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ASPNIDRAFT_213578-T1, ASPNIDRAFT_213578-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_213578-T1
Unique NameASPNIDRAFT_213578-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000015.1:1270252..1272243-

Legend: exonfive_prime_UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_213578-T1 ID=ASPNIDRAFT_213578-T1|Name=ASPNIDRAFT_213578-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=1992bp|location=Sequence derived from alignment at ACJE01000015.1:1270252..1272243- (Aspergillus niger ATCC 1015)
GATCGCTAAAACCTCTCTCAAGATGTCCAGACCAGTCTACACCCTGGCAG
AAGGTCCCTCCCTCGATCCTACCCTCAATTCTATATTCTAACCCAGCCAG
GCCAACCCATCCCTGACCCCTCCGTGAGCACCACCCTGCCTACCATTGGC
GGCGGAGGCATCACAACCCTAGGAGACACCCTTCTCCTCGAGACTCTGGC
TCACTTCAACCGTGAGCGTATCCCAGAAAGGTACCTTCCGTTCCTTCACC
TTTTATTTCCCTATCCTAGCCCAAACTAAGCTAATCAACCGTTCCTCTGC
AGAGTCGTCCACGCGAAAGCAGCTGGCGCATGGGGGGAATTCGAAGTGAC
GAACGACATATCGTCCCTAACCTCCGCTAAGTTCCTCAACAGCGTCGGGA
AGAAAACTCCCGTTTTGTTTCGTCTCAGCACGACGGGTGGTGAAAAGGGT
AGTGCGGATACTGTGCGAGATGTGCGTGGATTCTCGGTCAAGTTCTTCAC
CGAAGAGGGGAACCATGATATTGTGGGAAATCACATTGTAAGTATACGTA
CCTTGTTATGTTATGGGAAGAAGGGATCATAAGAGATGTGTGTGTTTGTG
TGCTAAGTGATGACAACAGCCCGTCTTCTTCGTCCGGGACCCTATCCGCT
TCCCTTCTCTGAACAGAAGCCACAAGCGCCATCCTGCCACAAATCGTCCG
GATTGGACTATGGTATGTCCTTTACCCTCTGTTCACACATCTGCTCCCTA
TCCACCACCCAAGAACTAACCATTCCACCTTCCGGGGTACCACAGTTCTG
GGACTTCCACGCCAACCAACCCGAAAGCGTCCACGCATTGCTCCATCTCT
TCGGCTCGCGAGGCATTCCAGGCTCCATCCGATCCGTCACTGGCTTTGGC
GTACACACCTTCAAGCTCGTATCCCCCGACGGCACTTTCCATTACTGCAA
ATTCCATTTCCGGCCTGAGCTCGAGGGGAAATATTTCTCTGGACAAGAAG
CCGCCCGGATGGCTGGGGTGGATGCTGATTTCCACAACTTGGATCTGTGG
GATGCCATTGCACGGGGGCAGTATCCTGTTTGGAAGCTGTATGTGCAGGT
TATGGAGCCTGAGAGGGCAGAGGAATTCGGACGGGGATTGTTTGATATTA
CGAAGATCTGGTCGCATAAGGAGTTCCCGCTCATTGAAGTGGGCAAGATG
ACCTTGAATAAGAATGTAAGTTATATCTGTTTGCTAATTCTGGGCGGAGC
TTCGGGGAGGGGTGGAATGCCGTATGCTAATGTGGGAATAGCCCGGGAAT
TACTTCGCCGAGATCGAACAGGCGGCGTTCTCGCCATCGAACATGGTCCC
TGGGATTGCTGGCACGCCTGACCCAAGTAAGTTTGCATTGCGTACTTACT
GATATGCTTTTTCCTTGATTCTGTTTTTGTTTTCGTTGGTCATGTCTCTC
CCTTGGCTCGAGCATACCTATCTGCGGATTTGTGTAACATGCATTGATAT
CCCTGGCTTTATGTAGTGTTACAAGCCCGCATGTTCGCCTACCCCGATGC
TCAGCGCTACCGCCTTGGGGTCAATTACACCCAGCTTCCGCCTAACCGCG
CTGTTTGTCCTGTCTACGCGCCCTATGAGAGGGATGGCTTCGCCACAGTG
ACGAAGAATTATGGCGGTGACCCAAACTATGTGCGCAGCTCGCTTTCTCC
CGGTGTTGCGAGTCGCAGCAACGCCCAGGTACGACACAATGAGCGGATTC
TGTCGTTCGCGTTAGGCCAGAATGAGATATCAGTTGACGAGGAAGACTTC
GTTCAGCCACGAGACCTCTGGAATAGGGTCTTTGATGAGACGGAAAGGCG
AAAGTGGATTGCGAATGTTGCTGAGACGCTGGCTGAGGTTCCCGAGCCGC
TCAAGGAGGCCGTGGTGAATATGTTTGGGAGAGTCGATGGTCGCTTGAGA
GAGATGTTAGGAACAAAGGTCAGGGATTATTCGCGGCTGTAG
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Coding sequence (CDS) from alignment at ACJE01000015.1:1270252..1272243-

>ASPNIDRAFT_213578-T1 ID=ASPNIDRAFT_213578-T1|Name=ASPNIDRAFT_213578-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=11016bp|location=Sequence derived from alignment at ACJE01000015.1:1270252..1272243- (Aspergillus niger ATCC 1015)
ACTTCGTTCAGCCACGAGACCTCTGGAATAGGGTCTTTGATGAGACGGAA
AGGCGAAAGTGGATTGCGAATGTTGCTGAGACGCTGGCTGAGGTTCCCGA
GCCGCTCAAGGAGGCCGTGGTGAATATGTTTGGGAGAGTCGATGGTCGCT
TGAGAGAGATGTTAGGAACAAAGGTCAGGGATTATTCGCGGCTGTAGTGT
TACAAGCCCGCATGTTCGCCTACCCCGATGCTCAGCGCTACCGCCTTGGG
GTCAATTACACCCAGCTTCCGCCTAACCGCGCTGTTTGTCCTGTCTACGC
GCCCTATGAGAGGGATGGCTTCGCCACAGTGACGAAGAATTATGGCGGTG
ACCCAAACTATGTGCGCAGCTCGCTTTCTCCCGCCCGGGAATTACTTCGC
CGAGATCGAACAGGCGGCGTTCTCGCCATCGAACATGGTCCCTGGGATTG
CTGGCACGCCTGACCCAATTCTGGGACTTCCACGCCAACCAACCCGAAAG
CGTCCACGCATTGCTCCATCTCTTCGGCTCGCGAGGCATTCCAGGCTCCA
TCCGATCCGTCACTGGCTTTGGCGTACACACCTTCAAGCTCGTATCCCCC
GACGGCACTTTCCATTACTGCAAATTCCATTTCCGGCCTGAGCTCGAGGG
GAAATATTTCTCTGGACAAGAAGCCGCCCGGATGGCTGGGGTGGATGCTG
ATTTCCACAACTTGGATCTGTGGGATGCCATTGCACGGGGGCAGTATCCT
GTTTGGAAGCTGTATGTGCAGGTTATGGAGCCTGAGAGGGCAGAGGAATT
CGGACGGGGATTGTTTGATATTACGAAGATCTGGTCGCATAAGGAGTTCC
CGCTCATTGAAGTGGGCAAGATGACCTTGAATAAGAATCCCGTCTTCTTC
GTCCGGGACCCTATCCGCTTCCCTTCTCTGAACAGAAGCCACAAGCGCCA
TCCTGCCACAAATCGTCCGGATTGGACTATGAGTCGTCCACGCGAAAGCA
GCTGGCGCATGGGGGGAATTCGAAGTGACGAACGACATATCGTCCCTAAC
CTCCGCTAAGTTCCTCAACAGCGTCGGGAAGAAAACTCCCGTTTTGTTTC
GTCTCAGCACGACGGGTGGTGAAAAGGGTAGTGCGGATACTGTGCGAGAT
GTGCGTGGATTCTCGGTCAAGTTCTTCACCGAAGAGGGGAACCATGATAT
TGTGGGAAATCACATTGCCAACCCATCCCTGACCCCTCCGTGAGCACCAC
CCTGCCTACCATTGGCGGCGGAGGCATCACAACCCTAGGAGACACCCTTC
TCCTCGAGACTCTGGCTCACTTCAACCGTGAGCGTATCCCAGAAAGATGT
CCAGACCAGTCTACACCCTGGCAGAAGACTTCGTTCAGCCACGAGACCTC
TGGAATAGGGTCTTTGATGAGACGGAAAGGCGAAAGTGGATTGCGAATGT
TGCTGAGACGCTGGCTGAGGTTCCCGAGCCGCTCAAGGAGGCCGTGGTGA
ATATGTTTGGGAGAGTCGATGGTCGCTTGAGAGAGATGTTAGGAACAAAG
GTCAGGGATTATTCGCGGCTGTAGTGTTACAAGCCCGCATGTTCGCCTAC
CCCGATGCTCAGCGCTACCGCCTTGGGGTCAATTACACCCAGCTTCCGCC
TAACCGCGCTGTTTGTCCTGTCTACGCGCCCTATGAGAGGGATGGCTTCG
CCACAGTGACGAAGAATTATGGCGGTGACCCAAACTATGTGCGCAGCTCG
CTTTCTCCCGCCCGGGAATTACTTCGCCGAGATCGAACAGGCGGCGTTCT
CGCCATCGAACATGGTCCCTGGGATTGCTGGCACGCCTGACCCAATTCTG
GGACTTCCACGCCAACCAACCCGAAAGCGTCCACGCATTGCTCCATCTCT
TCGGCTCGCGAGGCATTCCAGGCTCCATCCGATCCGTCACTGGCTTTGGC
GTACACACCTTCAAGCTCGTATCCCCCGACGGCACTTTCCATTACTGCAA
ATTCCATTTCCGGCCTGAGCTCGAGGGGAAATATTTCTCTGGACAAGAAG
CCGCCCGGATGGCTGGGGTGGATGCTGATTTCCACAACTTGGATCTGTGG
GATGCCATTGCACGGGGGCAGTATCCTGTTTGGAAGCTGTATGTGCAGGT
TATGGAGCCTGAGAGGGCAGAGGAATTCGGACGGGGATTGTTTGATATTA
CGAAGATCTGGTCGCATAAGGAGTTCCCGCTCATTGAAGTGGGCAAGATG
ACCTTGAATAAGAATCCCGTCTTCTTCGTCCGGGACCCTATCCGCTTCCC
TTCTCTGAACAGAAGCCACAAGCGCCATCCTGCCACAAATCGTCCGGATT
GGACTATGAGTCGTCCACGCGAAAGCAGCTGGCGCATGGGGGGAATTCGA
AGTGACGAACGACATATCGTCCCTAACCTCCGCTAAGTTCCTCAACAGCG
TCGGGAAGAAAACTCCCGTTTTGTTTCGTCTCAGCACGACGGGTGGTGAA
AAGGGTAGTGCGGATACTGTGCGAGATGTGCGTGGATTCTCGGTCAAGTT
CTTCACCGAAGAGGGGAACCATGATATTGTGGGAAATCACATTGCCAACC
CATCCCTGACCCCTCCGTGAGCACCACCCTGCCTACCATTGGCGGCGGAG
GCATCACAACCCTAGGAGACACCCTTCTCCTCGAGACTCTGGCTCACTTC
AACCGTGAGCGTATCCCAGAAAGATGTCCAGACCAGTCTACACCCTGGCA
GAAGACTTCGTTCAGCCACGAGACCTCTGGAATAGGGTCTTTGATGAGAC
GGAAAGGCGAAAGTGGATTGCGAATGTTGCTGAGACGCTGGCTGAGGTTC
CCGAGCCGCTCAAGGAGGCCGTGGTGAATATGTTTGGGAGAGTCGATGGT
CGCTTGAGAGAGATGTTAGGAACAAAGGTCAGGGATTATTCGCGGCTGTA
GTGTTACAAGCCCGCATGTTCGCCTACCCCGATGCTCAGCGCTACCGCCT
TGGGGTCAATTACACCCAGCTTCCGCCTAACCGCGCTGTTTGTCCTGTCT
ACGCGCCCTATGAGAGGGATGGCTTCGCCACAGTGACGAAGAATTATGGC
GGTGACCCAAACTATGTGCGCAGCTCGCTTTCTCCCGCCCGGGAATTACT
TCGCCGAGATCGAACAGGCGGCGTTCTCGCCATCGAACATGGTCCCTGGG
ATTGCTGGCACGCCTGACCCAATTCTGGGACTTCCACGCCAACCAACCCG
AAAGCGTCCACGCATTGCTCCATCTCTTCGGCTCGCGAGGCATTCCAGGC
TCCATCCGATCCGTCACTGGCTTTGGCGTACACACCTTCAAGCTCGTATC
CCCCGACGGCACTTTCCATTACTGCAAATTCCATTTCCGGCCTGAGCTCG
AGGGGAAATATTTCTCTGGACAAGAAGCCGCCCGGATGGCTGGGGTGGAT
GCTGATTTCCACAACTTGGATCTGTGGGATGCCATTGCACGGGGGCAGTA
TCCTGTTTGGAAGCTGTATGTGCAGGTTATGGAGCCTGAGAGGGCAGAGG
AATTCGGACGGGGATTGTTTGATATTACGAAGATCTGGTCGCATAAGGAG
TTCCCGCTCATTGAAGTGGGCAAGATGACCTTGAATAAGAATCCCGTCTT
CTTCGTCCGGGACCCTATCCGCTTCCCTTCTCTGAACAGAAGCCACAAGC
GCCATCCTGCCACAAATCGTCCGGATTGGACTATGAGTCGTCCACGCGAA
AGCAGCTGGCGCATGGGGGGAATTCGAAGTGACGAACGACATATCGTCCC
TAACCTCCGCTAAGTTCCTCAACAGCGTCGGGAAGAAAACTCCCGTTTTG
TTTCGTCTCAGCACGACGGGTGGTGAAAAGGGTAGTGCGGATACTGTGCG
AGATGTGCGTGGATTCTCGGTCAAGTTCTTCACCGAAGAGGGGAACCATG
ATATTGTGGGAAATCACATTGCCAACCCATCCCTGACCCCTCCGTGAGCA
CCACCCTGCCTACCATTGGCGGCGGAGGCATCACAACCCTAGGAGACACC
CTTCTCCTCGAGACTCTGGCTCACTTCAACCGTGAGCGTATCCCAGAAAG
ATGTCCAGACCAGTCTACACCCTGGCAGAAGACTTCGTTCAGCCACGAGA
CCTCTGGAATAGGGTCTTTGATGAGACGGAAAGGCGAAAGTGGATTGCGA
ATGTTGCTGAGACGCTGGCTGAGGTTCCCGAGCCGCTCAAGGAGGCCGTG
GTGAATATGTTTGGGAGAGTCGATGGTCGCTTGAGAGAGATGTTAGGAAC
AAAGGTCAGGGATTATTCGCGGCTGTAGTGTTACAAGCCCGCATGTTCGC
CTACCCCGATGCTCAGCGCTACCGCCTTGGGGTCAATTACACCCAGCTTC
CGCCTAACCGCGCTGTTTGTCCTGTCTACGCGCCCTATGAGAGGGATGGC
TTCGCCACAGTGACGAAGAATTATGGCGGTGACCCAAACTATGTGCGCAG
CTCGCTTTCTCCCGCCCGGGAATTACTTCGCCGAGATCGAACAGGCGGCG
TTCTCGCCATCGAACATGGTCCCTGGGATTGCTGGCACGCCTGACCCAAT
TCTGGGACTTCCACGCCAACCAACCCGAAAGCGTCCACGCATTGCTCCAT
CTCTTCGGCTCGCGAGGCATTCCAGGCTCCATCCGATCCGTCACTGGCTT
TGGCGTACACACCTTCAAGCTCGTATCCCCCGACGGCACTTTCCATTACT
GCAAATTCCATTTCCGGCCTGAGCTCGAGGGGAAATATTTCTCTGGACAA
GAAGCCGCCCGGATGGCTGGGGTGGATGCTGATTTCCACAACTTGGATCT
GTGGGATGCCATTGCACGGGGGCAGTATCCTGTTTGGAAGCTGTATGTGC
AGGTTATGGAGCCTGAGAGGGCAGAGGAATTCGGACGGGGATTGTTTGAT
ATTACGAAGATCTGGTCGCATAAGGAGTTCCCGCTCATTGAAGTGGGCAA
GATGACCTTGAATAAGAATCCCGTCTTCTTCGTCCGGGACCCTATCCGCT
TCCCTTCTCTGAACAGAAGCCACAAGCGCCATCCTGCCACAAATCGTCCG
GATTGGACTATGAGTCGTCCACGCGAAAGCAGCTGGCGCATGGGGGGAAT
TCGAAGTGACGAACGACATATCGTCCCTAACCTCCGCTAAGTTCCTCAAC
AGCGTCGGGAAGAAAACTCCCGTTTTGTTTCGTCTCAGCACGACGGGTGG
TGAAAAGGGTAGTGCGGATACTGTGCGAGATGTGCGTGGATTCTCGGTCA
AGTTCTTCACCGAAGAGGGGAACCATGATATTGTGGGAAATCACATTGCC
AACCCATCCCTGACCCCTCCGTGAGCACCACCCTGCCTACCATTGGCGGC
GGAGGCATCACAACCCTAGGAGACACCCTTCTCCTCGAGACTCTGGCTCA
CTTCAACCGTGAGCGTATCCCAGAAAGATGTCCAGACCAGTCTACACCCT
GGCAGAAGACTTCGTTCAGCCACGAGACCTCTGGAATAGGGTCTTTGATG
AGACGGAAAGGCGAAAGTGGATTGCGAATGTTGCTGAGACGCTGGCTGAG
GTTCCCGAGCCGCTCAAGGAGGCCGTGGTGAATATGTTTGGGAGAGTCGA
TGGTCGCTTGAGAGAGATGTTAGGAACAAAGGTCAGGGATTATTCGCGGC
TGTAGTGTTACAAGCCCGCATGTTCGCCTACCCCGATGCTCAGCGCTACC
GCCTTGGGGTCAATTACACCCAGCTTCCGCCTAACCGCGCTGTTTGTCCT
GTCTACGCGCCCTATGAGAGGGATGGCTTCGCCACAGTGACGAAGAATTA
TGGCGGTGACCCAAACTATGTGCGCAGCTCGCTTTCTCCCGCCCGGGAAT
TACTTCGCCGAGATCGAACAGGCGGCGTTCTCGCCATCGAACATGGTCCC
TGGGATTGCTGGCACGCCTGACCCAATTCTGGGACTTCCACGCCAACCAA
CCCGAAAGCGTCCACGCATTGCTCCATCTCTTCGGCTCGCGAGGCATTCC
AGGCTCCATCCGATCCGTCACTGGCTTTGGCGTACACACCTTCAAGCTCG
TATCCCCCGACGGCACTTTCCATTACTGCAAATTCCATTTCCGGCCTGAG
CTCGAGGGGAAATATTTCTCTGGACAAGAAGCCGCCCGGATGGCTGGGGT
GGATGCTGATTTCCACAACTTGGATCTGTGGGATGCCATTGCACGGGGGC
AGTATCCTGTTTGGAAGCTGTATGTGCAGGTTATGGAGCCTGAGAGGGCA
GAGGAATTCGGACGGGGATTGTTTGATATTACGAAGATCTGGTCGCATAA
GGAGTTCCCGCTCATTGAAGTGGGCAAGATGACCTTGAATAAGAATCCCG
TCTTCTTCGTCCGGGACCCTATCCGCTTCCCTTCTCTGAACAGAAGCCAC
AAGCGCCATCCTGCCACAAATCGTCCGGATTGGACTATGAGTCGTCCACG
CGAAAGCAGCTGGCGCATGGGGGGAATTCGAAGTGACGAACGACATATCG
TCCCTAACCTCCGCTAAGTTCCTCAACAGCGTCGGGAAGAAAACTCCCGT
TTTGTTTCGTCTCAGCACGACGGGTGGTGAAAAGGGTAGTGCGGATACTG
TGCGAGATGTGCGTGGATTCTCGGTCAAGTTCTTCACCGAAGAGGGGAAC
CATGATATTGTGGGAAATCACATTGCCAACCCATCCCTGACCCCTCCGTG
AGCACCACCCTGCCTACCATTGGCGGCGGAGGCATCACAACCCTAGGAGA
CACCCTTCTCCTCGAGACTCTGGCTCACTTCAACCGTGAGCGTATCCCAG
AAAGATGTCCAGACCAGTCTACACCCTGGCAGAAGACTTCGTTCAGCCAC
GAGACCTCTGGAATAGGGTCTTTGATGAGACGGAAAGGCGAAAGTGGATT
GCGAATGTTGCTGAGACGCTGGCTGAGGTTCCCGAGCCGCTCAAGGAGGC
CGTGGTGAATATGTTTGGGAGAGTCGATGGTCGCTTGAGAGAGATGTTAG
GAACAAAGGTCAGGGATTATTCGCGGCTGTAGTGTTACAAGCCCGCATGT
TCGCCTACCCCGATGCTCAGCGCTACCGCCTTGGGGTCAATTACACCCAG
CTTCCGCCTAACCGCGCTGTTTGTCCTGTCTACGCGCCCTATGAGAGGGA
TGGCTTCGCCACAGTGACGAAGAATTATGGCGGTGACCCAAACTATGTGC
GCAGCTCGCTTTCTCCCGCCCGGGAATTACTTCGCCGAGATCGAACAGGC
GGCGTTCTCGCCATCGAACATGGTCCCTGGGATTGCTGGCACGCCTGACC
CAATTCTGGGACTTCCACGCCAACCAACCCGAAAGCGTCCACGCATTGCT
CCATCTCTTCGGCTCGCGAGGCATTCCAGGCTCCATCCGATCCGTCACTG
GCTTTGGCGTACACACCTTCAAGCTCGTATCCCCCGACGGCACTTTCCAT
TACTGCAAATTCCATTTCCGGCCTGAGCTCGAGGGGAAATATTTCTCTGG
ACAAGAAGCCGCCCGGATGGCTGGGGTGGATGCTGATTTCCACAACTTGG
ATCTGTGGGATGCCATTGCACGGGGGCAGTATCCTGTTTGGAAGCTGTAT
GTGCAGGTTATGGAGCCTGAGAGGGCAGAGGAATTCGGACGGGGATTGTT
TGATATTACGAAGATCTGGTCGCATAAGGAGTTCCCGCTCATTGAAGTGG
GCAAGATGACCTTGAATAAGAATCCCGTCTTCTTCGTCCGGGACCCTATC
CGCTTCCCTTCTCTGAACAGAAGCCACAAGCGCCATCCTGCCACAAATCG
TCCGGATTGGACTATGAGTCGTCCACGCGAAAGCAGCTGGCGCATGGGGG
GAATTCGAAGTGACGAACGACATATCGTCCCTAACCTCCGCTAAGTTCCT
CAACAGCGTCGGGAAGAAAACTCCCGTTTTGTTTCGTCTCAGCACGACGG
GTGGTGAAAAGGGTAGTGCGGATACTGTGCGAGATGTGCGTGGATTCTCG
GTCAAGTTCTTCACCGAAGAGGGGAACCATGATATTGTGGGAAATCACAT
TGCCAACCCATCCCTGACCCCTCCGTGAGCACCACCCTGCCTACCATTGG
CGGCGGAGGCATCACAACCCTAGGAGACACCCTTCTCCTCGAGACTCTGG
CTCACTTCAACCGTGAGCGTATCCCAGAAAGATGTCCAGACCAGTCTACA
CCCTGGCAGAAGACTTCGTTCAGCCACGAGACCTCTGGAATAGGGTCTTT
GATGAGACGGAAAGGCGAAAGTGGATTGCGAATGTTGCTGAGACGCTGGC
TGAGGTTCCCGAGCCGCTCAAGGAGGCCGTGGTGAATATGTTTGGGAGAG
TCGATGGTCGCTTGAGAGAGATGTTAGGAACAAAGGTCAGGGATTATTCG
CGGCTGTAGTGTTACAAGCCCGCATGTTCGCCTACCCCGATGCTCAGCGC
TACCGCCTTGGGGTCAATTACACCCAGCTTCCGCCTAACCGCGCTGTTTG
TCCTGTCTACGCGCCCTATGAGAGGGATGGCTTCGCCACAGTGACGAAGA
ATTATGGCGGTGACCCAAACTATGTGCGCAGCTCGCTTTCTCCCGCCCGG
GAATTACTTCGCCGAGATCGAACAGGCGGCGTTCTCGCCATCGAACATGG
TCCCTGGGATTGCTGGCACGCCTGACCCAATTCTGGGACTTCCACGCCAA
CCAACCCGAAAGCGTCCACGCATTGCTCCATCTCTTCGGCTCGCGAGGCA
TTCCAGGCTCCATCCGATCCGTCACTGGCTTTGGCGTACACACCTTCAAG
CTCGTATCCCCCGACGGCACTTTCCATTACTGCAAATTCCATTTCCGGCC
TGAGCTCGAGGGGAAATATTTCTCTGGACAAGAAGCCGCCCGGATGGCTG
GGGTGGATGCTGATTTCCACAACTTGGATCTGTGGGATGCCATTGCACGG
GGGCAGTATCCTGTTTGGAAGCTGTATGTGCAGGTTATGGAGCCTGAGAG
GGCAGAGGAATTCGGACGGGGATTGTTTGATATTACGAAGATCTGGTCGC
ATAAGGAGTTCCCGCTCATTGAAGTGGGCAAGATGACCTTGAATAAGAAT
CCCGTCTTCTTCGTCCGGGACCCTATCCGCTTCCCTTCTCTGAACAGAAG
CCACAAGCGCCATCCTGCCACAAATCGTCCGGATTGGACTATGAGTCGTC
CACGCGAAAGCAGCTGGCGCATGGGGGGAATTCGAAGTGACGAACGACAT
ATCGTCCCTAACCTCCGCTAAGTTCCTCAACAGCGTCGGGAAGAAAACTC
CCGTTTTGTTTCGTCTCAGCACGACGGGTGGTGAAAAGGGTAGTGCGGAT
ACTGTGCGAGATGTGCGTGGATTCTCGGTCAAGTTCTTCACCGAAGAGGG
GAACCATGATATTGTGGGAAATCACATTGCCAACCCATCCCTGACCCCTC
CGTGAGCACCACCCTGCCTACCATTGGCGGCGGAGGCATCACAACCCTAG
GAGACACCCTTCTCCTCGAGACTCTGGCTCACTTCAACCGTGAGCGTATC
CCAGAAAGATGTCCAGACCAGTCTACACCCTGGCAGAAGACTTCGTTCAG
CCACGAGACCTCTGGAATAGGGTCTTTGATGAGACGGAAAGGCGAAAGTG
GATTGCGAATGTTGCTGAGACGCTGGCTGAGGTTCCCGAGCCGCTCAAGG
AGGCCGTGGTGAATATGTTTGGGAGAGTCGATGGTCGCTTGAGAGAGATG
TTAGGAACAAAGGTCAGGGATTATTCGCGGCTGTAGTGTTACAAGCCCGC
ATGTTCGCCTACCCCGATGCTCAGCGCTACCGCCTTGGGGTCAATTACAC
CCAGCTTCCGCCTAACCGCGCTGTTTGTCCTGTCTACGCGCCCTATGAGA
GGGATGGCTTCGCCACAGTGACGAAGAATTATGGCGGTGACCCAAACTAT
GTGCGCAGCTCGCTTTCTCCCGCCCGGGAATTACTTCGCCGAGATCGAAC
AGGCGGCGTTCTCGCCATCGAACATGGTCCCTGGGATTGCTGGCACGCCT
GACCCAATTCTGGGACTTCCACGCCAACCAACCCGAAAGCGTCCACGCAT
TGCTCCATCTCTTCGGCTCGCGAGGCATTCCAGGCTCCATCCGATCCGTC
ACTGGCTTTGGCGTACACACCTTCAAGCTCGTATCCCCCGACGGCACTTT
CCATTACTGCAAATTCCATTTCCGGCCTGAGCTCGAGGGGAAATATTTCT
CTGGACAAGAAGCCGCCCGGATGGCTGGGGTGGATGCTGATTTCCACAAC
TTGGATCTGTGGGATGCCATTGCACGGGGGCAGTATCCTGTTTGGAAGCT
GTATGTGCAGGTTATGGAGCCTGAGAGGGCAGAGGAATTCGGACGGGGAT
TGTTTGATATTACGAAGATCTGGTCGCATAAGGAGTTCCCGCTCATTGAA
GTGGGCAAGATGACCTTGAATAAGAATCCCGTCTTCTTCGTCCGGGACCC
TATCCGCTTCCCTTCTCTGAACAGAAGCCACAAGCGCCATCCTGCCACAA
ATCGTCCGGATTGGACTATGAGTCGTCCACGCGAAAGCAGCTGGCGCATG
GGGGGAATTCGAAGTGACGAACGACATATCGTCCCTAACCTCCGCTAAGT
TCCTCAACAGCGTCGGGAAGAAAACTCCCGTTTTGTTTCGTCTCAGCACG
ACGGGTGGTGAAAAGGGTAGTGCGGATACTGTGCGAGATGTGCGTGGATT
CTCGGTCAAGTTCTTCACCGAAGAGGGGAACCATGATATTGTGGGAAATC
ACATTGCCAACCCATCCCTGACCCCTCCGTGAGCACCACCCTGCCTACCA
TTGGCGGCGGAGGCATCACAACCCTAGGAGACACCCTTCTCCTCGAGACT
CTGGCTCACTTCAACCGTGAGCGTATCCCAGAAAGATGTCCAGACCAGTC
TACACCCTGGCAGAAG
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0020037heme binding
GO:0004096catalase activity
Vocabulary: Biological Process
TermDefinition
GO:0006979response to oxidative stress
GO:0055114oxidation-reduction process
Relationships

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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_213578ASPNIDRAFT_213578Aspergillus niger ATCC 1015gene


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_213578-T1ASPNIDRAFT_213578-T1-proteinAspergillus niger ATCC 1015polypeptide


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_213578-T1.cdsASPNIDRAFT_213578-T1.cdsAspergillus niger ATCC 1015CDS


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_213578-T1.exon8ASPNIDRAFT_213578-T1.exon8Aspergillus niger ATCC 1015exon
ASPNIDRAFT_213578-T1.exon7ASPNIDRAFT_213578-T1.exon7Aspergillus niger ATCC 1015exon
ASPNIDRAFT_213578-T1.exon6ASPNIDRAFT_213578-T1.exon6Aspergillus niger ATCC 1015exon
ASPNIDRAFT_213578-T1.exon5ASPNIDRAFT_213578-T1.exon5Aspergillus niger ATCC 1015exon
ASPNIDRAFT_213578-T1.exon4ASPNIDRAFT_213578-T1.exon4Aspergillus niger ATCC 1015exon
ASPNIDRAFT_213578-T1.exon3ASPNIDRAFT_213578-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_213578-T1.exon2ASPNIDRAFT_213578-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_213578-T1.exon1ASPNIDRAFT_213578-T1.exon1Aspergillus niger ATCC 1015exon


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_213578-T1.utr5p1ASPNIDRAFT_213578-T1.utr5p1Aspergillus niger ATCC 1015five_prime_UTR


Properties
Property NameValue
NoteantiSMASH:Cluster_10000151.10
DBxrefInterPro:IPR020835
DBxrefInterPro:IPR002226
DBxrefInterPro:IPR024708
DBxrefInterPro:IPR024711
DBxrefInterPro:IPR037060
DBxrefInterPro:IPR010582
DBxrefInterPro:IPR011614
DBxrefInterPro:IPR018028
DBxrefPFAM:PF06628
DBxrefPFAM:PF00199
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
ACJE01000015.1supercontigACJE01000015.1:1270252..1272243 -
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