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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000140:471673..473830- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_005237-T1 ID=ATCC10864_005237-T1|Name=ATCC10864_005237-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2158bp|location=Sequence derived from alignment at MCQH01000140:471673..473830- (Aspergillus niger ATCC 10864)
ATGGATCAGTCCCCCACCGATCAGTCCCCCACCGAGTATGATCTCGCCCC
GGCCCCATACGGCCGCGCCTGCATGAATTGCTCGCAGTCTAAATGCAAAT
GCATCCTGCCCAAAGGGGGCGGGCGATGCCAGAGGTCTGTTTTACGTATA
GTGAGACCAGTGTGAGACCAGTGTGAACTGAATCTGACGGTAATGGGTGA
TGGCAGGTGTCAGCGCCTGAACAAAGAATGTCGGCCATCGGCGTTCCATC
GACGGCAGAATGCACGCAAGCCCTCGAAGACAGGGAGATTGGAGAAGAAG
CTGGATGATTTGGTGACACTGCTTCGCGCGCAAGCGCCTTCCCATGCCCA
TGCGGGGGATTACGCAGAGTTGATTGATGATCTGCGACGAGAGCCAGATG
AAGACCTCCATCACCATCCACCACCACCACGCTCGCAGATCAAGGTTACT
CGGACAGTCTCGACGGCGGAGAAATCCATCGACTGTGGGTTCCTTAATCA
CTTTGCGCAGGTCGGAGCGAATACCTCCTCCCGGGATGAGTCGAACGCGA
GTGCAGCAGAGCCGAGCTGGTCGCAGGCTGAAGAGTATCTGAGCATGTTT
GTCACTCAAAAGCTACCATATTTGCCATTCGTGTATTTCCCGCCAGGAAC
AACAGCACAGCACCTTCGCAGTGACCGTCCGTTCCTCTGGCTATGCGTTA
TGGCAGTTACGGCAAAGAGCCCGAGTCAGCGACGCACGCTGTGCGATAGA
ATCCGCGATACTGTAGCCCAACGCATGGTTTTAGACTGCTACGGTCGCGA
TCTCGACTTCCTCCTCGGTCTCATGGTATACATTGCCTGGTACGATCACC
CTTCCCCCTTGGTAAGACATACTAACAGCCACAGGTCCAACCAGCAAATC
TTCAAGAGGCTCAACATGACCATATACAGCCAGTTCGCCACAGCCGTAGT
CTTCGACCTTATGCTCAACCAGGCCCCTGGCGGAGACAAACCATCACTAC
TGACTATACTCCAAACCCACCCAGACGAGGATCCCTCCCCGCCACGAGCC
CGAACAATGGATGAGAGACGCGCCGTTCTGGGCTGTTTTCTCTTAACCTC
CAGGTACTCCATCCACCTCCCATCCCATCTACCAAGTATAATCCCACTCC
TAACCCAATCCCAGTATATCCCTCTTCCTAGAAAAGAGCGAACCCCTTCG
CTGGACTCCCCACATGGACGAATGCCTACATCACATAAGTGAACACCCCG
AATGCCTCAACGACGAGATTCTCGCCCAGCAAGTGCGCTTCCAACTCATC
AACGAGAGAATCAACACCACCGCCACAACCACAACCGACTTCTACCACAC
CAGCCTCCTATCCCCCTCCCCATTCAGACCCCCACTATCAATCTACACCC
ACGCGATAGACACCCACCTCCAACAAACCCAAAGCAAACTCACCCCCCAC
TCCCAACGCTACCGAATCCTCCAGCTCCACCACTCCAACACGCACCTCAC
GATCCACGAATCCGCCCTTCTAAAACCATTCCCTAACCCCTCTACCACAC
AACCCCCCAATCCTCCCTTAACAATCAATCATCATCTTCACCACCTCGAA
TCCCTCCACGCCTGCCTCTCCGCCGTGAATGCCTGGATAACCTCCTTCCT
CGCCATCCCACCAGCCGAGTACGCAGGCTTCCCCTTCCCCATTTTCTCGC
AGCTCGTGCGACACCTGGCGGCGTTGTATCGGTTGTCTACACTTGATGAT
CCGAGCTGGGATCGAGGGTTTGTGCGCCGCACCGTCGATCTGATGAGTGT
GATGGATCGGTTGATTGGAAACCTGGGACAGGCGGCGGCGTTGGCGAGAC
TCGAGGCGCAGGGCGAGGATGAGGATGAAGATGTGTTTTTTTATTCGATT
GGGAAGTACGAGTCTGTTAGGTTGAAGTGGGGAGGTGTTTTTGGGGGCAG
TGCCCCTGGGAATGGGAATGGGAATGGGGTCAATGGGGGAGTGGTGGAGG
GACAGGGGGTGCAGGATGGGGTTGGGGGAAGTAATGGGTTGGGTCTGGGT
CTGGGTCAAGCTCAGGGACATGCACAGGCACAGGCACAGGAGATGGGGGG
TTGGGGGGCGGGTTATGATGATTGGTTGTCGGAGTTTTTGAATTCGATGG
TGCATTGA back to topCoding sequence (CDS) from alignment at MCQH01000140:471673..473830- >ATCC10864_005237-T1 ID=ATCC10864_005237-T1|Name=ATCC10864_005237-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=7920bp|location=Sequence derived from alignment at MCQH01000140:471673..473830- (Aspergillus niger ATCC 10864)
TATATCCCTCTTCCTAGAAAAGAGCGAACCCCTTCGCTGGACTCCCCACA
TGGACGAATGCCTACATCACATAAGTGAACACCCCGAATGCCTCAACGAC
GAGATTCTCGCCCAGCAAGTGCGCTTCCAACTCATCAACGAGAGAATCAA
CACCACCGCCACAACCACAACCGACTTCTACCACACCAGCCTCCTATCCC
CCTCCCCATTCAGACCCCCACTATCAATCTACACCCACGCGATAGACACC
CACCTCCAACAAACCCAAAGCAAACTCACCCCCCACTCCCAACGCTACCG
AATCCTCCAGCTCCACCACTCCAACACGCACCTCACGATCCACGAATCCG
CCCTTCTAAAACCATTCCCTAACCCCTCTACCACACAACCCCCCAATCCT
CCCTTAACAATCAATCATCATCTTCACCACCTCGAATCCCTCCACGCCTG
CCTCTCCGCCGTGAATGCCTGGATAACCTCCTTCCTCGCCATCCCACCAG
CCGAGTACGCAGGCTTCCCCTTCCCCATTTTCTCGCAGCTCGTGCGACAC
CTGGCGGCGTTGTATCGGTTGTCTACACTTGATGATCCGAGCTGGGATCG
AGGGTTTGTGCGCCGCACCGTCGATCTGATGAGTGTGATGGATCGGTTGA
TTGGAAACCTGGGACAGGCGGCGGCGTTGGCGAGACTCGAGGCGCAGGGC
GAGGATGAGGATGAAGATGTGTTTTTTTATTCGATTGGGAAGTACGAGTC
TGTTAGGTTGAAGTGGGGAGGTGTTTTTGGGGGCAGTGCCCCTGGGAATG
GGAATGGGAATGGGGTCAATGGGGGAGTGGTGGAGGGACAGGGGGTGCAG
GATGGGGTTGGGGGAAGTAATGGGTTGGGTCTGGGTCTGGGTCAAGCTCA
GGGACATGCACAGGCACAGGCACAGGAGATGGGGGGTTGGGGGGCGGGTT
ATGATGATTGGTTGTCGGAGTTTTTGAATTCGATGGTGCATTGAGTCCAA
CCAGCAAATCTTCAAGAGGCTCAACATGACCATATACAGCCAGTTCGCCA
CAGCCGTAGTCTTCGACCTTATGCTCAACCAGGCCCCTGGCGGAGACAAA
CCATCACTACTGACTATACTCCAAACCCACCCAGACGAGGATCCCTCCCC
GCCACGAGCCCGAACAATGGATGAGAGACGCGCCGTTCTGGGCTGTTTTC
TCTTAACCTCCAGGTGTCAGCGCCTGAACAAAGAATGTCGGCCATCGGCG
TTCCATCGACGGCAGAATGCACGCAAGCCCTCGAAGACAGGGAGATTGGA
GAAGAAGCTGGATGATTTGGTGACACTGCTTCGCGCGCAAGCGCCTTCCC
ATGCCCATGCGGGGGATTACGCAGAGTTGATTGATGATCTGCGACGAGAG
CCAGATGAAGACCTCCATCACCATCCACCACCACCACGCTCGCAGATCAA
GGTTACTCGGACAGTCTCGACGGCGGAGAAATCCATCGACTGTGGGTTCC
TTAATCACTTTGCGCAGGTCGGAGCGAATACCTCCTCCCGGGATGAGTCG
AACGCGAGTGCAGCAGAGCCGAGCTGGTCGCAGGCTGAAGAGTATCTGAG
CATGTTTGTCACTCAAAAGCTACCATATTTGCCATTCGTGTATTTCCCGC
CAGGAACAACAGCACAGCACCTTCGCAGTGACCGTCCGTTCCTCTGGCTA
TGCGTTATGGCAGTTACGGCAAAGAGCCCGAGTCAGCGACGCACGCTGTG
CGATAGAATCCGCGATACTGTAGCCCAACGCATGGTTTTAGACTGCTACG
GTCGCGATCTCGACTTCCTCCTCGGTCTCATGGTATACATTGCCTGATGG
ATCAGTCCCCCACCGATCAGTCCCCCACCGAGTATGATCTCGCCCCGGCC
CCATACGGCCGCGCCTGCATGAATTGCTCGCAGTCTAAATGCAAATGCAT
CCTGCCCAAAGGGGGCGGGCGATGCCAGAGTATATCCCTCTTCCTAGAAA
AGAGCGAACCCCTTCGCTGGACTCCCCACATGGACGAATGCCTACATCAC
ATAAGTGAACACCCCGAATGCCTCAACGACGAGATTCTCGCCCAGCAAGT
GCGCTTCCAACTCATCAACGAGAGAATCAACACCACCGCCACAACCACAA
CCGACTTCTACCACACCAGCCTCCTATCCCCCTCCCCATTCAGACCCCCA
CTATCAATCTACACCCACGCGATAGACACCCACCTCCAACAAACCCAAAG
CAAACTCACCCCCCACTCCCAACGCTACCGAATCCTCCAGCTCCACCACT
CCAACACGCACCTCACGATCCACGAATCCGCCCTTCTAAAACCATTCCCT
AACCCCTCTACCACACAACCCCCCAATCCTCCCTTAACAATCAATCATCA
TCTTCACCACCTCGAATCCCTCCACGCCTGCCTCTCCGCCGTGAATGCCT
GGATAACCTCCTTCCTCGCCATCCCACCAGCCGAGTACGCAGGCTTCCCC
TTCCCCATTTTCTCGCAGCTCGTGCGACACCTGGCGGCGTTGTATCGGTT
GTCTACACTTGATGATCCGAGCTGGGATCGAGGGTTTGTGCGCCGCACCG
TCGATCTGATGAGTGTGATGGATCGGTTGATTGGAAACCTGGGACAGGCG
GCGGCGTTGGCGAGACTCGAGGCGCAGGGCGAGGATGAGGATGAAGATGT
GTTTTTTTATTCGATTGGGAAGTACGAGTCTGTTAGGTTGAAGTGGGGAG
GTGTTTTTGGGGGCAGTGCCCCTGGGAATGGGAATGGGAATGGGGTCAAT
GGGGGAGTGGTGGAGGGACAGGGGGTGCAGGATGGGGTTGGGGGAAGTAA
TGGGTTGGGTCTGGGTCTGGGTCAAGCTCAGGGACATGCACAGGCACAGG
CACAGGAGATGGGGGGTTGGGGGGCGGGTTATGATGATTGGTTGTCGGAG
TTTTTGAATTCGATGGTGCATTGAGTCCAACCAGCAAATCTTCAAGAGGC
TCAACATGACCATATACAGCCAGTTCGCCACAGCCGTAGTCTTCGACCTT
ATGCTCAACCAGGCCCCTGGCGGAGACAAACCATCACTACTGACTATACT
CCAAACCCACCCAGACGAGGATCCCTCCCCGCCACGAGCCCGAACAATGG
ATGAGAGACGCGCCGTTCTGGGCTGTTTTCTCTTAACCTCCAGGTGTCAG
CGCCTGAACAAAGAATGTCGGCCATCGGCGTTCCATCGACGGCAGAATGC
ACGCAAGCCCTCGAAGACAGGGAGATTGGAGAAGAAGCTGGATGATTTGG
TGACACTGCTTCGCGCGCAAGCGCCTTCCCATGCCCATGCGGGGGATTAC
GCAGAGTTGATTGATGATCTGCGACGAGAGCCAGATGAAGACCTCCATCA
CCATCCACCACCACCACGCTCGCAGATCAAGGTTACTCGGACAGTCTCGA
CGGCGGAGAAATCCATCGACTGTGGGTTCCTTAATCACTTTGCGCAGGTC
GGAGCGAATACCTCCTCCCGGGATGAGTCGAACGCGAGTGCAGCAGAGCC
GAGCTGGTCGCAGGCTGAAGAGTATCTGAGCATGTTTGTCACTCAAAAGC
TACCATATTTGCCATTCGTGTATTTCCCGCCAGGAACAACAGCACAGCAC
CTTCGCAGTGACCGTCCGTTCCTCTGGCTATGCGTTATGGCAGTTACGGC
AAAGAGCCCGAGTCAGCGACGCACGCTGTGCGATAGAATCCGCGATACTG
TAGCCCAACGCATGGTTTTAGACTGCTACGGTCGCGATCTCGACTTCCTC
CTCGGTCTCATGGTATACATTGCCTGATGGATCAGTCCCCCACCGATCAG
TCCCCCACCGAGTATGATCTCGCCCCGGCCCCATACGGCCGCGCCTGCAT
GAATTGCTCGCAGTCTAAATGCAAATGCATCCTGCCCAAAGGGGGCGGGC
GATGCCAGAGTATATCCCTCTTCCTAGAAAAGAGCGAACCCCTTCGCTGG
ACTCCCCACATGGACGAATGCCTACATCACATAAGTGAACACCCCGAATG
CCTCAACGACGAGATTCTCGCCCAGCAAGTGCGCTTCCAACTCATCAACG
AGAGAATCAACACCACCGCCACAACCACAACCGACTTCTACCACACCAGC
CTCCTATCCCCCTCCCCATTCAGACCCCCACTATCAATCTACACCCACGC
GATAGACACCCACCTCCAACAAACCCAAAGCAAACTCACCCCCCACTCCC
AACGCTACCGAATCCTCCAGCTCCACCACTCCAACACGCACCTCACGATC
CACGAATCCGCCCTTCTAAAACCATTCCCTAACCCCTCTACCACACAACC
CCCCAATCCTCCCTTAACAATCAATCATCATCTTCACCACCTCGAATCCC
TCCACGCCTGCCTCTCCGCCGTGAATGCCTGGATAACCTCCTTCCTCGCC
ATCCCACCAGCCGAGTACGCAGGCTTCCCCTTCCCCATTTTCTCGCAGCT
CGTGCGACACCTGGCGGCGTTGTATCGGTTGTCTACACTTGATGATCCGA
GCTGGGATCGAGGGTTTGTGCGCCGCACCGTCGATCTGATGAGTGTGATG
GATCGGTTGATTGGAAACCTGGGACAGGCGGCGGCGTTGGCGAGACTCGA
GGCGCAGGGCGAGGATGAGGATGAAGATGTGTTTTTTTATTCGATTGGGA
AGTACGAGTCTGTTAGGTTGAAGTGGGGAGGTGTTTTTGGGGGCAGTGCC
CCTGGGAATGGGAATGGGAATGGGGTCAATGGGGGAGTGGTGGAGGGACA
GGGGGTGCAGGATGGGGTTGGGGGAAGTAATGGGTTGGGTCTGGGTCTGG
GTCAAGCTCAGGGACATGCACAGGCACAGGCACAGGAGATGGGGGGTTGG
GGGGCGGGTTATGATGATTGGTTGTCGGAGTTTTTGAATTCGATGGTGCA
TTGAGTCCAACCAGCAAATCTTCAAGAGGCTCAACATGACCATATACAGC
CAGTTCGCCACAGCCGTAGTCTTCGACCTTATGCTCAACCAGGCCCCTGG
CGGAGACAAACCATCACTACTGACTATACTCCAAACCCACCCAGACGAGG
ATCCCTCCCCGCCACGAGCCCGAACAATGGATGAGAGACGCGCCGTTCTG
GGCTGTTTTCTCTTAACCTCCAGGTGTCAGCGCCTGAACAAAGAATGTCG
GCCATCGGCGTTCCATCGACGGCAGAATGCACGCAAGCCCTCGAAGACAG
GGAGATTGGAGAAGAAGCTGGATGATTTGGTGACACTGCTTCGCGCGCAA
GCGCCTTCCCATGCCCATGCGGGGGATTACGCAGAGTTGATTGATGATCT
GCGACGAGAGCCAGATGAAGACCTCCATCACCATCCACCACCACCACGCT
CGCAGATCAAGGTTACTCGGACAGTCTCGACGGCGGAGAAATCCATCGAC
TGTGGGTTCCTTAATCACTTTGCGCAGGTCGGAGCGAATACCTCCTCCCG
GGATGAGTCGAACGCGAGTGCAGCAGAGCCGAGCTGGTCGCAGGCTGAAG
AGTATCTGAGCATGTTTGTCACTCAAAAGCTACCATATTTGCCATTCGTG
TATTTCCCGCCAGGAACAACAGCACAGCACCTTCGCAGTGACCGTCCGTT
CCTCTGGCTATGCGTTATGGCAGTTACGGCAAAGAGCCCGAGTCAGCGAC
GCACGCTGTGCGATAGAATCCGCGATACTGTAGCCCAACGCATGGTTTTA
GACTGCTACGGTCGCGATCTCGACTTCCTCCTCGGTCTCATGGTATACAT
TGCCTGATGGATCAGTCCCCCACCGATCAGTCCCCCACCGAGTATGATCT
CGCCCCGGCCCCATACGGCCGCGCCTGCATGAATTGCTCGCAGTCTAAAT
GCAAATGCATCCTGCCCAAAGGGGGCGGGCGATGCCAGAGTATATCCCTC
TTCCTAGAAAAGAGCGAACCCCTTCGCTGGACTCCCCACATGGACGAATG
CCTACATCACATAAGTGAACACCCCGAATGCCTCAACGACGAGATTCTCG
CCCAGCAAGTGCGCTTCCAACTCATCAACGAGAGAATCAACACCACCGCC
ACAACCACAACCGACTTCTACCACACCAGCCTCCTATCCCCCTCCCCATT
CAGACCCCCACTATCAATCTACACCCACGCGATAGACACCCACCTCCAAC
AAACCCAAAGCAAACTCACCCCCCACTCCCAACGCTACCGAATCCTCCAG
CTCCACCACTCCAACACGCACCTCACGATCCACGAATCCGCCCTTCTAAA
ACCATTCCCTAACCCCTCTACCACACAACCCCCCAATCCTCCCTTAACAA
TCAATCATCATCTTCACCACCTCGAATCCCTCCACGCCTGCCTCTCCGCC
GTGAATGCCTGGATAACCTCCTTCCTCGCCATCCCACCAGCCGAGTACGC
AGGCTTCCCCTTCCCCATTTTCTCGCAGCTCGTGCGACACCTGGCGGCGT
TGTATCGGTTGTCTACACTTGATGATCCGAGCTGGGATCGAGGGTTTGTG
CGCCGCACCGTCGATCTGATGAGTGTGATGGATCGGTTGATTGGAAACCT
GGGACAGGCGGCGGCGTTGGCGAGACTCGAGGCGCAGGGCGAGGATGAGG
ATGAAGATGTGTTTTTTTATTCGATTGGGAAGTACGAGTCTGTTAGGTTG
AAGTGGGGAGGTGTTTTTGGGGGCAGTGCCCCTGGGAATGGGAATGGGAA
TGGGGTCAATGGGGGAGTGGTGGAGGGACAGGGGGTGCAGGATGGGGTTG
GGGGAAGTAATGGGTTGGGTCTGGGTCTGGGTCAAGCTCAGGGACATGCA
CAGGCACAGGCACAGGAGATGGGGGGTTGGGGGGCGGGTTATGATGATTG
GTTGTCGGAGTTTTTGAATTCGATGGTGCATTGAGTCCAACCAGCAAATC
TTCAAGAGGCTCAACATGACCATATACAGCCAGTTCGCCACAGCCGTAGT
CTTCGACCTTATGCTCAACCAGGCCCCTGGCGGAGACAAACCATCACTAC
TGACTATACTCCAAACCCACCCAGACGAGGATCCCTCCCCGCCACGAGCC
CGAACAATGGATGAGAGACGCGCCGTTCTGGGCTGTTTTCTCTTAACCTC
CAGGTGTCAGCGCCTGAACAAAGAATGTCGGCCATCGGCGTTCCATCGAC
GGCAGAATGCACGCAAGCCCTCGAAGACAGGGAGATTGGAGAAGAAGCTG
GATGATTTGGTGACACTGCTTCGCGCGCAAGCGCCTTCCCATGCCCATGC
GGGGGATTACGCAGAGTTGATTGATGATCTGCGACGAGAGCCAGATGAAG
ACCTCCATCACCATCCACCACCACCACGCTCGCAGATCAAGGTTACTCGG
ACAGTCTCGACGGCGGAGAAATCCATCGACTGTGGGTTCCTTAATCACTT
TGCGCAGGTCGGAGCGAATACCTCCTCCCGGGATGAGTCGAACGCGAGTG
CAGCAGAGCCGAGCTGGTCGCAGGCTGAAGAGTATCTGAGCATGTTTGTC
ACTCAAAAGCTACCATATTTGCCATTCGTGTATTTCCCGCCAGGAACAAC
AGCACAGCACCTTCGCAGTGACCGTCCGTTCCTCTGGCTATGCGTTATGG
CAGTTACGGCAAAGAGCCCGAGTCAGCGACGCACGCTGTGCGATAGAATC
CGCGATACTGTAGCCCAACGCATGGTTTTAGACTGCTACGGTCGCGATCT
CGACTTCCTCCTCGGTCTCATGGTATACATTGCCTGATGGATCAGTCCCC
CACCGATCAGTCCCCCACCGAGTATGATCTCGCCCCGGCCCCATACGGCC
GCGCCTGCATGAATTGCTCGCAGTCTAAATGCAAATGCATCCTGCCCAAA
GGGGGCGGGCGATGCCAGAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006355 | regulation of transcription, DNA-templated |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0008270 | zinc ion binding |
| GO:0000981 | DNA-binding transcription factor activity, RNA polymerase II-specific |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| InterPro | IPR001138 |
| InterPro | IPR036864 |
Properties
| Property Name | Value |
|---|
| Product | hypothetical protein |
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 |
|---|
| MCQH01000140 | supercontig | MCQH01000140:471673..473830 - |
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