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ASPNIDRAFT_38958-T1, ASPNIDRAFT_38958-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_38958-T1
Unique NameASPNIDRAFT_38958-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000019.1:925975..927978+

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_38958-T1 ID=ASPNIDRAFT_38958-T1|Name=ASPNIDRAFT_38958-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2004bp|location=Sequence derived from alignment at ACJE01000019.1:925975..927978+ (Aspergillus niger ATCC 1015)
ATGCGTCAGGCGGTTCAATTGACCGGGGCCGATATGGCCACCCTGTACAA
ATACATAGTGGAACAGGTGGCAGAAGCACCCGCAGCCAAAGGGCTCAGTA
TCATTTGTTGTACAGCCGCTGTAGCCACCCTGGTTATTGTCGCTTTGCTC
AAACCTCTTTATTATCGCACCTGGCATCCGTTGTCTCGCTTTCCTGGTCC
TCCAGCGGCCGCTTCATCGCGGCACTGGATCTACAGAGTGACCGACCGTG
GCTTTCCGGAGGAGGACCTCGAAAAGCTCCATAAGAAGTATCGTGAGTGC
TGTCCTAACTTTTATAGCACATTTCATAACATTGCAGCAATTATTGGACT
GGTTAATACTGATGTGGGACATTCGATTGCTTTCTAGAAACGCAAGCTCT
ACGCATTGGACCCAACGAGCTACACATTACCGATGTTTCCAAATACAAGG
TTATATACAGTCAAAGCAAACCATTCCCGAAACATGAAGAGTTCTATGAA
GCTTTCAACACGCCCCATACAGTCTTCACCGAGATCGATGCAGGAATGCA
TAAAGAGCGCCGACGGCTACTGAATCCTTTCTTCTCCCGGGCAGGCGTCT
TCAAGCTTGAACCCATCATTCATGACAAGGTGGATATTCTTATAAACAAA
ATCCGCCGACTTGAGAATAGCCACAATATCAACGTGTATGATGCTTTTAG
GTGGGTATCAAAGTGGAGATTTTCCTGATCGGGCTTCAAGGATATGCGCC
TCTGTCCGGTATATCAACTTGGTCATGGCTGACACATCGGAAACGGCAGG
TGCCTTACTACAGAGGTCATTATGGAGTTCGCCTTTGCGAGATCAGCAAG
CATGTTGGAAGAGAGTGAAACTACTTTTGAGTCCTGGTTTCTGGTCGCCT
TCGACGCCGTTGCCCGAAGCCTCTGGAAAATGCAGGAGTGGCCCATCGCT
CGGAAAGCCTTGGGGGTTATGCCCGTGAATGTCATAGGCCTCCTGGATTC
CAACATTGTGAATGTTTTGAAAATGTTGAAGGTAGATGCTGATTTCCTGT
ACCGTTTGCCAGCTGTCTGAGGGTATGCTAATTCCATGACCAAATTTGCG
TAGTTTGCGGAAAGCTGCCTTAAGCACTACGAGGAGCACGGAAATACGAC
ATCTCACCCTGTTGTATTCGAGAACCTATCTTCCCTGCCGCACGACCTCA
AGGTCACCGAGGCAGTTGACATATTTATTGCGGGAGCTGACACTACAGCG
TCAACCCTTACTGCTGGCTTTATGCATATCCTCTCGAACCCAGCTATTTA
TGCCAAATTAGCAGACGCTCTGCGGGGAATGGACATCACATCCAATGATC
CTTCAGCGGCTCAACTTCAGGAATTAGAGAAGATTCCTTACTTGGTACCC
AAATACATGCCTAACACACGAAAATGATCGCGTCGCTAACCATCATTCAG
ACCGCCTGTGTCAAGGAATCTCTCAGGATCGCAATGCCGGTGCCTGGACG
CCTGCCAAGAGTCGTTCCCCAAGACCTCGCTGAGCCGTTCGTTGTTGATG
GACAAGTCATCCCACCCGGTGTAAGTTTTGTGCCCGATGCTGAGATGTTC
ATCGTCTTATTGAAATTCTGCAGACCATTGTCTCCATGTCAACCTACACA
ATGCATACCAACGAAGAGGTTTGGGGTCCCGACGCTCGCGTCTTCAACCC
CGACCGTTGGCTTCAGCCGGGAGCAAAGTCTTTAGAGCAGTACCTTTGTA
CATTTTCCAAGGGCGCTCGCATGTGCATTGGTCAAAAGTTTGTTCTTCCA
TCCTCGTTGCTTGGTGTTGGATCACTAATAACCAAATGAAGTGTCGCGTA
CGCTGAAGTCACAATTGTGATGGCGTATCTATTTAGGAACTTCGACATCC
AGCTGCCGCCTGGTTTCCGTGCACCCGAGAAAAAGGATCTGTTTACCATG
GAGTATTCGAAACCTGGGTTACCCTTGAGGTTCTCCAGTCTAAAAGCAAA
ATGA
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Coding sequence (CDS) from alignment at ACJE01000019.1:925975..927978+

>ASPNIDRAFT_38958-T1 ID=ASPNIDRAFT_38958-T1|Name=ASPNIDRAFT_38958-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=11025bp|location=Sequence derived from alignment at ACJE01000019.1:925975..927978+ (Aspergillus niger ATCC 1015)
ATGCGTCAGGCGGTTCAATTGACCGGGGCCGATATGGCCACCCTGTACAA
ATACATAGTGGAACAGGTGGCAGAAGCACCCGCAGCCAAAGGGCTCAGTA
TCATTTGTTGTACAGCCGCTGTAGCCACCCTGGTTATTGTCGCTTTGCTC
AAACCTCTTTATTATCGCACCTGGCATCCGTTGTCTCGCTTTCCTGGTCC
TCCAGCGGCCGCTTCATCGCGGCACTGGATCTACAGAGTGACCGACCGTG
GCTTTCCGGAGGAGGACCTCGAAAAGCTCCATAAGAAGTATCAAACGCAA
GCTCTACGCATTGGACCCAACGAGCTACACATTACCGATGTTTCCAAATA
CAAGGTTATATACAGTCAAAGCAAACCATTCCCGAAACATGAAGAGTTCT
ATGAAGCTTTCAACACGCCCCATACAGTCTTCACCGAGATCGATGCAGGA
ATGCATAAAGAGCGCCGACGGCTACTGAATCCTTTCTTCTCCCGGGCAGG
CGTCTTCAAGCTTGAACCCATCATTCATGACAAGGTGGATATTCTTATAA
ACAAAATCCGCCGACTTGAGAATAGCCACAATATCAACGTGTATGATGCT
TTTAGGTGCCTTACTACAGAGGTCATTATGGAGTTCGCCTTTGCGAGATC
AGCAAGCATGTTGGAAGAGAGTGAAACTACTTTTGAGTCCTGGTTTCTGG
TCGCCTTCGACGCCGTTGCCCGAAGCCTCTGGAAAATGCAGGAGTGGCCC
ATCGCTCGGAAAGCCTTGGGGGTTATGCCCGTGAATGTCATAGGCCTCCT
GGATTCCAACATTGTGAATGTTTTGAAAATGTTGAAGTTTGCGGAAAGCT
GCCTTAAGCACTACGAGGAGCACGGAAATACGACATCTCACCCTGTTGTA
TTCGAGAACCTATCTTCCCTGCCGCACGACCTCAAGGTCACCGAGGCAGT
TGACATATTTATTGCGGGAGCTGACACTACAGCGTCAACCCTTACTGCTG
GCTTTATGCATATCCTCTCGAACCCAGCTATTTATGCCAAATTAGCAGAC
GCTCTGCGGGGAATGGACATCACATCCAATGATCCTTCAGCGGCTCAACT
TCAGGAATTAGAGAAGATTCCTTACTTGACCGCCTGTGTCAAGGAATCTC
TCAGGATCGCAATGCCGGTGCCTGGACGCCTGCCAAGAGTCGTTCCCCAA
GACCTCGCTGAGCCGTTCGTTGTTGATGGACAAGTCATCCCACCCGGTAC
CATTGTCTCCATGTCAACCTACACAATGCATACCAACGAAGAGGTTTGGG
GTCCCGACGCTCGCGTCTTCAACCCCGACCGTTGGCTTCAGCCGGGAGCA
AAGTCTTTAGAGCAGTACCTTTGTACATTTTCCAAGGGCGCTCGCATGTG
CATTGGTCAAAATGTCGCGTACGCTGAAGTCACAATTGTGATGGCGTATC
TATTTAGGAACTTCGACATCCAGCTGCCGCCTGGTTTCCGTGCACCCGAG
AAAAAGGATCTGTTTACCATGGAGTATTCGAAACCTGGGTTACCCTTGAG
GTTCTCCAGTCTAAAAGCAAAATGAATGCGTCAGGCGGTTCAATTGACCG
GGGCCGATATGGCCACCCTGTACAAATACATAGTGGAACAGGTGGCAGAA
GCACCCGCAGCCAAAGGGCTCAGTATCATTTGTTGTACAGCCGCTGTAGC
CACCCTGGTTATTGTCGCTTTGCTCAAACCTCTTTATTATCGCACCTGGC
ATCCGTTGTCTCGCTTTCCTGGTCCTCCAGCGGCCGCTTCATCGCGGCAC
TGGATCTACAGAGTGACCGACCGTGGCTTTCCGGAGGAGGACCTCGAAAA
GCTCCATAAGAAGTATCAAACGCAAGCTCTACGCATTGGACCCAACGAGC
TACACATTACCGATGTTTCCAAATACAAGGTTATATACAGTCAAAGCAAA
CCATTCCCGAAACATGAAGAGTTCTATGAAGCTTTCAACACGCCCCATAC
AGTCTTCACCGAGATCGATGCAGGAATGCATAAAGAGCGCCGACGGCTAC
TGAATCCTTTCTTCTCCCGGGCAGGCGTCTTCAAGCTTGAACCCATCATT
CATGACAAGGTGGATATTCTTATAAACAAAATCCGCCGACTTGAGAATAG
CCACAATATCAACGTGTATGATGCTTTTAGGTGCCTTACTACAGAGGTCA
TTATGGAGTTCGCCTTTGCGAGATCAGCAAGCATGTTGGAAGAGAGTGAA
ACTACTTTTGAGTCCTGGTTTCTGGTCGCCTTCGACGCCGTTGCCCGAAG
CCTCTGGAAAATGCAGGAGTGGCCCATCGCTCGGAAAGCCTTGGGGGTTA
TGCCCGTGAATGTCATAGGCCTCCTGGATTCCAACATTGTGAATGTTTTG
AAAATGTTGAAGTTTGCGGAAAGCTGCCTTAAGCACTACGAGGAGCACGG
AAATACGACATCTCACCCTGTTGTATTCGAGAACCTATCTTCCCTGCCGC
ACGACCTCAAGGTCACCGAGGCAGTTGACATATTTATTGCGGGAGCTGAC
ACTACAGCGTCAACCCTTACTGCTGGCTTTATGCATATCCTCTCGAACCC
AGCTATTTATGCCAAATTAGCAGACGCTCTGCGGGGAATGGACATCACAT
CCAATGATCCTTCAGCGGCTCAACTTCAGGAATTAGAGAAGATTCCTTAC
TTGACCGCCTGTGTCAAGGAATCTCTCAGGATCGCAATGCCGGTGCCTGG
ACGCCTGCCAAGAGTCGTTCCCCAAGACCTCGCTGAGCCGTTCGTTGTTG
ATGGACAAGTCATCCCACCCGGTACCATTGTCTCCATGTCAACCTACACA
ATGCATACCAACGAAGAGGTTTGGGGTCCCGACGCTCGCGTCTTCAACCC
CGACCGTTGGCTTCAGCCGGGAGCAAAGTCTTTAGAGCAGTACCTTTGTA
CATTTTCCAAGGGCGCTCGCATGTGCATTGGTCAAAATGTCGCGTACGCT
GAAGTCACAATTGTGATGGCGTATCTATTTAGGAACTTCGACATCCAGCT
GCCGCCTGGTTTCCGTGCACCCGAGAAAAAGGATCTGTTTACCATGGAGT
ATTCGAAACCTGGGTTACCCTTGAGGTTCTCCAGTCTAAAAGCAAAATGA
ATGCGTCAGGCGGTTCAATTGACCGGGGCCGATATGGCCACCCTGTACAA
ATACATAGTGGAACAGGTGGCAGAAGCACCCGCAGCCAAAGGGCTCAGTA
TCATTTGTTGTACAGCCGCTGTAGCCACCCTGGTTATTGTCGCTTTGCTC
AAACCTCTTTATTATCGCACCTGGCATCCGTTGTCTCGCTTTCCTGGTCC
TCCAGCGGCCGCTTCATCGCGGCACTGGATCTACAGAGTGACCGACCGTG
GCTTTCCGGAGGAGGACCTCGAAAAGCTCCATAAGAAGTATCAAACGCAA
GCTCTACGCATTGGACCCAACGAGCTACACATTACCGATGTTTCCAAATA
CAAGGTTATATACAGTCAAAGCAAACCATTCCCGAAACATGAAGAGTTCT
ATGAAGCTTTCAACACGCCCCATACAGTCTTCACCGAGATCGATGCAGGA
ATGCATAAAGAGCGCCGACGGCTACTGAATCCTTTCTTCTCCCGGGCAGG
CGTCTTCAAGCTTGAACCCATCATTCATGACAAGGTGGATATTCTTATAA
ACAAAATCCGCCGACTTGAGAATAGCCACAATATCAACGTGTATGATGCT
TTTAGGTGCCTTACTACAGAGGTCATTATGGAGTTCGCCTTTGCGAGATC
AGCAAGCATGTTGGAAGAGAGTGAAACTACTTTTGAGTCCTGGTTTCTGG
TCGCCTTCGACGCCGTTGCCCGAAGCCTCTGGAAAATGCAGGAGTGGCCC
ATCGCTCGGAAAGCCTTGGGGGTTATGCCCGTGAATGTCATAGGCCTCCT
GGATTCCAACATTGTGAATGTTTTGAAAATGTTGAAGTTTGCGGAAAGCT
GCCTTAAGCACTACGAGGAGCACGGAAATACGACATCTCACCCTGTTGTA
TTCGAGAACCTATCTTCCCTGCCGCACGACCTCAAGGTCACCGAGGCAGT
TGACATATTTATTGCGGGAGCTGACACTACAGCGTCAACCCTTACTGCTG
GCTTTATGCATATCCTCTCGAACCCAGCTATTTATGCCAAATTAGCAGAC
GCTCTGCGGGGAATGGACATCACATCCAATGATCCTTCAGCGGCTCAACT
TCAGGAATTAGAGAAGATTCCTTACTTGACCGCCTGTGTCAAGGAATCTC
TCAGGATCGCAATGCCGGTGCCTGGACGCCTGCCAAGAGTCGTTCCCCAA
GACCTCGCTGAGCCGTTCGTTGTTGATGGACAAGTCATCCCACCCGGTAC
CATTGTCTCCATGTCAACCTACACAATGCATACCAACGAAGAGGTTTGGG
GTCCCGACGCTCGCGTCTTCAACCCCGACCGTTGGCTTCAGCCGGGAGCA
AAGTCTTTAGAGCAGTACCTTTGTACATTTTCCAAGGGCGCTCGCATGTG
CATTGGTCAAAATGTCGCGTACGCTGAAGTCACAATTGTGATGGCGTATC
TATTTAGGAACTTCGACATCCAGCTGCCGCCTGGTTTCCGTGCACCCGAG
AAAAAGGATCTGTTTACCATGGAGTATTCGAAACCTGGGTTACCCTTGAG
GTTCTCCAGTCTAAAAGCAAAATGAATGCGTCAGGCGGTTCAATTGACCG
GGGCCGATATGGCCACCCTGTACAAATACATAGTGGAACAGGTGGCAGAA
GCACCCGCAGCCAAAGGGCTCAGTATCATTTGTTGTACAGCCGCTGTAGC
CACCCTGGTTATTGTCGCTTTGCTCAAACCTCTTTATTATCGCACCTGGC
ATCCGTTGTCTCGCTTTCCTGGTCCTCCAGCGGCCGCTTCATCGCGGCAC
TGGATCTACAGAGTGACCGACCGTGGCTTTCCGGAGGAGGACCTCGAAAA
GCTCCATAAGAAGTATCAAACGCAAGCTCTACGCATTGGACCCAACGAGC
TACACATTACCGATGTTTCCAAATACAAGGTTATATACAGTCAAAGCAAA
CCATTCCCGAAACATGAAGAGTTCTATGAAGCTTTCAACACGCCCCATAC
AGTCTTCACCGAGATCGATGCAGGAATGCATAAAGAGCGCCGACGGCTAC
TGAATCCTTTCTTCTCCCGGGCAGGCGTCTTCAAGCTTGAACCCATCATT
CATGACAAGGTGGATATTCTTATAAACAAAATCCGCCGACTTGAGAATAG
CCACAATATCAACGTGTATGATGCTTTTAGGTGCCTTACTACAGAGGTCA
TTATGGAGTTCGCCTTTGCGAGATCAGCAAGCATGTTGGAAGAGAGTGAA
ACTACTTTTGAGTCCTGGTTTCTGGTCGCCTTCGACGCCGTTGCCCGAAG
CCTCTGGAAAATGCAGGAGTGGCCCATCGCTCGGAAAGCCTTGGGGGTTA
TGCCCGTGAATGTCATAGGCCTCCTGGATTCCAACATTGTGAATGTTTTG
AAAATGTTGAAGTTTGCGGAAAGCTGCCTTAAGCACTACGAGGAGCACGG
AAATACGACATCTCACCCTGTTGTATTCGAGAACCTATCTTCCCTGCCGC
ACGACCTCAAGGTCACCGAGGCAGTTGACATATTTATTGCGGGAGCTGAC
ACTACAGCGTCAACCCTTACTGCTGGCTTTATGCATATCCTCTCGAACCC
AGCTATTTATGCCAAATTAGCAGACGCTCTGCGGGGAATGGACATCACAT
CCAATGATCCTTCAGCGGCTCAACTTCAGGAATTAGAGAAGATTCCTTAC
TTGACCGCCTGTGTCAAGGAATCTCTCAGGATCGCAATGCCGGTGCCTGG
ACGCCTGCCAAGAGTCGTTCCCCAAGACCTCGCTGAGCCGTTCGTTGTTG
ATGGACAAGTCATCCCACCCGGTACCATTGTCTCCATGTCAACCTACACA
ATGCATACCAACGAAGAGGTTTGGGGTCCCGACGCTCGCGTCTTCAACCC
CGACCGTTGGCTTCAGCCGGGAGCAAAGTCTTTAGAGCAGTACCTTTGTA
CATTTTCCAAGGGCGCTCGCATGTGCATTGGTCAAAATGTCGCGTACGCT
GAAGTCACAATTGTGATGGCGTATCTATTTAGGAACTTCGACATCCAGCT
GCCGCCTGGTTTCCGTGCACCCGAGAAAAAGGATCTGTTTACCATGGAGT
ATTCGAAACCTGGGTTACCCTTGAGGTTCTCCAGTCTAAAAGCAAAATGA
ATGCGTCAGGCGGTTCAATTGACCGGGGCCGATATGGCCACCCTGTACAA
ATACATAGTGGAACAGGTGGCAGAAGCACCCGCAGCCAAAGGGCTCAGTA
TCATTTGTTGTACAGCCGCTGTAGCCACCCTGGTTATTGTCGCTTTGCTC
AAACCTCTTTATTATCGCACCTGGCATCCGTTGTCTCGCTTTCCTGGTCC
TCCAGCGGCCGCTTCATCGCGGCACTGGATCTACAGAGTGACCGACCGTG
GCTTTCCGGAGGAGGACCTCGAAAAGCTCCATAAGAAGTATCAAACGCAA
GCTCTACGCATTGGACCCAACGAGCTACACATTACCGATGTTTCCAAATA
CAAGGTTATATACAGTCAAAGCAAACCATTCCCGAAACATGAAGAGTTCT
ATGAAGCTTTCAACACGCCCCATACAGTCTTCACCGAGATCGATGCAGGA
ATGCATAAAGAGCGCCGACGGCTACTGAATCCTTTCTTCTCCCGGGCAGG
CGTCTTCAAGCTTGAACCCATCATTCATGACAAGGTGGATATTCTTATAA
ACAAAATCCGCCGACTTGAGAATAGCCACAATATCAACGTGTATGATGCT
TTTAGGTGCCTTACTACAGAGGTCATTATGGAGTTCGCCTTTGCGAGATC
AGCAAGCATGTTGGAAGAGAGTGAAACTACTTTTGAGTCCTGGTTTCTGG
TCGCCTTCGACGCCGTTGCCCGAAGCCTCTGGAAAATGCAGGAGTGGCCC
ATCGCTCGGAAAGCCTTGGGGGTTATGCCCGTGAATGTCATAGGCCTCCT
GGATTCCAACATTGTGAATGTTTTGAAAATGTTGAAGTTTGCGGAAAGCT
GCCTTAAGCACTACGAGGAGCACGGAAATACGACATCTCACCCTGTTGTA
TTCGAGAACCTATCTTCCCTGCCGCACGACCTCAAGGTCACCGAGGCAGT
TGACATATTTATTGCGGGAGCTGACACTACAGCGTCAACCCTTACTGCTG
GCTTTATGCATATCCTCTCGAACCCAGCTATTTATGCCAAATTAGCAGAC
GCTCTGCGGGGAATGGACATCACATCCAATGATCCTTCAGCGGCTCAACT
TCAGGAATTAGAGAAGATTCCTTACTTGACCGCCTGTGTCAAGGAATCTC
TCAGGATCGCAATGCCGGTGCCTGGACGCCTGCCAAGAGTCGTTCCCCAA
GACCTCGCTGAGCCGTTCGTTGTTGATGGACAAGTCATCCCACCCGGTAC
CATTGTCTCCATGTCAACCTACACAATGCATACCAACGAAGAGGTTTGGG
GTCCCGACGCTCGCGTCTTCAACCCCGACCGTTGGCTTCAGCCGGGAGCA
AAGTCTTTAGAGCAGTACCTTTGTACATTTTCCAAGGGCGCTCGCATGTG
CATTGGTCAAAATGTCGCGTACGCTGAAGTCACAATTGTGATGGCGTATC
TATTTAGGAACTTCGACATCCAGCTGCCGCCTGGTTTCCGTGCACCCGAG
AAAAAGGATCTGTTTACCATGGAGTATTCGAAACCTGGGTTACCCTTGAG
GTTCTCCAGTCTAAAAGCAAAATGAATGCGTCAGGCGGTTCAATTGACCG
GGGCCGATATGGCCACCCTGTACAAATACATAGTGGAACAGGTGGCAGAA
GCACCCGCAGCCAAAGGGCTCAGTATCATTTGTTGTACAGCCGCTGTAGC
CACCCTGGTTATTGTCGCTTTGCTCAAACCTCTTTATTATCGCACCTGGC
ATCCGTTGTCTCGCTTTCCTGGTCCTCCAGCGGCCGCTTCATCGCGGCAC
TGGATCTACAGAGTGACCGACCGTGGCTTTCCGGAGGAGGACCTCGAAAA
GCTCCATAAGAAGTATCAAACGCAAGCTCTACGCATTGGACCCAACGAGC
TACACATTACCGATGTTTCCAAATACAAGGTTATATACAGTCAAAGCAAA
CCATTCCCGAAACATGAAGAGTTCTATGAAGCTTTCAACACGCCCCATAC
AGTCTTCACCGAGATCGATGCAGGAATGCATAAAGAGCGCCGACGGCTAC
TGAATCCTTTCTTCTCCCGGGCAGGCGTCTTCAAGCTTGAACCCATCATT
CATGACAAGGTGGATATTCTTATAAACAAAATCCGCCGACTTGAGAATAG
CCACAATATCAACGTGTATGATGCTTTTAGGTGCCTTACTACAGAGGTCA
TTATGGAGTTCGCCTTTGCGAGATCAGCAAGCATGTTGGAAGAGAGTGAA
ACTACTTTTGAGTCCTGGTTTCTGGTCGCCTTCGACGCCGTTGCCCGAAG
CCTCTGGAAAATGCAGGAGTGGCCCATCGCTCGGAAAGCCTTGGGGGTTA
TGCCCGTGAATGTCATAGGCCTCCTGGATTCCAACATTGTGAATGTTTTG
AAAATGTTGAAGTTTGCGGAAAGCTGCCTTAAGCACTACGAGGAGCACGG
AAATACGACATCTCACCCTGTTGTATTCGAGAACCTATCTTCCCTGCCGC
ACGACCTCAAGGTCACCGAGGCAGTTGACATATTTATTGCGGGAGCTGAC
ACTACAGCGTCAACCCTTACTGCTGGCTTTATGCATATCCTCTCGAACCC
AGCTATTTATGCCAAATTAGCAGACGCTCTGCGGGGAATGGACATCACAT
CCAATGATCCTTCAGCGGCTCAACTTCAGGAATTAGAGAAGATTCCTTAC
TTGACCGCCTGTGTCAAGGAATCTCTCAGGATCGCAATGCCGGTGCCTGG
ACGCCTGCCAAGAGTCGTTCCCCAAGACCTCGCTGAGCCGTTCGTTGTTG
ATGGACAAGTCATCCCACCCGGTACCATTGTCTCCATGTCAACCTACACA
ATGCATACCAACGAAGAGGTTTGGGGTCCCGACGCTCGCGTCTTCAACCC
CGACCGTTGGCTTCAGCCGGGAGCAAAGTCTTTAGAGCAGTACCTTTGTA
CATTTTCCAAGGGCGCTCGCATGTGCATTGGTCAAAATGTCGCGTACGCT
GAAGTCACAATTGTGATGGCGTATCTATTTAGGAACTTCGACATCCAGCT
GCCGCCTGGTTTCCGTGCACCCGAGAAAAAGGATCTGTTTACCATGGAGT
ATTCGAAACCTGGGTTACCCTTGAGGTTCTCCAGTCTAAAAGCAAAATGA
ATGCGTCAGGCGGTTCAATTGACCGGGGCCGATATGGCCACCCTGTACAA
ATACATAGTGGAACAGGTGGCAGAAGCACCCGCAGCCAAAGGGCTCAGTA
TCATTTGTTGTACAGCCGCTGTAGCCACCCTGGTTATTGTCGCTTTGCTC
AAACCTCTTTATTATCGCACCTGGCATCCGTTGTCTCGCTTTCCTGGTCC
TCCAGCGGCCGCTTCATCGCGGCACTGGATCTACAGAGTGACCGACCGTG
GCTTTCCGGAGGAGGACCTCGAAAAGCTCCATAAGAAGTATCAAACGCAA
GCTCTACGCATTGGACCCAACGAGCTACACATTACCGATGTTTCCAAATA
CAAGGTTATATACAGTCAAAGCAAACCATTCCCGAAACATGAAGAGTTCT
ATGAAGCTTTCAACACGCCCCATACAGTCTTCACCGAGATCGATGCAGGA
ATGCATAAAGAGCGCCGACGGCTACTGAATCCTTTCTTCTCCCGGGCAGG
CGTCTTCAAGCTTGAACCCATCATTCATGACAAGGTGGATATTCTTATAA
ACAAAATCCGCCGACTTGAGAATAGCCACAATATCAACGTGTATGATGCT
TTTAGGTGCCTTACTACAGAGGTCATTATGGAGTTCGCCTTTGCGAGATC
AGCAAGCATGTTGGAAGAGAGTGAAACTACTTTTGAGTCCTGGTTTCTGG
TCGCCTTCGACGCCGTTGCCCGAAGCCTCTGGAAAATGCAGGAGTGGCCC
ATCGCTCGGAAAGCCTTGGGGGTTATGCCCGTGAATGTCATAGGCCTCCT
GGATTCCAACATTGTGAATGTTTTGAAAATGTTGAAGTTTGCGGAAAGCT
GCCTTAAGCACTACGAGGAGCACGGAAATACGACATCTCACCCTGTTGTA
TTCGAGAACCTATCTTCCCTGCCGCACGACCTCAAGGTCACCGAGGCAGT
TGACATATTTATTGCGGGAGCTGACACTACAGCGTCAACCCTTACTGCTG
GCTTTATGCATATCCTCTCGAACCCAGCTATTTATGCCAAATTAGCAGAC
GCTCTGCGGGGAATGGACATCACATCCAATGATCCTTCAGCGGCTCAACT
TCAGGAATTAGAGAAGATTCCTTACTTGACCGCCTGTGTCAAGGAATCTC
TCAGGATCGCAATGCCGGTGCCTGGACGCCTGCCAAGAGTCGTTCCCCAA
GACCTCGCTGAGCCGTTCGTTGTTGATGGACAAGTCATCCCACCCGGTAC
CATTGTCTCCATGTCAACCTACACAATGCATACCAACGAAGAGGTTTGGG
GTCCCGACGCTCGCGTCTTCAACCCCGACCGTTGGCTTCAGCCGGGAGCA
AAGTCTTTAGAGCAGTACCTTTGTACATTTTCCAAGGGCGCTCGCATGTG
CATTGGTCAAAATGTCGCGTACGCTGAAGTCACAATTGTGATGGCGTATC
TATTTAGGAACTTCGACATCCAGCTGCCGCCTGGTTTCCGTGCACCCGAG
AAAAAGGATCTGTTTACCATGGAGTATTCGAAACCTGGGTTACCCTTGAG
GTTCTCCAGTCTAAAAGCAAAATGA
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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:0020037heme binding
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
ASPNIDRAFT_38958ASPNIDRAFT_38958Aspergillus niger ATCC 1015gene


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_38958-T1ASPNIDRAFT_38958-T1-proteinAspergillus niger ATCC 1015polypeptide


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_38958-T1.exon1ASPNIDRAFT_38958-T1.exon1Aspergillus niger ATCC 1015exon
ASPNIDRAFT_38958-T1.exon2ASPNIDRAFT_38958-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_38958-T1.exon3ASPNIDRAFT_38958-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_38958-T1.exon4ASPNIDRAFT_38958-T1.exon4Aspergillus niger ATCC 1015exon
ASPNIDRAFT_38958-T1.exon5ASPNIDRAFT_38958-T1.exon5Aspergillus niger ATCC 1015exon
ASPNIDRAFT_38958-T1.exon6ASPNIDRAFT_38958-T1.exon6Aspergillus niger ATCC 1015exon
ASPNIDRAFT_38958-T1.exon7ASPNIDRAFT_38958-T1.exon7Aspergillus niger ATCC 1015exon


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_38958-T1.cdsASPNIDRAFT_38958-T1.cdsAspergillus niger ATCC 1015CDS


Properties
Property NameValue
NoteEggNog:ENOG41
DBxrefInterPro:IPR017972
DBxrefInterPro:IPR036396
DBxrefInterPro:IPR002401
DBxrefInterPro:IPR001128
DBxrefPFAM:PF00067
Productmonooxygenase
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
ACJE01000019.1supercontigACJE01000019.1:925975..927978 +
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