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Sequences
The following sequences are available for this feature:
mRNA from alignment at OGUI01000013.1:1750464..1753847+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC64974_79200-T1 ID=ATCC64974_79200-T1|Name=ATCC64974_79200-T1|organism=Aspergillus niger N402|type=mRNA|length=3384bp|location=Sequence derived from alignment at OGUI01000013.1:1750464..1753847+ (Aspergillus niger N402)
ATGTCTCGAAACGTGCTAGACCAAGACTTCGGGTCTGAAGAGGAGGACGA
CGACTTCAACCCCGCTCCTGCGGATGACTCCGGGGATGAAGATACTAAGG
TTTGTTGTGAAAGTGGGTGGCAAAGTGAACTATTTCACTGATACATAATA
AAGCAGGCTGCGCGTCGCGCTCCAGACGATGACGACGATGACGATGACGA
GGAGGAAGTGAACACTGGGCGGAGTGGAAGGCAACGTGCTGGCAGTGAAG
ACAACGCCGGAAGGGGCGCTGATGACGATGAGGAGGGCGAGAATGACGAC
GAAGAGGAGGAAGGGGATGAAGAGGATGAAGACGAAGAGGAAGAGGAAGA
GGATGATGACGAGGATGCCAATGCTGTGAGTATAGGTTTTGGTCCTAAGT
TTGGAAAGGTCACCGGCTGATCATGGTTTCGTTTGTAGGGACGGCCACGG
AAGCGCAGACGCAAAGCCGGTGTGCACTCGTTCTTCGAAGAAGAAGCCGG
TGTCGACGAGGATGAGGATGAGGCTGAAGATGACGAGGACGAACTGGCGG
AATTCGGTGGAGAGATGCACCCGGATGATATGGACGCCCTGCCTGTCGGT
GCTGAAACGGACGACCGCCGACACAGACAGCTTGATCGTCAGCGTGAACT
GGCAGCCAGCATGGATGCGGAGAAACAGGCACAGATGCTCAAGGAGCGCT
ATGGACGGAACCGCGCTGCGGCTACTGACGCAGTGGTTGTTCCAAAGCGA
CTGCTTCTTCCTAGTGTGGACGACCCTAGCATCTGGGGTGTTCGCTGCAA
GGCCGGTAAGGAACGTGAAGTCGTATTCTCAATCCAGAAGCGTATTGAAG
AGCGACCTCCGGGATCTCGAAACCCCATTAAGATCATGTCGGCTTTCGAA
CGTGGGGGTGCTATGGCCGGTTATATCTATGTTGAGGCGCGCAGGCAGGC
CGATGTCATGGATGCACTACAGGACATGACCAATGTGTATCCGAGGACGA
AGATGATCTTGGTCCCAGTGAGAGAGATGCCCGACCTCCTTCGAGTACAG
AAGTCCGAAGAGCTCATGCCTGGTGGCTGGGTTCGTATCAAGCGTGGTAA
ATACCAGGGCGATCTGGCACAGATTGAGGAAGTCGAAACAAACGGCTTGG
CAGTGACAGTGAGACTGATTCCGCGTTTGGATTACGGAATGAACGAAGAT
ATCGGTGCCCCTATTTCCGATCCGAAGAGGAAGCGCCCTGGCATGAACCC
AGCAGTGGCACGGCCTCCCCAGCGTGCGTTCAGTGAAGCTGAGGCCAAGA
AGAAGCATGCAAAGTACTTGTCTGCCACGTCTGGTTTGGGTGGAAAGTCG
TGGAACTATCTCGGCGAGACATATGTGGATGGCTTCTTGATCAAGGACTT
GAAGGTTCAACATCTTATCACGAAGAATGTCAACCCTCGACTCGAGGAAG
TCACCATGTTTGCTCGCGGCTCCGAGGATGGCACCTCGAACTTGGATCTG
GCTTCCTTGGCTGAGACGCTGAAGAATTCTGCTGCTGAAGACTCCTACCT
GCCCGGTGACCCGGTGGAAGTGTTCCGAGGTGAACAGCAGGGCTTAATCG
GTCGCACAAGTTCTACTCGAGGAGACATCGTGACTCTGCTGGTTACGGAG
GGCGATCTGGCTGGGCAGACAATCGATGCGCCTGTCAAGTCCCTTCGCAA
GCGCTTCAGAGAGGGTGACCATGTCAAGGTTATTGGCGGCAGCAGATACC
AGGATGAGCTGGGTATGGTGGTACAGGTCAAGGACGACACAGTGACATTG
CTTAGCGACATGAGCATGCAGGAAATCACAGTCTTCAGCAAAGATCTCCG
ACTATCTGCTGAGACTGGTGTAGATGGAAAGCTGGGCATGTTCGACGTTC
ACGACTTGGTGCAATTAGAGTAAGTTCCCTTCTCCGGCTGCCATGGACAC
TAGGATCTAATTCATGCAGTGCTGCCACCGTTGCTTGTATCGTCAAGGTT
GACCGGGAGTCCCTGCGAGTACTGGACCAAAACGGCTCTATCCGGACGAT
TCTTCCCACACAAGTCGCGAATAAGATCACTCCCCGCAAAGATGCTGTGG
CTACGGATCGCAATGGCGCAGAGATTCGCCATGGAGATACGGTTCGCGAG
GTCTACGGCGAACAGAGAAACGGCGTGATTATCCACATTCACCGTTCATT
CCTGTTCTTGCATAACAAAGCACAAGCCGAGAACTCTGGTATCGTGGTTG
TCCGCACCACCAACGTTGTTACCGTCTCAGCCAAGGGCGGCAGATCCACC
GGACCTGATCTCACAAAGATGAACCCGGCTTTGATGAGGAACGGTGTGCC
TGGTGGTATGATGGGCCCTCCCCAAAAGAGCTTCGGCCGTGACAGAATGA
TCGGTAAGACTGTCATGGTTCGCAAAGGACCGTTCAAGGGTCTTGTTGGT
ATCGTCAAGGACTCTACAGATATGCAGGCTCGTGTGGAGCTGCATTCTAA
AAACAAGTTGATCTCCATACCCAAGGACATCCTCGTCGTCAAGGACCCTG
TCACAGGACAGACGATAGACATGGGTCGTGGCCGGGGAGGACCGCGCGTG
CCGCATGGAGGATCTGGAGGGCCTCCCTCTGCCTGGCAAGGCGGCCGTAC
CCCAATGGGAGCTGGAGATTCGTCCCGGACGCCAGCCTGGGGCGGTCCCT
CGTCATCAAGAAGTAAGCATCTCCTTCTATGCCAACACTCGGTTCATCAT
GCTAACCCTTTCTACAGCACCCGCCTGGGCCGGCATGGGCGGTTCCCGCA
CCCCAGCCTGGAAGCAAGACGGCTCCCGAACCTCCAATCCCTACGATGGC
AGCCAAACCGCCTACGGAGGCTTCGGCTCACGTACACCCGCCTGGAATGC
CGGAGCCCGCACTCCCTACGTTGGCTCTGGCAACAGTGACTTCGACGCCT
TCGCCGCTGGCTCCCGAACCCCCGCATGGGGCTCCTCGAACGCCGGTAAC
CGCACTCCCGCCTGGGCCGGAGCCAGCGCCAGCAACGGCACCAAGGACCG
TGGCTACGATGCTCCAACTCCTGGAGGCTATTCTGCTCCTACCCCCGGCG
CCTACGGAAGCGCACCCACCCCTGGTGTTTCCGCACCCACGCCCGGAGCT
TGGGCAGATAGTGCCCCGACCCCGGGTGCCTTCAACGCGCCCACCCCCGG
CGACGCATCAAAGCGACCCTACGACGCACCTACGCCAGCGGCTTTCGACA
ACGCTGGCGGTAGTCGTCCATATGATGCTCCCACACCAGCTCTGGGCGGC
TCTGCCGCGACACCAGGCGCAGGTGCATACGGAGATGGTGACGATGGCGG
TCCGCGATATGAAGAGGGGACACCCAGTCCTTGA back to topCoding sequence (CDS) from alignment at OGUI01000013.1:1750464..1753847+ >ATCC64974_79200-T1 ID=ATCC64974_79200-T1|Name=ATCC64974_79200-T1|organism=Aspergillus niger N402|type=CDS|length=15810bp|location=Sequence derived from alignment at OGUI01000013.1:1750464..1753847+ (Aspergillus niger N402)
ATGTCTCGAAACGTGCTAGACCAAGACTTCGGGTCTGAAGAGGAGGACGA
CGACTTCAACCCCGCTCCTGCGGATGACTCCGGGGATGAAGATACTAAGC
AGGCTGCGCGTCGCGCTCCAGACGATGACGACGATGACGATGACGAGGAG
GAAGTGAACACTGGGCGGAGTGGAAGGCAACGTGCTGGCAGTGAAGACAA
CGCCGGAAGGGGCGCTGATGACGATGAGGAGGGCGAGAATGACGACGAAG
AGGAGGAAGGGGATGAAGAGGATGAAGACGAAGAGGAAGAGGAAGAGGAT
GATGACGAGGATGCCAATGCTGGACGGCCACGGAAGCGCAGACGCAAAGC
CGGTGTGCACTCGTTCTTCGAAGAAGAAGCCGGTGTCGACGAGGATGAGG
ATGAGGCTGAAGATGACGAGGACGAACTGGCGGAATTCGGTGGAGAGATG
CACCCGGATGATATGGACGCCCTGCCTGTCGGTGCTGAAACGGACGACCG
CCGACACAGACAGCTTGATCGTCAGCGTGAACTGGCAGCCAGCATGGATG
CGGAGAAACAGGCACAGATGCTCAAGGAGCGCTATGGACGGAACCGCGCT
GCGGCTACTGACGCAGTGGTTGTTCCAAAGCGACTGCTTCTTCCTAGTGT
GGACGACCCTAGCATCTGGGGTGTTCGCTGCAAGGCCGGTAAGGAACGTG
AAGTCGTATTCTCAATCCAGAAGCGTATTGAAGAGCGACCTCCGGGATCT
CGAAACCCCATTAAGATCATGTCGGCTTTCGAACGTGGGGGTGCTATGGC
CGGTTATATCTATGTTGAGGCGCGCAGGCAGGCCGATGTCATGGATGCAC
TACAGGACATGACCAATGTGTATCCGAGGACGAAGATGATCTTGGTCCCA
GTGAGAGAGATGCCCGACCTCCTTCGAGTACAGAAGTCCGAAGAGCTCAT
GCCTGGTGGCTGGGTTCGTATCAAGCGTGGTAAATACCAGGGCGATCTGG
CACAGATTGAGGAAGTCGAAACAAACGGCTTGGCAGTGACAGTGAGACTG
ATTCCGCGTTTGGATTACGGAATGAACGAAGATATCGGTGCCCCTATTTC
CGATCCGAAGAGGAAGCGCCCTGGCATGAACCCAGCAGTGGCACGGCCTC
CCCAGCGTGCGTTCAGTGAAGCTGAGGCCAAGAAGAAGCATGCAAAGTAC
TTGTCTGCCACGTCTGGTTTGGGTGGAAAGTCGTGGAACTATCTCGGCGA
GACATATGTGGATGGCTTCTTGATCAAGGACTTGAAGGTTCAACATCTTA
TCACGAAGAATGTCAACCCTCGACTCGAGGAAGTCACCATGTTTGCTCGC
GGCTCCGAGGATGGCACCTCGAACTTGGATCTGGCTTCCTTGGCTGAGAC
GCTGAAGAATTCTGCTGCTGAAGACTCCTACCTGCCCGGTGACCCGGTGG
AAGTGTTCCGAGGTGAACAGCAGGGCTTAATCGGTCGCACAAGTTCTACT
CGAGGAGACATCGTGACTCTGCTGGTTACGGAGGGCGATCTGGCTGGGCA
GACAATCGATGCGCCTGTCAAGTCCCTTCGCAAGCGCTTCAGAGAGGGTG
ACCATGTCAAGGTTATTGGCGGCAGCAGATACCAGGATGAGCTGGGTATG
GTGGTACAGGTCAAGGACGACACAGTGACATTGCTTAGCGACATGAGCAT
GCAGGAAATCACAGTCTTCAGCAAAGATCTCCGACTATCTGCTGAGACTG
GTGTAGATGGAAAGCTGGGCATGTTCGACGTTCACGACTTGGTGCAATTA
GATGCTGCCACCGTTGCTTGTATCGTCAAGGTTGACCGGGAGTCCCTGCG
AGTACTGGACCAAAACGGCTCTATCCGGACGATTCTTCCCACACAAGTCG
CGAATAAGATCACTCCCCGCAAAGATGCTGTGGCTACGGATCGCAATGGC
GCAGAGATTCGCCATGGAGATACGGTTCGCGAGGTCTACGGCGAACAGAG
AAACGGCGTGATTATCCACATTCACCGTTCATTCCTGTTCTTGCATAACA
AAGCACAAGCCGAGAACTCTGGTATCGTGGTTGTCCGCACCACCAACGTT
GTTACCGTCTCAGCCAAGGGCGGCAGATCCACCGGACCTGATCTCACAAA
GATGAACCCGGCTTTGATGAGGAACGGTGTGCCTGGTGGTATGATGGGCC
CTCCCCAAAAGAGCTTCGGCCGTGACAGAATGATCGGTAAGACTGTCATG
GTTCGCAAAGGACCGTTCAAGGGTCTTGTTGGTATCGTCAAGGACTCTAC
AGATATGCAGGCTCGTGTGGAGCTGCATTCTAAAAACAAGTTGATCTCCA
TACCCAAGGACATCCTCGTCGTCAAGGACCCTGTCACAGGACAGACGATA
GACATGGGTCGTGGCCGGGGAGGACCGCGCGTGCCGCATGGAGGATCTGG
AGGGCCTCCCTCTGCCTGGCAAGGCGGCCGTACCCCAATGGGAGCTGGAG
ATTCGTCCCGGACGCCAGCCTGGGGCGGTCCCTCGTCATCAAGAACACCC
GCCTGGGCCGGCATGGGCGGTTCCCGCACCCCAGCCTGGAAGCAAGACGG
CTCCCGAACCTCCAATCCCTACGATGGCAGCCAAACCGCCTACGGAGGCT
TCGGCTCACGTACACCCGCCTGGAATGCCGGAGCCCGCACTCCCTACGTT
GGCTCTGGCAACAGTGACTTCGACGCCTTCGCCGCTGGCTCCCGAACCCC
CGCATGGGGCTCCTCGAACGCCGGTAACCGCACTCCCGCCTGGGCCGGAG
CCAGCGCCAGCAACGGCACCAAGGACCGTGGCTACGATGCTCCAACTCCT
GGAGGCTATTCTGCTCCTACCCCCGGCGCCTACGGAAGCGCACCCACCCC
TGGTGTTTCCGCACCCACGCCCGGAGCTTGGGCAGATAGTGCCCCGACCC
CGGGTGCCTTCAACGCGCCCACCCCCGGCGACGCATCAAAGCGACCCTAC
GACGCACCTACGCCAGCGGCTTTCGACAACGCTGGCGGTAGTCGTCCATA
TGATGCTCCCACACCAGCTCTGGGCGGCTCTGCCGCGACACCAGGCGCAG
GTGCATACGGAGATGGTGACGATGGCGGTCCGCGATATGAAGAGGGGACA
CCCAGTCCTTGAATGTCTCGAAACGTGCTAGACCAAGACTTCGGGTCTGA
AGAGGAGGACGACGACTTCAACCCCGCTCCTGCGGATGACTCCGGGGATG
AAGATACTAAGCAGGCTGCGCGTCGCGCTCCAGACGATGACGACGATGAC
GATGACGAGGAGGAAGTGAACACTGGGCGGAGTGGAAGGCAACGTGCTGG
CAGTGAAGACAACGCCGGAAGGGGCGCTGATGACGATGAGGAGGGCGAGA
ATGACGACGAAGAGGAGGAAGGGGATGAAGAGGATGAAGACGAAGAGGAA
GAGGAAGAGGATGATGACGAGGATGCCAATGCTGGACGGCCACGGAAGCG
CAGACGCAAAGCCGGTGTGCACTCGTTCTTCGAAGAAGAAGCCGGTGTCG
ACGAGGATGAGGATGAGGCTGAAGATGACGAGGACGAACTGGCGGAATTC
GGTGGAGAGATGCACCCGGATGATATGGACGCCCTGCCTGTCGGTGCTGA
AACGGACGACCGCCGACACAGACAGCTTGATCGTCAGCGTGAACTGGCAG
CCAGCATGGATGCGGAGAAACAGGCACAGATGCTCAAGGAGCGCTATGGA
CGGAACCGCGCTGCGGCTACTGACGCAGTGGTTGTTCCAAAGCGACTGCT
TCTTCCTAGTGTGGACGACCCTAGCATCTGGGGTGTTCGCTGCAAGGCCG
GTAAGGAACGTGAAGTCGTATTCTCAATCCAGAAGCGTATTGAAGAGCGA
CCTCCGGGATCTCGAAACCCCATTAAGATCATGTCGGCTTTCGAACGTGG
GGGTGCTATGGCCGGTTATATCTATGTTGAGGCGCGCAGGCAGGCCGATG
TCATGGATGCACTACAGGACATGACCAATGTGTATCCGAGGACGAAGATG
ATCTTGGTCCCAGTGAGAGAGATGCCCGACCTCCTTCGAGTACAGAAGTC
CGAAGAGCTCATGCCTGGTGGCTGGGTTCGTATCAAGCGTGGTAAATACC
AGGGCGATCTGGCACAGATTGAGGAAGTCGAAACAAACGGCTTGGCAGTG
ACAGTGAGACTGATTCCGCGTTTGGATTACGGAATGAACGAAGATATCGG
TGCCCCTATTTCCGATCCGAAGAGGAAGCGCCCTGGCATGAACCCAGCAG
TGGCACGGCCTCCCCAGCGTGCGTTCAGTGAAGCTGAGGCCAAGAAGAAG
CATGCAAAGTACTTGTCTGCCACGTCTGGTTTGGGTGGAAAGTCGTGGAA
CTATCTCGGCGAGACATATGTGGATGGCTTCTTGATCAAGGACTTGAAGG
TTCAACATCTTATCACGAAGAATGTCAACCCTCGACTCGAGGAAGTCACC
ATGTTTGCTCGCGGCTCCGAGGATGGCACCTCGAACTTGGATCTGGCTTC
CTTGGCTGAGACGCTGAAGAATTCTGCTGCTGAAGACTCCTACCTGCCCG
GTGACCCGGTGGAAGTGTTCCGAGGTGAACAGCAGGGCTTAATCGGTCGC
ACAAGTTCTACTCGAGGAGACATCGTGACTCTGCTGGTTACGGAGGGCGA
TCTGGCTGGGCAGACAATCGATGCGCCTGTCAAGTCCCTTCGCAAGCGCT
TCAGAGAGGGTGACCATGTCAAGGTTATTGGCGGCAGCAGATACCAGGAT
GAGCTGGGTATGGTGGTACAGGTCAAGGACGACACAGTGACATTGCTTAG
CGACATGAGCATGCAGGAAATCACAGTCTTCAGCAAAGATCTCCGACTAT
CTGCTGAGACTGGTGTAGATGGAAAGCTGGGCATGTTCGACGTTCACGAC
TTGGTGCAATTAGATGCTGCCACCGTTGCTTGTATCGTCAAGGTTGACCG
GGAGTCCCTGCGAGTACTGGACCAAAACGGCTCTATCCGGACGATTCTTC
CCACACAAGTCGCGAATAAGATCACTCCCCGCAAAGATGCTGTGGCTACG
GATCGCAATGGCGCAGAGATTCGCCATGGAGATACGGTTCGCGAGGTCTA
CGGCGAACAGAGAAACGGCGTGATTATCCACATTCACCGTTCATTCCTGT
TCTTGCATAACAAAGCACAAGCCGAGAACTCTGGTATCGTGGTTGTCCGC
ACCACCAACGTTGTTACCGTCTCAGCCAAGGGCGGCAGATCCACCGGACC
TGATCTCACAAAGATGAACCCGGCTTTGATGAGGAACGGTGTGCCTGGTG
GTATGATGGGCCCTCCCCAAAAGAGCTTCGGCCGTGACAGAATGATCGGT
AAGACTGTCATGGTTCGCAAAGGACCGTTCAAGGGTCTTGTTGGTATCGT
CAAGGACTCTACAGATATGCAGGCTCGTGTGGAGCTGCATTCTAAAAACA
AGTTGATCTCCATACCCAAGGACATCCTCGTCGTCAAGGACCCTGTCACA
GGACAGACGATAGACATGGGTCGTGGCCGGGGAGGACCGCGCGTGCCGCA
TGGAGGATCTGGAGGGCCTCCCTCTGCCTGGCAAGGCGGCCGTACCCCAA
TGGGAGCTGGAGATTCGTCCCGGACGCCAGCCTGGGGCGGTCCCTCGTCA
TCAAGAACACCCGCCTGGGCCGGCATGGGCGGTTCCCGCACCCCAGCCTG
GAAGCAAGACGGCTCCCGAACCTCCAATCCCTACGATGGCAGCCAAACCG
CCTACGGAGGCTTCGGCTCACGTACACCCGCCTGGAATGCCGGAGCCCGC
ACTCCCTACGTTGGCTCTGGCAACAGTGACTTCGACGCCTTCGCCGCTGG
CTCCCGAACCCCCGCATGGGGCTCCTCGAACGCCGGTAACCGCACTCCCG
CCTGGGCCGGAGCCAGCGCCAGCAACGGCACCAAGGACCGTGGCTACGAT
GCTCCAACTCCTGGAGGCTATTCTGCTCCTACCCCCGGCGCCTACGGAAG
CGCACCCACCCCTGGTGTTTCCGCACCCACGCCCGGAGCTTGGGCAGATA
GTGCCCCGACCCCGGGTGCCTTCAACGCGCCCACCCCCGGCGACGCATCA
AAGCGACCCTACGACGCACCTACGCCAGCGGCTTTCGACAACGCTGGCGG
TAGTCGTCCATATGATGCTCCCACACCAGCTCTGGGCGGCTCTGCCGCGA
CACCAGGCGCAGGTGCATACGGAGATGGTGACGATGGCGGTCCGCGATAT
GAAGAGGGGACACCCAGTCCTTGAATGTCTCGAAACGTGCTAGACCAAGA
CTTCGGGTCTGAAGAGGAGGACGACGACTTCAACCCCGCTCCTGCGGATG
ACTCCGGGGATGAAGATACTAAGCAGGCTGCGCGTCGCGCTCCAGACGAT
GACGACGATGACGATGACGAGGAGGAAGTGAACACTGGGCGGAGTGGAAG
GCAACGTGCTGGCAGTGAAGACAACGCCGGAAGGGGCGCTGATGACGATG
AGGAGGGCGAGAATGACGACGAAGAGGAGGAAGGGGATGAAGAGGATGAA
GACGAAGAGGAAGAGGAAGAGGATGATGACGAGGATGCCAATGCTGGACG
GCCACGGAAGCGCAGACGCAAAGCCGGTGTGCACTCGTTCTTCGAAGAAG
AAGCCGGTGTCGACGAGGATGAGGATGAGGCTGAAGATGACGAGGACGAA
CTGGCGGAATTCGGTGGAGAGATGCACCCGGATGATATGGACGCCCTGCC
TGTCGGTGCTGAAACGGACGACCGCCGACACAGACAGCTTGATCGTCAGC
GTGAACTGGCAGCCAGCATGGATGCGGAGAAACAGGCACAGATGCTCAAG
GAGCGCTATGGACGGAACCGCGCTGCGGCTACTGACGCAGTGGTTGTTCC
AAAGCGACTGCTTCTTCCTAGTGTGGACGACCCTAGCATCTGGGGTGTTC
GCTGCAAGGCCGGTAAGGAACGTGAAGTCGTATTCTCAATCCAGAAGCGT
ATTGAAGAGCGACCTCCGGGATCTCGAAACCCCATTAAGATCATGTCGGC
TTTCGAACGTGGGGGTGCTATGGCCGGTTATATCTATGTTGAGGCGCGCA
GGCAGGCCGATGTCATGGATGCACTACAGGACATGACCAATGTGTATCCG
AGGACGAAGATGATCTTGGTCCCAGTGAGAGAGATGCCCGACCTCCTTCG
AGTACAGAAGTCCGAAGAGCTCATGCCTGGTGGCTGGGTTCGTATCAAGC
GTGGTAAATACCAGGGCGATCTGGCACAGATTGAGGAAGTCGAAACAAAC
GGCTTGGCAGTGACAGTGAGACTGATTCCGCGTTTGGATTACGGAATGAA
CGAAGATATCGGTGCCCCTATTTCCGATCCGAAGAGGAAGCGCCCTGGCA
TGAACCCAGCAGTGGCACGGCCTCCCCAGCGTGCGTTCAGTGAAGCTGAG
GCCAAGAAGAAGCATGCAAAGTACTTGTCTGCCACGTCTGGTTTGGGTGG
AAAGTCGTGGAACTATCTCGGCGAGACATATGTGGATGGCTTCTTGATCA
AGGACTTGAAGGTTCAACATCTTATCACGAAGAATGTCAACCCTCGACTC
GAGGAAGTCACCATGTTTGCTCGCGGCTCCGAGGATGGCACCTCGAACTT
GGATCTGGCTTCCTTGGCTGAGACGCTGAAGAATTCTGCTGCTGAAGACT
CCTACCTGCCCGGTGACCCGGTGGAAGTGTTCCGAGGTGAACAGCAGGGC
TTAATCGGTCGCACAAGTTCTACTCGAGGAGACATCGTGACTCTGCTGGT
TACGGAGGGCGATCTGGCTGGGCAGACAATCGATGCGCCTGTCAAGTCCC
TTCGCAAGCGCTTCAGAGAGGGTGACCATGTCAAGGTTATTGGCGGCAGC
AGATACCAGGATGAGCTGGGTATGGTGGTACAGGTCAAGGACGACACAGT
GACATTGCTTAGCGACATGAGCATGCAGGAAATCACAGTCTTCAGCAAAG
ATCTCCGACTATCTGCTGAGACTGGTGTAGATGGAAAGCTGGGCATGTTC
GACGTTCACGACTTGGTGCAATTAGATGCTGCCACCGTTGCTTGTATCGT
CAAGGTTGACCGGGAGTCCCTGCGAGTACTGGACCAAAACGGCTCTATCC
GGACGATTCTTCCCACACAAGTCGCGAATAAGATCACTCCCCGCAAAGAT
GCTGTGGCTACGGATCGCAATGGCGCAGAGATTCGCCATGGAGATACGGT
TCGCGAGGTCTACGGCGAACAGAGAAACGGCGTGATTATCCACATTCACC
GTTCATTCCTGTTCTTGCATAACAAAGCACAAGCCGAGAACTCTGGTATC
GTGGTTGTCCGCACCACCAACGTTGTTACCGTCTCAGCCAAGGGCGGCAG
ATCCACCGGACCTGATCTCACAAAGATGAACCCGGCTTTGATGAGGAACG
GTGTGCCTGGTGGTATGATGGGCCCTCCCCAAAAGAGCTTCGGCCGTGAC
AGAATGATCGGTAAGACTGTCATGGTTCGCAAAGGACCGTTCAAGGGTCT
TGTTGGTATCGTCAAGGACTCTACAGATATGCAGGCTCGTGTGGAGCTGC
ATTCTAAAAACAAGTTGATCTCCATACCCAAGGACATCCTCGTCGTCAAG
GACCCTGTCACAGGACAGACGATAGACATGGGTCGTGGCCGGGGAGGACC
GCGCGTGCCGCATGGAGGATCTGGAGGGCCTCCCTCTGCCTGGCAAGGCG
GCCGTACCCCAATGGGAGCTGGAGATTCGTCCCGGACGCCAGCCTGGGGC
GGTCCCTCGTCATCAAGAACACCCGCCTGGGCCGGCATGGGCGGTTCCCG
CACCCCAGCCTGGAAGCAAGACGGCTCCCGAACCTCCAATCCCTACGATG
GCAGCCAAACCGCCTACGGAGGCTTCGGCTCACGTACACCCGCCTGGAAT
GCCGGAGCCCGCACTCCCTACGTTGGCTCTGGCAACAGTGACTTCGACGC
CTTCGCCGCTGGCTCCCGAACCCCCGCATGGGGCTCCTCGAACGCCGGTA
ACCGCACTCCCGCCTGGGCCGGAGCCAGCGCCAGCAACGGCACCAAGGAC
CGTGGCTACGATGCTCCAACTCCTGGAGGCTATTCTGCTCCTACCCCCGG
CGCCTACGGAAGCGCACCCACCCCTGGTGTTTCCGCACCCACGCCCGGAG
CTTGGGCAGATAGTGCCCCGACCCCGGGTGCCTTCAACGCGCCCACCCCC
GGCGACGCATCAAAGCGACCCTACGACGCACCTACGCCAGCGGCTTTCGA
CAACGCTGGCGGTAGTCGTCCATATGATGCTCCCACACCAGCTCTGGGCG
GCTCTGCCGCGACACCAGGCGCAGGTGCATACGGAGATGGTGACGATGGC
GGTCCGCGATATGAAGAGGGGACACCCAGTCCTTGAATGTCTCGAAACGT
GCTAGACCAAGACTTCGGGTCTGAAGAGGAGGACGACGACTTCAACCCCG
CTCCTGCGGATGACTCCGGGGATGAAGATACTAAGCAGGCTGCGCGTCGC
GCTCCAGACGATGACGACGATGACGATGACGAGGAGGAAGTGAACACTGG
GCGGAGTGGAAGGCAACGTGCTGGCAGTGAAGACAACGCCGGAAGGGGCG
CTGATGACGATGAGGAGGGCGAGAATGACGACGAAGAGGAGGAAGGGGAT
GAAGAGGATGAAGACGAAGAGGAAGAGGAAGAGGATGATGACGAGGATGC
CAATGCTGGACGGCCACGGAAGCGCAGACGCAAAGCCGGTGTGCACTCGT
TCTTCGAAGAAGAAGCCGGTGTCGACGAGGATGAGGATGAGGCTGAAGAT
GACGAGGACGAACTGGCGGAATTCGGTGGAGAGATGCACCCGGATGATAT
GGACGCCCTGCCTGTCGGTGCTGAAACGGACGACCGCCGACACAGACAGC
TTGATCGTCAGCGTGAACTGGCAGCCAGCATGGATGCGGAGAAACAGGCA
CAGATGCTCAAGGAGCGCTATGGACGGAACCGCGCTGCGGCTACTGACGC
AGTGGTTGTTCCAAAGCGACTGCTTCTTCCTAGTGTGGACGACCCTAGCA
TCTGGGGTGTTCGCTGCAAGGCCGGTAAGGAACGTGAAGTCGTATTCTCA
ATCCAGAAGCGTATTGAAGAGCGACCTCCGGGATCTCGAAACCCCATTAA
GATCATGTCGGCTTTCGAACGTGGGGGTGCTATGGCCGGTTATATCTATG
TTGAGGCGCGCAGGCAGGCCGATGTCATGGATGCACTACAGGACATGACC
AATGTGTATCCGAGGACGAAGATGATCTTGGTCCCAGTGAGAGAGATGCC
CGACCTCCTTCGAGTACAGAAGTCCGAAGAGCTCATGCCTGGTGGCTGGG
TTCGTATCAAGCGTGGTAAATACCAGGGCGATCTGGCACAGATTGAGGAA
GTCGAAACAAACGGCTTGGCAGTGACAGTGAGACTGATTCCGCGTTTGGA
TTACGGAATGAACGAAGATATCGGTGCCCCTATTTCCGATCCGAAGAGGA
AGCGCCCTGGCATGAACCCAGCAGTGGCACGGCCTCCCCAGCGTGCGTTC
AGTGAAGCTGAGGCCAAGAAGAAGCATGCAAAGTACTTGTCTGCCACGTC
TGGTTTGGGTGGAAAGTCGTGGAACTATCTCGGCGAGACATATGTGGATG
GCTTCTTGATCAAGGACTTGAAGGTTCAACATCTTATCACGAAGAATGTC
AACCCTCGACTCGAGGAAGTCACCATGTTTGCTCGCGGCTCCGAGGATGG
CACCTCGAACTTGGATCTGGCTTCCTTGGCTGAGACGCTGAAGAATTCTG
CTGCTGAAGACTCCTACCTGCCCGGTGACCCGGTGGAAGTGTTCCGAGGT
GAACAGCAGGGCTTAATCGGTCGCACAAGTTCTACTCGAGGAGACATCGT
GACTCTGCTGGTTACGGAGGGCGATCTGGCTGGGCAGACAATCGATGCGC
CTGTCAAGTCCCTTCGCAAGCGCTTCAGAGAGGGTGACCATGTCAAGGTT
ATTGGCGGCAGCAGATACCAGGATGAGCTGGGTATGGTGGTACAGGTCAA
GGACGACACAGTGACATTGCTTAGCGACATGAGCATGCAGGAAATCACAG
TCTTCAGCAAAGATCTCCGACTATCTGCTGAGACTGGTGTAGATGGAAAG
CTGGGCATGTTCGACGTTCACGACTTGGTGCAATTAGATGCTGCCACCGT
TGCTTGTATCGTCAAGGTTGACCGGGAGTCCCTGCGAGTACTGGACCAAA
ACGGCTCTATCCGGACGATTCTTCCCACACAAGTCGCGAATAAGATCACT
CCCCGCAAAGATGCTGTGGCTACGGATCGCAATGGCGCAGAGATTCGCCA
TGGAGATACGGTTCGCGAGGTCTACGGCGAACAGAGAAACGGCGTGATTA
TCCACATTCACCGTTCATTCCTGTTCTTGCATAACAAAGCACAAGCCGAG
AACTCTGGTATCGTGGTTGTCCGCACCACCAACGTTGTTACCGTCTCAGC
CAAGGGCGGCAGATCCACCGGACCTGATCTCACAAAGATGAACCCGGCTT
TGATGAGGAACGGTGTGCCTGGTGGTATGATGGGCCCTCCCCAAAAGAGC
TTCGGCCGTGACAGAATGATCGGTAAGACTGTCATGGTTCGCAAAGGACC
GTTCAAGGGTCTTGTTGGTATCGTCAAGGACTCTACAGATATGCAGGCTC
GTGTGGAGCTGCATTCTAAAAACAAGTTGATCTCCATACCCAAGGACATC
CTCGTCGTCAAGGACCCTGTCACAGGACAGACGATAGACATGGGTCGTGG
CCGGGGAGGACCGCGCGTGCCGCATGGAGGATCTGGAGGGCCTCCCTCTG
CCTGGCAAGGCGGCCGTACCCCAATGGGAGCTGGAGATTCGTCCCGGACG
CCAGCCTGGGGCGGTCCCTCGTCATCAAGAACACCCGCCTGGGCCGGCAT
GGGCGGTTCCCGCACCCCAGCCTGGAAGCAAGACGGCTCCCGAACCTCCA
ATCCCTACGATGGCAGCCAAACCGCCTACGGAGGCTTCGGCTCACGTACA
CCCGCCTGGAATGCCGGAGCCCGCACTCCCTACGTTGGCTCTGGCAACAG
TGACTTCGACGCCTTCGCCGCTGGCTCCCGAACCCCCGCATGGGGCTCCT
CGAACGCCGGTAACCGCACTCCCGCCTGGGCCGGAGCCAGCGCCAGCAAC
GGCACCAAGGACCGTGGCTACGATGCTCCAACTCCTGGAGGCTATTCTGC
TCCTACCCCCGGCGCCTACGGAAGCGCACCCACCCCTGGTGTTTCCGCAC
CCACGCCCGGAGCTTGGGCAGATAGTGCCCCGACCCCGGGTGCCTTCAAC
GCGCCCACCCCCGGCGACGCATCAAAGCGACCCTACGACGCACCTACGCC
AGCGGCTTTCGACAACGCTGGCGGTAGTCGTCCATATGATGCTCCCACAC
CAGCTCTGGGCGGCTCTGCCGCGACACCAGGCGCAGGTGCATACGGAGAT
GGTGACGATGGCGGTCCGCGATATGAAGAGGGGACACCCAGTCCTTGAAT
GTCTCGAAACGTGCTAGACCAAGACTTCGGGTCTGAAGAGGAGGACGACG
ACTTCAACCCCGCTCCTGCGGATGACTCCGGGGATGAAGATACTAAGCAG
GCTGCGCGTCGCGCTCCAGACGATGACGACGATGACGATGACGAGGAGGA
AGTGAACACTGGGCGGAGTGGAAGGCAACGTGCTGGCAGTGAAGACAACG
CCGGAAGGGGCGCTGATGACGATGAGGAGGGCGAGAATGACGACGAAGAG
GAGGAAGGGGATGAAGAGGATGAAGACGAAGAGGAAGAGGAAGAGGATGA
TGACGAGGATGCCAATGCTGGACGGCCACGGAAGCGCAGACGCAAAGCCG
GTGTGCACTCGTTCTTCGAAGAAGAAGCCGGTGTCGACGAGGATGAGGAT
GAGGCTGAAGATGACGAGGACGAACTGGCGGAATTCGGTGGAGAGATGCA
CCCGGATGATATGGACGCCCTGCCTGTCGGTGCTGAAACGGACGACCGCC
GACACAGACAGCTTGATCGTCAGCGTGAACTGGCAGCCAGCATGGATGCG
GAGAAACAGGCACAGATGCTCAAGGAGCGCTATGGACGGAACCGCGCTGC
GGCTACTGACGCAGTGGTTGTTCCAAAGCGACTGCTTCTTCCTAGTGTGG
ACGACCCTAGCATCTGGGGTGTTCGCTGCAAGGCCGGTAAGGAACGTGAA
GTCGTATTCTCAATCCAGAAGCGTATTGAAGAGCGACCTCCGGGATCTCG
AAACCCCATTAAGATCATGTCGGCTTTCGAACGTGGGGGTGCTATGGCCG
GTTATATCTATGTTGAGGCGCGCAGGCAGGCCGATGTCATGGATGCACTA
CAGGACATGACCAATGTGTATCCGAGGACGAAGATGATCTTGGTCCCAGT
GAGAGAGATGCCCGACCTCCTTCGAGTACAGAAGTCCGAAGAGCTCATGC
CTGGTGGCTGGGTTCGTATCAAGCGTGGTAAATACCAGGGCGATCTGGCA
CAGATTGAGGAAGTCGAAACAAACGGCTTGGCAGTGACAGTGAGACTGAT
TCCGCGTTTGGATTACGGAATGAACGAAGATATCGGTGCCCCTATTTCCG
ATCCGAAGAGGAAGCGCCCTGGCATGAACCCAGCAGTGGCACGGCCTCCC
CAGCGTGCGTTCAGTGAAGCTGAGGCCAAGAAGAAGCATGCAAAGTACTT
GTCTGCCACGTCTGGTTTGGGTGGAAAGTCGTGGAACTATCTCGGCGAGA
CATATGTGGATGGCTTCTTGATCAAGGACTTGAAGGTTCAACATCTTATC
ACGAAGAATGTCAACCCTCGACTCGAGGAAGTCACCATGTTTGCTCGCGG
CTCCGAGGATGGCACCTCGAACTTGGATCTGGCTTCCTTGGCTGAGACGC
TGAAGAATTCTGCTGCTGAAGACTCCTACCTGCCCGGTGACCCGGTGGAA
GTGTTCCGAGGTGAACAGCAGGGCTTAATCGGTCGCACAAGTTCTACTCG
AGGAGACATCGTGACTCTGCTGGTTACGGAGGGCGATCTGGCTGGGCAGA
CAATCGATGCGCCTGTCAAGTCCCTTCGCAAGCGCTTCAGAGAGGGTGAC
CATGTCAAGGTTATTGGCGGCAGCAGATACCAGGATGAGCTGGGTATGGT
GGTACAGGTCAAGGACGACACAGTGACATTGCTTAGCGACATGAGCATGC
AGGAAATCACAGTCTTCAGCAAAGATCTCCGACTATCTGCTGAGACTGGT
GTAGATGGAAAGCTGGGCATGTTCGACGTTCACGACTTGGTGCAATTAGA
TGCTGCCACCGTTGCTTGTATCGTCAAGGTTGACCGGGAGTCCCTGCGAG
TACTGGACCAAAACGGCTCTATCCGGACGATTCTTCCCACACAAGTCGCG
AATAAGATCACTCCCCGCAAAGATGCTGTGGCTACGGATCGCAATGGCGC
AGAGATTCGCCATGGAGATACGGTTCGCGAGGTCTACGGCGAACAGAGAA
ACGGCGTGATTATCCACATTCACCGTTCATTCCTGTTCTTGCATAACAAA
GCACAAGCCGAGAACTCTGGTATCGTGGTTGTCCGCACCACCAACGTTGT
TACCGTCTCAGCCAAGGGCGGCAGATCCACCGGACCTGATCTCACAAAGA
TGAACCCGGCTTTGATGAGGAACGGTGTGCCTGGTGGTATGATGGGCCCT
CCCCAAAAGAGCTTCGGCCGTGACAGAATGATCGGTAAGACTGTCATGGT
TCGCAAAGGACCGTTCAAGGGTCTTGTTGGTATCGTCAAGGACTCTACAG
ATATGCAGGCTCGTGTGGAGCTGCATTCTAAAAACAAGTTGATCTCCATA
CCCAAGGACATCCTCGTCGTCAAGGACCCTGTCACAGGACAGACGATAGA
CATGGGTCGTGGCCGGGGAGGACCGCGCGTGCCGCATGGAGGATCTGGAG
GGCCTCCCTCTGCCTGGCAAGGCGGCCGTACCCCAATGGGAGCTGGAGAT
TCGTCCCGGACGCCAGCCTGGGGCGGTCCCTCGTCATCAAGAACACCCGC
CTGGGCCGGCATGGGCGGTTCCCGCACCCCAGCCTGGAAGCAAGACGGCT
CCCGAACCTCCAATCCCTACGATGGCAGCCAAACCGCCTACGGAGGCTTC
GGCTCACGTACACCCGCCTGGAATGCCGGAGCCCGCACTCCCTACGTTGG
CTCTGGCAACAGTGACTTCGACGCCTTCGCCGCTGGCTCCCGAACCCCCG
CATGGGGCTCCTCGAACGCCGGTAACCGCACTCCCGCCTGGGCCGGAGCC
AGCGCCAGCAACGGCACCAAGGACCGTGGCTACGATGCTCCAACTCCTGG
AGGCTATTCTGCTCCTACCCCCGGCGCCTACGGAAGCGCACCCACCCCTG
GTGTTTCCGCACCCACGCCCGGAGCTTGGGCAGATAGTGCCCCGACCCCG
GGTGCCTTCAACGCGCCCACCCCCGGCGACGCATCAAAGCGACCCTACGA
CGCACCTACGCCAGCGGCTTTCGACAACGCTGGCGGTAGTCGTCCATATG
ATGCTCCCACACCAGCTCTGGGCGGCTCTGCCGCGACACCAGGCGCAGGT
GCATACGGAGATGGTGACGATGGCGGTCCGCGATATGAAGAGGGGACACC
CAGTCCTTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005515 | protein binding |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0032784 | regulation of DNA-templated transcription, elongation |
| GO:0006357 | regulation of transcription by RNA polymerase II |
| GO:0006355 | regulation of transcription, DNA-templated |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| ATCC64974_79200-T1 | ATCC64974_79200-T1-protein | Aspergillus niger N402 | polypeptide |
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09260NXC |
| DBxref | InterPro:IPR008991 |
| DBxref | InterPro:IPR041978 |
| DBxref | InterPro:IPR041977 |
| DBxref | InterPro:IPR041973 |
| DBxref | InterPro:IPR041976 |
| DBxref | InterPro:IPR041975 |
| DBxref | InterPro:IPR039385 |
| DBxref | InterPro:IPR022581 |
| DBxref | InterPro:IPR005100 |
| DBxref | InterPro:IPR017071 |
| DBxref | InterPro:IPR036735 |
| DBxref | InterPro:IPR014722 |
| DBxref | InterPro:IPR024945 |
| DBxref | InterPro:IPR006645 |
| DBxref | InterPro:IPR005824 |
| DBxref | PFAM:PF11942 |
| DBxref | PFAM:PF03439 |
| DBxref | PFAM:PF12815 |
| Product | transcription elongation factor spt5 |
Analyses
This mRNA is derived from or has results from the following analyses
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
|---|
| OGUI01000013.1 | supercontig | OGUI01000013.1:1750464..1753847 + |
|
