGGAAAGG
AAAACCAGATAGCCAAGGAATACAAAGAGAGACTGACCATCATGCACGAC
AAAACATACGACTTCGTGAAGAACCAAAGGGCCCGAGGTGTCCACCAGCC
ATCGTATGTCTCTGGCCTGCTTGAGAAGGACACTGTCCTTCCAGGATCTG
AAGAGGAAATTGTTGTCAAATACTCGGCTGGTGCTCTGTATGGCGGTGGT
GCTGATACGAGAGGCCGGAGCAATCATCCTTCGGATCGGATACGGATACA
CCATTGAGCCAAATGCGCGAGATCCCCTGGTGGACCTGGTCGACAAGGCC
ATGGATGACTTTTCTCAGATAGTTCTCCCAGGAGCCTGGCTGGTTAACTT
TGTTCCTTTCTGTCGGGATGGGACAAGACATTAGGCCTTCTCCCCTATAA
CAACCGGTTCCGCGCCTATCGGAAAGCCACGTACCGCGAACTCGGCTCGG
CCAACGCAGTAGCTAAATTCGATGGAATCGTGGATAAAGAAGTTACCCGG
TTTCTTCTGCGCGTTATTCGGTCACCGAACGACTTGATTGATCATCTTCG
CAAGCCCAATCAGCTCCGTCACTATATTTGGACAGACTCTCGTTGTTCTT
AATGATCCCGACATGGCCCTGGAGATGTTGGAGAAGCGTTCTGCAAAACA
CTCCTCCCGACCCCATCTTCCCATCGCAGATCTATGTTGTCCATAGCTAG
CCTTCTTGTCGGACTTGCATCCATTTACGTTCTCTATGTCTTTCTTAGAC
CTAAGAAGACATCAGCACCACTGCCCCCAGGGCCTCCTCCAAAACCCGTT
ATCGGCAATCTCAATGATCTCCCACCTCCCGGTTCCAAGGATTGGCAGCA
TTGGCTGGATCATAAGGAAAAATATGGGCCTTCATGCACGACCCAATCAA
CTACCGCAACCCCAAGACATTCAACCCCGACCGCTTTCTTGGAGCAGTTC
CTGAGCCAGACCCACGGCTATACGCCTTTGGATTCGGCCGACGCATCTGT
CCTGGTCGCTTGCTTGCCGAGAAGAGCATTTTCCTTACTGTCGCGCGGGC
ACTTGCGGTACTGGATATTCGGAAGAAAGTACGAGATGGCAAGGAAGTTC
CGATCCGTATCGAATTTTCTTCAGGGACTATTAGCCATCCTGTTCCTTTC
GAGGTGGATCTGAAACCGAGGAGTAAGGGGCATGAGGAGTTGGTGGGGGC
AGTGGAGAGAGAGTTTCCGTGGGAGGAGAGTCATGCGAAGGAGCTGGGGA
TCTGAACCGTCTCCGCTCTATCCTGCTTCTTTATGGCCATGGCCCTCAAC
CCATCCGTGCAAAAGAAAGCCAAAGAAGAAATCGACCGGGTCATAGGAAC
CTCCCGACTACCCGACCTCTCCGACCAGAACAACCTCCCGTACATCAACG
CCGTAGTCCAAGAAGTGTTCAGATGGCACCCCGTCACCCCTCTCAGCGTA
TCCCACGCATCCAGCGAAGAAGACATCTTCAACGGCTATCTAATCCCCAA
GGGTGCCATCATCGTTCCCAACGTCTGTGAAATACCTTCCCACTTGGCTG
CCTGGAGGAAAGGAAAACCAGATAGCCAAGGAATACAAAGAGAGACTGAC
CATCATGCACGACAAAACATACGACTTCGTGAAGAACCAAAGGGCCCGAG
GTGTCCACCAGCCATCGTATGTCTCTGGCCTGCTTGAGAAGGACACTGTC
CTTCCAGGATCTGAAGAGGAAATTGTTGTCAAATACTCGGCTGGTGCTCT
GTATGGCGGTGGTGCTGATACGAGAGGCCGGAGCAATCATCCTTCGGATC
GGATACGGATACACCATTGAGCCAAATGCGCGAGATCCCCTGGTGGACCT
GGTCGACAAGGCCATGGATGACTTTTCTCAGATAGTTCTCCCAGGAGCCT
GGCTGGTTAACTTTGTTCCTTTCTGTCGGGATGGGACAAGACATTAGGCC
TTCTCCCCTATAACAACCGGTTCCGCGCCTATCGGAAAGCCACGTACCGC
GAACTCGGCTCGGCCAACGCAGTAGCTAAATTCGATGGAATCGTGGATAA
AGAAGTTACCCGGTTTCTTCTGCGCGTTATTCGGTCACCGAACGACTTGA
TTGATCATCTTCGCAAGCCCAATCAGCTCCGTCACTATATTTGGACAGAC
TCTCGTTGTTCTTAATGATCCCGACATGGCCCTGGAGATGTTGGAGAAGC
GTTCTGCAAAACACTCCTCCCGACCCCATCTTCCCATCGCAGATCTATGT
TGTCCATAGCTAGCCTTCTTGTCGGACTTGCATCCATTTACGTTCTCTAT
GTCTTTCTTAGACCTAAGAAGACATCAGCACCACTGCCCCCAGGGCCTCC
TCCAAAACCCGTTATCGGCAATCTCAATGATCTCCCACCTCCCGGTTCCA
AGGATTGGCAGCATTGGCTGGATCATAAGGAAAAATATGGGCCTTCATGC
ACGACCCAATCAACTACCGCAACCCCAAGACATTCAACCCCGACCGCTTT
CTTGGAGCAGTTCCTGAGCCAGACCCACGGCTATACGCCTTTGGATTCGG
CCGACGCATCTGTCCTGGTCGCTTGCTTGCCGAGAAGAGCATTTTCCTTA
CTGTCGCGCGGGCACTTGCGGTACTGGATATTCGGAAGAAAGTACGAGAT
GGCAAGGAAGTTCCGATCCGTATCGAATTTTCTTCAGGGACTATTAGCCA
TCCTGTTCCTTTCGAGGTGGATCTGAAACCGAGGAGTAAGGGGCATGAGG
AGTTGGTGGGGGCAGTGGAGAGAGAGTTTCCGTGGGAGGAGAGTCATGCG
AAGGAGCTGGGGATCTGAACCGTCTCCGCTCTATCCTGCTTCTTTATGGC
CATGGCCCTCAACCCATCCGTGCAAAAGAAAGCCAAAGAAGAAATCGACC
GGGTCATAGGAACCTCCCGACTACCCGACCTCTCCGACCAGAACAACCTC
CCGTACATCAACGCCGTAGTCCAAGAAGTGTTCAGATGGCACCCCGTCAC
CCCTCTCAGCGTATCCCACGCATCCAGCGAAGAAGACATCTTCAACGGCT
ATCTAATCCCCAAGGGTGCCATCATCGTTCCCAACGTCTGTGAAATACCT
TCCCACTTGGCTGCCTGGAGGAAAGGAAAACCAGATAGCCAAGGAATACA
AAGAGAGACTGACCATCATGCACGACAAAACATACGACTTCGTGAAGAAC
CAAAGGGCCCGAGGTGTCCACCAGCCATCGTATGTCTCTGGCCTGCTTGA
GAAGGACACTGTCCTTCCAGGATCTGAAGAGGAAATTGTTGTCAAATACT
CGGCTGGTGCTCTGTATGGCGGTGGTGCTGATACGAGAGGCCGGAGCAAT
CATCCTTCGGATCGGATACGGATACACCATTGAGCCAAATGCGCGAGATC
CCCTGGTGGACCTGGTCGACAAGGCCATGGATGACTTTTCTCAGATAGTT
CTCCCAGGAGCCTGGCTGGTTAACTTTGTTCCTTTCTGTCGGGATGGGAC
AAGACATTAGGCCTTCTCCCCTATAACAACCGGTTCCGCGCCTATCGGAA
AGCCACGTACCGCGAACTCGGCTCGGCCAACGCAGTAGCTAAATTCGATG
GAATCGTGGATAAAGAAGTTACCCGGTTTCTTCTGCGCGTTATTCGGTCA
CCGAACGACTTGATTGATCATCTTCGCAAGCCCAATCAGCTCCGTCACTA
TATTTGGACAGACTCTCGTTGTTCTTAATGATCCCGACATGGCCCTGGAG
ATGTTGGAGAAGCGTTCTGCAAAACACTCCTCCCGACCCCATCTTCCCAT
CGCAGATCTATGTTGTCCATAGCTAGCCTTCTTGTCGGACTTGCATCCAT
TTACGTTCTCTATGTCTTTCTTAGACCTAAGAAGACATCAGCACCACTGC
CCCCAGGGCCTCCTCCAAAACCCGTTATCGGCAATCTCAATGATCTCCCA
CCTCCCGGTTCCAAGGATTGGCAGCATTGGCTGGATCATAAGGAAAAATA
TGGGCCTTCATGCACGACCCAATCAACTACCGCAACCCCAAGACATTCAA
CCCCGACCGCTTTCTTGGAGCAGTTCCTGAGCCAGACCCACGGCTATACG
CCTTTGGATTCGGCCGACGCATCTGTCCTGGTCGCTTGCTTGCCGAGAAG
AGCATTTTCCTTACTGTCGCGCGGGCACTTGCGGTACTGGATATTCGGAA
GAAAGTACGAGATGGCAAGGAAGTTCCGATCCGTATCGAATTTTCTTCAG
GGACTATTAGCCATCCTGTTCCTTTCGAGGTGGATCTGAAACCGAGGAGT
AAGGGGCATGAGGAGTTGGTGGGGGCAGTGGAGAGAGAGTTTCCGTGGGA
GGAGAGTCATGCGAAGGAGCTGGGGATCTGAACCGTCTCCGCTCTATCCT
GCTTCTTTATGGCCATGGCCCTCAACCCATCCGTGCAAAAGAAAGCCAAA
GAAGAAATCGACCGGGTCATAGGAACCTCCCGACTACCCGACCTCTCCGA
CCAGAACAACCTCCCGTACATCAACGCCGTAGTCCAAGAAGTGTTCAGAT
GGCACCCCGTCACCCCTCTCAGCGTATCCCACGCATCCAGCGAAGAAGAC
ATCTTCAACGGCTATCTAATCCCCAAGGGTGCCATCATCGTTCCCAACGT
CTGTGAAATACCTTCCCACTTGGCTGCCTGGAGGAAAGGAAAACCAGATA
GCCAAGGAATACAAAGAGAGACTGACCATCATGCACGACAAAACATACGA
CTTCGTGAAGAACCAAAGGGCCCGAGGTGTCCACCAGCCATCGTATGTCT
CTGGCCTGCTTGAGAAGGACACTGTCCTTCCAGGATCTGAAGAGGAAATT
GTTGTCAAATACTCGGCTGGTGCTCTGTATGGCGGTGGTGCTGATACGAG
AGGCCGGAGCAATCATCCTTCGGATCGGATACGGATACACCATTGAGCCA
AATGCGCGAGATCCCCTGGTGGACCTGGTCGACAAGGCCATGGATGACTT
TTCTCAGATAGTTCTCCCAGGAGCCTGGCTGGTTAACTTTGTTCCTTTCT
GTCGGGATGGGACAAGACATTAGGCCTTCTCCCCTATAACAACCGGTTCC
GCGCCTATCGGAAAGCCACGTACCGCGAACTCGGCTCGGCCAACGCAGTA
GCTAAATTCGATGGAATCGTGGATAAAGAAGTTACCCGGTTTCTTCTGCG
CGTTATTCGGTCACCGAACGACTTGATTGATCATCTTCGCAAGCCCAATC
AGCTCCGTCACTATATTTGGACAGACTCTCGTTGTTCTTAATGATCCCGA
CATGGCCCTGGAGATGTTGGAGAAGCGTTCTGCAAAACACTCCTCCCGAC
CCCATCTTCCCATCGCAGATCTATGTTGTCCATAGCTAGCCTTCTTGTCG
GACTTGCATCCATTTACGTTCTCTATGTCTTTCTTAGACCTAAGAAGACA
TCAGCACCACTGCCCCCAGGGCCTCCTCCAAAACCCGTTATCGGCAATCT
CAATGATCTCCCACCTCCCGGTTCCAAGGATTGGCAGCATTGGCTGGATC
ATAAGGAAAAATATGGGCCTTCATGCACGACCCAATCAACTACCGCAACC
CCAAGACATTCAACCCCGACCGCTTTCTTGGAGCAGTTCCTGAGCCAGAC
CCACGGCTATACGCCTTTGGATTCGGCCGACGCATCTGTCCTGGTCGCTT
GCTTGCCGAGAAGAGCATTTTCCTTACTGTCGCGCGGGCACTTGCGGTAC
TGGATATTCGGAAGAAAGTACGAGATGGCAAGGAAGTTCCGATCCGTATC
GAATTTTCTTCAGGGACTATTAGCCATCCTGTTCCTTTCGAGGTGGATCT
GAAACCGAGGAGTAAGGGGCATGAGGAGTTGGTGGGGGCAGTGGAGAGAG
AGTTTCCGTGGGAGGAGAGTCATGCGAAGGAGCTGGGGATCTGAACCGTC
TCCGCTCTATCCTGCTTCTTTATGGCCATGGCCCTCAACCCATCCGTGCA
AAAGAAAGCCAAAGAAGAAATCGACCGGGTCATAGGAACCTCCCGACTAC
CCGACCTCTCCGACCAGAACAACCTCCCGTACATCAACGCCGTAGTCCAA
GAAGTGTTCAGATGGCACCCCGTCACCCCTCTCAGCGTATCCCACGCATC
CAGCGAAGAAGACATCTTCAACGGCTATCTAATCCCCAAGGGTGCCATCA
TCGTTCCCAACGTCTGTGAAATACCTTCCCACTTGGCTGCCTGGAGGAAA
GGAAAACCAGATAGCCAAGGAATACAAAGAGAGACTGACCATCATGCACG
ACAAAACATACGACTTCGTGAAGAACCAAAGGGCCCGAGGTGTCCACCAG
CCATCGTATGTCTCTGGCCTGCTTGAGAAGGACACTGTCCTTCCAGGATC
TGAAGAGGAAATTGTTGTCAAATACTCGGCTGGTGCTCTGTATGGCGGTG
GTGCTGATACGAGAGGCCGGAGCAATCATCCTTCGGATCGGATACGGATA
CACCATTGAGCCAAATGCGCGAGATCCCCTGGTGGACCTGGTCGACAAGG
CCATGGATGACTTTTCTCAGATAGTTCTCCCAGGAGCCTGGCTGGTTAAC
TTTGTTCCTTTCTGTCGGGATGGGACAAGACATTAGGCCTTCTCCCCTAT
AACAACCGGTTCCGCGCCTATCGGAAAGCCACGTACCGCGAACTCGGCTC
GGCCAACGCAGTAGCTAAATTCGATGGAATCGTGGATAAAGAAGTTACCC
GGTTTCTTCTGCGCGTTATTCGGTCACCGAACGACTTGATTGATCATCTT
CGCAAGCCCAATCAGCTCCGTCACTATATTTGGACAGACTCTCGTTGTTC
TTAATGATCCCGACATGGCCCTGGAGATGTTGGAGAAGCGTTCTGCAAAA
CACTCCTCCCGACCCCATCTTCCCATCGCAGATCTATGTTGTCCATAGCT
AGCCTTCTTGTCGGACTTGCATCCATTTACGTTCTCTATGTCTTTCTTAG
ACCTAAGAAGACATCAGCACCACTGCCCCCAGGGCCTCCTCCAAAACCCG
TTATCGGCAATCTCAATGATCTCCCACCTCCCGGTTCCAAGGATTGGCAG
CATTGGCTGGATCATAAGGAAAAATATGGGCCTTCATGCACGACCCAATC
AACTACCGCAACCCCAAGACATTCAACCCCGACCGCTTTCTTGGAGCAGT
TCCTGAGCCAGACCCACGGCTATACGCCTTTGGATTCGGCCGACGCATCT
GTCCTGGTCGCTTGCTTGCCGAGAAGAGCATTTTCCTTACTGTCGCGCGG
GCACTTGCGGTACTGGATATTCGGAAGAAAGTACGAGATGGCAAGGAAGT
TCCGATCCGTATCGAATTTTCTTCAGGGACTATTAGCCATCCTGTTCCTT
TCGAGGTGGATCTGAAACCGAGGAGTAAGGGGCATGAGGAGTTGGTGGGG
GCAGTGGAGAGAGAGTTTCCGTGGGAGGAGAGTCATGCGAAGGAGCTGGG
GATCTGAACCGTCTCCGCTCTATCCTGCTTCTTTATGGCCATGGCCCTCA
ACCCATCCGTGCAAAAGAAAGCCAAAGAAGAAATCGACCGGGTCATAGGA
ACCTCCCGACTACCCGACCTCTCCGACCAGAACAACCTCCCGTACATCAA
CGCCGTAGTCCAAGAAGTGTTCAGATGGCACCCCGTCACCCCTCTCAGCG
TATCCCACGCATCCAGCGAAGAAGACATCTTCAACGGCTATCTAATCCCC
AAGGGTGCCATCATCGTTCCCAACGTCTGTGAAATACCTTCCCACTTGGC
TGCCTGGAGGAAAGGAAAACCAGATAGCCAAGGAATACAAAGAGAGACTG
ACCATCATGCACGACAAAACATACGACTTCGTGAAGAACCAAAGGGCCCG
AGGTGTCCACCAGCCATCGTATGTCTCTGGCCTGCTTGAGAAGGACACTG
TCCTTCCAGGATCTGAAGAGGAAATTGTTGTCAAATACTCGGCTGGTGCT
CTGTATGGCGGTGGTGCTGATACGAGAGGCCGGAGCAATCATCCTTCGGA
TCGGATACGGATACACCATTGAGCCAAATGCGCGAGATCCCCTGGTGGAC
CTGGTCGACAAGGCCATGGATGACTTTTCTCAGATAGTTCTCCCAGGAGC
CTGGCTGGTTAACTTTGTTCCTTTCTGTCGGGATGGGACAAGACATTAGG
CCTTCTCCCCTATAACAACCGGTTCCGCGCCTATCGGAAAGCCACGTACC
GCGAACTCGGCTCGGCCAACGCAGTAGCTAAATTCGATGGAATCGTGGAT
AAAGAAGTTACCCGGTTTCTTCTGCGCGTTATTCGGTCACCGAACGACTT
GATTGATCATCTTCGCAAGCCCAATCAGCTCCGTCACTATATTTGGACAG
ACTCTCGTTGTTCTTAATGATCCCGACATGGCCCTGGAGATGTTGGAGAA
GCGTTCTGCAAAACACTCCTCCCGACCCCATCTTCCCATCGCAGATCTAT
GTTGTCCATAGCTAGCCTTCTTGTCGGACTTGCATCCATTTACGTTCTCT
ATGTCTTTCTTAGACCTAAGAAGACATCAGCACCACTGCCCCCAGGGCCT
CCTCCAAAACCCGTTATCGGCAATCTCAATGATCTCCCACCTCCCGGTTC
CAAGGATTGGCAGCATTGGCTGGATCATAAGGAAAAATATG
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0005506iron ion binding
GO:0020037heme binding
GO:0004497monooxygenase activity
GO:0016705oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen
Relationships

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

Feature NameUnique NameSpeciesType
ATCC10864_001115ATCC10864_001115Aspergillus niger ATCC 10864gene


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

Feature NameUnique NameSpeciesType
ATCC10864_001115-T1ATCC10864_001115-T1-proteinAspergillus niger ATCC 10864polypeptide


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

Feature NameUnique NameSpeciesType
ATCC10864_001115-T1.cdsATCC10864_001115-T1.cdsAspergillus niger ATCC 10864CDS


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

Feature NameUnique NameSpeciesType
ATCC10864_001115-T1.exon7ATCC10864_001115-T1.exon7Aspergillus niger ATCC 10864exon
ATCC10864_001115-T1.exon6ATCC10864_001115-T1.exon6Aspergillus niger ATCC 10864exon
ATCC10864_001115-T1.exon5ATCC10864_001115-T1.exon5Aspergillus niger ATCC 10864exon
ATCC10864_001115-T1.exon4ATCC10864_001115-T1.exon4Aspergillus niger ATCC 10864exon
ATCC10864_001115-T1.exon3ATCC10864_001115-T1.exon3Aspergillus niger ATCC 10864exon
ATCC10864_001115-T1.exon2ATCC10864_001115-T1.exon2Aspergillus niger ATCC 10864exon
ATCC10864_001115-T1.exon1ATCC10864_001115-T1.exon1Aspergillus niger ATCC 10864exon


Cross References
External references for this mRNA
DatabaseAccession
InterProIPR017972
InterProIPR001128
InterProIPR002401
PFAMPF00067
InterProIPR036396
Properties
Property NameValue
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
MCQH01000019supercontigMCQH01000019:934472..936364 -
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