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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000022.1:1594397..1598171+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_44835-T1 ID=CAN33_44835-T1|Name=CAN33_44835-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=3775bp|location=Sequence derived from alignment at NKJJ01000022.1:1594397..1598171+ (Aspergillus niger FDAARGOS_311)
ATGTCGCGCTCATCAGCAGGATTTGCAGACTTCTTCCCAACCGCACCGTC
TGTCCTCCAGCAAAAGCGCAAGAGCATCCGGGAGCGGCCTCGCTCCGAGG
CCCATCCTGACCAAGATCATAGCGATGAAGGGCATACACTTCTTGAAGAG
CCCAAGGCAATCCTTGAGTTGACACAAAGTCTTTACGCAGAGGAACACAA
GTTGCCTATTGTCAATGGCGATGGACCTGCAAGTTCTGCCAGCGTGAGCG
TTTCGGCTTCCCGCCCATCGACACATAACCATAGCACGGCATATGGGAAT
GAAGCGCGTCTGGATACGCTTACGCCACTCACTAACGCGGAGTCTTCGCC
TGCTCAGAGGCTCAGTCCATCTCACATAAGGATAGCCAACGGAATCGAAG
ATAGTTCGGGCACTATGAAGACCGACGATATGAAGCCCGCCATGACGCCC
CTACAAACCCCACCAACGCCCCGATCGCAGAGTCGCACTTCTGGAAATGT
GAGGGGCTGGAAGTTGGTCTATGACCCTGATTCGGAGAAGCGGATCTCCT
CGAAGGAGAAGCGAAGAAAAGCGCGATATGTGGATATAGTGTCTAATGGG
CAAGACGATCGACCAGCAGACCCTCGTCTAAAGATTTCCAATTATTCACG
AGGTGGTGGCTGCAAGCAAAAGACCAAATTCCGGCCAGCTCCTTACTCAT
TAAGACACTGGCCATACGACGCTTCGACAACCATTGGTCCTGGACCCCCG
GTACAGATAGTGGTCACCGGATTCGATCCTTTGACTCCAATTGCCCCAAT
AAATGCGTTGTTCTCGAGCTTCGGAGAGATTTCTGAAATCAACAACCGCA
CGGATCCAATAACCGGTAGATTTCTGGGAATATGTTCAGTCAAATACAAA
GATAGCGCATCTTTTAGGGGAGGTGGGCCCGTTCTCGCGGCGAATGCAGC
CAGGCGAGCCTATTATGAGTGCAAAAAGGAGCAACGGATTGGAACGCGCA
GAATCAGGGTTGAGCTAGACCGTGATGGCATCGTCTCGGCAAAAATAGTG
ACAAGGGCAATTGATTCTCAGAGGATGGGGGACAGGAACAATCTTCTGAC
TGCAGAGGAAGCTAAAACGGGCATCTCGGCCAAAAATAATGAGCCTCCAC
CGACGGCCCCCAAGGGCCCTTCTGGAAGGTCTCAAATGCGCCCTACGGTC
CCAGTCCCGGAAGGTCCGAGAGCAAGCTTTTTGAGGCCTGTTGTACCATC
ACTTGTGGAAGAAACACCCATATTGAGTCAGATCAAGCGTGACCCATATA
TTTTCATCGCACACTGTTACGTACCGGTGCTCAGCACCACCGTTCCGCAC
CTGAAGAAGAGGCTCAAATTATTCGATTGGAAAGACATACGGTGCGATAA
GACAGGGTACTACATTGTTTTTGAGAATTCAAGGCGCGGCGAAGAAGAAA
CTGAAAGATGCTACAAGATGTGCCATATGAAACCCCTGTTCACATACATC
ATGAACATGGAGAGTCAGCCCTATGGGAACCCTAATTACGAACGAAGTCC
AAGTCCCCAAAGACTGCAGGCGGAAAAGCGAGAGCGAGCCGAAAAGGACA
GGCTGAAAAGGGAAACAGAGTTAGACGTGGAAGAAGAGAAGAGACAACGT
GCCCTGGATCTGGACCCTTGCAGAGAGGTGGTGGCAATAATAATCCGGGA
CCTACGAGACAAATTACTTGAAGATGTGAAGTCTCGAATTGCCGCACCGG
CCTTGTATGACTACCTTGACCCAGTTCGACATGCTACAAAGAGGGAAAGG
CTGGGTATTCCTGAGCCGGAAGGGGCTAAAAGGCCTATGTTCCGCATCGA
CCTCGACAGTTCAGCTGGCACACCTGACTCACGCTCCGACTTGTCAACCA
GTAGGAATCCTCTGGGTTCGTCTGGTCTAAATATACTTGCTCTTCCCCGG
ATCAGAAAGGCGCATCGATTGGATCACACGAACGCTGCGTTCTTAGATGA
GAGAAGAAAACAGCCCTTACGAAAAAAGGAAGTAAGACCACTTTACCATC
GTCTCCAGCAACTACACGATGTGGACGATTCAGACGATGAGCAAAGGACG
CCCTTTACCAGGGACACTGAAGATTTAGACAGTCGTGCCCCAAGCCGAAT
GAGTTCTGAGACATCGGACTCAGAGGAAGAGTTGGACCGATTCGGTTCTG
AAACATTAGATGTTCCTGCTGCCGAAAGGCAGACCGATAGCGATAGGTCT
CACGATGTAGACATCACGAGAGATGAGATATCTCGCGTTTCGCCGAACGA
GACTCCCGAGCAGGCCACTGACCGACTCCCATCTACATCACGCAAAAGGA
AGGTGGATGATGAGCGAGCAAAGGCACGGAAGAGACAGAAAGAAAACGAT
GAATGTTTCGGTATGGACGATGCAGGAGGATCTGGAGAGGATCAAAACAT
GACATACTCCCCATCTCGGTCAGTTACCATGCAGGATGTCATCGCAGCGG
CAGATGAACCATCTGTAACTGGCACGGATCCCTTGGTCCCTCAGCGTCAA
TTAGCAGGACGTGGCCAAGAAGATGATGCATTGGCACTCATGGACTCATG
GAGTGCTAATGTCGAGTTCAAAAGTCTCGGCAAAGACCACCGCCATCTTG
CATCCCAAGTTGGTAGTCTTGAGCATGGCAAGCAGACTGAAGAGCCTAGA
ACGGAGATTGAATGGCGAGTATCGAATGACGAGCCTCGCTCAACAGTTGA
TGACGACGAATCAATTGTGCTGGATCTCGACGGTTGGCAAAATTTAATTA
AGGATGAAGAGGACCTTTACTTTCTTCGTGATGTTTTACGAGAGTTTTCG
AGATCCAATGTTGGGAACCTTTCAGCTTGGGCTTGGAGACAAAAGGAGAT
CAAGGCACTTAATCGCCCTGAAGAGTCTGGTCCGGTACGCGAGGAGACCA
TCATTCCCGGTTACTACGTTTCAAACACGACTGGGGCAGCGAGAACTGAG
GGAAGAAAACGAATCTTGGAGTCGGAGAAATCGAAATATCTGCCGCATCG
GATCAAAGTTCAAAAGGCCCGTGAAGAGCGAGAAGCTAGGGCGAAGAGCG
ATCCACACGCTGTTGCTGCAGAAGCCGCAAGGATTGCTGCAGCAAAAACG
ATCTCTAAATCCACTTCCCGTTCAACGAGGGTTAATAATCGCCGCCTCAT
TGCTGATATCAACGCTCAAAAGCAGGCTCTTCCTACTCAGAGCGGCGAAG
GAGATGTCCTCCGGTTCAATCAGTTGAAGAAACGGAAGAAGCCGGTTCGT
TTCGCTCGATCAGCCATCCATAATTGGGGCCTTTATGCAGAGGAGAACAT
ATCTGCCAACGACATGATCATTGAATATGTGGGTGAGAAGGTCCGGCAGC
AGGTCGCAGATATGAGAGAACGGCGCTACCTGAAAAGCGGAATCGGTAGT
AGTTACCTTTTTCGTATCGACGAAAACACGGTTATAGATGCGACAAAGAG
GGGTGGTATTGCTAGGTTTATCAATCACAGCTGTACGCCCAATTGCACTG
CCAAGATAATCAAGGTCGATGGCAGCAAGCGGATCGTCATCTATGCATTA
CGAGACATCGAAAGGGGTAAGTGGACATTTACTGGTCAGATTGAAGAGGT
ACTAACATACTCCATGAACAGACGAAGAGCTGACCTATGACTACAAATTT
GAGAGGGAGTGGGATAGCGATGACAGGATTCCGTGCCTCTGTGGTTCGAC
CGGGTGTAAAGGTTTTCTCAACTAA back to topCoding sequence (CDS) from alignment at NKJJ01000022.1:1594397..1598171+ >CAN33_44835-T1 ID=CAN33_44835-T1|Name=CAN33_44835-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=7440bp|location=Sequence derived from alignment at NKJJ01000022.1:1594397..1598171+ (Aspergillus niger FDAARGOS_311)
ATGTCGCGCTCATCAGCAGGATTTGCAGACTTCTTCCCAACCGCACCGTC
TGTCCTCCAGCAAAAGCGCAAGAGCATCCGGGAGCGGCCTCGCTCCGAGG
CCCATCCTGACCAAGATCATAGCGATGAAGGGCATACACTTCTTGAAGAG
CCCAAGGCAATCCTTGAGTTGACACAAAGTCTTTACGCAGAGGAACACAA
GTTGCCTATTGTCAATGGCGATGGACCTGCAAGTTCTGCCAGCGTGAGCG
TTTCGGCTTCCCGCCCATCGACACATAACCATAGCACGGCATATGGGAAT
GAAGCGCGTCTGGATACGCTTACGCCACTCACTAACGCGGAGTCTTCGCC
TGCTCAGAGGCTCAGTCCATCTCACATAAGGATAGCCAACGGAATCGAAG
ATAGTTCGGGCACTATGAAGACCGACGATATGAAGCCCGCCATGACGCCC
CTACAAACCCCACCAACGCCCCGATCGCAGAGTCGCACTTCTGGAAATGT
GAGGGGCTGGAAGTTGGTCTATGACCCTGATTCGGAGAAGCGGATCTCCT
CGAAGGAGAAGCGAAGAAAAGCGCGATATGTGGATATAGTGTCTAATGGG
CAAGACGATCGACCAGCAGACCCTCGTCTAAAGATTTCCAATTATTCACG
AGGTGGTGGCTGCAAGCAAAAGACCAAATTCCGGCCAGCTCCTTACTCAT
TAAGACACTGGCCATACGACGCTTCGACAACCATTGGTCCTGGACCCCCG
GTACAGATAGTGGTCACCGGATTCGATCCTTTGACTCCAATTGCCCCAAT
AAATGCGTTGTTCTCGAGCTTCGGAGAGATTTCTGAAATCAACAACCGCA
CGGATCCAATAACCGGTAGATTTCTGGGAATATGTTCAGTCAAATACAAA
GATAGCGCATCTTTTAGGGGAGGTGGGCCCGTTCTCGCGGCGAATGCAGC
CAGGCGAGCCTATTATGAGTGCAAAAAGGAGCAACGGATTGGAACGCGCA
GAATCAGGGTTGAGCTAGACCGTGATGGCATCGTCTCGGCAAAAATAGTG
ACAAGGGCAATTGATTCTCAGAGGATGGGGGACAGGAACAATCTTCTGAC
TGCAGAGGAAGCTAAAACGGGCATCTCGGCCAAAAATAATGAGCCTCCAC
CGACGGCCCCCAAGGGCCCTTCTGGAAGGTCTCAAATGCGCCCTACGGTC
CCAGTCCCGGAAGGTCCGAGAGCAAGCTTTTTGAGGCCTGTTGTACCATC
ACTTGTGGAAGAAACACCCATATTGAGTCAGATCAAGCGTGACCCATATA
TTTTCATCGCACACTGTTACGTACCGGTGCTCAGCACCACCGTTCCGCAC
CTGAAGAAGAGGCTCAAATTATTCGATTGGAAAGACATACGGTGCGATAA
GACAGGGTACTACATTGTTTTTGAGAATTCAAGGCGCGGCGAAGAAGAAA
CTGAAAGATGCTACAAGATGTGCCATATGAAACCCCTGTTCACATACATC
ATGAACATGGAGAGTCAGCCCTATGGGAACCCTAATTACGAACGAAGTCC
AAGTCCCCAAAGACTGCAGGCGGAAAAGCGAGAGCGAGCCGAAAAGGACA
GGCTGAAAAGGGAAACAGAGTTAGACGTGGAAGAAGAGAAGAGACAACGT
GCCCTGGATCTGGACCCTTGCAGAGAGGTGGTGGCAATAATAATCCGGGA
CCTACGAGACAAATTACTTGAAGATGTGAAGTCTCGAATTGCCGCACCGG
CCTTGTATGACTACCTTGACCCAGTTCGACATGCTACAAAGAGGGAAAGG
CTGGGTATTCCTGAGCCGGAAGGGGCTAAAAGGCCTATGTTCCGCATCGA
CCTCGACAGTTCAGCTGGCACACCTGACTCACGCTCCGACTTGTCAACCA
GTAGGAATCCTCTGGGTTCGTCTGGTCTAAATATACTTGCTCTTCCCCGG
ATCAGAAAGGCGCATCGATTGGATCACACGAACGCTGCGTTCTTAGATGA
GAGAAGAAAACAGCCCTTACGAAAAAAGGAAGTAAGACCACTTTACCATC
GTCTCCAGCAACTACACGATGTGGACGATTCAGACGATGAGCAAAGGACG
CCCTTTACCAGGGACACTGAAGATTTAGACAGTCGTGCCCCAAGCCGAAT
GAGTTCTGAGACATCGGACTCAGAGGAAGAGTTGGACCGATTCGGTTCTG
AAACATTAGATGTTCCTGCTGCCGAAAGGCAGACCGATAGCGATAGGTCT
CACGATGTAGACATCACGAGAGATGAGATATCTCGCGTTTCGCCGAACGA
GACTCCCGAGCAGGCCACTGACCGACTCCCATCTACATCACGCAAAAGGA
AGGTGGATGATGAGCGAGCAAAGGCACGGAAGAGACAGAAAGAAAACGAT
GAATGTTTCGGTATGGACGATGCAGGAGGATCTGGAGAGGATCAAAACAT
GACATACTCCCCATCTCGGTCAGTTACCATGCAGGATGTCATCGCAGCGG
CAGATGAACCATCTGTAACTGGCACGGATCCCTTGGTCCCTCAGCGTCAA
TTAGCAGGACGTGGCCAAGAAGATGATGCATTGGCACTCATGGACTCATG
GAGTGCTAATGTCGAGTTCAAAAGTCTCGGCAAAGACCACCGCCATCTTG
CATCCCAAGTTGGTAGTCTTGAGCATGGCAAGCAGACTGAAGAGCCTAGA
ACGGAGATTGAATGGCGAGTATCGAATGACGAGCCTCGCTCAACAGTTGA
TGACGACGAATCAATTGTGCTGGATCTCGACGGTTGGCAAAATTTAATTA
AGGATGAAGAGGACCTTTACTTTCTTCGTGATGTTTTACGAGAGTTTTCG
AGATCCAATGTTGGGAACCTTTCAGCTTGGGCTTGGAGACAAAAGGAGAT
CAAGGCACTTAATCGCCCTGAAGAGTCTGGTCCGGTACGCGAGGAGACCA
TCATTCCCGGTTACTACGTTTCAAACACGACTGGGGCAGCGAGAACTGAG
GGAAGAAAACGAATCTTGGAGTCGGAGAAATCGAAATATCTGCCGCATCG
GATCAAAGTTCAAAAGGCCCGTGAAGAGCGAGAAGCTAGGGCGAAGAGCG
ATCCACACGCTGTTGCTGCAGAAGCCGCAAGGATTGCTGCAGCAAAAACG
ATCTCTAAATCCACTTCCCGTTCAACGAGGGTTAATAATCGCCGCCTCAT
TGCTGATATCAACGCTCAAAAGCAGGCTCTTCCTACTCAGAGCGGCGAAG
GAGATGTCCTCCGGTTCAATCAGTTGAAGAAACGGAAGAAGCCGGTTCGT
TTCGCTCGATCAGCCATCCATAATTGGGGCCTTTATGCAGAGGAGAACAT
ATCTGCCAACGACATGATCATTGAATATGTGGGTGAGAAGGTCCGGCAGC
AGGTCGCAGATATGAGAGAACGGCGCTACCTGAAAAGCGGAATCGGTAGT
AGTTACCTTTTTCGTATCGACGAAAACACGGTTATAGATGCGACAAAGAG
GGGTGGTATTGCTAGGTTTATCAATCACAGCTGTACGCCCAATTGCACTG
CCAAGATAATCAAGGTCGATGGCAGCAAGCGGATCGTCATCTATGCATTA
CGAGACATCGAAAGGGACGAAGAGCTGACCTATGACTACAAATTTGAGAG
GGAGTGGGATAGCGATGACAGGATTCCGTGCCTCTGTGGTTCGACCGGGT
GTAAAGGTTTTCTCAACTAAATGTCGCGCTCATCAGCAGGATTTGCAGAC
TTCTTCCCAACCGCACCGTCTGTCCTCCAGCAAAAGCGCAAGAGCATCCG
GGAGCGGCCTCGCTCCGAGGCCCATCCTGACCAAGATCATAGCGATGAAG
GGCATACACTTCTTGAAGAGCCCAAGGCAATCCTTGAGTTGACACAAAGT
CTTTACGCAGAGGAACACAAGTTGCCTATTGTCAATGGCGATGGACCTGC
AAGTTCTGCCAGCGTGAGCGTTTCGGCTTCCCGCCCATCGACACATAACC
ATAGCACGGCATATGGGAATGAAGCGCGTCTGGATACGCTTACGCCACTC
ACTAACGCGGAGTCTTCGCCTGCTCAGAGGCTCAGTCCATCTCACATAAG
GATAGCCAACGGAATCGAAGATAGTTCGGGCACTATGAAGACCGACGATA
TGAAGCCCGCCATGACGCCCCTACAAACCCCACCAACGCCCCGATCGCAG
AGTCGCACTTCTGGAAATGTGAGGGGCTGGAAGTTGGTCTATGACCCTGA
TTCGGAGAAGCGGATCTCCTCGAAGGAGAAGCGAAGAAAAGCGCGATATG
TGGATATAGTGTCTAATGGGCAAGACGATCGACCAGCAGACCCTCGTCTA
AAGATTTCCAATTATTCACGAGGTGGTGGCTGCAAGCAAAAGACCAAATT
CCGGCCAGCTCCTTACTCATTAAGACACTGGCCATACGACGCTTCGACAA
CCATTGGTCCTGGACCCCCGGTACAGATAGTGGTCACCGGATTCGATCCT
TTGACTCCAATTGCCCCAATAAATGCGTTGTTCTCGAGCTTCGGAGAGAT
TTCTGAAATCAACAACCGCACGGATCCAATAACCGGTAGATTTCTGGGAA
TATGTTCAGTCAAATACAAAGATAGCGCATCTTTTAGGGGAGGTGGGCCC
GTTCTCGCGGCGAATGCAGCCAGGCGAGCCTATTATGAGTGCAAAAAGGA
GCAACGGATTGGAACGCGCAGAATCAGGGTTGAGCTAGACCGTGATGGCA
TCGTCTCGGCAAAAATAGTGACAAGGGCAATTGATTCTCAGAGGATGGGG
GACAGGAACAATCTTCTGACTGCAGAGGAAGCTAAAACGGGCATCTCGGC
CAAAAATAATGAGCCTCCACCGACGGCCCCCAAGGGCCCTTCTGGAAGGT
CTCAAATGCGCCCTACGGTCCCAGTCCCGGAAGGTCCGAGAGCAAGCTTT
TTGAGGCCTGTTGTACCATCACTTGTGGAAGAAACACCCATATTGAGTCA
GATCAAGCGTGACCCATATATTTTCATCGCACACTGTTACGTACCGGTGC
TCAGCACCACCGTTCCGCACCTGAAGAAGAGGCTCAAATTATTCGATTGG
AAAGACATACGGTGCGATAAGACAGGGTACTACATTGTTTTTGAGAATTC
AAGGCGCGGCGAAGAAGAAACTGAAAGATGCTACAAGATGTGCCATATGA
AACCCCTGTTCACATACATCATGAACATGGAGAGTCAGCCCTATGGGAAC
CCTAATTACGAACGAAGTCCAAGTCCCCAAAGACTGCAGGCGGAAAAGCG
AGAGCGAGCCGAAAAGGACAGGCTGAAAAGGGAAACAGAGTTAGACGTGG
AAGAAGAGAAGAGACAACGTGCCCTGGATCTGGACCCTTGCAGAGAGGTG
GTGGCAATAATAATCCGGGACCTACGAGACAAATTACTTGAAGATGTGAA
GTCTCGAATTGCCGCACCGGCCTTGTATGACTACCTTGACCCAGTTCGAC
ATGCTACAAAGAGGGAAAGGCTGGGTATTCCTGAGCCGGAAGGGGCTAAA
AGGCCTATGTTCCGCATCGACCTCGACAGTTCAGCTGGCACACCTGACTC
ACGCTCCGACTTGTCAACCAGTAGGAATCCTCTGGGTTCGTCTGGTCTAA
ATATACTTGCTCTTCCCCGGATCAGAAAGGCGCATCGATTGGATCACACG
AACGCTGCGTTCTTAGATGAGAGAAGAAAACAGCCCTTACGAAAAAAGGA
AGTAAGACCACTTTACCATCGTCTCCAGCAACTACACGATGTGGACGATT
CAGACGATGAGCAAAGGACGCCCTTTACCAGGGACACTGAAGATTTAGAC
AGTCGTGCCCCAAGCCGAATGAGTTCTGAGACATCGGACTCAGAGGAAGA
GTTGGACCGATTCGGTTCTGAAACATTAGATGTTCCTGCTGCCGAAAGGC
AGACCGATAGCGATAGGTCTCACGATGTAGACATCACGAGAGATGAGATA
TCTCGCGTTTCGCCGAACGAGACTCCCGAGCAGGCCACTGACCGACTCCC
ATCTACATCACGCAAAAGGAAGGTGGATGATGAGCGAGCAAAGGCACGGA
AGAGACAGAAAGAAAACGATGAATGTTTCGGTATGGACGATGCAGGAGGA
TCTGGAGAGGATCAAAACATGACATACTCCCCATCTCGGTCAGTTACCAT
GCAGGATGTCATCGCAGCGGCAGATGAACCATCTGTAACTGGCACGGATC
CCTTGGTCCCTCAGCGTCAATTAGCAGGACGTGGCCAAGAAGATGATGCA
TTGGCACTCATGGACTCATGGAGTGCTAATGTCGAGTTCAAAAGTCTCGG
CAAAGACCACCGCCATCTTGCATCCCAAGTTGGTAGTCTTGAGCATGGCA
AGCAGACTGAAGAGCCTAGAACGGAGATTGAATGGCGAGTATCGAATGAC
GAGCCTCGCTCAACAGTTGATGACGACGAATCAATTGTGCTGGATCTCGA
CGGTTGGCAAAATTTAATTAAGGATGAAGAGGACCTTTACTTTCTTCGTG
ATGTTTTACGAGAGTTTTCGAGATCCAATGTTGGGAACCTTTCAGCTTGG
GCTTGGAGACAAAAGGAGATCAAGGCACTTAATCGCCCTGAAGAGTCTGG
TCCGGTACGCGAGGAGACCATCATTCCCGGTTACTACGTTTCAAACACGA
CTGGGGCAGCGAGAACTGAGGGAAGAAAACGAATCTTGGAGTCGGAGAAA
TCGAAATATCTGCCGCATCGGATCAAAGTTCAAAAGGCCCGTGAAGAGCG
AGAAGCTAGGGCGAAGAGCGATCCACACGCTGTTGCTGCAGAAGCCGCAA
GGATTGCTGCAGCAAAAACGATCTCTAAATCCACTTCCCGTTCAACGAGG
GTTAATAATCGCCGCCTCATTGCTGATATCAACGCTCAAAAGCAGGCTCT
TCCTACTCAGAGCGGCGAAGGAGATGTCCTCCGGTTCAATCAGTTGAAGA
AACGGAAGAAGCCGGTTCGTTTCGCTCGATCAGCCATCCATAATTGGGGC
CTTTATGCAGAGGAGAACATATCTGCCAACGACATGATCATTGAATATGT
GGGTGAGAAGGTCCGGCAGCAGGTCGCAGATATGAGAGAACGGCGCTACC
TGAAAAGCGGAATCGGTAGTAGTTACCTTTTTCGTATCGACGAAAACACG
GTTATAGATGCGACAAAGAGGGGTGGTATTGCTAGGTTTATCAATCACAG
CTGTACGCCCAATTGCACTGCCAAGATAATCAAGGTCGATGGCAGCAAGC
GGATCGTCATCTATGCATTACGAGACATCGAAAGGGACGAAGAGCTGACC
TATGACTACAAATTTGAGAGGGAGTGGGATAGCGATGACAGGATTCCGTG
CCTCTGTGGTTCGACCGGGTGTAAAGGTTTTCTCAACTAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0048188 | Set1C/COMPASS complex |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0034968 | histone lysine methylation |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003676 | nucleic acid binding |
| GO:0018024 | histone-lysine N-methyltransferase activity |
| GO:0005515 | protein 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:EOG09264CH7 |
| DBxref | InterPro:IPR035979 |
| DBxref | InterPro:IPR024636 |
| DBxref | InterPro:IPR012677 |
| DBxref | InterPro:IPR017111 |
| DBxref | InterPro:IPR024657 |
| DBxref | InterPro:IPR003616 |
| DBxref | InterPro:IPR001214 |
| DBxref | PFAM:PF11767 |
| DBxref | PFAM:PF00856 |
| DBxref | PFAM:PF11764 |
| Product | histone methyltransferase set1 |
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 |
|---|
| NKJJ01000022.1 | supercontig | NKJJ01000022.1:1594397..1598171 + |
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