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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000208:91263..92767+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_009066-T1 ID=ATCC10864_009066-T1|Name=ATCC10864_009066-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=1505bp|location=Sequence derived from alignment at MCQH01000208:91263..92767+ (Aspergillus niger ATCC 10864)
ATGGAAGCATCATATTTAGATGGCATGGAAGCCGAGGCGTTCGAACGACT
ACCAATCATCACTACAATTCCCCAAACACCAGTCCAAAGCTACATTCAGG
AAACGCTAGCAGCAATCCTGGATGAAGTATCCTTCCGTGAAGGCCAACTC
TCTATTACCCTCAAACGGAGAGGTAAAAAGTATGCCTCACTATTCATTAA
CCCACGTACACTGGCCCTGGAGACGTCGGAGATACAGACATACACCACCT
ACAGATGGCCCGGCGGCGATATGAACGAAGCGTTGAAATTCAGTACGATA
TGTTGTCACCATTCAGACACTGTACTAATGTGGTCACAGCTGCCGCTCTT
CGAGTCCTTGCGGCCATCGCAGAGGCAGTTCAGGCGGGGTTGGTGGTCTC
TAAGAGGTAAACAACACGGACCACCAGTGTACTCTAACACTTTCGAACAC
TAAATTTCACATAGAGACATATACTACAGTGATCCTATCTGCTTCGGCTC
CCAGAAAACCGTCGATACACTCGTTGATGACCTGGCACACACAATGGGGG
TGGATCGTGCTGCATTATATGTGGTTCGTGGGCCTCAACAGTACCTACTT
CCAGACTGCTAAGTATCCTCCAACACAGGGGGCAGCAGCAAAAGGACTTG
TCGTGGGATACTATCAGATGACCACCACAAGCGCGGGAGTAGTGGACGCG
CGGTTATCAAACCAGGTCCGTTGCAGTCATCACTACTGCACACAGCATGG
ACTGATGTTCGCAGGATACTCTAGTACCTAGAATGCAAGACATCCACAAA
GTCGACCTTAAAGATGTTGCCTGGGTACTGGTTCTAGAGAAGGAGGTCCC
TGCTGCCATCAAAAACTTTATATATCAAGCTGGAGTGAACTGACACCCTC
AGGCCGTATACCGTCGACTCGCAAGCAGCAACTACCACATCAGATCTGCA
GCAGGCAAGGGCGTCCTCGTCACTGTAAGTGCTGATACGCCTATTACATT
CTAAGAGACATACAAACCATTCCAGGGAAAAGGATATCCTGATCTCAGCA
CTCGGGCATTCGTCCGTAAACTCTTCGACCACAGCCACCAACTCACCAAG
CGACCGCAATTCTACGCCTTCGTGGACGGTGACCCCGACGGCATGGCCAT
TATGGCCACATACAAGTATGGCTCTGTGGCTTTTGCCCACGAAAACCGGA
ACTTGAATGTGCCCGGTCTGCACTGGCTGGGTTTGAGACTAGCGGATGTG
GTTGCGGGAGCTGGTCCACTAGGCGATGACACGCTACTCCGTCTTACCAA
GCGGGATAGGAAGAAGGCCATCGCTATGCTGTCTAAAAATCCTGTCTGGG
AGGCTGATGGACCGGAGCCGGAATGGCGGGTCGAGCTGCAGCGGATGCTC
ATGCTGAATGTCAAGGCAGAGATGGAGATTCTGTATGACATGGAGGGTGG
CTTGACAGGATGGCTAGATAGGAAGCTGGTCCATCTCATACAAAATGGTG
GATAG back to topCoding sequence (CDS) from alignment at MCQH01000208:91263..92767+ >ATCC10864_009066-T1 ID=ATCC10864_009066-T1|Name=ATCC10864_009066-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=8316bp|location=Sequence derived from alignment at MCQH01000208:91263..92767+ (Aspergillus niger ATCC 10864)
ATGGAAGCATCATATTTAGATGGCATGGAAGCCGAGGCGTTCGAACGACT
ACCAATCATCACTACAATTCCCCAAACACCAGTCCAAAGCTACATTCAGG
AAACGCTAGCAGCAATCCTGGATGAAGTATCCTTCCGTGAAGGCCAACTC
TCTATTACCCTCAAACGGAGAGGTAAAAAGTATGCCTCACTATTCATTAA
CCCACGTACACTGGCCCTGGAGACGTCGGAGATACAGACATACACCACCT
ACAGATGGCCCGGCGGCGATATGAACGAAGCGTTGAAATTCACTGCCGCT
CTTCGAGTCCTTGCGGCCATCGCAGAGGCAGTTCAGGCGGGGTTGGTGGT
CTCTAAGAGAGACATATACTACAGTGATCCTATCTGCTTCGGCTCCCAGA
AAACCGTCGATACACTCGTTGATGACCTGGCACACACAATGGGGGTGGAT
CGTGCTGCATTATATGTGGGGGCAGCAGCAAAAGGACTTGTCGTGGGATA
CTATCAGATGACCACCACAAGCGCGGGAGTAGTGGACGCGCGGTTATCAA
ACCAGGATACTCTAGTACCTAGAATGCAAGACATCCACAAAGTCGACCTT
AAAGATGTTGCCTGGGTACTGGTTCTAGAGAAGGAGGCCGTATACCGTCG
ACTCGCAAGCAGCAACTACCACATCAGATCTGCAGCAGGCAAGGGCGTCC
TCGTCACTGGAAAAGGATATCCTGATCTCAGCACTCGGGCATTCGTCCGT
AAACTCTTCGACCACAGCCACCAACTCACCAAGCGACCGCAATTCTACGC
CTTCGTGGACGGTGACCCCGACGGCATGGCCATTATGGCCACATACAAGT
ATGGCTCTGTGGCTTTTGCCCACGAAAACCGGAACTTGAATGTGCCCGGT
CTGCACTGGCTGGGTTTGAGACTAGCGGATGTGGTTGCGGGAGCTGGTCC
ACTAGGCGATGACACGCTACTCCGTCTTACCAAGCGGGATAGGAAGAAGG
CCATCGCTATGCTGTCTAAAAATCCTGTCTGGGAGGCTGATGGACCGGAG
CCGGAATGGCGGGTCGAGCTGCAGCGGATGCTCATGCTGAATGTCAAGGC
AGAGATGGAGATTCTGTATGACATGGAGGGTGGCTTGACAGGATGGCTAG
ATAGGAAGCTGGTCCATCTCATACAAAATGGTGGATAGATGGAAGCATCA
TATTTAGATGGCATGGAAGCCGAGGCGTTCGAACGACTACCAATCATCAC
TACAATTCCCCAAACACCAGTCCAAAGCTACATTCAGGAAACGCTAGCAG
CAATCCTGGATGAAGTATCCTTCCGTGAAGGCCAACTCTCTATTACCCTC
AAACGGAGAGGTAAAAAGTATGCCTCACTATTCATTAACCCACGTACACT
GGCCCTGGAGACGTCGGAGATACAGACATACACCACCTACAGATGGCCCG
GCGGCGATATGAACGAAGCGTTGAAATTCACTGCCGCTCTTCGAGTCCTT
GCGGCCATCGCAGAGGCAGTTCAGGCGGGGTTGGTGGTCTCTAAGAGAGA
CATATACTACAGTGATCCTATCTGCTTCGGCTCCCAGAAAACCGTCGATA
CACTCGTTGATGACCTGGCACACACAATGGGGGTGGATCGTGCTGCATTA
TATGTGGGGGCAGCAGCAAAAGGACTTGTCGTGGGATACTATCAGATGAC
CACCACAAGCGCGGGAGTAGTGGACGCGCGGTTATCAAACCAGGATACTC
TAGTACCTAGAATGCAAGACATCCACAAAGTCGACCTTAAAGATGTTGCC
TGGGTACTGGTTCTAGAGAAGGAGGCCGTATACCGTCGACTCGCAAGCAG
CAACTACCACATCAGATCTGCAGCAGGCAAGGGCGTCCTCGTCACTGGAA
AAGGATATCCTGATCTCAGCACTCGGGCATTCGTCCGTAAACTCTTCGAC
CACAGCCACCAACTCACCAAGCGACCGCAATTCTACGCCTTCGTGGACGG
TGACCCCGACGGCATGGCCATTATGGCCACATACAAGTATGGCTCTGTGG
CTTTTGCCCACGAAAACCGGAACTTGAATGTGCCCGGTCTGCACTGGCTG
GGTTTGAGACTAGCGGATGTGGTTGCGGGAGCTGGTCCACTAGGCGATGA
CACGCTACTCCGTCTTACCAAGCGGGATAGGAAGAAGGCCATCGCTATGC
TGTCTAAAAATCCTGTCTGGGAGGCTGATGGACCGGAGCCGGAATGGCGG
GTCGAGCTGCAGCGGATGCTCATGCTGAATGTCAAGGCAGAGATGGAGAT
TCTGTATGACATGGAGGGTGGCTTGACAGGATGGCTAGATAGGAAGCTGG
TCCATCTCATACAAAATGGTGGATAGATGGAAGCATCATATTTAGATGGC
ATGGAAGCCGAGGCGTTCGAACGACTACCAATCATCACTACAATTCCCCA
AACACCAGTCCAAAGCTACATTCAGGAAACGCTAGCAGCAATCCTGGATG
AAGTATCCTTCCGTGAAGGCCAACTCTCTATTACCCTCAAACGGAGAGGT
AAAAAGTATGCCTCACTATTCATTAACCCACGTACACTGGCCCTGGAGAC
GTCGGAGATACAGACATACACCACCTACAGATGGCCCGGCGGCGATATGA
ACGAAGCGTTGAAATTCACTGCCGCTCTTCGAGTCCTTGCGGCCATCGCA
GAGGCAGTTCAGGCGGGGTTGGTGGTCTCTAAGAGAGACATATACTACAG
TGATCCTATCTGCTTCGGCTCCCAGAAAACCGTCGATACACTCGTTGATG
ACCTGGCACACACAATGGGGGTGGATCGTGCTGCATTATATGTGGGGGCA
GCAGCAAAAGGACTTGTCGTGGGATACTATCAGATGACCACCACAAGCGC
GGGAGTAGTGGACGCGCGGTTATCAAACCAGGATACTCTAGTACCTAGAA
TGCAAGACATCCACAAAGTCGACCTTAAAGATGTTGCCTGGGTACTGGTT
CTAGAGAAGGAGGCCGTATACCGTCGACTCGCAAGCAGCAACTACCACAT
CAGATCTGCAGCAGGCAAGGGCGTCCTCGTCACTGGAAAAGGATATCCTG
ATCTCAGCACTCGGGCATTCGTCCGTAAACTCTTCGACCACAGCCACCAA
CTCACCAAGCGACCGCAATTCTACGCCTTCGTGGACGGTGACCCCGACGG
CATGGCCATTATGGCCACATACAAGTATGGCTCTGTGGCTTTTGCCCACG
AAAACCGGAACTTGAATGTGCCCGGTCTGCACTGGCTGGGTTTGAGACTA
GCGGATGTGGTTGCGGGAGCTGGTCCACTAGGCGATGACACGCTACTCCG
TCTTACCAAGCGGGATAGGAAGAAGGCCATCGCTATGCTGTCTAAAAATC
CTGTCTGGGAGGCTGATGGACCGGAGCCGGAATGGCGGGTCGAGCTGCAG
CGGATGCTCATGCTGAATGTCAAGGCAGAGATGGAGATTCTGTATGACAT
GGAGGGTGGCTTGACAGGATGGCTAGATAGGAAGCTGGTCCATCTCATAC
AAAATGGTGGATAGATGGAAGCATCATATTTAGATGGCATGGAAGCCGAG
GCGTTCGAACGACTACCAATCATCACTACAATTCCCCAAACACCAGTCCA
AAGCTACATTCAGGAAACGCTAGCAGCAATCCTGGATGAAGTATCCTTCC
GTGAAGGCCAACTCTCTATTACCCTCAAACGGAGAGGTAAAAAGTATGCC
TCACTATTCATTAACCCACGTACACTGGCCCTGGAGACGTCGGAGATACA
GACATACACCACCTACAGATGGCCCGGCGGCGATATGAACGAAGCGTTGA
AATTCACTGCCGCTCTTCGAGTCCTTGCGGCCATCGCAGAGGCAGTTCAG
GCGGGGTTGGTGGTCTCTAAGAGAGACATATACTACAGTGATCCTATCTG
CTTCGGCTCCCAGAAAACCGTCGATACACTCGTTGATGACCTGGCACACA
CAATGGGGGTGGATCGTGCTGCATTATATGTGGGGGCAGCAGCAAAAGGA
CTTGTCGTGGGATACTATCAGATGACCACCACAAGCGCGGGAGTAGTGGA
CGCGCGGTTATCAAACCAGGATACTCTAGTACCTAGAATGCAAGACATCC
ACAAAGTCGACCTTAAAGATGTTGCCTGGGTACTGGTTCTAGAGAAGGAG
GCCGTATACCGTCGACTCGCAAGCAGCAACTACCACATCAGATCTGCAGC
AGGCAAGGGCGTCCTCGTCACTGGAAAAGGATATCCTGATCTCAGCACTC
GGGCATTCGTCCGTAAACTCTTCGACCACAGCCACCAACTCACCAAGCGA
CCGCAATTCTACGCCTTCGTGGACGGTGACCCCGACGGCATGGCCATTAT
GGCCACATACAAGTATGGCTCTGTGGCTTTTGCCCACGAAAACCGGAACT
TGAATGTGCCCGGTCTGCACTGGCTGGGTTTGAGACTAGCGGATGTGGTT
GCGGGAGCTGGTCCACTAGGCGATGACACGCTACTCCGTCTTACCAAGCG
GGATAGGAAGAAGGCCATCGCTATGCTGTCTAAAAATCCTGTCTGGGAGG
CTGATGGACCGGAGCCGGAATGGCGGGTCGAGCTGCAGCGGATGCTCATG
CTGAATGTCAAGGCAGAGATGGAGATTCTGTATGACATGGAGGGTGGCTT
GACAGGATGGCTAGATAGGAAGCTGGTCCATCTCATACAAAATGGTGGAT
AGATGGAAGCATCATATTTAGATGGCATGGAAGCCGAGGCGTTCGAACGA
CTACCAATCATCACTACAATTCCCCAAACACCAGTCCAAAGCTACATTCA
GGAAACGCTAGCAGCAATCCTGGATGAAGTATCCTTCCGTGAAGGCCAAC
TCTCTATTACCCTCAAACGGAGAGGTAAAAAGTATGCCTCACTATTCATT
AACCCACGTACACTGGCCCTGGAGACGTCGGAGATACAGACATACACCAC
CTACAGATGGCCCGGCGGCGATATGAACGAAGCGTTGAAATTCACTGCCG
CTCTTCGAGTCCTTGCGGCCATCGCAGAGGCAGTTCAGGCGGGGTTGGTG
GTCTCTAAGAGAGACATATACTACAGTGATCCTATCTGCTTCGGCTCCCA
GAAAACCGTCGATACACTCGTTGATGACCTGGCACACACAATGGGGGTGG
ATCGTGCTGCATTATATGTGGGGGCAGCAGCAAAAGGACTTGTCGTGGGA
TACTATCAGATGACCACCACAAGCGCGGGAGTAGTGGACGCGCGGTTATC
AAACCAGGATACTCTAGTACCTAGAATGCAAGACATCCACAAAGTCGACC
TTAAAGATGTTGCCTGGGTACTGGTTCTAGAGAAGGAGGCCGTATACCGT
CGACTCGCAAGCAGCAACTACCACATCAGATCTGCAGCAGGCAAGGGCGT
CCTCGTCACTGGAAAAGGATATCCTGATCTCAGCACTCGGGCATTCGTCC
GTAAACTCTTCGACCACAGCCACCAACTCACCAAGCGACCGCAATTCTAC
GCCTTCGTGGACGGTGACCCCGACGGCATGGCCATTATGGCCACATACAA
GTATGGCTCTGTGGCTTTTGCCCACGAAAACCGGAACTTGAATGTGCCCG
GTCTGCACTGGCTGGGTTTGAGACTAGCGGATGTGGTTGCGGGAGCTGGT
CCACTAGGCGATGACACGCTACTCCGTCTTACCAAGCGGGATAGGAAGAA
GGCCATCGCTATGCTGTCTAAAAATCCTGTCTGGGAGGCTGATGGACCGG
AGCCGGAATGGCGGGTCGAGCTGCAGCGGATGCTCATGCTGAATGTCAAG
GCAGAGATGGAGATTCTGTATGACATGGAGGGTGGCTTGACAGGATGGCT
AGATAGGAAGCTGGTCCATCTCATACAAAATGGTGGATAGATGGAAGCAT
CATATTTAGATGGCATGGAAGCCGAGGCGTTCGAACGACTACCAATCATC
ACTACAATTCCCCAAACACCAGTCCAAAGCTACATTCAGGAAACGCTAGC
AGCAATCCTGGATGAAGTATCCTTCCGTGAAGGCCAACTCTCTATTACCC
TCAAACGGAGAGGTAAAAAGTATGCCTCACTATTCATTAACCCACGTACA
CTGGCCCTGGAGACGTCGGAGATACAGACATACACCACCTACAGATGGCC
CGGCGGCGATATGAACGAAGCGTTGAAATTCACTGCCGCTCTTCGAGTCC
TTGCGGCCATCGCAGAGGCAGTTCAGGCGGGGTTGGTGGTCTCTAAGAGA
GACATATACTACAGTGATCCTATCTGCTTCGGCTCCCAGAAAACCGTCGA
TACACTCGTTGATGACCTGGCACACACAATGGGGGTGGATCGTGCTGCAT
TATATGTGGGGGCAGCAGCAAAAGGACTTGTCGTGGGATACTATCAGATG
ACCACCACAAGCGCGGGAGTAGTGGACGCGCGGTTATCAAACCAGGATAC
TCTAGTACCTAGAATGCAAGACATCCACAAAGTCGACCTTAAAGATGTTG
CCTGGGTACTGGTTCTAGAGAAGGAGGCCGTATACCGTCGACTCGCAAGC
AGCAACTACCACATCAGATCTGCAGCAGGCAAGGGCGTCCTCGTCACTGG
AAAAGGATATCCTGATCTCAGCACTCGGGCATTCGTCCGTAAACTCTTCG
ACCACAGCCACCAACTCACCAAGCGACCGCAATTCTACGCCTTCGTGGAC
GGTGACCCCGACGGCATGGCCATTATGGCCACATACAAGTATGGCTCTGT
GGCTTTTGCCCACGAAAACCGGAACTTGAATGTGCCCGGTCTGCACTGGC
TGGGTTTGAGACTAGCGGATGTGGTTGCGGGAGCTGGTCCACTAGGCGAT
GACACGCTACTCCGTCTTACCAAGCGGGATAGGAAGAAGGCCATCGCTAT
GCTGTCTAAAAATCCTGTCTGGGAGGCTGATGGACCGGAGCCGGAATGGC
GGGTCGAGCTGCAGCGGATGCTCATGCTGAATGTCAAGGCAGAGATGGAG
ATTCTGTATGACATGGAGGGTGGCTTGACAGGATGGCTAGATAGGAAGCT
GGTCCATCTCATACAAAATGGTGGATAGATGGAAGCATCATATTTAGATG
GCATGGAAGCCGAGGCGTTCGAACGACTACCAATCATCACTACAATTCCC
CAAACACCAGTCCAAAGCTACATTCAGGAAACGCTAGCAGCAATCCTGGA
TGAAGTATCCTTCCGTGAAGGCCAACTCTCTATTACCCTCAAACGGAGAG
GTAAAAAGTATGCCTCACTATTCATTAACCCACGTACACTGGCCCTGGAG
ACGTCGGAGATACAGACATACACCACCTACAGATGGCCCGGCGGCGATAT
GAACGAAGCGTTGAAATTCACTGCCGCTCTTCGAGTCCTTGCGGCCATCG
CAGAGGCAGTTCAGGCGGGGTTGGTGGTCTCTAAGAGAGACATATACTAC
AGTGATCCTATCTGCTTCGGCTCCCAGAAAACCGTCGATACACTCGTTGA
TGACCTGGCACACACAATGGGGGTGGATCGTGCTGCATTATATGTGGGGG
CAGCAGCAAAAGGACTTGTCGTGGGATACTATCAGATGACCACCACAAGC
GCGGGAGTAGTGGACGCGCGGTTATCAAACCAGGATACTCTAGTACCTAG
AATGCAAGACATCCACAAAGTCGACCTTAAAGATGTTGCCTGGGTACTGG
TTCTAGAGAAGGAGGCCGTATACCGTCGACTCGCAAGCAGCAACTACCAC
ATCAGATCTGCAGCAGGCAAGGGCGTCCTCGTCACTGGAAAAGGATATCC
TGATCTCAGCACTCGGGCATTCGTCCGTAAACTCTTCGACCACAGCCACC
AACTCACCAAGCGACCGCAATTCTACGCCTTCGTGGACGGTGACCCCGAC
GGCATGGCCATTATGGCCACATACAAGTATGGCTCTGTGGCTTTTGCCCA
CGAAAACCGGAACTTGAATGTGCCCGGTCTGCACTGGCTGGGTTTGAGAC
TAGCGGATGTGGTTGCGGGAGCTGGTCCACTAGGCGATGACACGCTACTC
CGTCTTACCAAGCGGGATAGGAAGAAGGCCATCGCTATGCTGTCTAAAAA
TCCTGTCTGGGAGGCTGATGGACCGGAGCCGGAATGGCGGGTCGAGCTGC
AGCGGATGCTCATGCTGAATGTCAAGGCAGAGATGGAGATTCTGTATGAC
ATGGAGGGTGGCTTGACAGGATGGCTAGATAGGAAGCTGGTCCATCTCAT
ACAAAATGGTGGATAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006259 | DNA metabolic process |
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005694 | chromosome |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003677 | DNA binding |
| GO:0003824 | catalytic activity |
| GO:0005524 | ATP binding |
| GO:0016889 | endodeoxyribonuclease activity, producing 3'-phosphomonoesters |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| InterPro | IPR036078 |
| InterPro | IPR002815 |
| InterPro | IPR013049 |
| InterPro | IPR036388 |
| PFAM | PF04406 |
| InterPro | IPR034136 |
Properties
| Property Name | Value |
|---|
| Note | antiSMASH:Cluster_1000208.2 |
| 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 |
|---|
| MCQH01000208 | supercontig | MCQH01000208:91263..92767 + |
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