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ASPNIDRAFT_47913-T1, ASPNIDRAFT_47913-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_47913-T1
Unique NameASPNIDRAFT_47913-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000019.1:893901..895897+

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_47913-T1 ID=ASPNIDRAFT_47913-T1|Name=ASPNIDRAFT_47913-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=1997bp|location=Sequence derived from alignment at ACJE01000019.1:893901..895897+ (Aspergillus niger ATCC 1015)
ATGTTGTCCATAGCTAGCCTTCTTGTCGGACTTGCATCAATTTACGTTCT
CTATGTCTTTCTTGGACCTAAGAAGACATCAGCACCACTGCCCCCAGGGC
CTCCTCCAAAACCTGTTATCGGCAATCTCAATGATCTCCCACCTCCCGGT
TCCAAGGATTGGCAGCATTGGCTGGATCATAAGGAAAAATATGGTATATC
CCCCTTTTATCCTACCTTTAGAACGGCATCTTCCATTATAATAACCTTCG
ACTCTAGGCCCAATCAGCTCCGTCACTATATTTGGACAGACTCTCGTTGT
TCTTAATGATCCCGACATGGCACTGGAGATGTTGGAGAAGCGTTCTGCAA
AACACTCCTCCCGACCCCATCTTCCCATCGCAGATCTGTTAGTTCCACAC
TAATCTCACTCGTTACAAGTGACACAATATACTAATCTGCACCCCTAGGT
CGGGATGGGACAAGACATTAGGCCTTCTCCCCTATAACAACCGATTCCGC
GCCTATCGGAAAGCCACGTACCGCGAACTCGGCTCGGCCAACGCAGTAGC
TAAATTCGATGGAATCGTGGATAAAGAAGTTACCCGGTTTCTTCTGCGCG
TTATTCGGTCACCGAACGACTTGATTGATCATCTTCGCAAGTAAGTCCTG
CAGCTTGCAACAAAGTTGCTCTATGCCTAATCGTCCCATAGAGAGGCCGG
AGCAATCATCCTTCGGATCGGATACGGATACACCATTGAGCCAAATGCGC
GAGATCCCCTGGTGGACCTGGTCGACAAGGCCATGGATGACTTTTCTCAG
ATAGTTCTCCCAGGAGCCTGGCTGGTTAACTTTGTTCCTTTCTGTAAGTC
TGCTAACCTCCCTTGGATGATTTGGACGCTGACTTTGCAGTGAAATACCT
TCCCACTTGGTTGCCTGGAGGAAAGGAAAATCAGATAGCCAAGGAATACA
AAGAGAGACTGACTATCATGCACGACAAAACATACGACTTCGTGAAGAAC
CAAATGGCCCGAGGTGTCCACCAGCCATCGTATGTCTCTGGCCTGCTTGA
GAAGGACACTGTCCTTCCAGGCTCTGAAGAGGAGATTGTTGTCAAATACT
CGGCTGGTGCTCTGTATGGCGGTGGTGCTGATACGGTGCGTATTGATCAC
CACAATCATCACCATATCTCCGCTAACCGCGCATAGACCGTCTCCGCTCT
ATCCTGCTTCTTTATGGCCATGGCCCTCAACCCATCCGTGCAAAAGAAAG
CCAAAGAAGAAATCGACCAGGTTATAGGAACCTCCCGACTACCCGACCTC
TCCAACCAGAACGACCTCCCGTACATCAACGCCGTAGTCCAAGAAGTGTT
CAGATGGCACCCCGTCACCCCTCTCAGCGTATCCCACGCCTCCAGCGAAG
AAGACATCTTCAACGGCTATCTAATCCCCAAGGGTGCCATCATCGTTCCC
AACGTCTGGTATGCGTCCCCCTTCCCTCCTCAAACCCACCAACTCATACC
TAACCCAAAACCAGGGCCTTCACCCACGACCCAACCAACTACCGCAACCC
CGAGACATTCAACCCCGACCGATTTCTCGGGGCAGCCCCTGAGCCAGACC
CACGACTATACGCCTTTGGATTCGGCAGACGCATCTGTCCTGGTCGCTTG
CTCGCCGAGAAGAGCATTTTCCTTACTGTCGCGCGGGCACTTGCGGTACT
GGATATTCGGAAGAAGGTACGAGATGGCAAGGAAGTTCCGATTCGGGTCG
AATTTTCTTCAGGGACTATTAGCCATCCTGTTCCTTTCGAGGTGGATCTG
AAACCGAGGAGTAAGGGGCATGAGAAGTTGGTGGGGGCAGTGGAGAGAGA
GTTCCGTGGGAGGAGAGTCATGCGAAGGAGCTGGGGATCTGAGGATATGG
ACGACTGGTATTATAGAGGAAGATGTTGATATTGGAATGTGTCGAGTTGT
GAGGAGAATATTCTCTGTTTGCTGGGATGAGGTACATAGCGAGATGA
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Coding sequence (CDS) from alignment at ACJE01000019.1:893901..895897+

>ASPNIDRAFT_47913-T1 ID=ASPNIDRAFT_47913-T1|Name=ASPNIDRAFT_47913-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=12744bp|location=Sequence derived from alignment at ACJE01000019.1:893901..895897+ (Aspergillus niger ATCC 1015)
ATGTTGTCCATAGCTAGCCTTCTTGTCGGACTTGCATCAATTTACGTTCT
CTATGTCTTTCTTGGACCTAAGAAGACATCAGCACCACTGCCCCCAGGGC
CTCCTCCAAAACCTGTTATCGGCAATCTCAATGATCTCCCACCTCCCGGT
TCCAAGGATTGGCAGCATTGGCTGGATCATAAGGAAAAATATGGCCCAAT
CAGCTCCGTCACTATATTTGGACAGACTCTCGTTGTTCTTAATGATCCCG
ACATGGCACTGGAGATGTTGGAGAAGCGTTCTGCAAAACACTCCTCCCGA
CCCCATCTTCCCATCGCAGATCTGTCGGGATGGGACAAGACATTAGGCCT
TCTCCCCTATAACAACCGATTCCGCGCCTATCGGAAAGCCACGTACCGCG
AACTCGGCTCGGCCAACGCAGTAGCTAAATTCGATGGAATCGTGGATAAA
GAAGTTACCCGGTTTCTTCTGCGCGTTATTCGGTCACCGAACGACTTGAT
TGATCATCTTCGCAAAGAGGCCGGAGCAATCATCCTTCGGATCGGATACG
GATACACCATTGAGCCAAATGCGCGAGATCCCCTGGTGGACCTGGTCGAC
AAGGCCATGGATGACTTTTCTCAGATAGTTCTCCCAGGAGCCTGGCTGGT
TAACTTTGTTCCTTTCTTGAAATACCTTCCCACTTGGTTGCCTGGAGGAA
AGGAAAATCAGATAGCCAAGGAATACAAAGAGAGACTGACTATCATGCAC
GACAAAACATACGACTTCGTGAAGAACCAAATGGCCCGAGGTGTCCACCA
GCCATCGTATGTCTCTGGCCTGCTTGAGAAGGACACTGTCCTTCCAGGCT
CTGAAGAGGAGATTGTTGTCAAATACTCGGCTGGTGCTCTGTATGGCGGT
GGTGCTGATACGACCGTCTCCGCTCTATCCTGCTTCTTTATGGCCATGGC
CCTCAACCCATCCGTGCAAAAGAAAGCCAAAGAAGAAATCGACCAGGTTA
TAGGAACCTCCCGACTACCCGACCTCTCCAACCAGAACGACCTCCCGTAC
ATCAACGCCGTAGTCCAAGAAGTGTTCAGATGGCACCCCGTCACCCCTCT
CAGCGTATCCCACGCCTCCAGCGAAGAAGACATCTTCAACGGCTATCTAA
TCCCCAAGGGTGCCATCATCGTTCCCAACGTCTGGGCCTTCACCCACGAC
CCAACCAACTACCGCAACCCCGAGACATTCAACCCCGACCGATTTCTCGG
GGCAGCCCCTGAGCCAGACCCACGACTATACGCCTTTGGATTCGGCAGAC
GCATCTGTCCTGGTCGCTTGCTCGCCGAGAAGAGCATTTTCCTTACTGTC
GCGCGGGCACTTGCGGTACTGGATATTCGGAAGAAGGTACGAGATGGCAA
GGAAGTTCCGATTCGGGTCGAATTTTCTTCAGGGACTATTAGCCATCCTG
TTCCTTTCGAGGTGGATCTGAAACCGAGGAGTAAGGGGCATGAGAAGTTG
GTGGGGGCAGTGGAGAGAGAGTTCCGTGGGAGGAGAGTCATGCGAAGGAG
CTGGGGATCTGAGGATATGGACGACTGGTACATAGCGAGATGAATGTTGT
CCATAGCTAGCCTTCTTGTCGGACTTGCATCAATTTACGTTCTCTATGTC
TTTCTTGGACCTAAGAAGACATCAGCACCACTGCCCCCAGGGCCTCCTCC
AAAACCTGTTATCGGCAATCTCAATGATCTCCCACCTCCCGGTTCCAAGG
ATTGGCAGCATTGGCTGGATCATAAGGAAAAATATGGCCCAATCAGCTCC
GTCACTATATTTGGACAGACTCTCGTTGTTCTTAATGATCCCGACATGGC
ACTGGAGATGTTGGAGAAGCGTTCTGCAAAACACTCCTCCCGACCCCATC
TTCCCATCGCAGATCTGTCGGGATGGGACAAGACATTAGGCCTTCTCCCC
TATAACAACCGATTCCGCGCCTATCGGAAAGCCACGTACCGCGAACTCGG
CTCGGCCAACGCAGTAGCTAAATTCGATGGAATCGTGGATAAAGAAGTTA
CCCGGTTTCTTCTGCGCGTTATTCGGTCACCGAACGACTTGATTGATCAT
CTTCGCAAAGAGGCCGGAGCAATCATCCTTCGGATCGGATACGGATACAC
CATTGAGCCAAATGCGCGAGATCCCCTGGTGGACCTGGTCGACAAGGCCA
TGGATGACTTTTCTCAGATAGTTCTCCCAGGAGCCTGGCTGGTTAACTTT
GTTCCTTTCTTGAAATACCTTCCCACTTGGTTGCCTGGAGGAAAGGAAAA
TCAGATAGCCAAGGAATACAAAGAGAGACTGACTATCATGCACGACAAAA
CATACGACTTCGTGAAGAACCAAATGGCCCGAGGTGTCCACCAGCCATCG
TATGTCTCTGGCCTGCTTGAGAAGGACACTGTCCTTCCAGGCTCTGAAGA
GGAGATTGTTGTCAAATACTCGGCTGGTGCTCTGTATGGCGGTGGTGCTG
ATACGACCGTCTCCGCTCTATCCTGCTTCTTTATGGCCATGGCCCTCAAC
CCATCCGTGCAAAAGAAAGCCAAAGAAGAAATCGACCAGGTTATAGGAAC
CTCCCGACTACCCGACCTCTCCAACCAGAACGACCTCCCGTACATCAACG
CCGTAGTCCAAGAAGTGTTCAGATGGCACCCCGTCACCCCTCTCAGCGTA
TCCCACGCCTCCAGCGAAGAAGACATCTTCAACGGCTATCTAATCCCCAA
GGGTGCCATCATCGTTCCCAACGTCTGGGCCTTCACCCACGACCCAACCA
ACTACCGCAACCCCGAGACATTCAACCCCGACCGATTTCTCGGGGCAGCC
CCTGAGCCAGACCCACGACTATACGCCTTTGGATTCGGCAGACGCATCTG
TCCTGGTCGCTTGCTCGCCGAGAAGAGCATTTTCCTTACTGTCGCGCGGG
CACTTGCGGTACTGGATATTCGGAAGAAGGTACGAGATGGCAAGGAAGTT
CCGATTCGGGTCGAATTTTCTTCAGGGACTATTAGCCATCCTGTTCCTTT
CGAGGTGGATCTGAAACCGAGGAGTAAGGGGCATGAGAAGTTGGTGGGGG
CAGTGGAGAGAGAGTTCCGTGGGAGGAGAGTCATGCGAAGGAGCTGGGGA
TCTGAGGATATGGACGACTGGTACATAGCGAGATGAATGTTGTCCATAGC
TAGCCTTCTTGTCGGACTTGCATCAATTTACGTTCTCTATGTCTTTCTTG
GACCTAAGAAGACATCAGCACCACTGCCCCCAGGGCCTCCTCCAAAACCT
GTTATCGGCAATCTCAATGATCTCCCACCTCCCGGTTCCAAGGATTGGCA
GCATTGGCTGGATCATAAGGAAAAATATGGCCCAATCAGCTCCGTCACTA
TATTTGGACAGACTCTCGTTGTTCTTAATGATCCCGACATGGCACTGGAG
ATGTTGGAGAAGCGTTCTGCAAAACACTCCTCCCGACCCCATCTTCCCAT
CGCAGATCTGTCGGGATGGGACAAGACATTAGGCCTTCTCCCCTATAACA
ACCGATTCCGCGCCTATCGGAAAGCCACGTACCGCGAACTCGGCTCGGCC
AACGCAGTAGCTAAATTCGATGGAATCGTGGATAAAGAAGTTACCCGGTT
TCTTCTGCGCGTTATTCGGTCACCGAACGACTTGATTGATCATCTTCGCA
AAGAGGCCGGAGCAATCATCCTTCGGATCGGATACGGATACACCATTGAG
CCAAATGCGCGAGATCCCCTGGTGGACCTGGTCGACAAGGCCATGGATGA
CTTTTCTCAGATAGTTCTCCCAGGAGCCTGGCTGGTTAACTTTGTTCCTT
TCTTGAAATACCTTCCCACTTGGTTGCCTGGAGGAAAGGAAAATCAGATA
GCCAAGGAATACAAAGAGAGACTGACTATCATGCACGACAAAACATACGA
CTTCGTGAAGAACCAAATGGCCCGAGGTGTCCACCAGCCATCGTATGTCT
CTGGCCTGCTTGAGAAGGACACTGTCCTTCCAGGCTCTGAAGAGGAGATT
GTTGTCAAATACTCGGCTGGTGCTCTGTATGGCGGTGGTGCTGATACGAC
CGTCTCCGCTCTATCCTGCTTCTTTATGGCCATGGCCCTCAACCCATCCG
TGCAAAAGAAAGCCAAAGAAGAAATCGACCAGGTTATAGGAACCTCCCGA
CTACCCGACCTCTCCAACCAGAACGACCTCCCGTACATCAACGCCGTAGT
CCAAGAAGTGTTCAGATGGCACCCCGTCACCCCTCTCAGCGTATCCCACG
CCTCCAGCGAAGAAGACATCTTCAACGGCTATCTAATCCCCAAGGGTGCC
ATCATCGTTCCCAACGTCTGGGCCTTCACCCACGACCCAACCAACTACCG
CAACCCCGAGACATTCAACCCCGACCGATTTCTCGGGGCAGCCCCTGAGC
CAGACCCACGACTATACGCCTTTGGATTCGGCAGACGCATCTGTCCTGGT
CGCTTGCTCGCCGAGAAGAGCATTTTCCTTACTGTCGCGCGGGCACTTGC
GGTACTGGATATTCGGAAGAAGGTACGAGATGGCAAGGAAGTTCCGATTC
GGGTCGAATTTTCTTCAGGGACTATTAGCCATCCTGTTCCTTTCGAGGTG
GATCTGAAACCGAGGAGTAAGGGGCATGAGAAGTTGGTGGGGGCAGTGGA
GAGAGAGTTCCGTGGGAGGAGAGTCATGCGAAGGAGCTGGGGATCTGAGG
ATATGGACGACTGGTACATAGCGAGATGAATGTTGTCCATAGCTAGCCTT
CTTGTCGGACTTGCATCAATTTACGTTCTCTATGTCTTTCTTGGACCTAA
GAAGACATCAGCACCACTGCCCCCAGGGCCTCCTCCAAAACCTGTTATCG
GCAATCTCAATGATCTCCCACCTCCCGGTTCCAAGGATTGGCAGCATTGG
CTGGATCATAAGGAAAAATATGGCCCAATCAGCTCCGTCACTATATTTGG
ACAGACTCTCGTTGTTCTTAATGATCCCGACATGGCACTGGAGATGTTGG
AGAAGCGTTCTGCAAAACACTCCTCCCGACCCCATCTTCCCATCGCAGAT
CTGTCGGGATGGGACAAGACATTAGGCCTTCTCCCCTATAACAACCGATT
CCGCGCCTATCGGAAAGCCACGTACCGCGAACTCGGCTCGGCCAACGCAG
TAGCTAAATTCGATGGAATCGTGGATAAAGAAGTTACCCGGTTTCTTCTG
CGCGTTATTCGGTCACCGAACGACTTGATTGATCATCTTCGCAAAGAGGC
CGGAGCAATCATCCTTCGGATCGGATACGGATACACCATTGAGCCAAATG
CGCGAGATCCCCTGGTGGACCTGGTCGACAAGGCCATGGATGACTTTTCT
CAGATAGTTCTCCCAGGAGCCTGGCTGGTTAACTTTGTTCCTTTCTTGAA
ATACCTTCCCACTTGGTTGCCTGGAGGAAAGGAAAATCAGATAGCCAAGG
AATACAAAGAGAGACTGACTATCATGCACGACAAAACATACGACTTCGTG
AAGAACCAAATGGCCCGAGGTGTCCACCAGCCATCGTATGTCTCTGGCCT
GCTTGAGAAGGACACTGTCCTTCCAGGCTCTGAAGAGGAGATTGTTGTCA
AATACTCGGCTGGTGCTCTGTATGGCGGTGGTGCTGATACGACCGTCTCC
GCTCTATCCTGCTTCTTTATGGCCATGGCCCTCAACCCATCCGTGCAAAA
GAAAGCCAAAGAAGAAATCGACCAGGTTATAGGAACCTCCCGACTACCCG
ACCTCTCCAACCAGAACGACCTCCCGTACATCAACGCCGTAGTCCAAGAA
GTGTTCAGATGGCACCCCGTCACCCCTCTCAGCGTATCCCACGCCTCCAG
CGAAGAAGACATCTTCAACGGCTATCTAATCCCCAAGGGTGCCATCATCG
TTCCCAACGTCTGGGCCTTCACCCACGACCCAACCAACTACCGCAACCCC
GAGACATTCAACCCCGACCGATTTCTCGGGGCAGCCCCTGAGCCAGACCC
ACGACTATACGCCTTTGGATTCGGCAGACGCATCTGTCCTGGTCGCTTGC
TCGCCGAGAAGAGCATTTTCCTTACTGTCGCGCGGGCACTTGCGGTACTG
GATATTCGGAAGAAGGTACGAGATGGCAAGGAAGTTCCGATTCGGGTCGA
ATTTTCTTCAGGGACTATTAGCCATCCTGTTCCTTTCGAGGTGGATCTGA
AACCGAGGAGTAAGGGGCATGAGAAGTTGGTGGGGGCAGTGGAGAGAGAG
TTCCGTGGGAGGAGAGTCATGCGAAGGAGCTGGGGATCTGAGGATATGGA
CGACTGGTACATAGCGAGATGAATGTTGTCCATAGCTAGCCTTCTTGTCG
GACTTGCATCAATTTACGTTCTCTATGTCTTTCTTGGACCTAAGAAGACA
TCAGCACCACTGCCCCCAGGGCCTCCTCCAAAACCTGTTATCGGCAATCT
CAATGATCTCCCACCTCCCGGTTCCAAGGATTGGCAGCATTGGCTGGATC
ATAAGGAAAAATATGGCCCAATCAGCTCCGTCACTATATTTGGACAGACT
CTCGTTGTTCTTAATGATCCCGACATGGCACTGGAGATGTTGGAGAAGCG
TTCTGCAAAACACTCCTCCCGACCCCATCTTCCCATCGCAGATCTGTCGG
GATGGGACAAGACATTAGGCCTTCTCCCCTATAACAACCGATTCCGCGCC
TATCGGAAAGCCACGTACCGCGAACTCGGCTCGGCCAACGCAGTAGCTAA
ATTCGATGGAATCGTGGATAAAGAAGTTACCCGGTTTCTTCTGCGCGTTA
TTCGGTCACCGAACGACTTGATTGATCATCTTCGCAAAGAGGCCGGAGCA
ATCATCCTTCGGATCGGATACGGATACACCATTGAGCCAAATGCGCGAGA
TCCCCTGGTGGACCTGGTCGACAAGGCCATGGATGACTTTTCTCAGATAG
TTCTCCCAGGAGCCTGGCTGGTTAACTTTGTTCCTTTCTTGAAATACCTT
CCCACTTGGTTGCCTGGAGGAAAGGAAAATCAGATAGCCAAGGAATACAA
AGAGAGACTGACTATCATGCACGACAAAACATACGACTTCGTGAAGAACC
AAATGGCCCGAGGTGTCCACCAGCCATCGTATGTCTCTGGCCTGCTTGAG
AAGGACACTGTCCTTCCAGGCTCTGAAGAGGAGATTGTTGTCAAATACTC
GGCTGGTGCTCTGTATGGCGGTGGTGCTGATACGACCGTCTCCGCTCTAT
CCTGCTTCTTTATGGCCATGGCCCTCAACCCATCCGTGCAAAAGAAAGCC
AAAGAAGAAATCGACCAGGTTATAGGAACCTCCCGACTACCCGACCTCTC
CAACCAGAACGACCTCCCGTACATCAACGCCGTAGTCCAAGAAGTGTTCA
GATGGCACCCCGTCACCCCTCTCAGCGTATCCCACGCCTCCAGCGAAGAA
GACATCTTCAACGGCTATCTAATCCCCAAGGGTGCCATCATCGTTCCCAA
CGTCTGGGCCTTCACCCACGACCCAACCAACTACCGCAACCCCGAGACAT
TCAACCCCGACCGATTTCTCGGGGCAGCCCCTGAGCCAGACCCACGACTA
TACGCCTTTGGATTCGGCAGACGCATCTGTCCTGGTCGCTTGCTCGCCGA
GAAGAGCATTTTCCTTACTGTCGCGCGGGCACTTGCGGTACTGGATATTC
GGAAGAAGGTACGAGATGGCAAGGAAGTTCCGATTCGGGTCGAATTTTCT
TCAGGGACTATTAGCCATCCTGTTCCTTTCGAGGTGGATCTGAAACCGAG
GAGTAAGGGGCATGAGAAGTTGGTGGGGGCAGTGGAGAGAGAGTTCCGTG
GGAGGAGAGTCATGCGAAGGAGCTGGGGATCTGAGGATATGGACGACTGG
TACATAGCGAGATGAATGTTGTCCATAGCTAGCCTTCTTGTCGGACTTGC
ATCAATTTACGTTCTCTATGTCTTTCTTGGACCTAAGAAGACATCAGCAC
CACTGCCCCCAGGGCCTCCTCCAAAACCTGTTATCGGCAATCTCAATGAT
CTCCCACCTCCCGGTTCCAAGGATTGGCAGCATTGGCTGGATCATAAGGA
AAAATATGGCCCAATCAGCTCCGTCACTATATTTGGACAGACTCTCGTTG
TTCTTAATGATCCCGACATGGCACTGGAGATGTTGGAGAAGCGTTCTGCA
AAACACTCCTCCCGACCCCATCTTCCCATCGCAGATCTGTCGGGATGGGA
CAAGACATTAGGCCTTCTCCCCTATAACAACCGATTCCGCGCCTATCGGA
AAGCCACGTACCGCGAACTCGGCTCGGCCAACGCAGTAGCTAAATTCGAT
GGAATCGTGGATAAAGAAGTTACCCGGTTTCTTCTGCGCGTTATTCGGTC
ACCGAACGACTTGATTGATCATCTTCGCAAAGAGGCCGGAGCAATCATCC
TTCGGATCGGATACGGATACACCATTGAGCCAAATGCGCGAGATCCCCTG
GTGGACCTGGTCGACAAGGCCATGGATGACTTTTCTCAGATAGTTCTCCC
AGGAGCCTGGCTGGTTAACTTTGTTCCTTTCTTGAAATACCTTCCCACTT
GGTTGCCTGGAGGAAAGGAAAATCAGATAGCCAAGGAATACAAAGAGAGA
CTGACTATCATGCACGACAAAACATACGACTTCGTGAAGAACCAAATGGC
CCGAGGTGTCCACCAGCCATCGTATGTCTCTGGCCTGCTTGAGAAGGACA
CTGTCCTTCCAGGCTCTGAAGAGGAGATTGTTGTCAAATACTCGGCTGGT
GCTCTGTATGGCGGTGGTGCTGATACGACCGTCTCCGCTCTATCCTGCTT
CTTTATGGCCATGGCCCTCAACCCATCCGTGCAAAAGAAAGCCAAAGAAG
AAATCGACCAGGTTATAGGAACCTCCCGACTACCCGACCTCTCCAACCAG
AACGACCTCCCGTACATCAACGCCGTAGTCCAAGAAGTGTTCAGATGGCA
CCCCGTCACCCCTCTCAGCGTATCCCACGCCTCCAGCGAAGAAGACATCT
TCAACGGCTATCTAATCCCCAAGGGTGCCATCATCGTTCCCAACGTCTGG
GCCTTCACCCACGACCCAACCAACTACCGCAACCCCGAGACATTCAACCC
CGACCGATTTCTCGGGGCAGCCCCTGAGCCAGACCCACGACTATACGCCT
TTGGATTCGGCAGACGCATCTGTCCTGGTCGCTTGCTCGCCGAGAAGAGC
ATTTTCCTTACTGTCGCGCGGGCACTTGCGGTACTGGATATTCGGAAGAA
GGTACGAGATGGCAAGGAAGTTCCGATTCGGGTCGAATTTTCTTCAGGGA
CTATTAGCCATCCTGTTCCTTTCGAGGTGGATCTGAAACCGAGGAGTAAG
GGGCATGAGAAGTTGGTGGGGGCAGTGGAGAGAGAGTTCCGTGGGAGGAG
AGTCATGCGAAGGAGCTGGGGATCTGAGGATATGGACGACTGGTACATAG
CGAGATGAATGTTGTCCATAGCTAGCCTTCTTGTCGGACTTGCATCAATT
TACGTTCTCTATGTCTTTCTTGGACCTAAGAAGACATCAGCACCACTGCC
CCCAGGGCCTCCTCCAAAACCTGTTATCGGCAATCTCAATGATCTCCCAC
CTCCCGGTTCCAAGGATTGGCAGCATTGGCTGGATCATAAGGAAAAATAT
GGCCCAATCAGCTCCGTCACTATATTTGGACAGACTCTCGTTGTTCTTAA
TGATCCCGACATGGCACTGGAGATGTTGGAGAAGCGTTCTGCAAAACACT
CCTCCCGACCCCATCTTCCCATCGCAGATCTGTCGGGATGGGACAAGACA
TTAGGCCTTCTCCCCTATAACAACCGATTCCGCGCCTATCGGAAAGCCAC
GTACCGCGAACTCGGCTCGGCCAACGCAGTAGCTAAATTCGATGGAATCG
TGGATAAAGAAGTTACCCGGTTTCTTCTGCGCGTTATTCGGTCACCGAAC
GACTTGATTGATCATCTTCGCAAAGAGGCCGGAGCAATCATCCTTCGGAT
CGGATACGGATACACCATTGAGCCAAATGCGCGAGATCCCCTGGTGGACC
TGGTCGACAAGGCCATGGATGACTTTTCTCAGATAGTTCTCCCAGGAGCC
TGGCTGGTTAACTTTGTTCCTTTCTTGAAATACCTTCCCACTTGGTTGCC
TGGAGGAAAGGAAAATCAGATAGCCAAGGAATACAAAGAGAGACTGACTA
TCATGCACGACAAAACATACGACTTCGTGAAGAACCAAATGGCCCGAGGT
GTCCACCAGCCATCGTATGTCTCTGGCCTGCTTGAGAAGGACACTGTCCT
TCCAGGCTCTGAAGAGGAGATTGTTGTCAAATACTCGGCTGGTGCTCTGT
ATGGCGGTGGTGCTGATACGACCGTCTCCGCTCTATCCTGCTTCTTTATG
GCCATGGCCCTCAACCCATCCGTGCAAAAGAAAGCCAAAGAAGAAATCGA
CCAGGTTATAGGAACCTCCCGACTACCCGACCTCTCCAACCAGAACGACC
TCCCGTACATCAACGCCGTAGTCCAAGAAGTGTTCAGATGGCACCCCGTC
ACCCCTCTCAGCGTATCCCACGCCTCCAGCGAAGAAGACATCTTCAACGG
CTATCTAATCCCCAAGGGTGCCATCATCGTTCCCAACGTCTGGGCCTTCA
CCCACGACCCAACCAACTACCGCAACCCCGAGACATTCAACCCCGACCGA
TTTCTCGGGGCAGCCCCTGAGCCAGACCCACGACTATACGCCTTTGGATT
CGGCAGACGCATCTGTCCTGGTCGCTTGCTCGCCGAGAAGAGCATTTTCC
TTACTGTCGCGCGGGCACTTGCGGTACTGGATATTCGGAAGAAGGTACGA
GATGGCAAGGAAGTTCCGATTCGGGTCGAATTTTCTTCAGGGACTATTAG
CCATCCTGTTCCTTTCGAGGTGGATCTGAAACCGAGGAGTAAGGGGCATG
AGAAGTTGGTGGGGGCAGTGGAGAGAGAGTTCCGTGGGAGGAGAGTCATG
CGAAGGAGCTGGGGATCTGAGGATATGGACGACTGGTACATAGCGAGATG
AATGTTGTCCATAGCTAGCCTTCTTGTCGGACTTGCATCAATTTACGTTC
TCTATGTCTTTCTTGGACCTAAGAAGACATCAGCACCACTGCCCCCAGGG
CCTCCTCCAAAACCTGTTATCGGCAATCTCAATGATCTCCCACCTCCCGG
TTCCAAGGATTGGCAGCATTGGCTGGATCATAAGGAAAAATATGGCCCAA
TCAGCTCCGTCACTATATTTGGACAGACTCTCGTTGTTCTTAATGATCCC
GACATGGCACTGGAGATGTTGGAGAAGCGTTCTGCAAAACACTCCTCCCG
ACCCCATCTTCCCATCGCAGATCTGTCGGGATGGGACAAGACATTAGGCC
TTCTCCCCTATAACAACCGATTCCGCGCCTATCGGAAAGCCACGTACCGC
GAACTCGGCTCGGCCAACGCAGTAGCTAAATTCGATGGAATCGTGGATAA
AGAAGTTACCCGGTTTCTTCTGCGCGTTATTCGGTCACCGAACGACTTGA
TTGATCATCTTCGCAAAGAGGCCGGAGCAATCATCCTTCGGATCGGATAC
GGATACACCATTGAGCCAAATGCGCGAGATCCCCTGGTGGACCTGGTCGA
CAAGGCCATGGATGACTTTTCTCAGATAGTTCTCCCAGGAGCCTGGCTGG
TTAACTTTGTTCCTTTCTTGAAATACCTTCCCACTTGGTTGCCTGGAGGA
AAGGAAAATCAGATAGCCAAGGAATACAAAGAGAGACTGACTATCATGCA
CGACAAAACATACGACTTCGTGAAGAACCAAATGGCCCGAGGTGTCCACC
AGCCATCGTATGTCTCTGGCCTGCTTGAGAAGGACACTGTCCTTCCAGGC
TCTGAAGAGGAGATTGTTGTCAAATACTCGGCTGGTGCTCTGTATGGCGG
TGGTGCTGATACGACCGTCTCCGCTCTATCCTGCTTCTTTATGGCCATGG
CCCTCAACCCATCCGTGCAAAAGAAAGCCAAAGAAGAAATCGACCAGGTT
ATAGGAACCTCCCGACTACCCGACCTCTCCAACCAGAACGACCTCCCGTA
CATCAACGCCGTAGTCCAAGAAGTGTTCAGATGGCACCCCGTCACCCCTC
TCAGCGTATCCCACGCCTCCAGCGAAGAAGACATCTTCAACGGCTATCTA
ATCCCCAAGGGTGCCATCATCGTTCCCAACGTCTGGGCCTTCACCCACGA
CCCAACCAACTACCGCAACCCCGAGACATTCAACCCCGACCGATTTCTCG
GGGCAGCCCCTGAGCCAGACCCACGACTATACGCCTTTGGATTCGGCAGA
CGCATCTGTCCTGGTCGCTTGCTCGCCGAGAAGAGCATTTTCCTTACTGT
CGCGCGGGCACTTGCGGTACTGGATATTCGGAAGAAGGTACGAGATGGCA
AGGAAGTTCCGATTCGGGTCGAATTTTCTTCAGGGACTATTAGCCATCCT
GTTCCTTTCGAGGTGGATCTGAAACCGAGGAGTAAGGGGCATGAGAAGTT
GGTGGGGGCAGTGGAGAGAGAGTTCCGTGGGAGGAGAGTCATGCGAAGGA
GCTGGGGATCTGAGGATATGGACGACTGGTACATAGCGAGATGA
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
TermDefinition
GO:0055114oxidation-reduction process
Vocabulary: Molecular Function
TermDefinition
GO:0005506iron ion binding
GO:0016705oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen
GO:0020037heme binding
Relationships

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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_47913ASPNIDRAFT_47913Aspergillus niger ATCC 1015gene


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_47913-T1ASPNIDRAFT_47913-T1-proteinAspergillus niger ATCC 1015polypeptide


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_47913-T1.exon1ASPNIDRAFT_47913-T1.exon1Aspergillus niger ATCC 1015exon
ASPNIDRAFT_47913-T1.exon2ASPNIDRAFT_47913-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_47913-T1.exon3ASPNIDRAFT_47913-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_47913-T1.exon4ASPNIDRAFT_47913-T1.exon4Aspergillus niger ATCC 1015exon
ASPNIDRAFT_47913-T1.exon5ASPNIDRAFT_47913-T1.exon5Aspergillus niger ATCC 1015exon
ASPNIDRAFT_47913-T1.exon6ASPNIDRAFT_47913-T1.exon6Aspergillus niger ATCC 1015exon
ASPNIDRAFT_47913-T1.exon7ASPNIDRAFT_47913-T1.exon7Aspergillus niger ATCC 1015exon
ASPNIDRAFT_47913-T1.exon8ASPNIDRAFT_47913-T1.exon8Aspergillus niger ATCC 1015exon


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_47913-T1.cdsASPNIDRAFT_47913-T1.cdsAspergillus niger ATCC 1015CDS


Properties
Property NameValue
DBxrefInterPro:IPR017972
DBxrefInterPro:IPR036396
DBxrefInterPro:IPR001128
DBxrefInterPro:IPR002401
DBxrefPFAM:PF00067
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
ACJE01000019.1supercontigACJE01000019.1:893901..895897 +
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