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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch8:5066408..5069535+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >KYF_011685-T1 ID=KYF_011685-T1|Name=KYF_011685-T1|organism=Aspergillus niger KYF3|type=mRNA|length=3128bp|location=Sequence derived from alignment at ch8:5066408..5069535+ (Aspergillus niger KYF3)
ATGTTCATCCCACAAAGTCGAATACTTACCCTACGGCAAGTTCACCGCTC
ACCCCGTCTTCTCCACCAGCGGCCATATGCCACTCAAACGAATACACAGC
GCCCAGTAGACAAGCTGGTATGCAATCTCTACCACCAACCCCAGCTACGC
AAAGCCTAACACTGTTCAGAGCGAGCACCATAATGACAGCTTTTTACAAG
GTAGCGCTTCAGCCTACATTGACACCATGTACACATCGTGGAAAGCCGAC
CCCACCTCCGTACATGTTTCGTGGCAGGCATATTTCCACAATGTTGAGAA
CGGACACGTCCCAGTTGAGCAGGCATTTATTTCTCCGCCAAACCGAGTAT
CTGCATCCCATGCTATGCCCACACCAAAGAACGCTACACACGCGCAGTCA
AAGACAGTAAAGCAGTTCAAAGCCATACAGTTGATACAGGCATACCAGCG
CTGGGGCCACGAACACGCCAATATCGACCCGTTAGGCATGCTCAACGAGG
GCAAAGCCAAGAAGAAGGAGTTATCCATGGCGCATTATGGTCTTGGTCCT
GAAGATCTCGATATGGTTATCCCCGTTGCGCTGGGACCACAGGACTTCAC
AGCGACGAAGAGCATGACCCTTCGGGAGATTATTTCCGCTTGCGAGGAGA
CATACTGTGGAAGCATGGGTGTCGAGTACATGCAAATTTCCGACCAGGAG
CAAGTAGACTGGATCCGCAGGAGGTTCGAGGGGCCAGAGCGCCATGTCTT
CTCGAATGATGAAAGGAGACGCATTCTGGATGGCTTAGTACGCGCCACGG
CTTGGGAGAAGTTCGTGGCCACGAAGTTTCCGAATGAGAAGCGATTTGGG
CTTGATGGAGTGGAAAGTTATATTCCTGCGTTTGAGGCTGCTGTGGATCG
ATCGGCCGAAACTGGTATTGAGCATATTGAGATGGGGGTGGGCCACCGCG
GGCGCATGAATGCGCTGTATAATATTGTTGGAAAGGATGGGGCGTCGATG
TTGCGGGATTTCGACTCTAAAGAGACTTCAGCTTGGGGCATACCGGGTGA
CGTGAAGTATCATTATGGGGGAAGTGGAGCGAGAGTTACCCCGTCGGGGA
GGAAGGTGTATATGAATATGGCACCGCAGCCGTCGCATGTCGAGTCAGTG
AACCCCGTTGTTATGGGGAAGACGAGGGCGATTCAAGATCAGATGAATGG
CGACCGCGAGAAGACCATGATGTTGAATGTTCATACTGATGCGGCCTTCG
CTGGTCAGGGAACGGTGTATGAGACGCTGGGACTGGCTGGGTTGAATGGC
TATGAGATTGGTGGGACGTTGAGATTCATTGTGAACAATCAGGTTGGTTT
TACTACTGATGCCTGGCAGGCGAGATCGTCACCATACTGCACGGACGTGG
CGAAGATCTTGGATGCACCGGTTATTCATGTCAATGGTGACGACGTTGAG
GCAGTAGTTCTAGCTGGCATTCTCGCAGCAGATTTCCGCGCAACATTCAA
GAAAGACTGCATTGTCGACATCGTTTGCTATCGGCGCAATGGGCATAATG
AGATGGACCAGGCCTCATTCACCCAGCCAACAATGTATGAGCGCATTGTC
AAGAAACGGAACATCCTCGATGAGTATGAGGCTGGAATGATCTCCAAGGG
TATCATCAACGAAGAAGAAATCGCCAGCATGAAGGACAAAGCGTGGGCAG
AGCTTATGGAATGCTTCGAGAAGCGGAAGGAACAGAAGCCGGATACAAAT
GAGTGGCTGATCGATTCGTGGAAAGGAATGAAAACGCCAACAGAGTCAAA
CACGGAAACACTATCACAGAAGGTGACAGCAGTCGACCGAGAATCCATCA
ATGCCGTGTCTAAGAAGCTCGGAGCGGAGGTTCCGGAAGGCTTCGAGCTA
CACAAAATCCTGGAGCGCATTCTTTCTCGCCGACAGCAAACAGTGACGAC
CGGCAAGGATATTGACTGGGCTACAGCCGAAGCTCTGGCGTTTGGGACAC
TTCTCCGTGAGGGCACAAGCGTCCGAGTAGCCGGACAGGATGTCGAACGA
GGCACCTTTTCCCAGCGCCATGCTGTCCTCCACGATCAACGGACCAATGA
GACATACACACCCTTGAGCGCCATTGAGCTAGATCAGGGACTATTCACCA
TAACCAATTCATCCTTGAGTGAGACTGCAGCAATGGGTTTTGAGTTCGGC
TACTCATTGGCAGACCCAAATACTCTTGTGCTGTGGGAAGCCCAATTCGG
TGACTTTGCTAACAACGCTCAAGTTATCATCGATAACTATGTCGTATCTT
CCGAGAAGAAGTGGCTTCAGCGCTCTGGTGTGGTTCTTTCACTACCCCAT
GGATACGATGGCCAGGGACCGGAACATACATCAGCCCGCTTGGAGCGATT
CTTGCAACTGGGTGACGAAGATTCTAGGAAATTCCCGTCAACGGAGCAGC
TCCAGCGCCAGAATCAGGATGCTAACATACAGGTTGTGTGCATGACAAGT
CCGGCAAACTACTTCCACGTTTTGCGTCGGCAAATTCACCGAGACTTCAG
AAAGCGTATGTTCTCTGTTTTGGTCCCACATACCACTGCTGACCATTTTA
GCTCTCATCGTACTTTTTTCCAAGTCACTACTCCGTCACCCCCTTGCACG
TTCGGATACTGAAGAGTTCATCGAGACTCCCTACTTCCAACCGTTGATTC
CCGAAACTCAACACGGCATTACCATCAATAAGCCGGAGGATATTAAGCGC
GTAATCTTTTGCTCTGGCCAAGTGTATGCGGGGCTCTACAAGTATCGCGA
AACTCACGGCCTCAAAGACACGGCTATCACGCGGATCGAAGAACTTCATC
CATTTCCATGGGAGCAAGTTAGACAAAACCTGGATAACTACCCCGATGCA
ACGGATGTTGTTTGGTGTCAGGAAGAAACACTGAATGGGGGCGCATGGAG
TTATGTTATGCCGAGATTTGAGGTTATATTGGCTAAGACAGAGAACCACA
CGGATAAGAAGATACGGTATGCAGGTAGGGAGCCGATGTCGAGTGTTGCA
GTGGGGTATAAGGTGCTTCACGCTGTTGAGGAAGAGAAGCTGCTAGGGGA
TGCTTTTCAGATGTCTCCCGATGAGTAA back to topCoding sequence (CDS) from alignment at ch8:5066408..5069535+ >KYF_011685-T1 ID=KYF_011685-T1|Name=KYF_011685-T1|organism=Aspergillus niger KYF3|type=CDS|length=9090bp|location=Sequence derived from alignment at ch8:5066408..5069535+ (Aspergillus niger KYF3)
ATGTTCATCCCACAAAGTCGAATACTTACCCTACGGCAAGTTCACCGCTC
ACCCCGTCTTCTCCACCAGCGGCCATATGCCACTCAAACGAATACACAGC
GCCCAGTAGACAAGCTGAGCGAGCACCATAATGACAGCTTTTTACAAGGT
AGCGCTTCAGCCTACATTGACACCATGTACACATCGTGGAAAGCCGACCC
CACCTCCGTACATGTTTCGTGGCAGGCATATTTCCACAATGTTGAGAACG
GACACGTCCCAGTTGAGCAGGCATTTATTTCTCCGCCAAACCGAGTATCT
GCATCCCATGCTATGCCCACACCAAAGAACGCTACACACGCGCAGTCAAA
GACAGTAAAGCAGTTCAAAGCCATACAGTTGATACAGGCATACCAGCGCT
GGGGCCACGAACACGCCAATATCGACCCGTTAGGCATGCTCAACGAGGGC
AAAGCCAAGAAGAAGGAGTTATCCATGGCGCATTATGGTCTTGGTCCTGA
AGATCTCGATATGGTTATCCCCGTTGCGCTGGGACCACAGGACTTCACAG
CGACGAAGAGCATGACCCTTCGGGAGATTATTTCCGCTTGCGAGGAGACA
TACTGTGGAAGCATGGGTGTCGAGTACATGCAAATTTCCGACCAGGAGCA
AGTAGACTGGATCCGCAGGAGGTTCGAGGGGCCAGAGCGCCATGTCTTCT
CGAATGATGAAAGGAGACGCATTCTGGATGGCTTAGTACGCGCCACGGCT
TGGGAGAAGTTCGTGGCCACGAAGTTTCCGAATGAGAAGCGATTTGGGCT
TGATGGAGTGGAAAGTTATATTCCTGCGTTTGAGGCTGCTGTGGATCGAT
CGGCCGAAACTGGTATTGAGCATATTGAGATGGGGGTGGGCCACCGCGGG
CGCATGAATGCGCTGTATAATATTGTTGGAAAGGATGGGGCGTCGATGTT
GCGGGATTTCGACTCTAAAGAGACTTCAGCTTGGGGCATACCGGGTGACG
TGAAGTATCATTATGGGGGAAGTGGAGCGAGAGTTACCCCGTCGGGGAGG
AAGGTGTATATGAATATGGCACCGCAGCCGTCGCATGTCGAGTCAGTGAA
CCCCGTTGTTATGGGGAAGACGAGGGCGATTCAAGATCAGATGAATGGCG
ACCGCGAGAAGACCATGATGTTGAATGTTCATACTGATGCGGCCTTCGCT
GGTCAGGGAACGGTGTATGAGACGCTGGGACTGGCTGGGTTGAATGGCTA
TGAGATTGGTGGGACGTTGAGATTCATTGTGAACAATCAGGTTGGTTTTA
CTACTGATGCCTGGCAGGCGAGATCGTCACCATACTGCACGGACGTGGCG
AAGATCTTGGATGCACCGGTTATTCATGTCAATGGTGACGACGTTGAGGC
AGTAGTTCTAGCTGGCATTCTCGCAGCAGATTTCCGCGCAACATTCAAGA
AAGACTGCATTGTCGACATCGTTTGCTATCGGCGCAATGGGCATAATGAG
ATGGACCAGGCCTCATTCACCCAGCCAACAATGTATGAGCGCATTGTCAA
GAAACGGAACATCCTCGATGAGTATGAGGCTGGAATGATCTCCAAGGGTA
TCATCAACGAAGAAGAAATCGCCAGCATGAAGGACAAAGCGTGGGCAGAG
CTTATGGAATGCTTCGAGAAGCGGAAGGAACAGAAGCCGGATACAAATGA
GTGGCTGATCGATTCGTGGAAAGGAATGAAAACGCCAACAGAGTCAAACA
CGGAAACACTATCACAGAAGGTGACAGCAGTCGACCGAGAATCCATCAAT
GCCGTGTCTAAGAAGCTCGGAGCGGAGGTTCCGGAAGGCTTCGAGCTACA
CAAAATCCTGGAGCGCATTCTTTCTCGCCGACAGCAAACAGTGACGACCG
GCAAGGATATTGACTGGGCTACAGCCGAAGCTCTGGCGTTTGGGACACTT
CTCCGTGAGGGCACAAGCGTCCGAGTAGCCGGACAGGATGTCGAACGAGG
CACCTTTTCCCAGCGCCATGCTGTCCTCCACGATCAACGGACCAATGAGA
CATACACACCCTTGAGCGCCATTGAGCTAGATCAGGGACTATTCACCATA
ACCAATTCATCCTTGAGTGAGACTGCAGCAATGGGTTTTGAGTTCGGCTA
CTCATTGGCAGACCCAAATACTCTTGTGCTGTGGGAAGCCCAATTCGGTG
ACTTTGCTAACAACGCTCAAGTTATCATCGATAACTATGTCGTATCTTCC
GAGAAGAAGTGGCTTCAGCGCTCTGGTGTGGTTCTTTCACTACCCCATGG
ATACGATGGCCAGGGACCGGAACATACATCAGCCCGCTTGGAGCGATTCT
TGCAACTGGGTGACGAAGATTCTAGGAAATTCCCGTCAACGGAGCAGCTC
CAGCGCCAGAATCAGGATGCTAACATACAGGTTGTGTGCATGACAAGTCC
GGCAAACTACTTCCACGTTTTGCGTCGGCAAATTCACCGAGACTTCAGAA
AGCCTCTCATCGTACTTTTTTCCAAGTCACTACTCCGTCACCCCCTTGCA
CGTTCGGATACTGAAGAGTTCATCGAGACTCCCTACTTCCAACCGTTGAT
TCCCGAAACTCAACACGGCATTACCATCAATAAGCCGGAGGATATTAAGC
GCGTAATCTTTTGCTCTGGCCAAGTGTATGCGGGGCTCTACAAGTATCGC
GAAACTCACGGCCTCAAAGACACGGCTATCACGCGGATCGAAGAACTTCA
TCCATTTCCATGGGAGCAAGTTAGACAAAACCTGGATAACTACCCCGATG
CAACGGATGTTGTTTGGTGTCAGGAAGAAACACTGAATGGGGGCGCATGG
AGTTATGTTATGCCGAGATTTGAGGTTATATTGGCTAAGACAGAGAACCA
CACGGATAAGAAGATACGGTATGCAGGTAGGGAGCCGATGTCGAGTGTTG
CAGTGGGGTATAAGGTGCTTCACGCTGTTGAGGAAGAGAAGCTGCTAGGG
GATGCTTTTCAGATGTCTCCCGATGAGTAAATGTTCATCCCACAAAGTCG
AATACTTACCCTACGGCAAGTTCACCGCTCACCCCGTCTTCTCCACCAGC
GGCCATATGCCACTCAAACGAATACACAGCGCCCAGTAGACAAGCTGAGC
GAGCACCATAATGACAGCTTTTTACAAGGTAGCGCTTCAGCCTACATTGA
CACCATGTACACATCGTGGAAAGCCGACCCCACCTCCGTACATGTTTCGT
GGCAGGCATATTTCCACAATGTTGAGAACGGACACGTCCCAGTTGAGCAG
GCATTTATTTCTCCGCCAAACCGAGTATCTGCATCCCATGCTATGCCCAC
ACCAAAGAACGCTACACACGCGCAGTCAAAGACAGTAAAGCAGTTCAAAG
CCATACAGTTGATACAGGCATACCAGCGCTGGGGCCACGAACACGCCAAT
ATCGACCCGTTAGGCATGCTCAACGAGGGCAAAGCCAAGAAGAAGGAGTT
ATCCATGGCGCATTATGGTCTTGGTCCTGAAGATCTCGATATGGTTATCC
CCGTTGCGCTGGGACCACAGGACTTCACAGCGACGAAGAGCATGACCCTT
CGGGAGATTATTTCCGCTTGCGAGGAGACATACTGTGGAAGCATGGGTGT
CGAGTACATGCAAATTTCCGACCAGGAGCAAGTAGACTGGATCCGCAGGA
GGTTCGAGGGGCCAGAGCGCCATGTCTTCTCGAATGATGAAAGGAGACGC
ATTCTGGATGGCTTAGTACGCGCCACGGCTTGGGAGAAGTTCGTGGCCAC
GAAGTTTCCGAATGAGAAGCGATTTGGGCTTGATGGAGTGGAAAGTTATA
TTCCTGCGTTTGAGGCTGCTGTGGATCGATCGGCCGAAACTGGTATTGAG
CATATTGAGATGGGGGTGGGCCACCGCGGGCGCATGAATGCGCTGTATAA
TATTGTTGGAAAGGATGGGGCGTCGATGTTGCGGGATTTCGACTCTAAAG
AGACTTCAGCTTGGGGCATACCGGGTGACGTGAAGTATCATTATGGGGGA
AGTGGAGCGAGAGTTACCCCGTCGGGGAGGAAGGTGTATATGAATATGGC
ACCGCAGCCGTCGCATGTCGAGTCAGTGAACCCCGTTGTTATGGGGAAGA
CGAGGGCGATTCAAGATCAGATGAATGGCGACCGCGAGAAGACCATGATG
TTGAATGTTCATACTGATGCGGCCTTCGCTGGTCAGGGAACGGTGTATGA
GACGCTGGGACTGGCTGGGTTGAATGGCTATGAGATTGGTGGGACGTTGA
GATTCATTGTGAACAATCAGGTTGGTTTTACTACTGATGCCTGGCAGGCG
AGATCGTCACCATACTGCACGGACGTGGCGAAGATCTTGGATGCACCGGT
TATTCATGTCAATGGTGACGACGTTGAGGCAGTAGTTCTAGCTGGCATTC
TCGCAGCAGATTTCCGCGCAACATTCAAGAAAGACTGCATTGTCGACATC
GTTTGCTATCGGCGCAATGGGCATAATGAGATGGACCAGGCCTCATTCAC
CCAGCCAACAATGTATGAGCGCATTGTCAAGAAACGGAACATCCTCGATG
AGTATGAGGCTGGAATGATCTCCAAGGGTATCATCAACGAAGAAGAAATC
GCCAGCATGAAGGACAAAGCGTGGGCAGAGCTTATGGAATGCTTCGAGAA
GCGGAAGGAACAGAAGCCGGATACAAATGAGTGGCTGATCGATTCGTGGA
AAGGAATGAAAACGCCAACAGAGTCAAACACGGAAACACTATCACAGAAG
GTGACAGCAGTCGACCGAGAATCCATCAATGCCGTGTCTAAGAAGCTCGG
AGCGGAGGTTCCGGAAGGCTTCGAGCTACACAAAATCCTGGAGCGCATTC
TTTCTCGCCGACAGCAAACAGTGACGACCGGCAAGGATATTGACTGGGCT
ACAGCCGAAGCTCTGGCGTTTGGGACACTTCTCCGTGAGGGCACAAGCGT
CCGAGTAGCCGGACAGGATGTCGAACGAGGCACCTTTTCCCAGCGCCATG
CTGTCCTCCACGATCAACGGACCAATGAGACATACACACCCTTGAGCGCC
ATTGAGCTAGATCAGGGACTATTCACCATAACCAATTCATCCTTGAGTGA
GACTGCAGCAATGGGTTTTGAGTTCGGCTACTCATTGGCAGACCCAAATA
CTCTTGTGCTGTGGGAAGCCCAATTCGGTGACTTTGCTAACAACGCTCAA
GTTATCATCGATAACTATGTCGTATCTTCCGAGAAGAAGTGGCTTCAGCG
CTCTGGTGTGGTTCTTTCACTACCCCATGGATACGATGGCCAGGGACCGG
AACATACATCAGCCCGCTTGGAGCGATTCTTGCAACTGGGTGACGAAGAT
TCTAGGAAATTCCCGTCAACGGAGCAGCTCCAGCGCCAGAATCAGGATGC
TAACATACAGGTTGTGTGCATGACAAGTCCGGCAAACTACTTCCACGTTT
TGCGTCGGCAAATTCACCGAGACTTCAGAAAGCCTCTCATCGTACTTTTT
TCCAAGTCACTACTCCGTCACCCCCTTGCACGTTCGGATACTGAAGAGTT
CATCGAGACTCCCTACTTCCAACCGTTGATTCCCGAAACTCAACACGGCA
TTACCATCAATAAGCCGGAGGATATTAAGCGCGTAATCTTTTGCTCTGGC
CAAGTGTATGCGGGGCTCTACAAGTATCGCGAAACTCACGGCCTCAAAGA
CACGGCTATCACGCGGATCGAAGAACTTCATCCATTTCCATGGGAGCAAG
TTAGACAAAACCTGGATAACTACCCCGATGCAACGGATGTTGTTTGGTGT
CAGGAAGAAACACTGAATGGGGGCGCATGGAGTTATGTTATGCCGAGATT
TGAGGTTATATTGGCTAAGACAGAGAACCACACGGATAAGAAGATACGGT
ATGCAGGTAGGGAGCCGATGTCGAGTGTTGCAGTGGGGTATAAGGTGCTT
CACGCTGTTGAGGAAGAGAAGCTGCTAGGGGATGCTTTTCAGATGTCTCC
CGATGAGTAAATGTTCATCCCACAAAGTCGAATACTTACCCTACGGCAAG
TTCACCGCTCACCCCGTCTTCTCCACCAGCGGCCATATGCCACTCAAACG
AATACACAGCGCCCAGTAGACAAGCTGAGCGAGCACCATAATGACAGCTT
TTTACAAGGTAGCGCTTCAGCCTACATTGACACCATGTACACATCGTGGA
AAGCCGACCCCACCTCCGTACATGTTTCGTGGCAGGCATATTTCCACAAT
GTTGAGAACGGACACGTCCCAGTTGAGCAGGCATTTATTTCTCCGCCAAA
CCGAGTATCTGCATCCCATGCTATGCCCACACCAAAGAACGCTACACACG
CGCAGTCAAAGACAGTAAAGCAGTTCAAAGCCATACAGTTGATACAGGCA
TACCAGCGCTGGGGCCACGAACACGCCAATATCGACCCGTTAGGCATGCT
CAACGAGGGCAAAGCCAAGAAGAAGGAGTTATCCATGGCGCATTATGGTC
TTGGTCCTGAAGATCTCGATATGGTTATCCCCGTTGCGCTGGGACCACAG
GACTTCACAGCGACGAAGAGCATGACCCTTCGGGAGATTATTTCCGCTTG
CGAGGAGACATACTGTGGAAGCATGGGTGTCGAGTACATGCAAATTTCCG
ACCAGGAGCAAGTAGACTGGATCCGCAGGAGGTTCGAGGGGCCAGAGCGC
CATGTCTTCTCGAATGATGAAAGGAGACGCATTCTGGATGGCTTAGTACG
CGCCACGGCTTGGGAGAAGTTCGTGGCCACGAAGTTTCCGAATGAGAAGC
GATTTGGGCTTGATGGAGTGGAAAGTTATATTCCTGCGTTTGAGGCTGCT
GTGGATCGATCGGCCGAAACTGGTATTGAGCATATTGAGATGGGGGTGGG
CCACCGCGGGCGCATGAATGCGCTGTATAATATTGTTGGAAAGGATGGGG
CGTCGATGTTGCGGGATTTCGACTCTAAAGAGACTTCAGCTTGGGGCATA
CCGGGTGACGTGAAGTATCATTATGGGGGAAGTGGAGCGAGAGTTACCCC
GTCGGGGAGGAAGGTGTATATGAATATGGCACCGCAGCCGTCGCATGTCG
AGTCAGTGAACCCCGTTGTTATGGGGAAGACGAGGGCGATTCAAGATCAG
ATGAATGGCGACCGCGAGAAGACCATGATGTTGAATGTTCATACTGATGC
GGCCTTCGCTGGTCAGGGAACGGTGTATGAGACGCTGGGACTGGCTGGGT
TGAATGGCTATGAGATTGGTGGGACGTTGAGATTCATTGTGAACAATCAG
GTTGGTTTTACTACTGATGCCTGGCAGGCGAGATCGTCACCATACTGCAC
GGACGTGGCGAAGATCTTGGATGCACCGGTTATTCATGTCAATGGTGACG
ACGTTGAGGCAGTAGTTCTAGCTGGCATTCTCGCAGCAGATTTCCGCGCA
ACATTCAAGAAAGACTGCATTGTCGACATCGTTTGCTATCGGCGCAATGG
GCATAATGAGATGGACCAGGCCTCATTCACCCAGCCAACAATGTATGAGC
GCATTGTCAAGAAACGGAACATCCTCGATGAGTATGAGGCTGGAATGATC
TCCAAGGGTATCATCAACGAAGAAGAAATCGCCAGCATGAAGGACAAAGC
GTGGGCAGAGCTTATGGAATGCTTCGAGAAGCGGAAGGAACAGAAGCCGG
ATACAAATGAGTGGCTGATCGATTCGTGGAAAGGAATGAAAACGCCAACA
GAGTCAAACACGGAAACACTATCACAGAAGGTGACAGCAGTCGACCGAGA
ATCCATCAATGCCGTGTCTAAGAAGCTCGGAGCGGAGGTTCCGGAAGGCT
TCGAGCTACACAAAATCCTGGAGCGCATTCTTTCTCGCCGACAGCAAACA
GTGACGACCGGCAAGGATATTGACTGGGCTACAGCCGAAGCTCTGGCGTT
TGGGACACTTCTCCGTGAGGGCACAAGCGTCCGAGTAGCCGGACAGGATG
TCGAACGAGGCACCTTTTCCCAGCGCCATGCTGTCCTCCACGATCAACGG
ACCAATGAGACATACACACCCTTGAGCGCCATTGAGCTAGATCAGGGACT
ATTCACCATAACCAATTCATCCTTGAGTGAGACTGCAGCAATGGGTTTTG
AGTTCGGCTACTCATTGGCAGACCCAAATACTCTTGTGCTGTGGGAAGCC
CAATTCGGTGACTTTGCTAACAACGCTCAAGTTATCATCGATAACTATGT
CGTATCTTCCGAGAAGAAGTGGCTTCAGCGCTCTGGTGTGGTTCTTTCAC
TACCCCATGGATACGATGGCCAGGGACCGGAACATACATCAGCCCGCTTG
GAGCGATTCTTGCAACTGGGTGACGAAGATTCTAGGAAATTCCCGTCAAC
GGAGCAGCTCCAGCGCCAGAATCAGGATGCTAACATACAGGTTGTGTGCA
TGACAAGTCCGGCAAACTACTTCCACGTTTTGCGTCGGCAAATTCACCGA
GACTTCAGAAAGCCTCTCATCGTACTTTTTTCCAAGTCACTACTCCGTCA
CCCCCTTGCACGTTCGGATACTGAAGAGTTCATCGAGACTCCCTACTTCC
AACCGTTGATTCCCGAAACTCAACACGGCATTACCATCAATAAGCCGGAG
GATATTAAGCGCGTAATCTTTTGCTCTGGCCAAGTGTATGCGGGGCTCTA
CAAGTATCGCGAAACTCACGGCCTCAAAGACACGGCTATCACGCGGATCG
AAGAACTTCATCCATTTCCATGGGAGCAAGTTAGACAAAACCTGGATAAC
TACCCCGATGCAACGGATGTTGTTTGGTGTCAGGAAGAAACACTGAATGG
GGGCGCATGGAGTTATGTTATGCCGAGATTTGAGGTTATATTGGCTAAGA
CAGAGAACCACACGGATAAGAAGATACGGTATGCAGGTAGGGAGCCGATG
TCGAGTGTTGCAGTGGGGTATAAGGTGCTTCACGCTGTTGAGGAAGAGAA
GCTGCTAGGGGATGCTTTTCAGATGTCTCCCGATGAGTAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0055114 | oxidation-reduction process |
| GO:0006099 | tricarboxylic acid cycle |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0016624 | oxidoreductase activity, acting on the aldehyde or oxo group of donors, disulfide as acceptor |
| GO:0004591 | oxoglutarate dehydrogenase (succinyl-transferring) activity |
| GO:0030976 | thiamine pyrophosphate 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:
Properties
| Property Name | Value |
|---|
| Note | antiSMASH:Cluster_8.11 |
| Note | EggNog:ENOG41 |
| DBxref | InterPro:IPR029061 |
| DBxref | InterPro:IPR031717 |
| DBxref | InterPro:IPR032106 |
| DBxref | InterPro:IPR001017 |
| DBxref | InterPro:IPR042179 |
| DBxref | InterPro:IPR011603 |
| DBxref | InterPro:IPR005475 |
| DBxref | PFAM:PF02779 |
| DBxref | PFAM:PF16870 |
| DBxref | PFAM:PF00676 |
| DBxref | PFAM:PF16078 |
| 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 |
|---|
| ch8 | supercontig | ch8:5066408..5069535 + |
|
