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Sequences
The following sequences are available for this feature:
mRNA from alignment at OGUI01000017.1:3406110..3409884- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC64974_106410-T1 ID=ATCC64974_106410-T1|Name=ATCC64974_106410-T1|organism=Aspergillus niger N402|type=mRNA|length=3775bp|location=Sequence derived from alignment at OGUI01000017.1:3406110..3409884- (Aspergillus niger N402)
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 OGUI01000017.1:3406110..3409884- >ATCC64974_106410-T1 ID=ATCC64974_106410-T1|Name=ATCC64974_106410-T1|organism=Aspergillus niger N402|type=CDS|length=7440bp|location=Sequence derived from alignment at OGUI01000017.1:3406110..3409884- (Aspergillus niger N402)
ACGAAGAGCTGACCTATGACTACAAATTTGAGAGGGAGTGGGATAGCGAT
GACAGGATTCCGTGCCTCTGTGGTTCGACCGGGTGTAAAGGTTTTCTCAA
CTAAATGTCGCGCTCATCAGCAGGATTTGCAGACTTCTTCCCAACCGCAC
CGTCTGTCCTCCAGCAAAAGCGCAAGAGCATCCGGGAGCGGCCTCGCTCC
GAGGCCCATCCTGACCAAGATCATAGCGATGAAGGGCATACACTTCTTGA
AGAGCCCAAGGCAATCCTTGAGTTGACACAAAGTCTTTACGCAGAGGAAC
ACAAGTTGCCTATTGTCAATGGCGATGGACCTGCAAGTTCTGCCAGCGTG
AGCGTTTCGGCTTCCCGCCCATCGACACATAACCATAGCACGGCATATGG
GAATGAAGCGCGTCTGGATACGCTTACGCCACTCACTAACGCGGAGTCTT
CGCCTGCTCAGAGGCTCAGTCCATCTCACATAAGGATAGCCAACGGAATC
GAAGATAGTTCGGGCACTATGAAGACCGACGATATGAAGCCCGCCATGAC
GCCCCTACAAACCCCACCAACGCCCCGATCGCAGAGTCGCACTTCTGGAA
ATGTGAGGGGCTGGAAGTTGGTCTATGACCCTGATTCGGAGAAGCGGATC
TCCTCGAAGGAGAAGCGAAGAAAAGCGCGATATGTGGATATAGTGTCTAA
TGGGCAAGACGATCGACCAGCAGACCCTCGTCTAAAGATTTCCAATTATT
CACGAGGTGGTGGCTGCAAGCAAAAGACCAAATTCCGGCCAGCTCCTTAC
TCATTAAGACACTGGCCATACGACGCTTCGACAACCATTGGTCCTGGACC
CCCGGTACAGATAGTGGTCACCGGATTCGATCCTTTGACTCCAATTGCCC
CAATAAATGCGTTGTTCTCGAGCTTCGGAGAGATTTCTGAAATCAACAAC
CGCACGGATCCAATAACCGGTAGATTTCTGGGAATATGTTCAGTCAAATA
CAAAGATAGCGCATCTTTTAGGGGAGGTGGGCCCGTTCTCGCGGCGAATG
CAGCCAGGCGAGCCTATTATGAGTGCAAAAAGGAGCAACGGATTGGAACG
CGCAGAATCAGGGTTGAGCTAGACCGTGATGGCATCGTCTCGGCAAAAAT
AGTGACAAGGGCAATTGATTCTCAGAGGATGGGGGACAGGAACAATCTTC
TGACTGCAGAGGAAGCTAAAACGGGCATCTCGGCCAAAAATAATGAGCCT
CCACCGACGGCCCCCAAGGGCCCTTCTGGAAGGTCTCAAATGCGCCCTAC
GGTCCCAGTCCCGGAAGGTCCGAGAGCAAGCTTTTTGAGGCCTGTTGTAC
CATCACTTGTGGAAGAAACACCCATATTGAGTCAGATCAAGCGTGACCCA
TATATTTTCATCGCACACTGTTACGTACCGGTGCTCAGCACCACCGTTCC
GCACCTGAAGAAGAGGCTCAAATTATTCGATTGGAAAGACATACGGTGCG
ATAAGACAGGGTACTACATTGTTTTTGAGAATTCAAGGCGCGGCGAAGAA
GAAACTGAAAGATGCTACAAGATGTGCCATATGAAACCCCTGTTCACATA
CATCATGAACATGGAGAGTCAGCCCTATGGGAACCCTAATTACGAACGAA
GTCCAAGTCCCCAAAGACTGCAGGCGGAAAAGCGAGAGCGAGCCGAAAAG
GACAGGCTGAAAAGGGAAACAGAGTTAGACGTGGAAGAAGAGAAGAGACA
ACGTGCCCTGGATCTGGACCCTTGCAGAGAGGTGGTGGCAATAATAATCC
GGGACCTACGAGACAAATTACTTGAAGATGTGAAGTCTCGAATTGCCGCA
CCGGCCTTGTATGACTACCTTGACCCAGTTCGACATGCTACAAAGAGGGA
AAGGCTGGGTATTCCTGAGCCGGAAGGGGCTAAAAGGCCTATGTTCCGCA
TCGACCTCGACAGTTCAGCTGGCACACCTGACTCACGCTCCGACTTGTCA
ACCAGTAGGAATCCTCTGGGTTCGTCTGGTCTAAATATACTTGCTCTTCC
CCGGATCAGAAAGGCGCATCGATTGGATCACACGAACGCTGCGTTCTTAG
ATGAGAGAAGAAAACAGCCCTTACGAAAAAAGGAAGTAAGACCACTTTAC
CATCGTCTCCAGCAACTACACGATGTGGACGATTCAGACGATGAGCAAAG
GACGCCCTTTACCAGGGACACTGAAGATTTAGACAGTCGTGCCCCAAGCC
GAATGAGTTCTGAGACATCGGACTCAGAGGAAGAGTTGGACCGATTCGGT
TCTGAAACATTAGATGTTCCTGCTGCCGAAAGGCAGACCGATAGCGATAG
GTCTCACGATGTAGACATCACGAGAGATGAGATATCTCGCGTTTCGCCGA
ACGAGACTCCCGAGCAGGCCACTGACCGACTCCCATCTACATCACGCAAA
AGGAAGGTGGATGATGAGCGAGCAAAGGCACGGAAGAGACAGAAAGAAAA
CGATGAATGTTTCGGTATGGACGATGCAGGAGGATCTGGAGAGGATCAAA
ACATGACATACTCCCCATCTCGGTCAGTTACCATGCAGGATGTCATCGCA
GCGGCAGATGAACCATCTGTAACTGGCACGGATCCCTTGGTCCCTCAGCG
TCAATTAGCAGGACGTGGCCAAGAAGATGATGCATTGGCACTCATGGACT
CATGGAGTGCTAATGTCGAGTTCAAAAGTCTCGGCAAAGACCACCGCCAT
CTTGCATCCCAAGTTGGTAGTCTTGAGCATGGCAAGCAGACTGAAGAGCC
TAGAACGGAGATTGAATGGCGAGTATCGAATGACGAGCCTCGCTCAACAG
TTGATGACGACGAATCAATTGTGCTGGATCTCGACGGTTGGCAAAATTTA
ATTAAGGATGAAGAGGACCTTTACTTTCTTCGTGATGTTTTACGAGAGTT
TTCGAGATCCAATGTTGGGAACCTTTCAGCTTGGGCTTGGAGACAAAAGG
AGATCAAGGCACTTAATCGCCCTGAAGAGTCTGGTCCGGTACGCGAGGAG
ACCATCATTCCCGGTTACTACGTTTCAAACACGACTGGGGCAGCGAGAAC
TGAGGGAAGAAAACGAATCTTGGAGTCGGAGAAATCGAAATATCTGCCGC
ATCGGATCAAAGTTCAAAAGGCCCGTGAAGAGCGAGAAGCTAGGGCGAAG
AGCGATCCACACGCTGTTGCTGCAGAAGCCGCAAGGATTGCTGCAGCAAA
AACGATCTCTAAATCCACTTCCCGTTCAACGAGGGTTAATAATCGCCGCC
TCATTGCTGATATCAACGCTCAAAAGCAGGCTCTTCCTACTCAGAGCGGC
GAAGGAGATGTCCTCCGGTTCAATCAGTTGAAGAAACGGAAGAAGCCGGT
TCGTTTCGCTCGATCAGCCATCCATAATTGGGGCCTTTATGCAGAGGAGA
ACATATCTGCCAACGACATGATCATTGAATATGTGGGTGAGAAGGTCCGG
CAGCAGGTCGCAGATATGAGAGAACGGCGCTACCTGAAAAGCGGAATCGG
TAGTAGTTACCTTTTTCGTATCGACGAAAACACGGTTATAGATGCGACAA
AGAGGGGTGGTATTGCTAGGTTTATCAATCACAGCTGTACGCCCAATTGC
ACTGCCAAGATAATCAAGGTCGATGGCAGCAAGCGGATCGTCATCTATGC
ATTACGAGACATCGAAAGGGACGAAGAGCTGACCTATGACTACAAATTTG
AGAGGGAGTGGGATAGCGATGACAGGATTCCGTGCCTCTGTGGTTCGACC
GGGTGTAAAGGTTTTCTCAACTAAATGTCGCGCTCATCAGCAGGATTTGC
AGACTTCTTCCCAACCGCACCGTCTGTCCTCCAGCAAAAGCGCAAGAGCA
TCCGGGAGCGGCCTCGCTCCGAGGCCCATCCTGACCAAGATCATAGCGAT
GAAGGGCATACACTTCTTGAAGAGCCCAAGGCAATCCTTGAGTTGACACA
AAGTCTTTACGCAGAGGAACACAAGTTGCCTATTGTCAATGGCGATGGAC
CTGCAAGTTCTGCCAGCGTGAGCGTTTCGGCTTCCCGCCCATCGACACAT
AACCATAGCACGGCATATGGGAATGAAGCGCGTCTGGATACGCTTACGCC
ACTCACTAACGCGGAGTCTTCGCCTGCTCAGAGGCTCAGTCCATCTCACA
TAAGGATAGCCAACGGAATCGAAGATAGTTCGGGCACTATGAAGACCGAC
GATATGAAGCCCGCCATGACGCCCCTACAAACCCCACCAACGCCCCGATC
GCAGAGTCGCACTTCTGGAAATGTGAGGGGCTGGAAGTTGGTCTATGACC
CTGATTCGGAGAAGCGGATCTCCTCGAAGGAGAAGCGAAGAAAAGCGCGA
TATGTGGATATAGTGTCTAATGGGCAAGACGATCGACCAGCAGACCCTCG
TCTAAAGATTTCCAATTATTCACGAGGTGGTGGCTGCAAGCAAAAGACCA
AATTCCGGCCAGCTCCTTACTCATTAAGACACTGGCCATACGACGCTTCG
ACAACCATTGGTCCTGGACCCCCGGTACAGATAGTGGTCACCGGATTCGA
TCCTTTGACTCCAATTGCCCCAATAAATGCGTTGTTCTCGAGCTTCGGAG
AGATTTCTGAAATCAACAACCGCACGGATCCAATAACCGGTAGATTTCTG
GGAATATGTTCAGTCAAATACAAAGATAGCGCATCTTTTAGGGGAGGTGG
GCCCGTTCTCGCGGCGAATGCAGCCAGGCGAGCCTATTATGAGTGCAAAA
AGGAGCAACGGATTGGAACGCGCAGAATCAGGGTTGAGCTAGACCGTGAT
GGCATCGTCTCGGCAAAAATAGTGACAAGGGCAATTGATTCTCAGAGGAT
GGGGGACAGGAACAATCTTCTGACTGCAGAGGAAGCTAAAACGGGCATCT
CGGCCAAAAATAATGAGCCTCCACCGACGGCCCCCAAGGGCCCTTCTGGA
AGGTCTCAAATGCGCCCTACGGTCCCAGTCCCGGAAGGTCCGAGAGCAAG
CTTTTTGAGGCCTGTTGTACCATCACTTGTGGAAGAAACACCCATATTGA
GTCAGATCAAGCGTGACCCATATATTTTCATCGCACACTGTTACGTACCG
GTGCTCAGCACCACCGTTCCGCACCTGAAGAAGAGGCTCAAATTATTCGA
TTGGAAAGACATACGGTGCGATAAGACAGGGTACTACATTGTTTTTGAGA
ATTCAAGGCGCGGCGAAGAAGAAACTGAAAGATGCTACAAGATGTGCCAT
ATGAAACCCCTGTTCACATACATCATGAACATGGAGAGTCAGCCCTATGG
GAACCCTAATTACGAACGAAGTCCAAGTCCCCAAAGACTGCAGGCGGAAA
AGCGAGAGCGAGCCGAAAAGGACAGGCTGAAAAGGGAAACAGAGTTAGAC
GTGGAAGAAGAGAAGAGACAACGTGCCCTGGATCTGGACCCTTGCAGAGA
GGTGGTGGCAATAATAATCCGGGACCTACGAGACAAATTACTTGAAGATG
TGAAGTCTCGAATTGCCGCACCGGCCTTGTATGACTACCTTGACCCAGTT
CGACATGCTACAAAGAGGGAAAGGCTGGGTATTCCTGAGCCGGAAGGGGC
TAAAAGGCCTATGTTCCGCATCGACCTCGACAGTTCAGCTGGCACACCTG
ACTCACGCTCCGACTTGTCAACCAGTAGGAATCCTCTGGGTTCGTCTGGT
CTAAATATACTTGCTCTTCCCCGGATCAGAAAGGCGCATCGATTGGATCA
CACGAACGCTGCGTTCTTAGATGAGAGAAGAAAACAGCCCTTACGAAAAA
AGGAAGTAAGACCACTTTACCATCGTCTCCAGCAACTACACGATGTGGAC
GATTCAGACGATGAGCAAAGGACGCCCTTTACCAGGGACACTGAAGATTT
AGACAGTCGTGCCCCAAGCCGAATGAGTTCTGAGACATCGGACTCAGAGG
AAGAGTTGGACCGATTCGGTTCTGAAACATTAGATGTTCCTGCTGCCGAA
AGGCAGACCGATAGCGATAGGTCTCACGATGTAGACATCACGAGAGATGA
GATATCTCGCGTTTCGCCGAACGAGACTCCCGAGCAGGCCACTGACCGAC
TCCCATCTACATCACGCAAAAGGAAGGTGGATGATGAGCGAGCAAAGGCA
CGGAAGAGACAGAAAGAAAACGATGAATGTTTCGGTATGGACGATGCAGG
AGGATCTGGAGAGGATCAAAACATGACATACTCCCCATCTCGGTCAGTTA
CCATGCAGGATGTCATCGCAGCGGCAGATGAACCATCTGTAACTGGCACG
GATCCCTTGGTCCCTCAGCGTCAATTAGCAGGACGTGGCCAAGAAGATGA
TGCATTGGCACTCATGGACTCATGGAGTGCTAATGTCGAGTTCAAAAGTC
TCGGCAAAGACCACCGCCATCTTGCATCCCAAGTTGGTAGTCTTGAGCAT
GGCAAGCAGACTGAAGAGCCTAGAACGGAGATTGAATGGCGAGTATCGAA
TGACGAGCCTCGCTCAACAGTTGATGACGACGAATCAATTGTGCTGGATC
TCGACGGTTGGCAAAATTTAATTAAGGATGAAGAGGACCTTTACTTTCTT
CGTGATGTTTTACGAGAGTTTTCGAGATCCAATGTTGGGAACCTTTCAGC
TTGGGCTTGGAGACAAAAGGAGATCAAGGCACTTAATCGCCCTGAAGAGT
CTGGTCCGGTACGCGAGGAGACCATCATTCCCGGTTACTACGTTTCAAAC
ACGACTGGGGCAGCGAGAACTGAGGGAAGAAAACGAATCTTGGAGTCGGA
GAAATCGAAATATCTGCCGCATCGGATCAAAGTTCAAAAGGCCCGTGAAG
AGCGAGAAGCTAGGGCGAAGAGCGATCCACACGCTGTTGCTGCAGAAGCC
GCAAGGATTGCTGCAGCAAAAACGATCTCTAAATCCACTTCCCGTTCAAC
GAGGGTTAATAATCGCCGCCTCATTGCTGATATCAACGCTCAAAAGCAGG
CTCTTCCTACTCAGAGCGGCGAAGGAGATGTCCTCCGGTTCAATCAGTTG
AAGAAACGGAAGAAGCCGGTTCGTTTCGCTCGATCAGCCATCCATAATTG
GGGCCTTTATGCAGAGGAGAACATATCTGCCAACGACATGATCATTGAAT
ATGTGGGTGAGAAGGTCCGGCAGCAGGTCGCAGATATGAGAGAACGGCGC
TACCTGAAAAGCGGAATCGGTAGTAGTTACCTTTTTCGTATCGACGAAAA
CACGGTTATAGATGCGACAAAGAGGGGTGGTATTGCTAGGTTTATCAATC
ACAGCTGTACGCCCAATTGCACTGCCAAGATAATCAAGGTCGATGGCAGC
AAGCGGATCGTCATCTATGCATTACGAGACATCGAAAGGG 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 polypeptide feature(s) derives from this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| ATCC64974_106410-T1 | ATCC64974_106410-T1-protein | Aspergillus niger N402 | polypeptide |
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 | 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 |
|---|
| OGUI01000017.1 | supercontig | OGUI01000017.1:3406110..3409884 - |
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