|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at ch8:1096237..1098589+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >KYF_010386-T1 ID=KYF_010386-T1|Name=KYF_010386-T1|organism=Aspergillus niger KYF3|type=mRNA|length=2353bp|location=Sequence derived from alignment at ch8:1096237..1098589+ (Aspergillus niger KYF3)
ATGGATCATCAGATGGATTTGGACAATATGGAGCCTCGAGGCACGAAGAG
GTCTGCAGAGGACAGTGAGGAGCCACAGAGGCCGAAGAGGATTAGAGTCA
GTTCCCACTTCTTGCCGTATTTTCGCTTAGGTATTGACACTACATAGGCC
TTAGATCCCGATGTTGTAAACAAAATTGCTGCAGGGGAGATTATCGTGGC
TCCTATGCATGCGTTGAAAGAGCTAATCGAGAACGCTGTCGATGCTGGAT
CGACATCGATCGAGATTTTGGTGAAAGACGGTGGATTGAAGCTCCTGCAG
ATTACTGACAATGGCCATGGCATCGACGTAAGTAGAGCGAGCAAAATCGT
CCAGCGATAAAGTGGCTGATTGTGAGATACAGAGAGATGACCTGCCCATT
CTGTGCGAGAGATTCACAACATCCAAGCTAAAGCAGTTCGAAGACCTTTC
ATCCATAGGCACGTACGGTTTTCGAGGTGAAGCTTTGGCAAGTATTAGCC
ATATTGCCCATCTGACTGTGACCACAAAAACTGCTGGGTCCAGCTGCGCA
TGGAGAGCACACTATAGCGATGGGAAGCTTGTCCCCCCTAAACCTGGACA
GAGTGCTGCGCCCAAAGCAACCGCGGGACGCGGCGGCACGCAAATAACAG
TGAGTGAGATGTCAGTTCTATCTTTGAGGCTACAACAGCTCATTGGCTCC
CAGGTAGAGGACCTGTTCTACAATGTACCGACAAGACGTCGGGCTTTCCG
ATCAGCAAGTGAAGAATATGCCAAAATCCTCGATGTAGTTGGTCGATACT
CCGTCCATTGCTCAGGCGTGGCCTTCTCCTGCCGCAAGCACGGTGATTCA
GGCGTCAGTGTCTCCACTCCAGCAGCTGCAAATACAATAGACCGAATTCG
TCAAATTCATGGCAGTGCAGTCGCCAACGAACTTGTCGAATTCAATGTTG
AAGATGAAAAGCTGGGGTTTCGCTCATCTGGCTTTGCCACGAACGCAAAC
TACCATGTCAAAAGAACTACCATACTTCTTTTCATCAACCACCGCTCGGT
CGAATCCACAGCCATCAAGCGAGCAGTTGAGCAAACATACTCCAGCTTCC
TCCCCAAAGGAGGCCACCCATTTGTCTACATTGACCTCGAAATTGAACCA
CAACGTGTCGACGTCAACGTACATCCCACAAAGCGCGAAGTGAATTTCCT
CAACGAAGACGAAATCATCGAATGCATCTGCAACGAGATCCGCTCCAAGC
TGGCCCAAGTAGACTCAAGCCGGACCTTTCTAACCCAAACCCTCCTCCCA
GGTGTAACAACAACGGAGCCCGCAAACCGCGACCCTGAAGGCACAGACAC
CGTACCCAAAACACCATCCACGACCAAAAAACCATATGAACACAACCTCG
TCCGCACCGACTCCAAAGTCCGCAAAATCACCTCCATGCTCACCCCCGCC
ACACCACACACGCCCACAGCCTCCCAAGCAGATACGACCGTCCTCGACGA
AGGCCTCCAATACGAAACCACCTCCCGCGAACCCCACCGCATCAGCTTCA
CATCCGTGAAGAACCTCCGCGCCTCCGTACGCAACGCAATGCACAACACC
CTAACTGAAACCATCGCCTCCCACACCTACGTTGGCCTTGTCGACGAACG
CCGCCGGATCGCGGCCATCCAATCCGGCGTAAAACTCTACCTAATCGACT
ACGGCATGTTCTGCACCGAGTTCTTCTACCAGATCGGCCTTACAGACTTT
GCCAACTTCGGAATCATCAAGCTGTCCCCACCACCCAAACTCATCGCTCT
CCTCCGAATCGCCGCAGACACCGAACGCAGCCAATCCTCCCAAGAATCAA
CAACAACAGAAGAAGCCAACGAAATCTTCACCAACGCCCCCGACCTCGTC
GCTGAAACCCTCATCGACCGCCGCGAAATGCTAAACGAGTACTTCTCCCT
TGACATCTCGCCTGAGGGGGACCTTCTCTCCATCCCCCTCCTCCTGAAAG
GCTACCTCCCCAGCCTCGGAAAACTGCCCCGATTCCTCCTCCGACTAGGT
CCATATGTCGATTGGGCAAACGAGGAGGAATGCTTCCGCACGTTTCTGCG
AGAGCTTGCGGCTTTTTATACCCCTGAACAGTTGCCACCGCCCCCGAAAT
TGCAGAATGGTAATGAAGCAGAAGGGGAAGAGGAAGGGGAAGATGAGTTT
ATCACGCAGAGACGGGCGCAAATGGCGCGGATGCTGGAACATGTGGTTTT
CCCGGCTCTGAGGGCGCGGATGGTTGCTACGACGCGGCTGCTTCGGGGGG
TGGTGGAGGTGGCGGATTTGAAGGGGTTGTATAGGGTTTTTGAGCGGTGT
TGA back to topCoding sequence (CDS) from alignment at ch8:1096237..1098589+ >KYF_010386-T1 ID=KYF_010386-T1|Name=KYF_010386-T1|organism=Aspergillus niger KYF3|type=CDS|length=8772bp|location=Sequence derived from alignment at ch8:1096237..1098589+ (Aspergillus niger KYF3)
ATGGATCATCAGATGGATTTGGACAATATGGAGCCTCGAGGCACGAAGAG
GTCTGCAGAGGACAGTGAGGAGCCACAGAGGCCGAAGAGGATTAGAGCCT
TAGATCCCGATGTTGTAAACAAAATTGCTGCAGGGGAGATTATCGTGGCT
CCTATGCATGCGTTGAAAGAGCTAATCGAGAACGCTGTCGATGCTGGATC
GACATCGATCGAGATTTTGGTGAAAGACGGTGGATTGAAGCTCCTGCAGA
TTACTGACAATGGCCATGGCATCGACAGAGATGACCTGCCCATTCTGTGC
GAGAGATTCACAACATCCAAGCTAAAGCAGTTCGAAGACCTTTCATCCAT
AGGCACGTACGGTTTTCGAGGTGAAGCTTTGGCAAGTATTAGCCATATTG
CCCATCTGACTGTGACCACAAAAACTGCTGGGTCCAGCTGCGCATGGAGA
GCACACTATAGCGATGGGAAGCTTGTCCCCCCTAAACCTGGACAGAGTGC
TGCGCCCAAAGCAACCGCGGGACGCGGCGGCACGCAAATAACAGTAGAGG
ACCTGTTCTACAATGTACCGACAAGACGTCGGGCTTTCCGATCAGCAAGT
GAAGAATATGCCAAAATCCTCGATGTAGTTGGTCGATACTCCGTCCATTG
CTCAGGCGTGGCCTTCTCCTGCCGCAAGCACGGTGATTCAGGCGTCAGTG
TCTCCACTCCAGCAGCTGCAAATACAATAGACCGAATTCGTCAAATTCAT
GGCAGTGCAGTCGCCAACGAACTTGTCGAATTCAATGTTGAAGATGAAAA
GCTGGGGTTTCGCTCATCTGGCTTTGCCACGAACGCAAACTACCATGTCA
AAAGAACTACCATACTTCTTTTCATCAACCACCGCTCGGTCGAATCCACA
GCCATCAAGCGAGCAGTTGAGCAAACATACTCCAGCTTCCTCCCCAAAGG
AGGCCACCCATTTGTCTACATTGACCTCGAAATTGAACCACAACGTGTCG
ACGTCAACGTACATCCCACAAAGCGCGAAGTGAATTTCCTCAACGAAGAC
GAAATCATCGAATGCATCTGCAACGAGATCCGCTCCAAGCTGGCCCAAGT
AGACTCAAGCCGGACCTTTCTAACCCAAACCCTCCTCCCAGGTGTAACAA
CAACGGAGCCCGCAAACCGCGACCCTGAAGGCACAGACACCGTACCCAAA
ACACCATCCACGACCAAAAAACCATATGAACACAACCTCGTCCGCACCGA
CTCCAAAGTCCGCAAAATCACCTCCATGCTCACCCCCGCCACACCACACA
CGCCCACAGCCTCCCAAGCAGATACGACCGTCCTCGACGAAGGCCTCCAA
TACGAAACCACCTCCCGCGAACCCCACCGCATCAGCTTCACATCCGTGAA
GAACCTCCGCGCCTCCGTACGCAACGCAATGCACAACACCCTAACTGAAA
CCATCGCCTCCCACACCTACGTTGGCCTTGTCGACGAACGCCGCCGGATC
GCGGCCATCCAATCCGGCGTAAAACTCTACCTAATCGACTACGGCATGTT
CTGCACCGAGTTCTTCTACCAGATCGGCCTTACAGACTTTGCCAACTTCG
GAATCATCAAGCTGTCCCCACCACCCAAACTCATCGCTCTCCTCCGAATC
GCCGCAGACACCGAACGCAGCCAATCCTCCCAAGAATCAACAACAACAGA
AGAAGCCAACGAAATCTTCACCAACGCCCCCGACCTCGTCGCTGAAACCC
TCATCGACCGCCGCGAAATGCTAAACGAGTACTTCTCCCTTGACATCTCG
CCTGAGGGGGACCTTCTCTCCATCCCCCTCCTCCTGAAAGGCTACCTCCC
CAGCCTCGGAAAACTGCCCCGATTCCTCCTCCGACTAGGTCCATATGTCG
ATTGGGCAAACGAGGAGGAATGCTTCCGCACGTTTCTGCGAGAGCTTGCG
GCTTTTTATACCCCTGAACAGTTGCCACCGCCCCCGAAATTGCAGAATGG
TAATGAAGCAGAAGGGGAAGAGGAAGGGGAAGATGAGTTTATCACGCAGA
GACGGGCGCAAATGGCGCGGATGCTGGAACATGTGGTTTTCCCGGCTCTG
AGGGCGCGGATGGTTGCTACGACGCGGCTGCTTCGGGGGGTGGTGGAGGT
GGCGGATTTGAAGGGGTTGTATAGGGTTTTTGAGCGGTGTTGAATGGATC
ATCAGATGGATTTGGACAATATGGAGCCTCGAGGCACGAAGAGGTCTGCA
GAGGACAGTGAGGAGCCACAGAGGCCGAAGAGGATTAGAGCCTTAGATCC
CGATGTTGTAAACAAAATTGCTGCAGGGGAGATTATCGTGGCTCCTATGC
ATGCGTTGAAAGAGCTAATCGAGAACGCTGTCGATGCTGGATCGACATCG
ATCGAGATTTTGGTGAAAGACGGTGGATTGAAGCTCCTGCAGATTACTGA
CAATGGCCATGGCATCGACAGAGATGACCTGCCCATTCTGTGCGAGAGAT
TCACAACATCCAAGCTAAAGCAGTTCGAAGACCTTTCATCCATAGGCACG
TACGGTTTTCGAGGTGAAGCTTTGGCAAGTATTAGCCATATTGCCCATCT
GACTGTGACCACAAAAACTGCTGGGTCCAGCTGCGCATGGAGAGCACACT
ATAGCGATGGGAAGCTTGTCCCCCCTAAACCTGGACAGAGTGCTGCGCCC
AAAGCAACCGCGGGACGCGGCGGCACGCAAATAACAGTAGAGGACCTGTT
CTACAATGTACCGACAAGACGTCGGGCTTTCCGATCAGCAAGTGAAGAAT
ATGCCAAAATCCTCGATGTAGTTGGTCGATACTCCGTCCATTGCTCAGGC
GTGGCCTTCTCCTGCCGCAAGCACGGTGATTCAGGCGTCAGTGTCTCCAC
TCCAGCAGCTGCAAATACAATAGACCGAATTCGTCAAATTCATGGCAGTG
CAGTCGCCAACGAACTTGTCGAATTCAATGTTGAAGATGAAAAGCTGGGG
TTTCGCTCATCTGGCTTTGCCACGAACGCAAACTACCATGTCAAAAGAAC
TACCATACTTCTTTTCATCAACCACCGCTCGGTCGAATCCACAGCCATCA
AGCGAGCAGTTGAGCAAACATACTCCAGCTTCCTCCCCAAAGGAGGCCAC
CCATTTGTCTACATTGACCTCGAAATTGAACCACAACGTGTCGACGTCAA
CGTACATCCCACAAAGCGCGAAGTGAATTTCCTCAACGAAGACGAAATCA
TCGAATGCATCTGCAACGAGATCCGCTCCAAGCTGGCCCAAGTAGACTCA
AGCCGGACCTTTCTAACCCAAACCCTCCTCCCAGGTGTAACAACAACGGA
GCCCGCAAACCGCGACCCTGAAGGCACAGACACCGTACCCAAAACACCAT
CCACGACCAAAAAACCATATGAACACAACCTCGTCCGCACCGACTCCAAA
GTCCGCAAAATCACCTCCATGCTCACCCCCGCCACACCACACACGCCCAC
AGCCTCCCAAGCAGATACGACCGTCCTCGACGAAGGCCTCCAATACGAAA
CCACCTCCCGCGAACCCCACCGCATCAGCTTCACATCCGTGAAGAACCTC
CGCGCCTCCGTACGCAACGCAATGCACAACACCCTAACTGAAACCATCGC
CTCCCACACCTACGTTGGCCTTGTCGACGAACGCCGCCGGATCGCGGCCA
TCCAATCCGGCGTAAAACTCTACCTAATCGACTACGGCATGTTCTGCACC
GAGTTCTTCTACCAGATCGGCCTTACAGACTTTGCCAACTTCGGAATCAT
CAAGCTGTCCCCACCACCCAAACTCATCGCTCTCCTCCGAATCGCCGCAG
ACACCGAACGCAGCCAATCCTCCCAAGAATCAACAACAACAGAAGAAGCC
AACGAAATCTTCACCAACGCCCCCGACCTCGTCGCTGAAACCCTCATCGA
CCGCCGCGAAATGCTAAACGAGTACTTCTCCCTTGACATCTCGCCTGAGG
GGGACCTTCTCTCCATCCCCCTCCTCCTGAAAGGCTACCTCCCCAGCCTC
GGAAAACTGCCCCGATTCCTCCTCCGACTAGGTCCATATGTCGATTGGGC
AAACGAGGAGGAATGCTTCCGCACGTTTCTGCGAGAGCTTGCGGCTTTTT
ATACCCCTGAACAGTTGCCACCGCCCCCGAAATTGCAGAATGGTAATGAA
GCAGAAGGGGAAGAGGAAGGGGAAGATGAGTTTATCACGCAGAGACGGGC
GCAAATGGCGCGGATGCTGGAACATGTGGTTTTCCCGGCTCTGAGGGCGC
GGATGGTTGCTACGACGCGGCTGCTTCGGGGGGTGGTGGAGGTGGCGGAT
TTGAAGGGGTTGTATAGGGTTTTTGAGCGGTGTTGAATGGATCATCAGAT
GGATTTGGACAATATGGAGCCTCGAGGCACGAAGAGGTCTGCAGAGGACA
GTGAGGAGCCACAGAGGCCGAAGAGGATTAGAGCCTTAGATCCCGATGTT
GTAAACAAAATTGCTGCAGGGGAGATTATCGTGGCTCCTATGCATGCGTT
GAAAGAGCTAATCGAGAACGCTGTCGATGCTGGATCGACATCGATCGAGA
TTTTGGTGAAAGACGGTGGATTGAAGCTCCTGCAGATTACTGACAATGGC
CATGGCATCGACAGAGATGACCTGCCCATTCTGTGCGAGAGATTCACAAC
ATCCAAGCTAAAGCAGTTCGAAGACCTTTCATCCATAGGCACGTACGGTT
TTCGAGGTGAAGCTTTGGCAAGTATTAGCCATATTGCCCATCTGACTGTG
ACCACAAAAACTGCTGGGTCCAGCTGCGCATGGAGAGCACACTATAGCGA
TGGGAAGCTTGTCCCCCCTAAACCTGGACAGAGTGCTGCGCCCAAAGCAA
CCGCGGGACGCGGCGGCACGCAAATAACAGTAGAGGACCTGTTCTACAAT
GTACCGACAAGACGTCGGGCTTTCCGATCAGCAAGTGAAGAATATGCCAA
AATCCTCGATGTAGTTGGTCGATACTCCGTCCATTGCTCAGGCGTGGCCT
TCTCCTGCCGCAAGCACGGTGATTCAGGCGTCAGTGTCTCCACTCCAGCA
GCTGCAAATACAATAGACCGAATTCGTCAAATTCATGGCAGTGCAGTCGC
CAACGAACTTGTCGAATTCAATGTTGAAGATGAAAAGCTGGGGTTTCGCT
CATCTGGCTTTGCCACGAACGCAAACTACCATGTCAAAAGAACTACCATA
CTTCTTTTCATCAACCACCGCTCGGTCGAATCCACAGCCATCAAGCGAGC
AGTTGAGCAAACATACTCCAGCTTCCTCCCCAAAGGAGGCCACCCATTTG
TCTACATTGACCTCGAAATTGAACCACAACGTGTCGACGTCAACGTACAT
CCCACAAAGCGCGAAGTGAATTTCCTCAACGAAGACGAAATCATCGAATG
CATCTGCAACGAGATCCGCTCCAAGCTGGCCCAAGTAGACTCAAGCCGGA
CCTTTCTAACCCAAACCCTCCTCCCAGGTGTAACAACAACGGAGCCCGCA
AACCGCGACCCTGAAGGCACAGACACCGTACCCAAAACACCATCCACGAC
CAAAAAACCATATGAACACAACCTCGTCCGCACCGACTCCAAAGTCCGCA
AAATCACCTCCATGCTCACCCCCGCCACACCACACACGCCCACAGCCTCC
CAAGCAGATACGACCGTCCTCGACGAAGGCCTCCAATACGAAACCACCTC
CCGCGAACCCCACCGCATCAGCTTCACATCCGTGAAGAACCTCCGCGCCT
CCGTACGCAACGCAATGCACAACACCCTAACTGAAACCATCGCCTCCCAC
ACCTACGTTGGCCTTGTCGACGAACGCCGCCGGATCGCGGCCATCCAATC
CGGCGTAAAACTCTACCTAATCGACTACGGCATGTTCTGCACCGAGTTCT
TCTACCAGATCGGCCTTACAGACTTTGCCAACTTCGGAATCATCAAGCTG
TCCCCACCACCCAAACTCATCGCTCTCCTCCGAATCGCCGCAGACACCGA
ACGCAGCCAATCCTCCCAAGAATCAACAACAACAGAAGAAGCCAACGAAA
TCTTCACCAACGCCCCCGACCTCGTCGCTGAAACCCTCATCGACCGCCGC
GAAATGCTAAACGAGTACTTCTCCCTTGACATCTCGCCTGAGGGGGACCT
TCTCTCCATCCCCCTCCTCCTGAAAGGCTACCTCCCCAGCCTCGGAAAAC
TGCCCCGATTCCTCCTCCGACTAGGTCCATATGTCGATTGGGCAAACGAG
GAGGAATGCTTCCGCACGTTTCTGCGAGAGCTTGCGGCTTTTTATACCCC
TGAACAGTTGCCACCGCCCCCGAAATTGCAGAATGGTAATGAAGCAGAAG
GGGAAGAGGAAGGGGAAGATGAGTTTATCACGCAGAGACGGGCGCAAATG
GCGCGGATGCTGGAACATGTGGTTTTCCCGGCTCTGAGGGCGCGGATGGT
TGCTACGACGCGGCTGCTTCGGGGGGTGGTGGAGGTGGCGGATTTGAAGG
GGTTGTATAGGGTTTTTGAGCGGTGTTGAATGGATCATCAGATGGATTTG
GACAATATGGAGCCTCGAGGCACGAAGAGGTCTGCAGAGGACAGTGAGGA
GCCACAGAGGCCGAAGAGGATTAGAGCCTTAGATCCCGATGTTGTAAACA
AAATTGCTGCAGGGGAGATTATCGTGGCTCCTATGCATGCGTTGAAAGAG
CTAATCGAGAACGCTGTCGATGCTGGATCGACATCGATCGAGATTTTGGT
GAAAGACGGTGGATTGAAGCTCCTGCAGATTACTGACAATGGCCATGGCA
TCGACAGAGATGACCTGCCCATTCTGTGCGAGAGATTCACAACATCCAAG
CTAAAGCAGTTCGAAGACCTTTCATCCATAGGCACGTACGGTTTTCGAGG
TGAAGCTTTGGCAAGTATTAGCCATATTGCCCATCTGACTGTGACCACAA
AAACTGCTGGGTCCAGCTGCGCATGGAGAGCACACTATAGCGATGGGAAG
CTTGTCCCCCCTAAACCTGGACAGAGTGCTGCGCCCAAAGCAACCGCGGG
ACGCGGCGGCACGCAAATAACAGTAGAGGACCTGTTCTACAATGTACCGA
CAAGACGTCGGGCTTTCCGATCAGCAAGTGAAGAATATGCCAAAATCCTC
GATGTAGTTGGTCGATACTCCGTCCATTGCTCAGGCGTGGCCTTCTCCTG
CCGCAAGCACGGTGATTCAGGCGTCAGTGTCTCCACTCCAGCAGCTGCAA
ATACAATAGACCGAATTCGTCAAATTCATGGCAGTGCAGTCGCCAACGAA
CTTGTCGAATTCAATGTTGAAGATGAAAAGCTGGGGTTTCGCTCATCTGG
CTTTGCCACGAACGCAAACTACCATGTCAAAAGAACTACCATACTTCTTT
TCATCAACCACCGCTCGGTCGAATCCACAGCCATCAAGCGAGCAGTTGAG
CAAACATACTCCAGCTTCCTCCCCAAAGGAGGCCACCCATTTGTCTACAT
TGACCTCGAAATTGAACCACAACGTGTCGACGTCAACGTACATCCCACAA
AGCGCGAAGTGAATTTCCTCAACGAAGACGAAATCATCGAATGCATCTGC
AACGAGATCCGCTCCAAGCTGGCCCAAGTAGACTCAAGCCGGACCTTTCT
AACCCAAACCCTCCTCCCAGGTGTAACAACAACGGAGCCCGCAAACCGCG
ACCCTGAAGGCACAGACACCGTACCCAAAACACCATCCACGACCAAAAAA
CCATATGAACACAACCTCGTCCGCACCGACTCCAAAGTCCGCAAAATCAC
CTCCATGCTCACCCCCGCCACACCACACACGCCCACAGCCTCCCAAGCAG
ATACGACCGTCCTCGACGAAGGCCTCCAATACGAAACCACCTCCCGCGAA
CCCCACCGCATCAGCTTCACATCCGTGAAGAACCTCCGCGCCTCCGTACG
CAACGCAATGCACAACACCCTAACTGAAACCATCGCCTCCCACACCTACG
TTGGCCTTGTCGACGAACGCCGCCGGATCGCGGCCATCCAATCCGGCGTA
AAACTCTACCTAATCGACTACGGCATGTTCTGCACCGAGTTCTTCTACCA
GATCGGCCTTACAGACTTTGCCAACTTCGGAATCATCAAGCTGTCCCCAC
CACCCAAACTCATCGCTCTCCTCCGAATCGCCGCAGACACCGAACGCAGC
CAATCCTCCCAAGAATCAACAACAACAGAAGAAGCCAACGAAATCTTCAC
CAACGCCCCCGACCTCGTCGCTGAAACCCTCATCGACCGCCGCGAAATGC
TAAACGAGTACTTCTCCCTTGACATCTCGCCTGAGGGGGACCTTCTCTCC
ATCCCCCTCCTCCTGAAAGGCTACCTCCCCAGCCTCGGAAAACTGCCCCG
ATTCCTCCTCCGACTAGGTCCATATGTCGATTGGGCAAACGAGGAGGAAT
GCTTCCGCACGTTTCTGCGAGAGCTTGCGGCTTTTTATACCCCTGAACAG
TTGCCACCGCCCCCGAAATTGCAGAATGGTAATGAAGCAGAAGGGGAAGA
GGAAGGGGAAGATGAGTTTATCACGCAGAGACGGGCGCAAATGGCGCGGA
TGCTGGAACATGTGGTTTTCCCGGCTCTGAGGGCGCGGATGGTTGCTACG
ACGCGGCTGCTTCGGGGGGTGGTGGAGGTGGCGGATTTGAAGGGGTTGTA
TAGGGTTTTTGAGCGGTGTTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006298 | mismatch repair |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005524 | ATP binding |
| GO:0030983 | mismatched 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:
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG092615IE |
| DBxref | InterPro:IPR020568 |
| DBxref | InterPro:IPR014762 |
| DBxref | InterPro:IPR032189 |
| DBxref | InterPro:IPR036890 |
| DBxref | InterPro:IPR014721 |
| DBxref | InterPro:IPR002099 |
| DBxref | InterPro:IPR013507 |
| DBxref | PFAM:PF16413 |
| DBxref | PFAM:PF13589 |
| DBxref | PFAM:PF02518 |
| DBxref | PFAM:PF01119 |
| 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 | ch8:1096237..1098589 + |
|
