|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at ch8:1083767..1086691+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >KYF_010381-T1 ID=KYF_010381-T1|Name=KYF_010381-T1|organism=Aspergillus niger KYF3|type=mRNA|length=2925bp|location=Sequence derived from alignment at ch8:1083767..1086691+ (Aspergillus niger KYF3)
ATGGGTTCCAACAGCGGCAGAACAACCAAGCTCCCCTTGGTCCCGCTGCC
CAAAGGATCGGTCTTACTTCCTGGAATTACGCTACGTATTCCTGTCTCGA
ATCGCCCGGATCTCGCCAACTTACTCTCGACAATCGTTGATCGATCAGCC
GTGGCGAAGCGCGATGGAACGGCTATCACTTTCGGATGCGTTCCCCTCAG
TTCACCGTATCTTAGCAAGGACGGTCAACGACTCATCGACGATGGAAGCT
TGGATGAGGACCGGAGAGAGGAGTTTGATATGATTGATGCTGGACAAGCC
AGAAAGGAGGATTTGTTTCGACATGGTACCGTTGGTAAAGTGATCGGTAT
CCAGCGCCGGGCCTATTCGGAGCCGGCTCTTGTGGTCCAGGGTGTCCAGC
GGTTCACCATCAGGCGCGTCCTGAAGGAGAGGCCGTTTTTCGAGGCTGAA
GCTGTTGTTCATGATGAGAAAGGTCAGTTTTCTTTCATTGCCCTGCCCTG
CTGTTGCTACTTCTTATTTGGACGATTGCCTAAACCGGTTATTTCTAGAA
ACAGTCTCCGGCGATGCTGAAACAGTGGAGTTATTTCAACAGCTGCGACA
ACTTTCTCGCGAGCTCCTGACCTTGCTGCGACTGTCTTCGTTGCTGCCAT
CTCCGGGAAGCCGCCTGTCCCCACTCATTGCCCGGAAATTCGAGCTGTTC
ATAACCAAGTCCGATGTCTCCCATGCAGGTAGACTAGCCGATTTCATGGC
GGACGTTGCTGACTCCGGCTTCGAAGAGAAGCTTCGCATATTAACGTCGC
TTGACGTCAAAATAAGGCTAGAGAGAGTTGTTGAGATCCTAACTAGGCAA
TTACAGAGCATTAAGAGCAATGTGAAGGTCACAACAATCACCACCAACAG
CTTTCCTAGCTCTGGGTTTGATATCAATCAGATCGATCCCCGTGACCGCG
AGATTCTGGCAAGGAAGGCGATGGCTGGTCTCAGCGGACTGACGCCACCC
GGGTTGTCAGCCGGTCGAAACAATGACAACGATGACAAGGAATCAAACGA
AGTCGATGAGCTGCAGCAGAGACTGCAAGAGGCCCAGCTTAGCCCTGAGG
CTAGAAAGGTTGCCGACAAGGAGCTGCGACGTCTTCGTAAAATGAACCCG
GCAAATGCTGAGTACGGTGTCTGCCGGACCTACCTCGAGAATATTGCGGA
TATCCCATGGACTAAGATGACCGAGGACCAGCTTGGACCGGAGACATTGA
AGAGAGCCAGAAAACAGCTAGACGATGATCACTACGGTTTGGAGAAGATC
AAGAAGAGACTTCTTGAGTATTTGGCCGTGCTCCGACTCAAGCAGTCTAC
CAACAGAGATGTCGAGCGCCAGATTGAGTCCTTGTCGAAAGAGCTCGAGG
CATCCGATGGAGGCGATCTTGAGAAGGAGGTACCTGTTCTGTCCGAGACG
GATCGAGTCGCTGTTGAGACAAAGCTGCACATGCTGAAGACTCGCCGCAT
GGGAGACAAGTCACCCATCCTCCTGCTTGTTGGTCCACCAGGCGTTGGTA
AGACCAGCTTGGCACGATCAGTGGCCTCATCGCTCGGTCGCAAGTTTCAC
AGAATCTCTTTGGGTGGCGTTAGAGACGAGGCTGAAATCCGAGGCCATCG
GCGAACCTATGTTGCTGCGATGCCGGGACTAATCGTCAGTGGTCTCAAGA
AGGTTGGCGTTGCTAATCCAGTGTTCTTGCTTGACGAGATTGACAAGGTC
GGAGGCGCCAATTTCCAAGGAGACCCATCCGCAGCCATGCTTGAGGTCCT
GGATCCTGAACAGAACCATACATTTTCGGATCACTACATCAACATCCCTA
TTGATCTGAGCAAGGTGCTTTTCATTGCCACTGCCAATTCTTTGGACACT
ATCCCGGCACCCCTGCTTGACCGGATGGAAACTATCTCTCTGTCTGGCTA
CACCACGGTTGAGAAGCGACACATTGCCAAGAGACACCTCATTCCCAAGC
AAATCAGGGCGAACGGGCTTTCCGATGGTCAGGTCGTTCTGTCTGACGAA
GTAATTGACAAAATTATTACGTCTTACACCAGGGAGTCGGGTGTTCGTAA
CCTAGAGCGTGAGCTTGGCTCGGTCTGTCGGTTCAAGGCTGTCCAGTTTG
CGGATGCGGGGGATGCAGGCCGACTTGACGCGTACAACCCCGTGGTGAGC
ATGGACGAGTTGGAAGAAATATTAGGTATCGAGCGCTTTGAGGAAGAAAT
CGCCGAAAAGCATGGCCGTCCCGGTGTTGTCACTGGACTTGTCGCGTATT
CCACTGGAGGTCAAGGCAGCATTCTGTTCATCGAAGTTGCAGACATGCCA
GGCAACGGCAGAGTCCAGCTCACCGGAAAGCTGGGAGACGTGCTGAAGGA
GAGTGTAGAGGTAGCTTTGACGTGGGTCAAAGCTCATGCGTTCGAGCTTG
GGCTGACTGCGGACCCTACCGAGGATATCATGAAGAACCGCAGCCTGCAC
GTTCACTGCCCGTCCGGAGCCATCCCGAAGGACGGTCCCTCGGCAGGTCT
AGCACACACGATGGGTCTGATCTCGCTATTCACCGGCAAAGCGGTGCCTC
CCAGTGTTGCCATGACCGGAGAAGTGTCGCTCCGCGGCAAGGTAATGCCT
GTTGGTGGCATAAAGGAGAAGCTGATCGGTGCGCTGCGCGCCGGCGTCAA
GACTGTCCTCTTGCCCCATCACAACCGCAAGGATGTCAAGGACGTGCCGC
AGGAAGTCAGCGAAGGACTTGAGATCGTATATGTAACGTGAGTACCTTAA
TAATCCGTTCTTGCTGTTGCATATTGCTAACACTTGACAGGCATATCTGG
GAAGCTATCCGACAGGTGTGGCCCGATGCCCACTGGCCTGGTCAGCACAC
CAACTTCATCGAGAGCCGGCTGTAA back to topCoding sequence (CDS) from alignment at ch8:1083767..1086691+ >KYF_010381-T1 ID=KYF_010381-T1|Name=KYF_010381-T1|organism=Aspergillus niger KYF3|type=CDS|length=8388bp|location=Sequence derived from alignment at ch8:1083767..1086691+ (Aspergillus niger KYF3)
ATGGGTTCCAACAGCGGCAGAACAACCAAGCTCCCCTTGGTCCCGCTGCC
CAAAGGATCGGTCTTACTTCCTGGAATTACGCTACGTATTCCTGTCTCGA
ATCGCCCGGATCTCGCCAACTTACTCTCGACAATCGTTGATCGATCAGCC
GTGGCGAAGCGCGATGGAACGGCTATCACTTTCGGATGCGTTCCCCTCAG
TTCACCGTATCTTAGCAAGGACGGTCAACGACTCATCGACGATGGAAGCT
TGGATGAGGACCGGAGAGAGGAGTTTGATATGATTGATGCTGGACAAGCC
AGAAAGGAGGATTTGTTTCGACATGGTACCGTTGGTAAAGTGATCGGTAT
CCAGCGCCGGGCCTATTCGGAGCCGGCTCTTGTGGTCCAGGGTGTCCAGC
GGTTCACCATCAGGCGCGTCCTGAAGGAGAGGCCGTTTTTCGAGGCTGAA
GCTGTTGTTCATGATGAGAAAGAAACAGTCTCCGGCGATGCTGAAACAGT
GGAGTTATTTCAACAGCTGCGACAACTTTCTCGCGAGCTCCTGACCTTGC
TGCGACTGTCTTCGTTGCTGCCATCTCCGGGAAGCCGCCTGTCCCCACTC
ATTGCCCGGAAATTCGAGCTGTTCATAACCAAGTCCGATGTCTCCCATGC
AGGTAGACTAGCCGATTTCATGGCGGACGTTGCTGACTCCGGCTTCGAAG
AGAAGCTTCGCATATTAACGTCGCTTGACGTCAAAATAAGGCTAGAGAGA
GTTGTTGAGATCCTAACTAGGCAATTACAGAGCATTAAGAGCAATGTGAA
GGTCACAACAATCACCACCAACAGCTTTCCTAGCTCTGGGTTTGATATCA
ATCAGATCGATCCCCGTGACCGCGAGATTCTGGCAAGGAAGGCGATGGCT
GGTCTCAGCGGACTGACGCCACCCGGGTTGTCAGCCGGTCGAAACAATGA
CAACGATGACAAGGAATCAAACGAAGTCGATGAGCTGCAGCAGAGACTGC
AAGAGGCCCAGCTTAGCCCTGAGGCTAGAAAGGTTGCCGACAAGGAGCTG
CGACGTCTTCGTAAAATGAACCCGGCAAATGCTGAGTACGGTGTCTGCCG
GACCTACCTCGAGAATATTGCGGATATCCCATGGACTAAGATGACCGAGG
ACCAGCTTGGACCGGAGACATTGAAGAGAGCCAGAAAACAGCTAGACGAT
GATCACTACGGTTTGGAGAAGATCAAGAAGAGACTTCTTGAGTATTTGGC
CGTGCTCCGACTCAAGCAGTCTACCAACAGAGATGTCGAGCGCCAGATTG
AGTCCTTGTCGAAAGAGCTCGAGGCATCCGATGGAGGCGATCTTGAGAAG
GAGGTACCTGTTCTGTCCGAGACGGATCGAGTCGCTGTTGAGACAAAGCT
GCACATGCTGAAGACTCGCCGCATGGGAGACAAGTCACCCATCCTCCTGC
TTGTTGGTCCACCAGGCGTTGGTAAGACCAGCTTGGCACGATCAGTGGCC
TCATCGCTCGGTCGCAAGTTTCACAGAATCTCTTTGGGTGGCGTTAGAGA
CGAGGCTGAAATCCGAGGCCATCGGCGAACCTATGTTGCTGCGATGCCGG
GACTAATCGTCAGTGGTCTCAAGAAGGTTGGCGTTGCTAATCCAGTGTTC
TTGCTTGACGAGATTGACAAGGTCGGAGGCGCCAATTTCCAAGGAGACCC
ATCCGCAGCCATGCTTGAGGTCCTGGATCCTGAACAGAACCATACATTTT
CGGATCACTACATCAACATCCCTATTGATCTGAGCAAGGTGCTTTTCATT
GCCACTGCCAATTCTTTGGACACTATCCCGGCACCCCTGCTTGACCGGAT
GGAAACTATCTCTCTGTCTGGCTACACCACGGTTGAGAAGCGACACATTG
CCAAGAGACACCTCATTCCCAAGCAAATCAGGGCGAACGGGCTTTCCGAT
GGTCAGGTCGTTCTGTCTGACGAAGTAATTGACAAAATTATTACGTCTTA
CACCAGGGAGTCGGGTGTTCGTAACCTAGAGCGTGAGCTTGGCTCGGTCT
GTCGGTTCAAGGCTGTCCAGTTTGCGGATGCGGGGGATGCAGGCCGACTT
GACGCGTACAACCCCGTGGTGAGCATGGACGAGTTGGAAGAAATATTAGG
TATCGAGCGCTTTGAGGAAGAAATCGCCGAAAAGCATGGCCGTCCCGGTG
TTGTCACTGGACTTGTCGCGTATTCCACTGGAGGTCAAGGCAGCATTCTG
TTCATCGAAGTTGCAGACATGCCAGGCAACGGCAGAGTCCAGCTCACCGG
AAAGCTGGGAGACGTGCTGAAGGAGAGTGTAGAGGTAGCTTTGACGTGGG
TCAAAGCTCATGCGTTCGAGCTTGGGCTGACTGCGGACCCTACCGAGGAT
ATCATGAAGAACCGCAGCCTGCACGTTCACTGCCCGTCCGGAGCCATCCC
GAAGGACGGTCCCTCGGCAGGTCTAGCACACACGATGGGTCTGATCTCGC
TATTCACCGGCAAAGCGGTGCCTCCCAGTGTTGCCATGACCGGAGAAGTG
TCGCTCCGCGGCAAGGTAATGCCTGTTGGTGGCATAAAGGAGAAGCTGAT
CGGTGCGCTGCGCGCCGGCGTCAAGACTGTCCTCTTGCCCCATCACAACC
GCAAGGATGTCAAGGACGTGCCGCAGGAAGTCAGCGAAGGACTTGAGATC
GTATATGTAACGCATATCTGGGAAGCTATCCGACAGGTGTGGCCCGATGC
CCACTGGCCTGGTCAGCACACCAACTTCATCGAGAGCCGGCTGTAAATGG
GTTCCAACAGCGGCAGAACAACCAAGCTCCCCTTGGTCCCGCTGCCCAAA
GGATCGGTCTTACTTCCTGGAATTACGCTACGTATTCCTGTCTCGAATCG
CCCGGATCTCGCCAACTTACTCTCGACAATCGTTGATCGATCAGCCGTGG
CGAAGCGCGATGGAACGGCTATCACTTTCGGATGCGTTCCCCTCAGTTCA
CCGTATCTTAGCAAGGACGGTCAACGACTCATCGACGATGGAAGCTTGGA
TGAGGACCGGAGAGAGGAGTTTGATATGATTGATGCTGGACAAGCCAGAA
AGGAGGATTTGTTTCGACATGGTACCGTTGGTAAAGTGATCGGTATCCAG
CGCCGGGCCTATTCGGAGCCGGCTCTTGTGGTCCAGGGTGTCCAGCGGTT
CACCATCAGGCGCGTCCTGAAGGAGAGGCCGTTTTTCGAGGCTGAAGCTG
TTGTTCATGATGAGAAAGAAACAGTCTCCGGCGATGCTGAAACAGTGGAG
TTATTTCAACAGCTGCGACAACTTTCTCGCGAGCTCCTGACCTTGCTGCG
ACTGTCTTCGTTGCTGCCATCTCCGGGAAGCCGCCTGTCCCCACTCATTG
CCCGGAAATTCGAGCTGTTCATAACCAAGTCCGATGTCTCCCATGCAGGT
AGACTAGCCGATTTCATGGCGGACGTTGCTGACTCCGGCTTCGAAGAGAA
GCTTCGCATATTAACGTCGCTTGACGTCAAAATAAGGCTAGAGAGAGTTG
TTGAGATCCTAACTAGGCAATTACAGAGCATTAAGAGCAATGTGAAGGTC
ACAACAATCACCACCAACAGCTTTCCTAGCTCTGGGTTTGATATCAATCA
GATCGATCCCCGTGACCGCGAGATTCTGGCAAGGAAGGCGATGGCTGGTC
TCAGCGGACTGACGCCACCCGGGTTGTCAGCCGGTCGAAACAATGACAAC
GATGACAAGGAATCAAACGAAGTCGATGAGCTGCAGCAGAGACTGCAAGA
GGCCCAGCTTAGCCCTGAGGCTAGAAAGGTTGCCGACAAGGAGCTGCGAC
GTCTTCGTAAAATGAACCCGGCAAATGCTGAGTACGGTGTCTGCCGGACC
TACCTCGAGAATATTGCGGATATCCCATGGACTAAGATGACCGAGGACCA
GCTTGGACCGGAGACATTGAAGAGAGCCAGAAAACAGCTAGACGATGATC
ACTACGGTTTGGAGAAGATCAAGAAGAGACTTCTTGAGTATTTGGCCGTG
CTCCGACTCAAGCAGTCTACCAACAGAGATGTCGAGCGCCAGATTGAGTC
CTTGTCGAAAGAGCTCGAGGCATCCGATGGAGGCGATCTTGAGAAGGAGG
TACCTGTTCTGTCCGAGACGGATCGAGTCGCTGTTGAGACAAAGCTGCAC
ATGCTGAAGACTCGCCGCATGGGAGACAAGTCACCCATCCTCCTGCTTGT
TGGTCCACCAGGCGTTGGTAAGACCAGCTTGGCACGATCAGTGGCCTCAT
CGCTCGGTCGCAAGTTTCACAGAATCTCTTTGGGTGGCGTTAGAGACGAG
GCTGAAATCCGAGGCCATCGGCGAACCTATGTTGCTGCGATGCCGGGACT
AATCGTCAGTGGTCTCAAGAAGGTTGGCGTTGCTAATCCAGTGTTCTTGC
TTGACGAGATTGACAAGGTCGGAGGCGCCAATTTCCAAGGAGACCCATCC
GCAGCCATGCTTGAGGTCCTGGATCCTGAACAGAACCATACATTTTCGGA
TCACTACATCAACATCCCTATTGATCTGAGCAAGGTGCTTTTCATTGCCA
CTGCCAATTCTTTGGACACTATCCCGGCACCCCTGCTTGACCGGATGGAA
ACTATCTCTCTGTCTGGCTACACCACGGTTGAGAAGCGACACATTGCCAA
GAGACACCTCATTCCCAAGCAAATCAGGGCGAACGGGCTTTCCGATGGTC
AGGTCGTTCTGTCTGACGAAGTAATTGACAAAATTATTACGTCTTACACC
AGGGAGTCGGGTGTTCGTAACCTAGAGCGTGAGCTTGGCTCGGTCTGTCG
GTTCAAGGCTGTCCAGTTTGCGGATGCGGGGGATGCAGGCCGACTTGACG
CGTACAACCCCGTGGTGAGCATGGACGAGTTGGAAGAAATATTAGGTATC
GAGCGCTTTGAGGAAGAAATCGCCGAAAAGCATGGCCGTCCCGGTGTTGT
CACTGGACTTGTCGCGTATTCCACTGGAGGTCAAGGCAGCATTCTGTTCA
TCGAAGTTGCAGACATGCCAGGCAACGGCAGAGTCCAGCTCACCGGAAAG
CTGGGAGACGTGCTGAAGGAGAGTGTAGAGGTAGCTTTGACGTGGGTCAA
AGCTCATGCGTTCGAGCTTGGGCTGACTGCGGACCCTACCGAGGATATCA
TGAAGAACCGCAGCCTGCACGTTCACTGCCCGTCCGGAGCCATCCCGAAG
GACGGTCCCTCGGCAGGTCTAGCACACACGATGGGTCTGATCTCGCTATT
CACCGGCAAAGCGGTGCCTCCCAGTGTTGCCATGACCGGAGAAGTGTCGC
TCCGCGGCAAGGTAATGCCTGTTGGTGGCATAAAGGAGAAGCTGATCGGT
GCGCTGCGCGCCGGCGTCAAGACTGTCCTCTTGCCCCATCACAACCGCAA
GGATGTCAAGGACGTGCCGCAGGAAGTCAGCGAAGGACTTGAGATCGTAT
ATGTAACGCATATCTGGGAAGCTATCCGACAGGTGTGGCCCGATGCCCAC
TGGCCTGGTCAGCACACCAACTTCATCGAGAGCCGGCTGTAAATGGGTTC
CAACAGCGGCAGAACAACCAAGCTCCCCTTGGTCCCGCTGCCCAAAGGAT
CGGTCTTACTTCCTGGAATTACGCTACGTATTCCTGTCTCGAATCGCCCG
GATCTCGCCAACTTACTCTCGACAATCGTTGATCGATCAGCCGTGGCGAA
GCGCGATGGAACGGCTATCACTTTCGGATGCGTTCCCCTCAGTTCACCGT
ATCTTAGCAAGGACGGTCAACGACTCATCGACGATGGAAGCTTGGATGAG
GACCGGAGAGAGGAGTTTGATATGATTGATGCTGGACAAGCCAGAAAGGA
GGATTTGTTTCGACATGGTACCGTTGGTAAAGTGATCGGTATCCAGCGCC
GGGCCTATTCGGAGCCGGCTCTTGTGGTCCAGGGTGTCCAGCGGTTCACC
ATCAGGCGCGTCCTGAAGGAGAGGCCGTTTTTCGAGGCTGAAGCTGTTGT
TCATGATGAGAAAGAAACAGTCTCCGGCGATGCTGAAACAGTGGAGTTAT
TTCAACAGCTGCGACAACTTTCTCGCGAGCTCCTGACCTTGCTGCGACTG
TCTTCGTTGCTGCCATCTCCGGGAAGCCGCCTGTCCCCACTCATTGCCCG
GAAATTCGAGCTGTTCATAACCAAGTCCGATGTCTCCCATGCAGGTAGAC
TAGCCGATTTCATGGCGGACGTTGCTGACTCCGGCTTCGAAGAGAAGCTT
CGCATATTAACGTCGCTTGACGTCAAAATAAGGCTAGAGAGAGTTGTTGA
GATCCTAACTAGGCAATTACAGAGCATTAAGAGCAATGTGAAGGTCACAA
CAATCACCACCAACAGCTTTCCTAGCTCTGGGTTTGATATCAATCAGATC
GATCCCCGTGACCGCGAGATTCTGGCAAGGAAGGCGATGGCTGGTCTCAG
CGGACTGACGCCACCCGGGTTGTCAGCCGGTCGAAACAATGACAACGATG
ACAAGGAATCAAACGAAGTCGATGAGCTGCAGCAGAGACTGCAAGAGGCC
CAGCTTAGCCCTGAGGCTAGAAAGGTTGCCGACAAGGAGCTGCGACGTCT
TCGTAAAATGAACCCGGCAAATGCTGAGTACGGTGTCTGCCGGACCTACC
TCGAGAATATTGCGGATATCCCATGGACTAAGATGACCGAGGACCAGCTT
GGACCGGAGACATTGAAGAGAGCCAGAAAACAGCTAGACGATGATCACTA
CGGTTTGGAGAAGATCAAGAAGAGACTTCTTGAGTATTTGGCCGTGCTCC
GACTCAAGCAGTCTACCAACAGAGATGTCGAGCGCCAGATTGAGTCCTTG
TCGAAAGAGCTCGAGGCATCCGATGGAGGCGATCTTGAGAAGGAGGTACC
TGTTCTGTCCGAGACGGATCGAGTCGCTGTTGAGACAAAGCTGCACATGC
TGAAGACTCGCCGCATGGGAGACAAGTCACCCATCCTCCTGCTTGTTGGT
CCACCAGGCGTTGGTAAGACCAGCTTGGCACGATCAGTGGCCTCATCGCT
CGGTCGCAAGTTTCACAGAATCTCTTTGGGTGGCGTTAGAGACGAGGCTG
AAATCCGAGGCCATCGGCGAACCTATGTTGCTGCGATGCCGGGACTAATC
GTCAGTGGTCTCAAGAAGGTTGGCGTTGCTAATCCAGTGTTCTTGCTTGA
CGAGATTGACAAGGTCGGAGGCGCCAATTTCCAAGGAGACCCATCCGCAG
CCATGCTTGAGGTCCTGGATCCTGAACAGAACCATACATTTTCGGATCAC
TACATCAACATCCCTATTGATCTGAGCAAGGTGCTTTTCATTGCCACTGC
CAATTCTTTGGACACTATCCCGGCACCCCTGCTTGACCGGATGGAAACTA
TCTCTCTGTCTGGCTACACCACGGTTGAGAAGCGACACATTGCCAAGAGA
CACCTCATTCCCAAGCAAATCAGGGCGAACGGGCTTTCCGATGGTCAGGT
CGTTCTGTCTGACGAAGTAATTGACAAAATTATTACGTCTTACACCAGGG
AGTCGGGTGTTCGTAACCTAGAGCGTGAGCTTGGCTCGGTCTGTCGGTTC
AAGGCTGTCCAGTTTGCGGATGCGGGGGATGCAGGCCGACTTGACGCGTA
CAACCCCGTGGTGAGCATGGACGAGTTGGAAGAAATATTAGGTATCGAGC
GCTTTGAGGAAGAAATCGCCGAAAAGCATGGCCGTCCCGGTGTTGTCACT
GGACTTGTCGCGTATTCCACTGGAGGTCAAGGCAGCATTCTGTTCATCGA
AGTTGCAGACATGCCAGGCAACGGCAGAGTCCAGCTCACCGGAAAGCTGG
GAGACGTGCTGAAGGAGAGTGTAGAGGTAGCTTTGACGTGGGTCAAAGCT
CATGCGTTCGAGCTTGGGCTGACTGCGGACCCTACCGAGGATATCATGAA
GAACCGCAGCCTGCACGTTCACTGCCCGTCCGGAGCCATCCCGAAGGACG
GTCCCTCGGCAGGTCTAGCACACACGATGGGTCTGATCTCGCTATTCACC
GGCAAAGCGGTGCCTCCCAGTGTTGCCATGACCGGAGAAGTGTCGCTCCG
CGGCAAGGTAATGCCTGTTGGTGGCATAAAGGAGAAGCTGATCGGTGCGC
TGCGCGCCGGCGTCAAGACTGTCCTCTTGCCCCATCACAACCGCAAGGAT
GTCAAGGACGTGCCGCAGGAAGTCAGCGAAGGACTTGAGATCGTATATGT
AACGCATATCTGGGAAGCTATCCGACAGGTGTGGCCCGATGCCCACTGGC
CTGGTCAGCACACCAACTTCATCGAGAGCCGGCTGTAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006515 | protein quality control for misfolded or incompletely synthesized proteins |
| GO:0006508 | proteolysis |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004252 | serine-type endopeptidase activity |
| GO:0004176 | ATP-dependent peptidase activity |
| GO:0005524 | ATP 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 | MEROPS:MER0000485 |
| DBxref | InterPro:IPR015947 |
| DBxref | InterPro:IPR020568 |
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR027501 |
| DBxref | InterPro:IPR003959 |
| DBxref | InterPro:IPR008269 |
| DBxref | InterPro:IPR014721 |
| DBxref | InterPro:IPR004815 |
| DBxref | InterPro:IPR003111 |
| DBxref | InterPro:IPR003593 |
| DBxref | PFAM:PF02190 |
| DBxref | PFAM:PF05362 |
| DBxref | PFAM:PF07728 |
| DBxref | PFAM:PF07726 |
| DBxref | PFAM:PF00004 |
| 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 | ch8:1083767..1086691 + |
|
