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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch6:2365073..2367128- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >KYF_007989-T1 ID=KYF_007989-T1|Name=KYF_007989-T1|organism=Aspergillus niger KYF3|type=mRNA|length=2056bp|location=Sequence derived from alignment at ch6:2365073..2367128- (Aspergillus niger KYF3)
ATGACCGTCCGGATTGTTATCTCACTATTCTTACTGCAACAATGCCCGCG
TAAGTGAGCTCGGTGACCCCATTTCTCCTCTCCCCTCGTCAGTCTCCAGA
GGTTAACCGCGTCTCTAGTGTTGGCGACCAGCACCGAGGGAACCCAGCGT
CCATCATGATGCCCAACTCCACAGGGGCGATCACCGCAAACCCATTCGAA
GAGCCACAGCGACGGATCAACGAGTACACTGCCCAGGAAATCGCAACTTT
GCAAGCTCGTCTCGATAAGAAGCTCGGCCCCGAATACATCTCTTCCAGGC
CTGGGGCTGCGGGACAGAGAGTACACTACTTGTCGGCCGATAAATGCATC
AACCTGGCAAACGAAGTTTTCGGGTTCAATGGCTGGTCAAGCTCGATTCA
GAATATTCAGATTGATTTCGTCGAGGAGAGTCCCAATACTGGGAAGATCA
GCCTGGGTCTCTCTGTTATTGTGAGGGTGACACTGAAAGACGGTACATAT
CACGAGGTAGGCATCACTCTATTGCAGCGAGCCTGCCCTATATCTCAGCT
AAGACACGAGTGGTGTTAGGATATCGGTTACGGTCACATCGAGAACTGTA
AAGGAAAGGCTGCTGCTTTTGAGAAAGCTAAGAAAGAGGGGACAACCGAT
GCTCTAAAGCGGGCTCTGAGGAACTTCGGCAATGTCCTGGGCAACTGTGT
CTACGATAAGGACTATGTGTCGAAGGTCACCAAAGTAAAGACCGTTCCGG
TATGTGACCGAGGTGTGGACAATCTATTCACGACGACTGACACGCTCTAG
GCCAAATGGGATGTCGACGAACTGCACCGTCACCCAGACTTTGTTCCCAG
GAAAGAGCCCGTAAAACCAAAGCCCAGCCCGGAAGACGATGATCTACCAC
CTCGGCCAACGGATGTTGGCAAGAACAGTAGTATCGACGATTCGATGGCA
TTTGATGGTGACGGGGAGTTCGGAAGTAAGCAACAATGGCATGTCACGAT
CCCTTACAACCGCTAACCATCACCTTAGGTGACCTATTTGATGAAGCCGA
CTTCGGGGTAGGCGGAACAGGCAACCCAGACGAGGTAGTACTAGGACCAG
AAACACAGAAGCAGCCACCGACGCCTCTAAATGGACCCAATGTACCTCTA
CAGCCATTCAATAATAACGCCCGTGCACCGATGAGGCCCAACCCAGCCAT
GGTAACTCCATCCAAGCCGGAACGGCCCTTCAACCCAGCTCCTGGTGCCA
GACAAAATCCCGCTCCTCAGCCCTTTAACAGCAGACTCAACCCCTCCGCA
GCCCAAAATCAGCAAGCACCTCAACGACAACCCATGGCCCCTCAAGGGCC
CCAGCAAAACCTCCCCAACAACCGAATGATCCCACCAGCACAAGCAGCAG
CAGCCGCATCAACCACGGGTGGTGCCGTGCCCATCAAACGTGAATTCGGG
GCATCGACCACCAACGAACCTCCCAGACCCCAAGACACACTGCCCGGCAC
GCCCTCCGCATCATTCTTCTCAGCTCGCGCAGTCGACCTCCTCCGCGACA
ACCCTAACGGGATCCCATCCGGAGCCCCAGTCTTCGACCCACACGCGGAG
AGTCCCTCCATCCGCAAGACCGCAGGCATCGACCACAACAAGAGTCTTCC
TGTCTCCAGGCCCATGCTCGCCGGTGCCGGCGCCGCCTCCCCAGCAACCA
ATAACACCCGAGACTTCGTCAACCCATCTCAAGATATGAATCGCAGGATC
GGTGCCCCGGGCATGAACAGTCCCATGAACAGACCCATGTCCACATCATC
TTACCGGCCCTTGACACGGCCAAATATCAATGCTCCGGGTGCAGCTGCGG
CCGCCAATCGTGCAACTACCCCGGGTCTTGCACCGCAGAACGTGAACGGG
AAACGACCCCCTCTGTCTGATGTGACGAATGCCTCGAACCCGAGTGGCGG
CAGCGGGCCTGCTCCACCAGGGGTCAGTGAGAATGACCCGAAACGACCCA
AGGTAAACCCGGGTCCTGCTGCTGCTGCGGCGGCGCCGCCGCAGCAGCAG
CAGTGA back to topCoding sequence (CDS) from alignment at ch6:2365073..2367128- >KYF_007989-T1 ID=KYF_007989-T1|Name=KYF_007989-T1|organism=Aspergillus niger KYF3|type=CDS|length=9195bp|location=Sequence derived from alignment at ch6:2365073..2367128- (Aspergillus niger KYF3)
GTGACCTATTTGATGAAGCCGACTTCGGGGTAGGCGGAACAGGCAACCCA
GACGAGGTAGTACTAGGACCAGAAACACAGAAGCAGCCACCGACGCCTCT
AAATGGACCCAATGTACCTCTACAGCCATTCAATAATAACGCCCGTGCAC
CGATGAGGCCCAACCCAGCCATGGTAACTCCATCCAAGCCGGAACGGCCC
TTCAACCCAGCTCCTGGTGCCAGACAAAATCCCGCTCCTCAGCCCTTTAA
CAGCAGACTCAACCCCTCCGCAGCCCAAAATCAGCAAGCACCTCAACGAC
AACCCATGGCCCCTCAAGGGCCCCAGCAAAACCTCCCCAACAACCGAATG
ATCCCACCAGCACAAGCAGCAGCAGCCGCATCAACCACGGGTGGTGCCGT
GCCCATCAAACGTGAATTCGGGGCATCGACCACCAACGAACCTCCCAGAC
CCCAAGACACACTGCCCGGCACGCCCTCCGCATCATTCTTCTCAGCTCGC
GCAGTCGACCTCCTCCGCGACAACCCTAACGGGATCCCATCCGGAGCCCC
AGTCTTCGACCCACACGCGGAGAGTCCCTCCATCCGCAAGACCGCAGGCA
TCGACCACAACAAGAGTCTTCCTGTCTCCAGGCCCATGCTCGCCGGTGCC
GGCGCCGCCTCCCCAGCAACCAATAACACCCGAGACTTCGTCAACCCATC
TCAAGATATGAATCGCAGGATCGGTGCCCCGGGCATGAACAGTCCCATGA
ACAGACCCATGTCCACATCATCTTACCGGCCCTTGACACGGCCAAATATC
AATGCTCCGGGTGCAGCTGCGGCCGCCAATCGTGCAACTACCCCGGGTCT
TGCACCGCAGAACGTGAACGGGAAACGACCCCCTCTGTCTGATGTGACGA
ATGCCTCGAACCCGAGTGGCGGCAGCGGGCCTGCTCCACCAGGGGTCAGT
GAGAATGACCCGAAACGACCCAAGGTAAACCCGGGTCCTGCTGCTGCTGC
GGCGGCGCCGCCGCAGCAGCAGCAGTGAGCCAAATGGGATGTCGACGAAC
TGCACCGTCACCCAGACTTTGTTCCCAGGAAAGAGCCCGTAAAACCAAAG
CCCAGCCCGGAAGACGATGATCTACCACCTCGGCCAACGGATGTTGGCAA
GAACAGTAGTATCGACGATTCGATGGCATTTGATGGTGACGGGGAGTTCG
GAAGATATCGGTTACGGTCACATCGAGAACTGTAAAGGAAAGGCTGCTGC
TTTTGAGAAAGCTAAGAAAGAGGGGACAACCGATGCTCTAAAGCGGGCTC
TGAGGAACTTCGGCAATGTCCTGGGCAACTGTGTCTACGATAAGGACTAT
GTGTCGAAGGTCACCAAAGTAAAGACCGTTCCGAGGTTAACCGCGTCTCT
AGTGTTGGCGACCAGCACCGAGGGAACCCAGCGTCCATCATGATGCCCAA
CTCCACAGGGGCGATCACCGCAAACCCATTCGAAGAGCCACAGCGACGGA
TCAACGAGTACACTGCCCAGGAAATCGCAACTTTGCAAGCTCGTCTCGAT
AAGAAGCTCGGCCCCGAATACATCTCTTCCAGGCCTGGGGCTGCGGGACA
GAGAGTACACTACTTGTCGGCCGATAAATGCATCAACCTGGCAAACGAAG
TTTTCGGGTTCAATGGCTGGTCAAGCTCGATTCAGAATATTCAGATTGAT
TTCGTCGAGGAGAGTCCCAATACTGGGAAGATCAGCCTGGGTCTCTCTGT
TATTGTGAGGGTGACACTGAAAGACGGTACATATCACGAGATGACCGTCC
GGATTGTTATCTCACTATTCTTACTGCAACAATGCCCGCGTGACCTATTT
GATGAAGCCGACTTCGGGGTAGGCGGAACAGGCAACCCAGACGAGGTAGT
ACTAGGACCAGAAACACAGAAGCAGCCACCGACGCCTCTAAATGGACCCA
ATGTACCTCTACAGCCATTCAATAATAACGCCCGTGCACCGATGAGGCCC
AACCCAGCCATGGTAACTCCATCCAAGCCGGAACGGCCCTTCAACCCAGC
TCCTGGTGCCAGACAAAATCCCGCTCCTCAGCCCTTTAACAGCAGACTCA
ACCCCTCCGCAGCCCAAAATCAGCAAGCACCTCAACGACAACCCATGGCC
CCTCAAGGGCCCCAGCAAAACCTCCCCAACAACCGAATGATCCCACCAGC
ACAAGCAGCAGCAGCCGCATCAACCACGGGTGGTGCCGTGCCCATCAAAC
GTGAATTCGGGGCATCGACCACCAACGAACCTCCCAGACCCCAAGACACA
CTGCCCGGCACGCCCTCCGCATCATTCTTCTCAGCTCGCGCAGTCGACCT
CCTCCGCGACAACCCTAACGGGATCCCATCCGGAGCCCCAGTCTTCGACC
CACACGCGGAGAGTCCCTCCATCCGCAAGACCGCAGGCATCGACCACAAC
AAGAGTCTTCCTGTCTCCAGGCCCATGCTCGCCGGTGCCGGCGCCGCCTC
CCCAGCAACCAATAACACCCGAGACTTCGTCAACCCATCTCAAGATATGA
ATCGCAGGATCGGTGCCCCGGGCATGAACAGTCCCATGAACAGACCCATG
TCCACATCATCTTACCGGCCCTTGACACGGCCAAATATCAATGCTCCGGG
TGCAGCTGCGGCCGCCAATCGTGCAACTACCCCGGGTCTTGCACCGCAGA
ACGTGAACGGGAAACGACCCCCTCTGTCTGATGTGACGAATGCCTCGAAC
CCGAGTGGCGGCAGCGGGCCTGCTCCACCAGGGGTCAGTGAGAATGACCC
GAAACGACCCAAGGTAAACCCGGGTCCTGCTGCTGCTGCGGCGGCGCCGC
CGCAGCAGCAGCAGTGAGCCAAATGGGATGTCGACGAACTGCACCGTCAC
CCAGACTTTGTTCCCAGGAAAGAGCCCGTAAAACCAAAGCCCAGCCCGGA
AGACGATGATCTACCACCTCGGCCAACGGATGTTGGCAAGAACAGTAGTA
TCGACGATTCGATGGCATTTGATGGTGACGGGGAGTTCGGAAGATATCGG
TTACGGTCACATCGAGAACTGTAAAGGAAAGGCTGCTGCTTTTGAGAAAG
CTAAGAAAGAGGGGACAACCGATGCTCTAAAGCGGGCTCTGAGGAACTTC
GGCAATGTCCTGGGCAACTGTGTCTACGATAAGGACTATGTGTCGAAGGT
CACCAAAGTAAAGACCGTTCCGAGGTTAACCGCGTCTCTAGTGTTGGCGA
CCAGCACCGAGGGAACCCAGCGTCCATCATGATGCCCAACTCCACAGGGG
CGATCACCGCAAACCCATTCGAAGAGCCACAGCGACGGATCAACGAGTAC
ACTGCCCAGGAAATCGCAACTTTGCAAGCTCGTCTCGATAAGAAGCTCGG
CCCCGAATACATCTCTTCCAGGCCTGGGGCTGCGGGACAGAGAGTACACT
ACTTGTCGGCCGATAAATGCATCAACCTGGCAAACGAAGTTTTCGGGTTC
AATGGCTGGTCAAGCTCGATTCAGAATATTCAGATTGATTTCGTCGAGGA
GAGTCCCAATACTGGGAAGATCAGCCTGGGTCTCTCTGTTATTGTGAGGG
TGACACTGAAAGACGGTACATATCACGAGATGACCGTCCGGATTGTTATC
TCACTATTCTTACTGCAACAATGCCCGCGTGACCTATTTGATGAAGCCGA
CTTCGGGGTAGGCGGAACAGGCAACCCAGACGAGGTAGTACTAGGACCAG
AAACACAGAAGCAGCCACCGACGCCTCTAAATGGACCCAATGTACCTCTA
CAGCCATTCAATAATAACGCCCGTGCACCGATGAGGCCCAACCCAGCCAT
GGTAACTCCATCCAAGCCGGAACGGCCCTTCAACCCAGCTCCTGGTGCCA
GACAAAATCCCGCTCCTCAGCCCTTTAACAGCAGACTCAACCCCTCCGCA
GCCCAAAATCAGCAAGCACCTCAACGACAACCCATGGCCCCTCAAGGGCC
CCAGCAAAACCTCCCCAACAACCGAATGATCCCACCAGCACAAGCAGCAG
CAGCCGCATCAACCACGGGTGGTGCCGTGCCCATCAAACGTGAATTCGGG
GCATCGACCACCAACGAACCTCCCAGACCCCAAGACACACTGCCCGGCAC
GCCCTCCGCATCATTCTTCTCAGCTCGCGCAGTCGACCTCCTCCGCGACA
ACCCTAACGGGATCCCATCCGGAGCCCCAGTCTTCGACCCACACGCGGAG
AGTCCCTCCATCCGCAAGACCGCAGGCATCGACCACAACAAGAGTCTTCC
TGTCTCCAGGCCCATGCTCGCCGGTGCCGGCGCCGCCTCCCCAGCAACCA
ATAACACCCGAGACTTCGTCAACCCATCTCAAGATATGAATCGCAGGATC
GGTGCCCCGGGCATGAACAGTCCCATGAACAGACCCATGTCCACATCATC
TTACCGGCCCTTGACACGGCCAAATATCAATGCTCCGGGTGCAGCTGCGG
CCGCCAATCGTGCAACTACCCCGGGTCTTGCACCGCAGAACGTGAACGGG
AAACGACCCCCTCTGTCTGATGTGACGAATGCCTCGAACCCGAGTGGCGG
CAGCGGGCCTGCTCCACCAGGGGTCAGTGAGAATGACCCGAAACGACCCA
AGGTAAACCCGGGTCCTGCTGCTGCTGCGGCGGCGCCGCCGCAGCAGCAG
CAGTGAGCCAAATGGGATGTCGACGAACTGCACCGTCACCCAGACTTTGT
TCCCAGGAAAGAGCCCGTAAAACCAAAGCCCAGCCCGGAAGACGATGATC
TACCACCTCGGCCAACGGATGTTGGCAAGAACAGTAGTATCGACGATTCG
ATGGCATTTGATGGTGACGGGGAGTTCGGAAGATATCGGTTACGGTCACA
TCGAGAACTGTAAAGGAAAGGCTGCTGCTTTTGAGAAAGCTAAGAAAGAG
GGGACAACCGATGCTCTAAAGCGGGCTCTGAGGAACTTCGGCAATGTCCT
GGGCAACTGTGTCTACGATAAGGACTATGTGTCGAAGGTCACCAAAGTAA
AGACCGTTCCGAGGTTAACCGCGTCTCTAGTGTTGGCGACCAGCACCGAG
GGAACCCAGCGTCCATCATGATGCCCAACTCCACAGGGGCGATCACCGCA
AACCCATTCGAAGAGCCACAGCGACGGATCAACGAGTACACTGCCCAGGA
AATCGCAACTTTGCAAGCTCGTCTCGATAAGAAGCTCGGCCCCGAATACA
TCTCTTCCAGGCCTGGGGCTGCGGGACAGAGAGTACACTACTTGTCGGCC
GATAAATGCATCAACCTGGCAAACGAAGTTTTCGGGTTCAATGGCTGGTC
AAGCTCGATTCAGAATATTCAGATTGATTTCGTCGAGGAGAGTCCCAATA
CTGGGAAGATCAGCCTGGGTCTCTCTGTTATTGTGAGGGTGACACTGAAA
GACGGTACATATCACGAGATGACCGTCCGGATTGTTATCTCACTATTCTT
ACTGCAACAATGCCCGCGTGACCTATTTGATGAAGCCGACTTCGGGGTAG
GCGGAACAGGCAACCCAGACGAGGTAGTACTAGGACCAGAAACACAGAAG
CAGCCACCGACGCCTCTAAATGGACCCAATGTACCTCTACAGCCATTCAA
TAATAACGCCCGTGCACCGATGAGGCCCAACCCAGCCATGGTAACTCCAT
CCAAGCCGGAACGGCCCTTCAACCCAGCTCCTGGTGCCAGACAAAATCCC
GCTCCTCAGCCCTTTAACAGCAGACTCAACCCCTCCGCAGCCCAAAATCA
GCAAGCACCTCAACGACAACCCATGGCCCCTCAAGGGCCCCAGCAAAACC
TCCCCAACAACCGAATGATCCCACCAGCACAAGCAGCAGCAGCCGCATCA
ACCACGGGTGGTGCCGTGCCCATCAAACGTGAATTCGGGGCATCGACCAC
CAACGAACCTCCCAGACCCCAAGACACACTGCCCGGCACGCCCTCCGCAT
CATTCTTCTCAGCTCGCGCAGTCGACCTCCTCCGCGACAACCCTAACGGG
ATCCCATCCGGAGCCCCAGTCTTCGACCCACACGCGGAGAGTCCCTCCAT
CCGCAAGACCGCAGGCATCGACCACAACAAGAGTCTTCCTGTCTCCAGGC
CCATGCTCGCCGGTGCCGGCGCCGCCTCCCCAGCAACCAATAACACCCGA
GACTTCGTCAACCCATCTCAAGATATGAATCGCAGGATCGGTGCCCCGGG
CATGAACAGTCCCATGAACAGACCCATGTCCACATCATCTTACCGGCCCT
TGACACGGCCAAATATCAATGCTCCGGGTGCAGCTGCGGCCGCCAATCGT
GCAACTACCCCGGGTCTTGCACCGCAGAACGTGAACGGGAAACGACCCCC
TCTGTCTGATGTGACGAATGCCTCGAACCCGAGTGGCGGCAGCGGGCCTG
CTCCACCAGGGGTCAGTGAGAATGACCCGAAACGACCCAAGGTAAACCCG
GGTCCTGCTGCTGCTGCGGCGGCGCCGCCGCAGCAGCAGCAGTGAGCCAA
ATGGGATGTCGACGAACTGCACCGTCACCCAGACTTTGTTCCCAGGAAAG
AGCCCGTAAAACCAAAGCCCAGCCCGGAAGACGATGATCTACCACCTCGG
CCAACGGATGTTGGCAAGAACAGTAGTATCGACGATTCGATGGCATTTGA
TGGTGACGGGGAGTTCGGAAGATATCGGTTACGGTCACATCGAGAACTGT
AAAGGAAAGGCTGCTGCTTTTGAGAAAGCTAAGAAAGAGGGGACAACCGA
TGCTCTAAAGCGGGCTCTGAGGAACTTCGGCAATGTCCTGGGCAACTGTG
TCTACGATAAGGACTATGTGTCGAAGGTCACCAAAGTAAAGACCGTTCCG
AGGTTAACCGCGTCTCTAGTGTTGGCGACCAGCACCGAGGGAACCCAGCG
TCCATCATGATGCCCAACTCCACAGGGGCGATCACCGCAAACCCATTCGA
AGAGCCACAGCGACGGATCAACGAGTACACTGCCCAGGAAATCGCAACTT
TGCAAGCTCGTCTCGATAAGAAGCTCGGCCCCGAATACATCTCTTCCAGG
CCTGGGGCTGCGGGACAGAGAGTACACTACTTGTCGGCCGATAAATGCAT
CAACCTGGCAAACGAAGTTTTCGGGTTCAATGGCTGGTCAAGCTCGATTC
AGAATATTCAGATTGATTTCGTCGAGGAGAGTCCCAATACTGGGAAGATC
AGCCTGGGTCTCTCTGTTATTGTGAGGGTGACACTGAAAGACGGTACATA
TCACGAGATGACCGTCCGGATTGTTATCTCACTATTCTTACTGCAACAAT
GCCCGCGTGACCTATTTGATGAAGCCGACTTCGGGGTAGGCGGAACAGGC
AACCCAGACGAGGTAGTACTAGGACCAGAAACACAGAAGCAGCCACCGAC
GCCTCTAAATGGACCCAATGTACCTCTACAGCCATTCAATAATAACGCCC
GTGCACCGATGAGGCCCAACCCAGCCATGGTAACTCCATCCAAGCCGGAA
CGGCCCTTCAACCCAGCTCCTGGTGCCAGACAAAATCCCGCTCCTCAGCC
CTTTAACAGCAGACTCAACCCCTCCGCAGCCCAAAATCAGCAAGCACCTC
AACGACAACCCATGGCCCCTCAAGGGCCCCAGCAAAACCTCCCCAACAAC
CGAATGATCCCACCAGCACAAGCAGCAGCAGCCGCATCAACCACGGGTGG
TGCCGTGCCCATCAAACGTGAATTCGGGGCATCGACCACCAACGAACCTC
CCAGACCCCAAGACACACTGCCCGGCACGCCCTCCGCATCATTCTTCTCA
GCTCGCGCAGTCGACCTCCTCCGCGACAACCCTAACGGGATCCCATCCGG
AGCCCCAGTCTTCGACCCACACGCGGAGAGTCCCTCCATCCGCAAGACCG
CAGGCATCGACCACAACAAGAGTCTTCCTGTCTCCAGGCCCATGCTCGCC
GGTGCCGGCGCCGCCTCCCCAGCAACCAATAACACCCGAGACTTCGTCAA
CCCATCTCAAGATATGAATCGCAGGATCGGTGCCCCGGGCATGAACAGTC
CCATGAACAGACCCATGTCCACATCATCTTACCGGCCCTTGACACGGCCA
AATATCAATGCTCCGGGTGCAGCTGCGGCCGCCAATCGTGCAACTACCCC
GGGTCTTGCACCGCAGAACGTGAACGGGAAACGACCCCCTCTGTCTGATG
TGACGAATGCCTCGAACCCGAGTGGCGGCAGCGGGCCTGCTCCACCAGGG
GTCAGTGAGAATGACCCGAAACGACCCAAGGTAAACCCGGGTCCTGCTGC
TGCTGCGGCGGCGCCGCCGCAGCAGCAGCAGTGAGCCAAATGGGATGTCG
ACGAACTGCACCGTCACCCAGACTTTGTTCCCAGGAAAGAGCCCGTAAAA
CCAAAGCCCAGCCCGGAAGACGATGATCTACCACCTCGGCCAACGGATGT
TGGCAAGAACAGTAGTATCGACGATTCGATGGCATTTGATGGTGACGGGG
AGTTCGGAAGATATCGGTTACGGTCACATCGAGAACTGTAAAGGAAAGGC
TGCTGCTTTTGAGAAAGCTAAGAAAGAGGGGACAACCGATGCTCTAAAGC
GGGCTCTGAGGAACTTCGGCAATGTCCTGGGCAACTGTGTCTACGATAAG
GACTATGTGTCGAAGGTCACCAAAGTAAAGACCGTTCCGAGGTTAACCGC
GTCTCTAGTGTTGGCGACCAGCACCGAGGGAACCCAGCGTCCATCATGAT
GCCCAACTCCACAGGGGCGATCACCGCAAACCCATTCGAAGAGCCACAGC
GACGGATCAACGAGTACACTGCCCAGGAAATCGCAACTTTGCAAGCTCGT
CTCGATAAGAAGCTCGGCCCCGAATACATCTCTTCCAGGCCTGGGGCTGC
GGGACAGAGAGTACACTACTTGTCGGCCGATAAATGCATCAACCTGGCAA
ACGAAGTTTTCGGGTTCAATGGCTGGTCAAGCTCGATTCAGAATATTCAG
ATTGATTTCGTCGAGGAGAGTCCCAATACTGGGAAGATCAGCCTGGGTCT
CTCTGTTATTGTGAGGGTGACACTGAAAGACGGTACATATCACGAGATGA
CCGTCCGGATTGTTATCTCACTATTCTTACTGCAACAATGCCCGC back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005634 | nucleus |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0045002 | double-strand break repair via single-strand annealing |
| GO:0000724 | double-strand break repair via homologous recombination |
| GO:0000730 | DNA recombinase assembly |
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:
Properties
| Property Name | Value |
|---|
| Note | SECRETED:SignalP(1-20) |
| Note | BUSCO:EOG09261PJZ |
| DBxref | InterPro:IPR041247 |
| DBxref | InterPro:IPR004585 |
| DBxref | InterPro:IPR042525 |
| DBxref | PFAM:PF04098 |
| 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 |
|---|
| ch6 | supercontig | ch6:2365073..2367128 - |
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