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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch7:1368544..1370728- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >KYF_009142-T1 ID=KYF_009142-T1|Name=KYF_009142-T1|organism=Aspergillus niger KYF3|type=mRNA|length=2185bp|location=Sequence derived from alignment at ch7:1368544..1370728- (Aspergillus niger KYF3)
ATGATCCAAGACATTGGAGGTCCAGTCCCTCCTCACACTGATCACGTATG
TTCTAACCCCGCGCAACCCCGCCCAGCTTCTATTCACCACCCTTTTAGTT
TTTGCCCCGGTCGCCGTCTTGGCTCGGACGAGATGCACAAGGCTTGGAAG
CAAATTTAAGTCACATTTGGGCTTTACTTACATCCTCATAGGCAGTCAGT
GTGTCCCTTCCAACATGGAAAGCGAATGTCGCATACGAGGAAGGAGAGTC
GTGGGTTGTGGATAAGATGCAATGTGGATACCCTCGCTTCTTTATACATC
CCATTATTCAGGATCTGGCGAGGGAGATCGTACGTCGCTATGGCAGCCCA
GAATTGGAAACGGCTATACTATTTCCTTCTCTCAAAACATCAGGGGTCTG
TTATTCGTTTCTCAAATCGAAAATACTAGCCGAGGAACCCTGTAATGTCC
GGACAATAGATTTCGCCCTACCCATTCAAGGCGAAGACGCGCCGTCTGGT
ACGGATTCGATACTATCGTGCGTGATATATCCCATCCAACACGCGCCGAT
TGCCAAGCAGGTCTGGCAACATACAGGAAATGGAATCTCAAGTAGACGTG
CTGAGTTCTGCCTGAACGCGTTAAGGGATGGGTTTCTCGTGGAAAGGAAA
CCTGCAGCTCAATGTATGGCATCGCCACGGTTTTTCAAGGGGCCAAGGAG
GTATCAGGGTCGAGAGTCTATAAGTGGAATGTCTCAGGGAAGTGGAACGC
ACGCCCGCGACAGTACTACGGGTACAAACACGACAACCAGGAACATGCAA
GATGGCCGCGAACATGTCCAGTTCATTGAAGAACGATTCGGTCGGAATCT
AAGCACCTCGCTGGCCGGTCAGGCAAGGCTGGCTGTACGGCGACGCATTG
CGGGCGTTCTGACAGCCGACATGGAGCTTAATGAGGCCCTTGAAGAAAAG
TCAGGAGAAGGCCGTGTCGCGGGGCTGACAGAGTCCGATGTTTTTCTCTT
TCCGACCGGCATGAGTTCCATCTTCAACGCTCATCAGATGTTGATGGCTG
CGAAGGGAGAGATGAAGAGCATCTGCTTCGGATTCCCCTATACCGACACC
CTAAAGATACTCCAAAAATGGGGCCCGGGCTGTCTGTTTTATGGTCATGG
CTCTTCGGAGGATCTCGATGACCTGGAGTCGCAGCTACTGAAAGGAGAGA
GATTCCTTGCTCTTTTCACTGAATTCCCGGGCAATCCGTTACTGAAAGCC
CCCGATTTGAAGAGAATCAGGTCACTCGCCGACAGGTATAATTTCGCTGT
TGTAGTAGATGAGACGGTAGGGAATTTTCTCAACATCAATGTGCTTCCCT
ATGCAGATATTGTGGTAAGCAGCTTGACCAAAATTTTCAGTGGTGATAGT
AATGTCATGGGGGGAAGTGCAGTACTCAACCCCCATGGGCATTATTACGG
GTCTCTAAAAAACATATTTGCACGCGAATATGAGGACAATCTTTGGGCAG
AAGATGCCGTATTCCTCGAAAGGAATAGCCGCGATTTCGTATCCAGAATT
GATAAGATTAATAAAACCACGGAAGACATCACGGCGATGTTGGAGGACTC
TCCACTCGGTAAGCTAACAATCAAATCTCTTTGTTATTGGGTTATTGGGT
GTTGCCCCTCGATGTACCTGTCTAATGTGCTCAATGCTAACTGACTTGCA
GTGAAACAGGTATACTATCCGAAGTACAACTCTTCAAAGCCATTGTATGA
AGCATTTCGCAACCAAAGTGGAGGATATGGCGGTCTATTTTCGGTTACAT
TCCATTCAACAGCAGCGGCAGTTGCCTTTTTTGATCATCTCGAAGTGCTC
AAGGGACCCAGTCTCGGTACTAATTTTACACTGAGGTGAGTCAGTATCAT
GGTAGGCAAAAGGGCGACAAGCCTGTTAACAATGATGCTTAGCTGCCCTT
ACACTCTGTTGGCGCATTATAGTGAACTAGAATGGGTATGTCAACCACTC
CAATTCCCGACACAGCATGGCCTTCACTCCTAGTTGGGGGTATACTCATA
CTTTTCATCAATTAGGCAAGCTCATTCGGTGTCGACTTTGACCTGGTAAG
GATAAGTGTCGGCTTAGAAGACGTTTCGGATCTTCGCCAGCGATTTCAGC
AGGCCCTGAAGGCTGTCGCTGAAGTAAACGCATAA back to topCoding sequence (CDS) from alignment at ch7:1368544..1370728- >KYF_009142-T1 ID=KYF_009142-T1|Name=KYF_009142-T1|organism=Aspergillus niger KYF3|type=CDS|length=9045bp|location=Sequence derived from alignment at ch7:1368544..1370728- (Aspergillus niger KYF3)
GCAAGCTCATTCGGTGTCGACTTTGACCTGGTAAGGATAAGTGTCGGCTT
AGAAGACGTTTCGGATCTTCGCCAGCGATTTCAGCAGGCCCTGAAGGCTG
TCGCTGAAGTAAACGCATAACTGCCCTTACACTCTGTTGGCGCATTATAG
TGAACTAGAATGGTGAAACAGGTATACTATCCGAAGTACAACTCTTCAAA
GCCATTGTATGAAGCATTTCGCAACCAAAGTGGAGGATATGGCGGTCTAT
TTTCGGTTACATTCCATTCAACAGCAGCGGCAGTTGCCTTTTTTGATCAT
CTCGAAGTGCTCAAGGGACCCAGTCTCGGTACTAATTTTACACTGAGGCA
GTCAGTGTGTCCCTTCCAACATGGAAAGCGAATGTCGCATACGAGGAAGG
AGAGTCGTGGGTTGTGGATAAGATGCAATGTGGATACCCTCGCTTCTTTA
TACATCCCATTATTCAGGATCTGGCGAGGGAGATCGTACGTCGCTATGGC
AGCCCAGAATTGGAAACGGCTATACTATTTCCTTCTCTCAAAACATCAGG
GGTCTGTTATTCGTTTCTCAAATCGAAAATACTAGCCGAGGAACCCTGTA
ATGTCCGGACAATAGATTTCGCCCTACCCATTCAAGGCGAAGACGCGCCG
TCTGGTACGGATTCGATACTATCGTGCGTGATATATCCCATCCAACACGC
GCCGATTGCCAAGCAGGTCTGGCAACATACAGGAAATGGAATCTCAAGTA
GACGTGCTGAGTTCTGCCTGAACGCGTTAAGGGATGGGTTTCTCGTGGAA
AGGAAACCTGCAGCTCAATGTATGGCATCGCCACGGTTTTTCAAGGGGCC
AAGGAGGTATCAGGGTCGAGAGTCTATAAGTGGAATGTCTCAGGGAAGTG
GAACGCACGCCCGCGACAGTACTACGGGTACAAACACGACAACCAGGAAC
ATGCAAGATGGCCGCGAACATGTCCAGTTCATTGAAGAACGATTCGGTCG
GAATCTAAGCACCTCGCTGGCCGGTCAGGCAAGGCTGGCTGTACGGCGAC
GCATTGCGGGCGTTCTGACAGCCGACATGGAGCTTAATGAGGCCCTTGAA
GAAAAGTCAGGAGAAGGCCGTGTCGCGGGGCTGACAGAGTCCGATGTTTT
TCTCTTTCCGACCGGCATGAGTTCCATCTTCAACGCTCATCAGATGTTGA
TGGCTGCGAAGGGAGAGATGAAGAGCATCTGCTTCGGATTCCCCTATACC
GACACCCTAAAGATACTCCAAAAATGGGGCCCGGGCTGTCTGTTTTATGG
TCATGGCTCTTCGGAGGATCTCGATGACCTGGAGTCGCAGCTACTGAAAG
GAGAGAGATTCCTTGCTCTTTTCACTGAATTCCCGGGCAATCCGTTACTG
AAAGCCCCCGATTTGAAGAGAATCAGGTCACTCGCCGACAGGTATAATTT
CGCTGTTGTAGTAGATGAGACGGTAGGGAATTTTCTCAACATCAATGTGC
TTCCCTATGCAGATATTGTGGTAAGCAGCTTGACCAAAATTTTCAGTGGT
GATAGTAATGTCATGGGGGGAAGTGCAGTACTCAACCCCCATGGGCATTA
TTACGGGTCTCTAAAAAACATATTTGCACGCGAATATGAGGACAATCTTT
GGGCAGAAGATGCCGTATTCCTCGAAAGGAATAGCCGCGATTTCGTATCC
AGAATTGATAAGATTAATAAAACCACGGAAGACATCACGGCGATGTTGGA
GGACTCTCCACTCGATGATCCAAGACATTGGAGGTCCAGTCCCTCCTCAC
ACTGATCACGCAAGCTCATTCGGTGTCGACTTTGACCTGGTAAGGATAAG
TGTCGGCTTAGAAGACGTTTCGGATCTTCGCCAGCGATTTCAGCAGGCCC
TGAAGGCTGTCGCTGAAGTAAACGCATAACTGCCCTTACACTCTGTTGGC
GCATTATAGTGAACTAGAATGGTGAAACAGGTATACTATCCGAAGTACAA
CTCTTCAAAGCCATTGTATGAAGCATTTCGCAACCAAAGTGGAGGATATG
GCGGTCTATTTTCGGTTACATTCCATTCAACAGCAGCGGCAGTTGCCTTT
TTTGATCATCTCGAAGTGCTCAAGGGACCCAGTCTCGGTACTAATTTTAC
ACTGAGGCAGTCAGTGTGTCCCTTCCAACATGGAAAGCGAATGTCGCATA
CGAGGAAGGAGAGTCGTGGGTTGTGGATAAGATGCAATGTGGATACCCTC
GCTTCTTTATACATCCCATTATTCAGGATCTGGCGAGGGAGATCGTACGT
CGCTATGGCAGCCCAGAATTGGAAACGGCTATACTATTTCCTTCTCTCAA
AACATCAGGGGTCTGTTATTCGTTTCTCAAATCGAAAATACTAGCCGAGG
AACCCTGTAATGTCCGGACAATAGATTTCGCCCTACCCATTCAAGGCGAA
GACGCGCCGTCTGGTACGGATTCGATACTATCGTGCGTGATATATCCCAT
CCAACACGCGCCGATTGCCAAGCAGGTCTGGCAACATACAGGAAATGGAA
TCTCAAGTAGACGTGCTGAGTTCTGCCTGAACGCGTTAAGGGATGGGTTT
CTCGTGGAAAGGAAACCTGCAGCTCAATGTATGGCATCGCCACGGTTTTT
CAAGGGGCCAAGGAGGTATCAGGGTCGAGAGTCTATAAGTGGAATGTCTC
AGGGAAGTGGAACGCACGCCCGCGACAGTACTACGGGTACAAACACGACA
ACCAGGAACATGCAAGATGGCCGCGAACATGTCCAGTTCATTGAAGAACG
ATTCGGTCGGAATCTAAGCACCTCGCTGGCCGGTCAGGCAAGGCTGGCTG
TACGGCGACGCATTGCGGGCGTTCTGACAGCCGACATGGAGCTTAATGAG
GCCCTTGAAGAAAAGTCAGGAGAAGGCCGTGTCGCGGGGCTGACAGAGTC
CGATGTTTTTCTCTTTCCGACCGGCATGAGTTCCATCTTCAACGCTCATC
AGATGTTGATGGCTGCGAAGGGAGAGATGAAGAGCATCTGCTTCGGATTC
CCCTATACCGACACCCTAAAGATACTCCAAAAATGGGGCCCGGGCTGTCT
GTTTTATGGTCATGGCTCTTCGGAGGATCTCGATGACCTGGAGTCGCAGC
TACTGAAAGGAGAGAGATTCCTTGCTCTTTTCACTGAATTCCCGGGCAAT
CCGTTACTGAAAGCCCCCGATTTGAAGAGAATCAGGTCACTCGCCGACAG
GTATAATTTCGCTGTTGTAGTAGATGAGACGGTAGGGAATTTTCTCAACA
TCAATGTGCTTCCCTATGCAGATATTGTGGTAAGCAGCTTGACCAAAATT
TTCAGTGGTGATAGTAATGTCATGGGGGGAAGTGCAGTACTCAACCCCCA
TGGGCATTATTACGGGTCTCTAAAAAACATATTTGCACGCGAATATGAGG
ACAATCTTTGGGCAGAAGATGCCGTATTCCTCGAAAGGAATAGCCGCGAT
TTCGTATCCAGAATTGATAAGATTAATAAAACCACGGAAGACATCACGGC
GATGTTGGAGGACTCTCCACTCGATGATCCAAGACATTGGAGGTCCAGTC
CCTCCTCACACTGATCACGCAAGCTCATTCGGTGTCGACTTTGACCTGGT
AAGGATAAGTGTCGGCTTAGAAGACGTTTCGGATCTTCGCCAGCGATTTC
AGCAGGCCCTGAAGGCTGTCGCTGAAGTAAACGCATAACTGCCCTTACAC
TCTGTTGGCGCATTATAGTGAACTAGAATGGTGAAACAGGTATACTATCC
GAAGTACAACTCTTCAAAGCCATTGTATGAAGCATTTCGCAACCAAAGTG
GAGGATATGGCGGTCTATTTTCGGTTACATTCCATTCAACAGCAGCGGCA
GTTGCCTTTTTTGATCATCTCGAAGTGCTCAAGGGACCCAGTCTCGGTAC
TAATTTTACACTGAGGCAGTCAGTGTGTCCCTTCCAACATGGAAAGCGAA
TGTCGCATACGAGGAAGGAGAGTCGTGGGTTGTGGATAAGATGCAATGTG
GATACCCTCGCTTCTTTATACATCCCATTATTCAGGATCTGGCGAGGGAG
ATCGTACGTCGCTATGGCAGCCCAGAATTGGAAACGGCTATACTATTTCC
TTCTCTCAAAACATCAGGGGTCTGTTATTCGTTTCTCAAATCGAAAATAC
TAGCCGAGGAACCCTGTAATGTCCGGACAATAGATTTCGCCCTACCCATT
CAAGGCGAAGACGCGCCGTCTGGTACGGATTCGATACTATCGTGCGTGAT
ATATCCCATCCAACACGCGCCGATTGCCAAGCAGGTCTGGCAACATACAG
GAAATGGAATCTCAAGTAGACGTGCTGAGTTCTGCCTGAACGCGTTAAGG
GATGGGTTTCTCGTGGAAAGGAAACCTGCAGCTCAATGTATGGCATCGCC
ACGGTTTTTCAAGGGGCCAAGGAGGTATCAGGGTCGAGAGTCTATAAGTG
GAATGTCTCAGGGAAGTGGAACGCACGCCCGCGACAGTACTACGGGTACA
AACACGACAACCAGGAACATGCAAGATGGCCGCGAACATGTCCAGTTCAT
TGAAGAACGATTCGGTCGGAATCTAAGCACCTCGCTGGCCGGTCAGGCAA
GGCTGGCTGTACGGCGACGCATTGCGGGCGTTCTGACAGCCGACATGGAG
CTTAATGAGGCCCTTGAAGAAAAGTCAGGAGAAGGCCGTGTCGCGGGGCT
GACAGAGTCCGATGTTTTTCTCTTTCCGACCGGCATGAGTTCCATCTTCA
ACGCTCATCAGATGTTGATGGCTGCGAAGGGAGAGATGAAGAGCATCTGC
TTCGGATTCCCCTATACCGACACCCTAAAGATACTCCAAAAATGGGGCCC
GGGCTGTCTGTTTTATGGTCATGGCTCTTCGGAGGATCTCGATGACCTGG
AGTCGCAGCTACTGAAAGGAGAGAGATTCCTTGCTCTTTTCACTGAATTC
CCGGGCAATCCGTTACTGAAAGCCCCCGATTTGAAGAGAATCAGGTCACT
CGCCGACAGGTATAATTTCGCTGTTGTAGTAGATGAGACGGTAGGGAATT
TTCTCAACATCAATGTGCTTCCCTATGCAGATATTGTGGTAAGCAGCTTG
ACCAAAATTTTCAGTGGTGATAGTAATGTCATGGGGGGAAGTGCAGTACT
CAACCCCCATGGGCATTATTACGGGTCTCTAAAAAACATATTTGCACGCG
AATATGAGGACAATCTTTGGGCAGAAGATGCCGTATTCCTCGAAAGGAAT
AGCCGCGATTTCGTATCCAGAATTGATAAGATTAATAAAACCACGGAAGA
CATCACGGCGATGTTGGAGGACTCTCCACTCGATGATCCAAGACATTGGA
GGTCCAGTCCCTCCTCACACTGATCACGCAAGCTCATTCGGTGTCGACTT
TGACCTGGTAAGGATAAGTGTCGGCTTAGAAGACGTTTCGGATCTTCGCC
AGCGATTTCAGCAGGCCCTGAAGGCTGTCGCTGAAGTAAACGCATAACTG
CCCTTACACTCTGTTGGCGCATTATAGTGAACTAGAATGGTGAAACAGGT
ATACTATCCGAAGTACAACTCTTCAAAGCCATTGTATGAAGCATTTCGCA
ACCAAAGTGGAGGATATGGCGGTCTATTTTCGGTTACATTCCATTCAACA
GCAGCGGCAGTTGCCTTTTTTGATCATCTCGAAGTGCTCAAGGGACCCAG
TCTCGGTACTAATTTTACACTGAGGCAGTCAGTGTGTCCCTTCCAACATG
GAAAGCGAATGTCGCATACGAGGAAGGAGAGTCGTGGGTTGTGGATAAGA
TGCAATGTGGATACCCTCGCTTCTTTATACATCCCATTATTCAGGATCTG
GCGAGGGAGATCGTACGTCGCTATGGCAGCCCAGAATTGGAAACGGCTAT
ACTATTTCCTTCTCTCAAAACATCAGGGGTCTGTTATTCGTTTCTCAAAT
CGAAAATACTAGCCGAGGAACCCTGTAATGTCCGGACAATAGATTTCGCC
CTACCCATTCAAGGCGAAGACGCGCCGTCTGGTACGGATTCGATACTATC
GTGCGTGATATATCCCATCCAACACGCGCCGATTGCCAAGCAGGTCTGGC
AACATACAGGAAATGGAATCTCAAGTAGACGTGCTGAGTTCTGCCTGAAC
GCGTTAAGGGATGGGTTTCTCGTGGAAAGGAAACCTGCAGCTCAATGTAT
GGCATCGCCACGGTTTTTCAAGGGGCCAAGGAGGTATCAGGGTCGAGAGT
CTATAAGTGGAATGTCTCAGGGAAGTGGAACGCACGCCCGCGACAGTACT
ACGGGTACAAACACGACAACCAGGAACATGCAAGATGGCCGCGAACATGT
CCAGTTCATTGAAGAACGATTCGGTCGGAATCTAAGCACCTCGCTGGCCG
GTCAGGCAAGGCTGGCTGTACGGCGACGCATTGCGGGCGTTCTGACAGCC
GACATGGAGCTTAATGAGGCCCTTGAAGAAAAGTCAGGAGAAGGCCGTGT
CGCGGGGCTGACAGAGTCCGATGTTTTTCTCTTTCCGACCGGCATGAGTT
CCATCTTCAACGCTCATCAGATGTTGATGGCTGCGAAGGGAGAGATGAAG
AGCATCTGCTTCGGATTCCCCTATACCGACACCCTAAAGATACTCCAAAA
ATGGGGCCCGGGCTGTCTGTTTTATGGTCATGGCTCTTCGGAGGATCTCG
ATGACCTGGAGTCGCAGCTACTGAAAGGAGAGAGATTCCTTGCTCTTTTC
ACTGAATTCCCGGGCAATCCGTTACTGAAAGCCCCCGATTTGAAGAGAAT
CAGGTCACTCGCCGACAGGTATAATTTCGCTGTTGTAGTAGATGAGACGG
TAGGGAATTTTCTCAACATCAATGTGCTTCCCTATGCAGATATTGTGGTA
AGCAGCTTGACCAAAATTTTCAGTGGTGATAGTAATGTCATGGGGGGAAG
TGCAGTACTCAACCCCCATGGGCATTATTACGGGTCTCTAAAAAACATAT
TTGCACGCGAATATGAGGACAATCTTTGGGCAGAAGATGCCGTATTCCTC
GAAAGGAATAGCCGCGATTTCGTATCCAGAATTGATAAGATTAATAAAAC
CACGGAAGACATCACGGCGATGTTGGAGGACTCTCCACTCGATGATCCAA
GACATTGGAGGTCCAGTCCCTCCTCACACTGATCACGCAAGCTCATTCGG
TGTCGACTTTGACCTGGTAAGGATAAGTGTCGGCTTAGAAGACGTTTCGG
ATCTTCGCCAGCGATTTCAGCAGGCCCTGAAGGCTGTCGCTGAAGTAAAC
GCATAACTGCCCTTACACTCTGTTGGCGCATTATAGTGAACTAGAATGGT
GAAACAGGTATACTATCCGAAGTACAACTCTTCAAAGCCATTGTATGAAG
CATTTCGCAACCAAAGTGGAGGATATGGCGGTCTATTTTCGGTTACATTC
CATTCAACAGCAGCGGCAGTTGCCTTTTTTGATCATCTCGAAGTGCTCAA
GGGACCCAGTCTCGGTACTAATTTTACACTGAGGCAGTCAGTGTGTCCCT
TCCAACATGGAAAGCGAATGTCGCATACGAGGAAGGAGAGTCGTGGGTTG
TGGATAAGATGCAATGTGGATACCCTCGCTTCTTTATACATCCCATTATT
CAGGATCTGGCGAGGGAGATCGTACGTCGCTATGGCAGCCCAGAATTGGA
AACGGCTATACTATTTCCTTCTCTCAAAACATCAGGGGTCTGTTATTCGT
TTCTCAAATCGAAAATACTAGCCGAGGAACCCTGTAATGTCCGGACAATA
GATTTCGCCCTACCCATTCAAGGCGAAGACGCGCCGTCTGGTACGGATTC
GATACTATCGTGCGTGATATATCCCATCCAACACGCGCCGATTGCCAAGC
AGGTCTGGCAACATACAGGAAATGGAATCTCAAGTAGACGTGCTGAGTTC
TGCCTGAACGCGTTAAGGGATGGGTTTCTCGTGGAAAGGAAACCTGCAGC
TCAATGTATGGCATCGCCACGGTTTTTCAAGGGGCCAAGGAGGTATCAGG
GTCGAGAGTCTATAAGTGGAATGTCTCAGGGAAGTGGAACGCACGCCCGC
GACAGTACTACGGGTACAAACACGACAACCAGGAACATGCAAGATGGCCG
CGAACATGTCCAGTTCATTGAAGAACGATTCGGTCGGAATCTAAGCACCT
CGCTGGCCGGTCAGGCAAGGCTGGCTGTACGGCGACGCATTGCGGGCGTT
CTGACAGCCGACATGGAGCTTAATGAGGCCCTTGAAGAAAAGTCAGGAGA
AGGCCGTGTCGCGGGGCTGACAGAGTCCGATGTTTTTCTCTTTCCGACCG
GCATGAGTTCCATCTTCAACGCTCATCAGATGTTGATGGCTGCGAAGGGA
GAGATGAAGAGCATCTGCTTCGGATTCCCCTATACCGACACCCTAAAGAT
ACTCCAAAAATGGGGCCCGGGCTGTCTGTTTTATGGTCATGGCTCTTCGG
AGGATCTCGATGACCTGGAGTCGCAGCTACTGAAAGGAGAGAGATTCCTT
GCTCTTTTCACTGAATTCCCGGGCAATCCGTTACTGAAAGCCCCCGATTT
GAAGAGAATCAGGTCACTCGCCGACAGGTATAATTTCGCTGTTGTAGTAG
ATGAGACGGTAGGGAATTTTCTCAACATCAATGTGCTTCCCTATGCAGAT
ATTGTGGTAAGCAGCTTGACCAAAATTTTCAGTGGTGATAGTAATGTCAT
GGGGGGAAGTGCAGTACTCAACCCCCATGGGCATTATTACGGGTCTCTAA
AAAACATATTTGCACGCGAATATGAGGACAATCTTTGGGCAGAAGATGCC
GTATTCCTCGAAAGGAATAGCCGCGATTTCGTATCCAGAATTGATAAGAT
TAATAAAACCACGGAAGACATCACGGCGATGTTGGAGGACTCTCCACTCG
ATGATCCAAGACATTGGAGGTCCAGTCCCTCCTCACACTGATCAC back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0019346 | transsulfuration |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003824 | catalytic activity |
| GO:0030170 | pyridoxal phosphate binding |
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 |
|---|
| DBxref | InterPro:IPR015424 |
| DBxref | InterPro:IPR015422 |
| DBxref | InterPro:IPR015421 |
| DBxref | InterPro:IPR000277 |
| DBxref | PFAM:PF01053 |
| 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 |
|---|
| ch7 | supercontig | ch7:1368544..1370728 - |
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