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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000240:307944..310272+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_010640-T1 ID=ATCC10864_010640-T1|Name=ATCC10864_010640-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2329bp|location=Sequence derived from alignment at MCQH01000240:307944..310272+ (Aspergillus niger ATCC 10864)
ATGTTCTCCAACATTCAACTATCTACCTCTGTTTCATTCTTCTTCAACTC
ACTGCTATTGATGTCGGCCCGGCACAATGACATTCGTCGTGTTGCCAACT
TCGTCTCTACCCAATCCAGCCCGACCGACTCCCCGTCCACGGCTCCGCCA
GCGGGAATGACGCCTCCTCCCCGCGAGCGGGTCCCTCGGGCCTGTGAACA
CTGCCGGGCCCGCAAGATCAAATGCAATGGCCAGCAGCCGTGCAATGCCT
GCGCGCGTCATCCAGAGCGATGTCTCTACCGGACAGGAAGCATTCGCCAG
AGGAAGAACCGTCGCACCAAGGAAGCCCCGCGACCACCAGCTACCTTACT
CCCTCTCCCGACCACCGACTCACCGACTACTCCAAGCGACTGGTCCCACA
CCAGTTTAAGCGATGGCCCGGCGCAGTATAAGCGACACCATGAGCTCCGT
GCTGGCATCGGCGTACAGAACCCGGAGACCGGGGCATTCCAGTTCTATGG
TAATTTCCATTCCCTACGTTTCGCTAGCTTTGTTAACCCTCGAAGGACCC
TCCTCCGGATTCTGCTTCATTCACCGGGTCTACCAACGCATCAAGCAAGG
CTCGTCTAGTGAGCCGCTGCTTGCGCGACGGAGCTGCTCCATTCCAGATG
CCATCCACCGATTTGGTCTGGAGCGCTTCATGTTTGCCCGGCCAGGAGAT
TCGGATCCGCGGCGGACTTATTTTCCGTCTCAGATGTTCCTCCCCAGGGA
GTTGGGGGATCAATTCATTGAGGCCTATTTCCGCATTATGCACCCGCAAA
TACCCATCCTAATAAAGTCCGAGATTGACGATGCTTGGAACCAAATGTGG
GAGTCTCCTGTACGCGACCACAGCGTTAAAAATCAGGACATCCTATTCAT
GGTGCTGGCTATCGGCGCTCGGGTCGCCAACCTTAAGGGGAAGCAAACCG
AAAGCAGTGTCGCGGCTTGGGCCGATTACTTTTCCAGTCGAGTGTCTGAG
GGGCCCATCTTTCTGCAGGAGCCGAGTATCCGAGGTGTACACTTGATGCT
GCTGAAGGTGCGTCACCGACATCTGCCAATTGAAACTTGCTAATCCAATA
AAAGTCAATGTACGCTTTGCAGCTGATGCGACAAAACGATGCTTATCTCT
ACCTGGGTCACGCCACTCGCACCTGTCTCGTACTAGGTTTGCACCGGGCC
CAGGTCACCGATGGTCGCGATCCCACCGTACATCGGCTGCGTTTGACCTT
TTGGACGACGTTCTTTTGCGAGCGCATATCTTCTCTCTACATGGGTCGTC
CGTCGAGCCTTTCTGACCGACAAATTGACACAGCCTATCCTGAGGACCTG
CCGCCGAATCCCTATGACAGCACTTGTGCGCCCATGCAAGAATGCGCATT
CATCCGAGCCATGGGCGAGATCGCCAAGCTGGCGGATCGCATCTCTATCG
AGATATATTCGCCGGCCAGCATTAAAAACCCTACGGACCTGGACAAGCTC
AACCAAATCAGCGTTGAATGCGATCACGCCCTCCAAGCTGTCACCCCGAC
ACTACCAAGTTACCTGCACTTCTTCGATGACAGCGTCCCAATTGGCGAGC
CCTGGCAGGAGATCCAACGCCTGAGTCTTGGATTCTGCTACTACGTTGTC
CGGATGCTCCTCTCCCGTCCGGCACTGGTGCTCACCACATTCTTCTCCTC
AGTACAAGAAGCCCAGATTGCCACTGGCTGCACTGAGCTCCAATCTTGCA
TCAATTCATCGACTTCTGCGGCGCGGAATTTGATCCACCTCGCACATGAC
GTCTATTTCCGTCGTTTCCCAGACATCCGCTATGACGGAGCTTTAGCTTC
GTTCCTTCTGTCTGCGTCGCTGACTCTCTTATATGATGTGCTCAATCTAG
GAACTGATCCGGACCGAGCTAGGCAGACATTCACGGTCGTGGAAAAGGCG
ATAAAGTGCCTCGATGAGATAGAGCATACGGGGTACACGTCGGGCAAGGC
GTTGAGCCTGGACCTGATGAGAGTGGCCAAGCAAGCGGTGCAAGCGGCAG
ATCCTGTGGTGGACACTAATCAGGTCTTGATGGATGCGTTCCCGTGGTTA
GAGTATGTTTCCCCCTCTTGTTGTCAGACTATGCTGACTGAGTAGTAACT
GGGCGTCTGCTCAGGTCGGAGAGAATCCTGATCTGTCGATGTATACGTTC
CCCCCGGCGGACGTGGCGGTTATTGGCTCATTGGCGGGGAATGATGTCGG
TTGGACCGAAATGGAGGGCAACCATCTCTGGTCGGGCAATGGGTTCGAGC
CGAACGCGATGCCGGGCTGTCTCTTTTGA back to topCoding sequence (CDS) from alignment at MCQH01000240:307944..310272+ >ATCC10864_010640-T1 ID=ATCC10864_010640-T1|Name=ATCC10864_010640-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=8772bp|location=Sequence derived from alignment at MCQH01000240:307944..310272+ (Aspergillus niger ATCC 10864)
ATGTTCTCCAACATTCAACTATCTACCTCTGTTTCATTCTTCTTCAACTC
ACTGCTATTGATGTCGGCCCGGCACAATGACATTCGTCGTGTTGCCAACT
TCGTCTCTACCCAATCCAGCCCGACCGACTCCCCGTCCACGGCTCCGCCA
GCGGGAATGACGCCTCCTCCCCGCGAGCGGGTCCCTCGGGCCTGTGAACA
CTGCCGGGCCCGCAAGATCAAATGCAATGGCCAGCAGCCGTGCAATGCCT
GCGCGCGTCATCCAGAGCGATGTCTCTACCGGACAGGAAGCATTCGCCAG
AGGAAGAACCGTCGCACCAAGGAAGCCCCGCGACCACCAGCTACCTTACT
CCCTCTCCCGACCACCGACTCACCGACTACTCCAAGCGACTGGTCCCACA
CCAGTTTAAGCGATGGCCCGGCGCAGTATAAGCGACACCATGAGCTCCGT
GCTGGCATCGGCGTACAGAACCCGGAGACCGGGGCATTCCAGTTCTATGG
ACCCTCCTCCGGATTCTGCTTCATTCACCGGGTCTACCAACGCATCAAGC
AAGGCTCGTCTAGTGAGCCGCTGCTTGCGCGACGGAGCTGCTCCATTCCA
GATGCCATCCACCGATTTGGTCTGGAGCGCTTCATGTTTGCCCGGCCAGG
AGATTCGGATCCGCGGCGGACTTATTTTCCGTCTCAGATGTTCCTCCCCA
GGGAGTTGGGGGATCAATTCATTGAGGCCTATTTCCGCATTATGCACCCG
CAAATACCCATCCTAATAAAGTCCGAGATTGACGATGCTTGGAACCAAAT
GTGGGAGTCTCCTGTACGCGACCACAGCGTTAAAAATCAGGACATCCTAT
TCATGGTGCTGGCTATCGGCGCTCGGGTCGCCAACCTTAAGGGGAAGCAA
ACCGAAAGCAGTGTCGCGGCTTGGGCCGATTACTTTTCCAGTCGAGTGTC
TGAGGGGCCCATCTTTCTGCAGGAGCCGAGTATCCGAGGTGTACACTTGA
TGCTGCTGAAGTCAATGTACGCTTTGCAGCTGATGCGACAAAACGATGCT
TATCTCTACCTGGGTCACGCCACTCGCACCTGTCTCGTACTAGGTTTGCA
CCGGGCCCAGGTCACCGATGGTCGCGATCCCACCGTACATCGGCTGCGTT
TGACCTTTTGGACGACGTTCTTTTGCGAGCGCATATCTTCTCTCTACATG
GGTCGTCCGTCGAGCCTTTCTGACCGACAAATTGACACAGCCTATCCTGA
GGACCTGCCGCCGAATCCCTATGACAGCACTTGTGCGCCCATGCAAGAAT
GCGCATTCATCCGAGCCATGGGCGAGATCGCCAAGCTGGCGGATCGCATC
TCTATCGAGATATATTCGCCGGCCAGCATTAAAAACCCTACGGACCTGGA
CAAGCTCAACCAAATCAGCGTTGAATGCGATCACGCCCTCCAAGCTGTCA
CCCCGACACTACCAAGTTACCTGCACTTCTTCGATGACAGCGTCCCAATT
GGCGAGCCCTGGCAGGAGATCCAACGCCTGAGTCTTGGATTCTGCTACTA
CGTTGTCCGGATGCTCCTCTCCCGTCCGGCACTGGTGCTCACCACATTCT
TCTCCTCAGTACAAGAAGCCCAGATTGCCACTGGCTGCACTGAGCTCCAA
TCTTGCATCAATTCATCGACTTCTGCGGCGCGGAATTTGATCCACCTCGC
ACATGACGTCTATTTCCGTCGTTTCCCAGACATCCGCTATGACGGAGCTT
TAGCTTCGTTCCTTCTGTCTGCGTCGCTGACTCTCTTATATGATGTGCTC
AATCTAGGAACTGATCCGGACCGAGCTAGGCAGACATTCACGGTCGTGGA
AAAGGCGATAAAGTGCCTCGATGAGATAGAGCATACGGGGTACACGTCGG
GCAAGGCGTTGAGCCTGGACCTGATGAGAGTGGCCAAGCAAGCGGTGCAA
GCGGCAGATCCTGTGGTGGACACTAATCAGGTCTTGATGGATGCGTTCCC
GTGGTTAGATAACTGGGCGTCTGCTCAGGTCGGAGAGAATCCTGATCTGT
CGATGTATACGTTCCCCCCGGCGGACGTGGCGGTTATTGGCTCATTGGCG
GGGAATGATGTCGGTTGGACCGAAATGGAGGGCAACCATCTCTGGTCGGG
CAATGGGTTCGAGCCGAACGCGATGCCGGGCTGTCTCTTTTGAATGTTCT
CCAACATTCAACTATCTACCTCTGTTTCATTCTTCTTCAACTCACTGCTA
TTGATGTCGGCCCGGCACAATGACATTCGTCGTGTTGCCAACTTCGTCTC
TACCCAATCCAGCCCGACCGACTCCCCGTCCACGGCTCCGCCAGCGGGAA
TGACGCCTCCTCCCCGCGAGCGGGTCCCTCGGGCCTGTGAACACTGCCGG
GCCCGCAAGATCAAATGCAATGGCCAGCAGCCGTGCAATGCCTGCGCGCG
TCATCCAGAGCGATGTCTCTACCGGACAGGAAGCATTCGCCAGAGGAAGA
ACCGTCGCACCAAGGAAGCCCCGCGACCACCAGCTACCTTACTCCCTCTC
CCGACCACCGACTCACCGACTACTCCAAGCGACTGGTCCCACACCAGTTT
AAGCGATGGCCCGGCGCAGTATAAGCGACACCATGAGCTCCGTGCTGGCA
TCGGCGTACAGAACCCGGAGACCGGGGCATTCCAGTTCTATGGACCCTCC
TCCGGATTCTGCTTCATTCACCGGGTCTACCAACGCATCAAGCAAGGCTC
GTCTAGTGAGCCGCTGCTTGCGCGACGGAGCTGCTCCATTCCAGATGCCA
TCCACCGATTTGGTCTGGAGCGCTTCATGTTTGCCCGGCCAGGAGATTCG
GATCCGCGGCGGACTTATTTTCCGTCTCAGATGTTCCTCCCCAGGGAGTT
GGGGGATCAATTCATTGAGGCCTATTTCCGCATTATGCACCCGCAAATAC
CCATCCTAATAAAGTCCGAGATTGACGATGCTTGGAACCAAATGTGGGAG
TCTCCTGTACGCGACCACAGCGTTAAAAATCAGGACATCCTATTCATGGT
GCTGGCTATCGGCGCTCGGGTCGCCAACCTTAAGGGGAAGCAAACCGAAA
GCAGTGTCGCGGCTTGGGCCGATTACTTTTCCAGTCGAGTGTCTGAGGGG
CCCATCTTTCTGCAGGAGCCGAGTATCCGAGGTGTACACTTGATGCTGCT
GAAGTCAATGTACGCTTTGCAGCTGATGCGACAAAACGATGCTTATCTCT
ACCTGGGTCACGCCACTCGCACCTGTCTCGTACTAGGTTTGCACCGGGCC
CAGGTCACCGATGGTCGCGATCCCACCGTACATCGGCTGCGTTTGACCTT
TTGGACGACGTTCTTTTGCGAGCGCATATCTTCTCTCTACATGGGTCGTC
CGTCGAGCCTTTCTGACCGACAAATTGACACAGCCTATCCTGAGGACCTG
CCGCCGAATCCCTATGACAGCACTTGTGCGCCCATGCAAGAATGCGCATT
CATCCGAGCCATGGGCGAGATCGCCAAGCTGGCGGATCGCATCTCTATCG
AGATATATTCGCCGGCCAGCATTAAAAACCCTACGGACCTGGACAAGCTC
AACCAAATCAGCGTTGAATGCGATCACGCCCTCCAAGCTGTCACCCCGAC
ACTACCAAGTTACCTGCACTTCTTCGATGACAGCGTCCCAATTGGCGAGC
CCTGGCAGGAGATCCAACGCCTGAGTCTTGGATTCTGCTACTACGTTGTC
CGGATGCTCCTCTCCCGTCCGGCACTGGTGCTCACCACATTCTTCTCCTC
AGTACAAGAAGCCCAGATTGCCACTGGCTGCACTGAGCTCCAATCTTGCA
TCAATTCATCGACTTCTGCGGCGCGGAATTTGATCCACCTCGCACATGAC
GTCTATTTCCGTCGTTTCCCAGACATCCGCTATGACGGAGCTTTAGCTTC
GTTCCTTCTGTCTGCGTCGCTGACTCTCTTATATGATGTGCTCAATCTAG
GAACTGATCCGGACCGAGCTAGGCAGACATTCACGGTCGTGGAAAAGGCG
ATAAAGTGCCTCGATGAGATAGAGCATACGGGGTACACGTCGGGCAAGGC
GTTGAGCCTGGACCTGATGAGAGTGGCCAAGCAAGCGGTGCAAGCGGCAG
ATCCTGTGGTGGACACTAATCAGGTCTTGATGGATGCGTTCCCGTGGTTA
GATAACTGGGCGTCTGCTCAGGTCGGAGAGAATCCTGATCTGTCGATGTA
TACGTTCCCCCCGGCGGACGTGGCGGTTATTGGCTCATTGGCGGGGAATG
ATGTCGGTTGGACCGAAATGGAGGGCAACCATCTCTGGTCGGGCAATGGG
TTCGAGCCGAACGCGATGCCGGGCTGTCTCTTTTGAATGTTCTCCAACAT
TCAACTATCTACCTCTGTTTCATTCTTCTTCAACTCACTGCTATTGATGT
CGGCCCGGCACAATGACATTCGTCGTGTTGCCAACTTCGTCTCTACCCAA
TCCAGCCCGACCGACTCCCCGTCCACGGCTCCGCCAGCGGGAATGACGCC
TCCTCCCCGCGAGCGGGTCCCTCGGGCCTGTGAACACTGCCGGGCCCGCA
AGATCAAATGCAATGGCCAGCAGCCGTGCAATGCCTGCGCGCGTCATCCA
GAGCGATGTCTCTACCGGACAGGAAGCATTCGCCAGAGGAAGAACCGTCG
CACCAAGGAAGCCCCGCGACCACCAGCTACCTTACTCCCTCTCCCGACCA
CCGACTCACCGACTACTCCAAGCGACTGGTCCCACACCAGTTTAAGCGAT
GGCCCGGCGCAGTATAAGCGACACCATGAGCTCCGTGCTGGCATCGGCGT
ACAGAACCCGGAGACCGGGGCATTCCAGTTCTATGGACCCTCCTCCGGAT
TCTGCTTCATTCACCGGGTCTACCAACGCATCAAGCAAGGCTCGTCTAGT
GAGCCGCTGCTTGCGCGACGGAGCTGCTCCATTCCAGATGCCATCCACCG
ATTTGGTCTGGAGCGCTTCATGTTTGCCCGGCCAGGAGATTCGGATCCGC
GGCGGACTTATTTTCCGTCTCAGATGTTCCTCCCCAGGGAGTTGGGGGAT
CAATTCATTGAGGCCTATTTCCGCATTATGCACCCGCAAATACCCATCCT
AATAAAGTCCGAGATTGACGATGCTTGGAACCAAATGTGGGAGTCTCCTG
TACGCGACCACAGCGTTAAAAATCAGGACATCCTATTCATGGTGCTGGCT
ATCGGCGCTCGGGTCGCCAACCTTAAGGGGAAGCAAACCGAAAGCAGTGT
CGCGGCTTGGGCCGATTACTTTTCCAGTCGAGTGTCTGAGGGGCCCATCT
TTCTGCAGGAGCCGAGTATCCGAGGTGTACACTTGATGCTGCTGAAGTCA
ATGTACGCTTTGCAGCTGATGCGACAAAACGATGCTTATCTCTACCTGGG
TCACGCCACTCGCACCTGTCTCGTACTAGGTTTGCACCGGGCCCAGGTCA
CCGATGGTCGCGATCCCACCGTACATCGGCTGCGTTTGACCTTTTGGACG
ACGTTCTTTTGCGAGCGCATATCTTCTCTCTACATGGGTCGTCCGTCGAG
CCTTTCTGACCGACAAATTGACACAGCCTATCCTGAGGACCTGCCGCCGA
ATCCCTATGACAGCACTTGTGCGCCCATGCAAGAATGCGCATTCATCCGA
GCCATGGGCGAGATCGCCAAGCTGGCGGATCGCATCTCTATCGAGATATA
TTCGCCGGCCAGCATTAAAAACCCTACGGACCTGGACAAGCTCAACCAAA
TCAGCGTTGAATGCGATCACGCCCTCCAAGCTGTCACCCCGACACTACCA
AGTTACCTGCACTTCTTCGATGACAGCGTCCCAATTGGCGAGCCCTGGCA
GGAGATCCAACGCCTGAGTCTTGGATTCTGCTACTACGTTGTCCGGATGC
TCCTCTCCCGTCCGGCACTGGTGCTCACCACATTCTTCTCCTCAGTACAA
GAAGCCCAGATTGCCACTGGCTGCACTGAGCTCCAATCTTGCATCAATTC
ATCGACTTCTGCGGCGCGGAATTTGATCCACCTCGCACATGACGTCTATT
TCCGTCGTTTCCCAGACATCCGCTATGACGGAGCTTTAGCTTCGTTCCTT
CTGTCTGCGTCGCTGACTCTCTTATATGATGTGCTCAATCTAGGAACTGA
TCCGGACCGAGCTAGGCAGACATTCACGGTCGTGGAAAAGGCGATAAAGT
GCCTCGATGAGATAGAGCATACGGGGTACACGTCGGGCAAGGCGTTGAGC
CTGGACCTGATGAGAGTGGCCAAGCAAGCGGTGCAAGCGGCAGATCCTGT
GGTGGACACTAATCAGGTCTTGATGGATGCGTTCCCGTGGTTAGATAACT
GGGCGTCTGCTCAGGTCGGAGAGAATCCTGATCTGTCGATGTATACGTTC
CCCCCGGCGGACGTGGCGGTTATTGGCTCATTGGCGGGGAATGATGTCGG
TTGGACCGAAATGGAGGGCAACCATCTCTGGTCGGGCAATGGGTTCGAGC
CGAACGCGATGCCGGGCTGTCTCTTTTGAATGTTCTCCAACATTCAACTA
TCTACCTCTGTTTCATTCTTCTTCAACTCACTGCTATTGATGTCGGCCCG
GCACAATGACATTCGTCGTGTTGCCAACTTCGTCTCTACCCAATCCAGCC
CGACCGACTCCCCGTCCACGGCTCCGCCAGCGGGAATGACGCCTCCTCCC
CGCGAGCGGGTCCCTCGGGCCTGTGAACACTGCCGGGCCCGCAAGATCAA
ATGCAATGGCCAGCAGCCGTGCAATGCCTGCGCGCGTCATCCAGAGCGAT
GTCTCTACCGGACAGGAAGCATTCGCCAGAGGAAGAACCGTCGCACCAAG
GAAGCCCCGCGACCACCAGCTACCTTACTCCCTCTCCCGACCACCGACTC
ACCGACTACTCCAAGCGACTGGTCCCACACCAGTTTAAGCGATGGCCCGG
CGCAGTATAAGCGACACCATGAGCTCCGTGCTGGCATCGGCGTACAGAAC
CCGGAGACCGGGGCATTCCAGTTCTATGGACCCTCCTCCGGATTCTGCTT
CATTCACCGGGTCTACCAACGCATCAAGCAAGGCTCGTCTAGTGAGCCGC
TGCTTGCGCGACGGAGCTGCTCCATTCCAGATGCCATCCACCGATTTGGT
CTGGAGCGCTTCATGTTTGCCCGGCCAGGAGATTCGGATCCGCGGCGGAC
TTATTTTCCGTCTCAGATGTTCCTCCCCAGGGAGTTGGGGGATCAATTCA
TTGAGGCCTATTTCCGCATTATGCACCCGCAAATACCCATCCTAATAAAG
TCCGAGATTGACGATGCTTGGAACCAAATGTGGGAGTCTCCTGTACGCGA
CCACAGCGTTAAAAATCAGGACATCCTATTCATGGTGCTGGCTATCGGCG
CTCGGGTCGCCAACCTTAAGGGGAAGCAAACCGAAAGCAGTGTCGCGGCT
TGGGCCGATTACTTTTCCAGTCGAGTGTCTGAGGGGCCCATCTTTCTGCA
GGAGCCGAGTATCCGAGGTGTACACTTGATGCTGCTGAAGTCAATGTACG
CTTTGCAGCTGATGCGACAAAACGATGCTTATCTCTACCTGGGTCACGCC
ACTCGCACCTGTCTCGTACTAGGTTTGCACCGGGCCCAGGTCACCGATGG
TCGCGATCCCACCGTACATCGGCTGCGTTTGACCTTTTGGACGACGTTCT
TTTGCGAGCGCATATCTTCTCTCTACATGGGTCGTCCGTCGAGCCTTTCT
GACCGACAAATTGACACAGCCTATCCTGAGGACCTGCCGCCGAATCCCTA
TGACAGCACTTGTGCGCCCATGCAAGAATGCGCATTCATCCGAGCCATGG
GCGAGATCGCCAAGCTGGCGGATCGCATCTCTATCGAGATATATTCGCCG
GCCAGCATTAAAAACCCTACGGACCTGGACAAGCTCAACCAAATCAGCGT
TGAATGCGATCACGCCCTCCAAGCTGTCACCCCGACACTACCAAGTTACC
TGCACTTCTTCGATGACAGCGTCCCAATTGGCGAGCCCTGGCAGGAGATC
CAACGCCTGAGTCTTGGATTCTGCTACTACGTTGTCCGGATGCTCCTCTC
CCGTCCGGCACTGGTGCTCACCACATTCTTCTCCTCAGTACAAGAAGCCC
AGATTGCCACTGGCTGCACTGAGCTCCAATCTTGCATCAATTCATCGACT
TCTGCGGCGCGGAATTTGATCCACCTCGCACATGACGTCTATTTCCGTCG
TTTCCCAGACATCCGCTATGACGGAGCTTTAGCTTCGTTCCTTCTGTCTG
CGTCGCTGACTCTCTTATATGATGTGCTCAATCTAGGAACTGATCCGGAC
CGAGCTAGGCAGACATTCACGGTCGTGGAAAAGGCGATAAAGTGCCTCGA
TGAGATAGAGCATACGGGGTACACGTCGGGCAAGGCGTTGAGCCTGGACC
TGATGAGAGTGGCCAAGCAAGCGGTGCAAGCGGCAGATCCTGTGGTGGAC
ACTAATCAGGTCTTGATGGATGCGTTCCCGTGGTTAGATAACTGGGCGTC
TGCTCAGGTCGGAGAGAATCCTGATCTGTCGATGTATACGTTCCCCCCGG
CGGACGTGGCGGTTATTGGCTCATTGGCGGGGAATGATGTCGGTTGGACC
GAAATGGAGGGCAACCATCTCTGGTCGGGCAATGGGTTCGAGCCGAACGC
GATGCCGGGCTGTCTCTTTTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006351 | transcription, DNA-templated |
| 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 |
| GO:0003677 | DNA binding |
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
Cross References
External references for this mRNA
Properties
| Property Name | Value |
|---|
| Note | antiSMASH:Cluster_1000240.2 |
| 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 |
|---|
| MCQH01000240 | supercontig | MCQH01000240:307944..310272 + |
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