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ASPNIDRAFT_44909-T1, ASPNIDRAFT_44909-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_44909-T1
Unique NameASPNIDRAFT_44909-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000003.1:818015..820175+

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_44909-T1 ID=ASPNIDRAFT_44909-T1|Name=ASPNIDRAFT_44909-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2161bp|location=Sequence derived from alignment at ACJE01000003.1:818015..820175+ (Aspergillus niger ATCC 1015)
ATGAACCAACACCCTCTCCCGACTCTGCCCCTTGGCTTGATCGATCCTTC
GTCAATGGTTGGTGACGAAGCAACAACCCAAGCCCGTGGTGTGTTACAAG
TTTTCAATAATGCATTGGCCAATGGCGATGTAAACGCCCTGGAAAGCTGT
TTCTATGCAGACCAAGCATACTGGAAGGATCAATTGGCTCTGACATGGCA
TCTGCGCACAATCAGCACCCCTCGTACCATCGCTGCAAGTTTGTTGGAGA
CAACAAACCTGAGGAACGTTTCCGGTGGTGTTGAGATTGACGGAGCTGCC
GTGTTTCTTCCGGCCACACCAGTTCTCGTACGCGCCTATCTGGTCCACTT
CTTTGCGACAGGCACTGACCGCATAATTCGCTATCTAGCAATTTATTGAT
TGTCCTCTCATTTTCAAGACACAATCGCCATCTGGTCTCTGTCGGGGTAA
GATGATGCTACTGCCTGTTGTAACCGATGGCCAAAGGATCGCCTGGAAGA
TCTGGATATTGAGCACTATACTCGAGAGCTTGGACGTACAACCAGAGGAT
GAAAGCCTACTACAGATTCCCAAAAGGAAACTGGATGCACCACCAAACTT
CGAAACAGATGTCTTTATCATCGGTGCGGGAAATGCGTAAGACACCGTTC
CTATCCGCTTTCGATGGGTCACTGAAATTAAAACACCAGCGCCGTTGCTC
TTTCCGCACGTCTGAAGACTCTGGGTGTTGACAGCGTTATGGTCGACCGC
AACCCGTGTCCTGGTGACAATTGGGCACTACGCTATGACTGCATGCAGTT
TCACATTCCCACAGCATTCTGTGAGCTTCCTTACATGTGTTAGTCATTCC
ATATCCTGCCCCTGATGCCATTGTTCGGGTCAGAGGTGGTGTTGACCGAC
CCAAACAGGCTATGACAAAGAGCTTCAGAGCCCTCACCTCCTTACGCGCC
AGGACCTGGCCTCGCAGGTCCGCAGATATGTCGAGTCATTCAACCTGAAT
ACTATCCATTCCGCCAAGGTTCTGTCGACTGAGTATGATGAGGTGGCCAG
GCAGTGGCATGTTACTTTCCAGTCACCAGACGGCCAGCGCAAGGCTACGT
CAAAGCATCTTGTTATGGCAACAGGCATTGGGTCTCAAAAGCCTAAAATG
CCACCGATCGCGGAGCCTCAACTGTACAAGGGCATCAGCATTCACTCGGC
CGAGTACAAGAATGCGAAGCTATTTCGGGAACAAGGAGCAAAGGTACATC
CTATATCAAAATCTCCAAGAAACCCCGTGTGGTACTAACTGAACAAGTCT
GTCATAGTCATTGGCTCTGCAAACACAGCATTTGATGTGCTGGTCGACTG
CCACAAGGCCGGCCTCGATGCGACCATGGTCGTTAGATCCCCAACTTACA
TTGTGCCACTCGAGTATGTCTGCGATAAAAACAGTCTGGGTGCGTATAAT
TATGGTGTTGATGCGGCTGATAAGCTGTTCCTATCACTGCCAACAGTGGT
GGATGGACAGTTGGCCCGTGGGTTGTTCGCAATGTTCGCCTCGAACGAGC
CAGAGCGATATGCTGCACTTGAGGCAGCTGGCTTCCCTGTCCTTGACAGC
CGGAACCCAGATTGTGCATTAATGCATAACCTCCTCGAGCGTGCGGGTGG
ACATTATGTCGATGTCGGTGGTACGAAGCTGATCGAGGAGAGGAAGGTCA
ATGTAAAAGCAGGAGTAGAGCCCGTTGCCTACACACGGACAGGCCTTCGG
TTCTCGGATGGCAGTTGTGTGGATGCAGATGCTATCGTTTGGTGTACTGG
TTTCTCCGATTCCAACGTTGTAACAACGGCCACCGAGATTCTTGGTGGAG
ACTCGAGTATGAATGAGTCAGGGGTGGAAGTTGAACCTAACAGCAGCGCA
AAACAAATCCTCGGACCTCGAGACATTGCCTCGCGCTTGGATGCGACCTG
GGGACTTGATGAGGAGGGAGAAATTCGTGGCATGTGGAAGCGACATTTGA
ATATTGAGAACATCTGGATCATGGGAGGTTACACGCAGCAGCACCGGTGG
TACTCGCGTACCCTCGCGCTCCAGATTAAAGCAGCCTTGGAAGGAATTCT
TCCACCGGCCTATCGGCACTCCCCTACAGCGGAAACTGCAAACCTGAAGG
CCTCTCTTTGA
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Coding sequence (CDS) from alignment at ACJE01000003.1:818015..820175+

>ASPNIDRAFT_44909-T1 ID=ASPNIDRAFT_44909-T1|Name=ASPNIDRAFT_44909-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=9690bp|location=Sequence derived from alignment at ACJE01000003.1:818015..820175+ (Aspergillus niger ATCC 1015)
ATGAACCAACACCCTCTCCCGACTCTGCCCCTTGGCTTGATCGATCCTTC
GTCAATGGTTGGTGACGAAGCAACAACCCAAGCCCGTGGTGTGTTACAAG
TTTTCAATAATGCATTGGCCAATGGCGATGTAAACGCCCTGGAAAGCTGT
TTCTATGCAGACCAAGCATACTGGAAGGATCAATTGGCTCTGACATGGCA
TCTGCGCACAATCAGCACCCCTCGTACCATCGCTGCAAGTTTGTTGGAGA
CAACAAACCTGAGGAACGTTTCCGGTGGTGTTGAGATTGACGGAGCTGCC
GTGTTTCTTCCGGCCACACCAGTTCTCGTACGCGCCTATCTGCAATTTAT
TGATTGTCCTCTCATTTTCAAGACACAATCGCCATCTGGTCTCTGTCGGG
GTAAGATGATGCTACTGCCTGTTGTAACCGATGGCCAAAGGATCGCCTGG
AAGATCTGGATATTGAGCACTATACTCGAGAGCTTGGACGTACAACCAGA
GGATGAAAGCCTACTACAGATTCCCAAAAGGAAACTGGATGCACCACCAA
ACTTCGAAACAGATGTCTTTATCATCGGTGCGGGAAATGCCGCCGTTGCT
CTTTCCGCACGTCTGAAGACTCTGGGTGTTGACAGCGTTATGGTCGACCG
CAACCCGTGTCCTGGTGACAATTGGGCACTACGCTATGACTGCATGCAGT
TTCACATTCCCACAGCATTCTGTGAGCTTCCTTACATGTGCTATGACAAA
GAGCTTCAGAGCCCTCACCTCCTTACGCGCCAGGACCTGGCCTCGCAGGT
CCGCAGATATGTCGAGTCATTCAACCTGAATACTATCCATTCCGCCAAGG
TTCTGTCGACTGAGTATGATGAGGTGGCCAGGCAGTGGCATGTTACTTTC
CAGTCACCAGACGGCCAGCGCAAGGCTACGTCAAAGCATCTTGTTATGGC
AACAGGCATTGGGTCTCAAAAGCCTAAAATGCCACCGATCGCGGAGCCTC
AACTGTACAAGGGCATCAGCATTCACTCGGCCGAGTACAAGAATGCGAAG
CTATTTCGGGAACAAGGAGCAAAGTCTGTCATAGTCATTGGCTCTGCAAA
CACAGCATTTGATGTGCTGGTCGACTGCCACAAGGCCGGCCTCGATGCGA
CCATGGTCGTTAGATCCCCAACTTACATTGTGCCACTCGAGTATGTCTGC
GATAAAAACAGTCTGGGTGCGTATAATTATGGTGTTGATGCGGCTGATAA
GCTGTTCCTATCACTGCCAACAGTGGTGGATGGACAGTTGGCCCGTGGGT
TGTTCGCAATGTTCGCCTCGAACGAGCCAGAGCGATATGCTGCACTTGAG
GCAGCTGGCTTCCCTGTCCTTGACAGCCGGAACCCAGATTGTGCATTAAT
GCATAACCTCCTCGAGCGTGCGGGTGGACATTATGTCGATGTCGGTGGTA
CGAAGCTGATCGAGGAGAGGAAGGTCAATGTAAAAGCAGGAGTAGAGCCC
GTTGCCTACACACGGACAGGCCTTCGGTTCTCGGATGGCAGTTGTGTGGA
TGCAGATGCTATCGTTTGGTGTACTGGTTTCTCCGATTCCAACGTTGTAA
CAACGGCCACCGAGATTCTTGGTGGAGACTCGAGTATGAATGAGTCAGGG
GTGGAAGTTGAACCTAACAGCAGCGCAAAACAAATCCTCGGACCTCGAGA
CATTGCCTCGCGCTTGGATGCGACCTGGGGACTTGATGAGGAGGGAGAAA
TTCGTGGCATGTGGAAGCGACATTTGAATATTGAGAACATCTGGATCATG
GGAGGTTACACGCAGCAGCACCGGTGGTACTCGCGTACCCTCGCGCTCCA
GATTAAAGCAGCCTTGGAAGGAATTCTTCCACCGGCCTATCGGCACTCCC
CTACAGCGGAAACTGCAAACCTGAAGGCCTCTCTTTGAATGAACCAACAC
CCTCTCCCGACTCTGCCCCTTGGCTTGATCGATCCTTCGTCAATGGTTGG
TGACGAAGCAACAACCCAAGCCCGTGGTGTGTTACAAGTTTTCAATAATG
CATTGGCCAATGGCGATGTAAACGCCCTGGAAAGCTGTTTCTATGCAGAC
CAAGCATACTGGAAGGATCAATTGGCTCTGACATGGCATCTGCGCACAAT
CAGCACCCCTCGTACCATCGCTGCAAGTTTGTTGGAGACAACAAACCTGA
GGAACGTTTCCGGTGGTGTTGAGATTGACGGAGCTGCCGTGTTTCTTCCG
GCCACACCAGTTCTCGTACGCGCCTATCTGCAATTTATTGATTGTCCTCT
CATTTTCAAGACACAATCGCCATCTGGTCTCTGTCGGGGTAAGATGATGC
TACTGCCTGTTGTAACCGATGGCCAAAGGATCGCCTGGAAGATCTGGATA
TTGAGCACTATACTCGAGAGCTTGGACGTACAACCAGAGGATGAAAGCCT
ACTACAGATTCCCAAAAGGAAACTGGATGCACCACCAAACTTCGAAACAG
ATGTCTTTATCATCGGTGCGGGAAATGCCGCCGTTGCTCTTTCCGCACGT
CTGAAGACTCTGGGTGTTGACAGCGTTATGGTCGACCGCAACCCGTGTCC
TGGTGACAATTGGGCACTACGCTATGACTGCATGCAGTTTCACATTCCCA
CAGCATTCTGTGAGCTTCCTTACATGTGCTATGACAAAGAGCTTCAGAGC
CCTCACCTCCTTACGCGCCAGGACCTGGCCTCGCAGGTCCGCAGATATGT
CGAGTCATTCAACCTGAATACTATCCATTCCGCCAAGGTTCTGTCGACTG
AGTATGATGAGGTGGCCAGGCAGTGGCATGTTACTTTCCAGTCACCAGAC
GGCCAGCGCAAGGCTACGTCAAAGCATCTTGTTATGGCAACAGGCATTGG
GTCTCAAAAGCCTAAAATGCCACCGATCGCGGAGCCTCAACTGTACAAGG
GCATCAGCATTCACTCGGCCGAGTACAAGAATGCGAAGCTATTTCGGGAA
CAAGGAGCAAAGTCTGTCATAGTCATTGGCTCTGCAAACACAGCATTTGA
TGTGCTGGTCGACTGCCACAAGGCCGGCCTCGATGCGACCATGGTCGTTA
GATCCCCAACTTACATTGTGCCACTCGAGTATGTCTGCGATAAAAACAGT
CTGGGTGCGTATAATTATGGTGTTGATGCGGCTGATAAGCTGTTCCTATC
ACTGCCAACAGTGGTGGATGGACAGTTGGCCCGTGGGTTGTTCGCAATGT
TCGCCTCGAACGAGCCAGAGCGATATGCTGCACTTGAGGCAGCTGGCTTC
CCTGTCCTTGACAGCCGGAACCCAGATTGTGCATTAATGCATAACCTCCT
CGAGCGTGCGGGTGGACATTATGTCGATGTCGGTGGTACGAAGCTGATCG
AGGAGAGGAAGGTCAATGTAAAAGCAGGAGTAGAGCCCGTTGCCTACACA
CGGACAGGCCTTCGGTTCTCGGATGGCAGTTGTGTGGATGCAGATGCTAT
CGTTTGGTGTACTGGTTTCTCCGATTCCAACGTTGTAACAACGGCCACCG
AGATTCTTGGTGGAGACTCGAGTATGAATGAGTCAGGGGTGGAAGTTGAA
CCTAACAGCAGCGCAAAACAAATCCTCGGACCTCGAGACATTGCCTCGCG
CTTGGATGCGACCTGGGGACTTGATGAGGAGGGAGAAATTCGTGGCATGT
GGAAGCGACATTTGAATATTGAGAACATCTGGATCATGGGAGGTTACACG
CAGCAGCACCGGTGGTACTCGCGTACCCTCGCGCTCCAGATTAAAGCAGC
CTTGGAAGGAATTCTTCCACCGGCCTATCGGCACTCCCCTACAGCGGAAA
CTGCAAACCTGAAGGCCTCTCTTTGAATGAACCAACACCCTCTCCCGACT
CTGCCCCTTGGCTTGATCGATCCTTCGTCAATGGTTGGTGACGAAGCAAC
AACCCAAGCCCGTGGTGTGTTACAAGTTTTCAATAATGCATTGGCCAATG
GCGATGTAAACGCCCTGGAAAGCTGTTTCTATGCAGACCAAGCATACTGG
AAGGATCAATTGGCTCTGACATGGCATCTGCGCACAATCAGCACCCCTCG
TACCATCGCTGCAAGTTTGTTGGAGACAACAAACCTGAGGAACGTTTCCG
GTGGTGTTGAGATTGACGGAGCTGCCGTGTTTCTTCCGGCCACACCAGTT
CTCGTACGCGCCTATCTGCAATTTATTGATTGTCCTCTCATTTTCAAGAC
ACAATCGCCATCTGGTCTCTGTCGGGGTAAGATGATGCTACTGCCTGTTG
TAACCGATGGCCAAAGGATCGCCTGGAAGATCTGGATATTGAGCACTATA
CTCGAGAGCTTGGACGTACAACCAGAGGATGAAAGCCTACTACAGATTCC
CAAAAGGAAACTGGATGCACCACCAAACTTCGAAACAGATGTCTTTATCA
TCGGTGCGGGAAATGCCGCCGTTGCTCTTTCCGCACGTCTGAAGACTCTG
GGTGTTGACAGCGTTATGGTCGACCGCAACCCGTGTCCTGGTGACAATTG
GGCACTACGCTATGACTGCATGCAGTTTCACATTCCCACAGCATTCTGTG
AGCTTCCTTACATGTGCTATGACAAAGAGCTTCAGAGCCCTCACCTCCTT
ACGCGCCAGGACCTGGCCTCGCAGGTCCGCAGATATGTCGAGTCATTCAA
CCTGAATACTATCCATTCCGCCAAGGTTCTGTCGACTGAGTATGATGAGG
TGGCCAGGCAGTGGCATGTTACTTTCCAGTCACCAGACGGCCAGCGCAAG
GCTACGTCAAAGCATCTTGTTATGGCAACAGGCATTGGGTCTCAAAAGCC
TAAAATGCCACCGATCGCGGAGCCTCAACTGTACAAGGGCATCAGCATTC
ACTCGGCCGAGTACAAGAATGCGAAGCTATTTCGGGAACAAGGAGCAAAG
TCTGTCATAGTCATTGGCTCTGCAAACACAGCATTTGATGTGCTGGTCGA
CTGCCACAAGGCCGGCCTCGATGCGACCATGGTCGTTAGATCCCCAACTT
ACATTGTGCCACTCGAGTATGTCTGCGATAAAAACAGTCTGGGTGCGTAT
AATTATGGTGTTGATGCGGCTGATAAGCTGTTCCTATCACTGCCAACAGT
GGTGGATGGACAGTTGGCCCGTGGGTTGTTCGCAATGTTCGCCTCGAACG
AGCCAGAGCGATATGCTGCACTTGAGGCAGCTGGCTTCCCTGTCCTTGAC
AGCCGGAACCCAGATTGTGCATTAATGCATAACCTCCTCGAGCGTGCGGG
TGGACATTATGTCGATGTCGGTGGTACGAAGCTGATCGAGGAGAGGAAGG
TCAATGTAAAAGCAGGAGTAGAGCCCGTTGCCTACACACGGACAGGCCTT
CGGTTCTCGGATGGCAGTTGTGTGGATGCAGATGCTATCGTTTGGTGTAC
TGGTTTCTCCGATTCCAACGTTGTAACAACGGCCACCGAGATTCTTGGTG
GAGACTCGAGTATGAATGAGTCAGGGGTGGAAGTTGAACCTAACAGCAGC
GCAAAACAAATCCTCGGACCTCGAGACATTGCCTCGCGCTTGGATGCGAC
CTGGGGACTTGATGAGGAGGGAGAAATTCGTGGCATGTGGAAGCGACATT
TGAATATTGAGAACATCTGGATCATGGGAGGTTACACGCAGCAGCACCGG
TGGTACTCGCGTACCCTCGCGCTCCAGATTAAAGCAGCCTTGGAAGGAAT
TCTTCCACCGGCCTATCGGCACTCCCCTACAGCGGAAACTGCAAACCTGA
AGGCCTCTCTTTGAATGAACCAACACCCTCTCCCGACTCTGCCCCTTGGC
TTGATCGATCCTTCGTCAATGGTTGGTGACGAAGCAACAACCCAAGCCCG
TGGTGTGTTACAAGTTTTCAATAATGCATTGGCCAATGGCGATGTAAACG
CCCTGGAAAGCTGTTTCTATGCAGACCAAGCATACTGGAAGGATCAATTG
GCTCTGACATGGCATCTGCGCACAATCAGCACCCCTCGTACCATCGCTGC
AAGTTTGTTGGAGACAACAAACCTGAGGAACGTTTCCGGTGGTGTTGAGA
TTGACGGAGCTGCCGTGTTTCTTCCGGCCACACCAGTTCTCGTACGCGCC
TATCTGCAATTTATTGATTGTCCTCTCATTTTCAAGACACAATCGCCATC
TGGTCTCTGTCGGGGTAAGATGATGCTACTGCCTGTTGTAACCGATGGCC
AAAGGATCGCCTGGAAGATCTGGATATTGAGCACTATACTCGAGAGCTTG
GACGTACAACCAGAGGATGAAAGCCTACTACAGATTCCCAAAAGGAAACT
GGATGCACCACCAAACTTCGAAACAGATGTCTTTATCATCGGTGCGGGAA
ATGCCGCCGTTGCTCTTTCCGCACGTCTGAAGACTCTGGGTGTTGACAGC
GTTATGGTCGACCGCAACCCGTGTCCTGGTGACAATTGGGCACTACGCTA
TGACTGCATGCAGTTTCACATTCCCACAGCATTCTGTGAGCTTCCTTACA
TGTGCTATGACAAAGAGCTTCAGAGCCCTCACCTCCTTACGCGCCAGGAC
CTGGCCTCGCAGGTCCGCAGATATGTCGAGTCATTCAACCTGAATACTAT
CCATTCCGCCAAGGTTCTGTCGACTGAGTATGATGAGGTGGCCAGGCAGT
GGCATGTTACTTTCCAGTCACCAGACGGCCAGCGCAAGGCTACGTCAAAG
CATCTTGTTATGGCAACAGGCATTGGGTCTCAAAAGCCTAAAATGCCACC
GATCGCGGAGCCTCAACTGTACAAGGGCATCAGCATTCACTCGGCCGAGT
ACAAGAATGCGAAGCTATTTCGGGAACAAGGAGCAAAGTCTGTCATAGTC
ATTGGCTCTGCAAACACAGCATTTGATGTGCTGGTCGACTGCCACAAGGC
CGGCCTCGATGCGACCATGGTCGTTAGATCCCCAACTTACATTGTGCCAC
TCGAGTATGTCTGCGATAAAAACAGTCTGGGTGCGTATAATTATGGTGTT
GATGCGGCTGATAAGCTGTTCCTATCACTGCCAACAGTGGTGGATGGACA
GTTGGCCCGTGGGTTGTTCGCAATGTTCGCCTCGAACGAGCCAGAGCGAT
ATGCTGCACTTGAGGCAGCTGGCTTCCCTGTCCTTGACAGCCGGAACCCA
GATTGTGCATTAATGCATAACCTCCTCGAGCGTGCGGGTGGACATTATGT
CGATGTCGGTGGTACGAAGCTGATCGAGGAGAGGAAGGTCAATGTAAAAG
CAGGAGTAGAGCCCGTTGCCTACACACGGACAGGCCTTCGGTTCTCGGAT
GGCAGTTGTGTGGATGCAGATGCTATCGTTTGGTGTACTGGTTTCTCCGA
TTCCAACGTTGTAACAACGGCCACCGAGATTCTTGGTGGAGACTCGAGTA
TGAATGAGTCAGGGGTGGAAGTTGAACCTAACAGCAGCGCAAAACAAATC
CTCGGACCTCGAGACATTGCCTCGCGCTTGGATGCGACCTGGGGACTTGA
TGAGGAGGGAGAAATTCGTGGCATGTGGAAGCGACATTTGAATATTGAGA
ACATCTGGATCATGGGAGGTTACACGCAGCAGCACCGGTGGTACTCGCGT
ACCCTCGCGCTCCAGATTAAAGCAGCCTTGGAAGGAATTCTTCCACCGGC
CTATCGGCACTCCCCTACAGCGGAAACTGCAAACCTGAAGGCCTCTCTTT
GAATGAACCAACACCCTCTCCCGACTCTGCCCCTTGGCTTGATCGATCCT
TCGTCAATGGTTGGTGACGAAGCAACAACCCAAGCCCGTGGTGTGTTACA
AGTTTTCAATAATGCATTGGCCAATGGCGATGTAAACGCCCTGGAAAGCT
GTTTCTATGCAGACCAAGCATACTGGAAGGATCAATTGGCTCTGACATGG
CATCTGCGCACAATCAGCACCCCTCGTACCATCGCTGCAAGTTTGTTGGA
GACAACAAACCTGAGGAACGTTTCCGGTGGTGTTGAGATTGACGGAGCTG
CCGTGTTTCTTCCGGCCACACCAGTTCTCGTACGCGCCTATCTGCAATTT
ATTGATTGTCCTCTCATTTTCAAGACACAATCGCCATCTGGTCTCTGTCG
GGGTAAGATGATGCTACTGCCTGTTGTAACCGATGGCCAAAGGATCGCCT
GGAAGATCTGGATATTGAGCACTATACTCGAGAGCTTGGACGTACAACCA
GAGGATGAAAGCCTACTACAGATTCCCAAAAGGAAACTGGATGCACCACC
AAACTTCGAAACAGATGTCTTTATCATCGGTGCGGGAAATGCCGCCGTTG
CTCTTTCCGCACGTCTGAAGACTCTGGGTGTTGACAGCGTTATGGTCGAC
CGCAACCCGTGTCCTGGTGACAATTGGGCACTACGCTATGACTGCATGCA
GTTTCACATTCCCACAGCATTCTGTGAGCTTCCTTACATGTGCTATGACA
AAGAGCTTCAGAGCCCTCACCTCCTTACGCGCCAGGACCTGGCCTCGCAG
GTCCGCAGATATGTCGAGTCATTCAACCTGAATACTATCCATTCCGCCAA
GGTTCTGTCGACTGAGTATGATGAGGTGGCCAGGCAGTGGCATGTTACTT
TCCAGTCACCAGACGGCCAGCGCAAGGCTACGTCAAAGCATCTTGTTATG
GCAACAGGCATTGGGTCTCAAAAGCCTAAAATGCCACCGATCGCGGAGCC
TCAACTGTACAAGGGCATCAGCATTCACTCGGCCGAGTACAAGAATGCGA
AGCTATTTCGGGAACAAGGAGCAAAGTCTGTCATAGTCATTGGCTCTGCA
AACACAGCATTTGATGTGCTGGTCGACTGCCACAAGGCCGGCCTCGATGC
GACCATGGTCGTTAGATCCCCAACTTACATTGTGCCACTCGAGTATGTCT
GCGATAAAAACAGTCTGGGTGCGTATAATTATGGTGTTGATGCGGCTGAT
AAGCTGTTCCTATCACTGCCAACAGTGGTGGATGGACAGTTGGCCCGTGG
GTTGTTCGCAATGTTCGCCTCGAACGAGCCAGAGCGATATGCTGCACTTG
AGGCAGCTGGCTTCCCTGTCCTTGACAGCCGGAACCCAGATTGTGCATTA
ATGCATAACCTCCTCGAGCGTGCGGGTGGACATTATGTCGATGTCGGTGG
TACGAAGCTGATCGAGGAGAGGAAGGTCAATGTAAAAGCAGGAGTAGAGC
CCGTTGCCTACACACGGACAGGCCTTCGGTTCTCGGATGGCAGTTGTGTG
GATGCAGATGCTATCGTTTGGTGTACTGGTTTCTCCGATTCCAACGTTGT
AACAACGGCCACCGAGATTCTTGGTGGAGACTCGAGTATGAATGAGTCAG
GGGTGGAAGTTGAACCTAACAGCAGCGCAAAACAAATCCTCGGACCTCGA
GACATTGCCTCGCGCTTGGATGCGACCTGGGGACTTGATGAGGAGGGAGA
AATTCGTGGCATGTGGAAGCGACATTTGAATATTGAGAACATCTGGATCA
TGGGAGGTTACACGCAGCAGCACCGGTGGTACTCGCGTACCCTCGCGCTC
CAGATTAAAGCAGCCTTGGAAGGAATTCTTCCACCGGCCTATCGGCACTC
CCCTACAGCGGAAACTGCAAACCTGAAGGCCTCTCTTTGA
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Relationships

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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_44909ASPNIDRAFT_44909Aspergillus niger ATCC 1015gene


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_44909-T1ASPNIDRAFT_44909-T1-proteinAspergillus niger ATCC 1015polypeptide


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_44909-T1.exon1ASPNIDRAFT_44909-T1.exon1Aspergillus niger ATCC 1015exon
ASPNIDRAFT_44909-T1.exon2ASPNIDRAFT_44909-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_44909-T1.exon3ASPNIDRAFT_44909-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_44909-T1.exon4ASPNIDRAFT_44909-T1.exon4Aspergillus niger ATCC 1015exon
ASPNIDRAFT_44909-T1.exon5ASPNIDRAFT_44909-T1.exon5Aspergillus niger ATCC 1015exon


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_44909-T1.cdsASPNIDRAFT_44909-T1.cdsAspergillus niger ATCC 1015CDS


Properties
Property NameValue
NoteEggNog:ENOG41
DBxrefInterPro:IPR036188
DBxrefPFAM:PF13738
DBxrefPFAM:PF07992
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
ACJE01000003.1supercontigACJE01000003.1:818015..820175 +
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