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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000002.1:1983551..1986672- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_24940-T1 ID=CAN33_24940-T1|Name=CAN33_24940-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=3122bp|location=Sequence derived from alignment at NKJJ01000002.1:1983551..1986672- (Aspergillus niger FDAARGOS_311)
ATGCCCGTCAAAGACTACGGAATCTGGAAGGCATTTCCAGCTCACTACGA
GTTCGAGGATCGTTTCGAGGACCCCAAATCCCCCCACCTCTCGCTATACT
ATCATGACAATAATGCAAAAATGCCACAATTTGACCGTGAATACCGACAC
AAACATAAGGGCAACCCGCCAAATAAGCTAAAACCAAGGGAGATTCCTGG
ATTATTCCGCGCAGCAATCAACATCAAGTCCACAGCCAAGGAGTCCCGGC
TTGCATATTGGGTGAATCATAACATTGTCGAGCACCCCATCGCCGAGAAG
CTATCTAACTTGGACTTCGGCTTCCACCCAATTGATCAAATCACCGATTT
CGATGGTAAAGGTCTGGACTACATTCGAGGGAACCTCTTCACTACAAAGA
GCGGCCGTGTTCTTCCCCATGACATCCCTGGCACAAATAATGATATAATC
GACGTTCTGGAGCCCGAAGTAAAAAAGGCAATTCATCACAAAGCTACTAT
CTATCTGTTCGGCTCTATGTTCAACACCAGAAACGGAATCCACAACGTCC
ACATGAACCAGGGCAATATCCCGCACTTTGTCAGAGATGACGGCGTATTT
CAGGATGGTGGCCTCCTCATCGAGTACGACGATCACTGGACTGGCGTTTT
TCTTGCATTCGCATCCCAGGCCGCTCACACGGATGACCACAATGGACATG
CTTTTGCAAAACACGTCATTACTTGGGCAGACATTCTACCTCAGGAGATT
ATTGAGAATTCGGTAACGATCAAGGAGGCACTTGTCAATCCGCGAGGCAG
AGATGATCGGTCCGCCAAACAAAAAGAGTTCGTAACGCTTGAAAACCTTA
CAAACCACAGAGTAGCCCTGTCATCATGGAGGGTTCATAATGCTGCTGGT
CAAGTTCAAGCGCTCCCTCAAAATGCAGCTTTGGACTCTCGGGCTATGAA
AAGGTTCGAGATGTCAAACTGCCCTCTTTCTAACAACGGCGATACTATCA
CCTTACTTAATGAAGAGGGACTAAGGGTCGATGGAGTAAGCTATGGGGCT
CGGCAGGGTGCCACAGAAGGCCGTCCAATAGTTTTTGCTCATTGAATTTG
ACGCAATTTGCAGCCAAGCTGGATGTTTTAGTCTTCACAATGATGGTAAT
GCCGCACTACATTGGGTAGGGCAACTATGGGAAAATTTGTGACGCAAGAG
TACTCTTCCATCTGAGTTCCGTTTTACGAATTGTTGATCCAGACTGTCAA
ATATGGCTACGCTGTGTTAATCTCCCTAATCTAAGGAAAAAATAAAAAAT
AATCCTGATAGTGTACTCAGGGATATAATTTTAGTAATAAATATACTTGG
CATACGGTCAATATATTTCGACTGGGTCACTATATGTTTGTGGCGAGACA
TGGCAGATGTCATTCGGCGGCCACGGTACGCTCTCATAGTATAGTGTCTA
GATCGTATAACGAAAAAAGGTCGCAATGACAAGGCCTCTTTGTTCGTCCC
CTCAATAGCACAAGCGAACAAAAACTTTACAGATTGTGAAGGATCCATGG
TTTATGTAGCATGGCTAGATTCCAATATTTTAGCGGTGTGAGAACATTTG
CAGTAAGTGGGGTGAGCGGCAACCTTATCCACCGAAGAAACAAAGTTGAA
AAGAATAGGCCACGGCTCGAATTCAAGATCGGGCCACACCATGGTTTCTT
GCTTCGGATAAGCATCGATAACTAATCAGATTGGGCTATAATGTACCGTG
GGCCCCTGTAGCCTGGCCGTCTGCAGAAGTGGATTTCGTGTAGCTAGAGT
TTCTGTTCGTATGTCTAGTGCGGAGAACTCAGCACTGAAACCCTATCATT
GGAAGGAGAGCACCTACGGTGCGGTCGTACTGCAAGCGAAATCAGTGTCA
TTATGACGGCTTCGGGCTAGTCATTGTTATTTAGTTAGTAGTTAACTGTC
TTTGCTCCTCTTACGCAAGTTGTCAATCAGGGAGAAAGCAATTATAAGAA
GACGACACCTTGACGTCTGATTCCTTGTACCTCAAAACCCACATTTCATC
AATATAAGGGCCAGATTTACGCCACGTACCACGGCAATGCAGGTCATTAT
TTTCTTTTCACATTTATTGCGCTGGCATCGCAACCAGTGATTGCGTGGGG
CGACGTTGGACACCGAGCTATAGCCTACTTGGCTGAGAAATACCTTACTG
TTGCCGGCTCAAATCTCGTCAACGAGCTTCTCGCCAACGACAAGAACTAT
GATATCTCCGACGCCGCAACGTGGGCTGACACCATCAAATGGAAACGACC
GCTAACTAGGCCCTGGCATTATATCAGTACGCTGGAACTATATCACAAAA
GATGATATATATCTAATTTGGCTTCAGATCCAGATGATGAACCCCCAAAG
TCGTGTTTCGTCTCATACCCCCACGATTGCCCTCCCGAGGGTTGCATTAT
CTCACAGATGGCAAACATGGTAGGTTACTGACCTGGGTTTATCAGCGGCT
TCAAAAACTAACATTGTTACATCAGACTCGCCAAATCAATGATCGGCACG
CCAATATGACCCAACAGAAAGAAGCCTTGATGTTTTTGATTCACCTGTTT
GGGGACTTACACCAACCCCTGCACGTCACAGGAGTCGCCAGAGGTGGGAA
TGATATTCATGTCTGCTTCGATGGCAAGGATCACTGTAACAACGACACCA
AGAGATGGAACCTACACTCCGTCTGGGATACTGCCATTCCACACAAGATT
AATGGCATAAAGCACAATCTGAAACACAACCCTGAAAGGCTGGCATCAGC
CAAGTGGGCCGACAGGCTCCACGAAGAGAACAAGCTGCGGCCAGCAGATA
CCGAGTGTGCAAATACCCAGGAACCCTTGGAATGCATCATGCAGTGGGCG
ACGGAGTCGAATCAGCTAAATTGTGATTTCGTGATGAAAAAGGGGCTTCA
GTGGCTTGAGAAGACCGATCTGGGTGGTAAGTACTATGAGGTAGCTGCAC
CTATTGTTGACGATCAAATTTTCAAGGCGGCCGTACGTCTCGCCGCTTGG
ATCAGTGCCCTAGCGGAGGATAGGGAAGAAGCCGATAATTCTAGAGGCGT
CCACCTTCAAGGTGATCTCTGA back to topCoding sequence (CDS) from alignment at NKJJ01000002.1:1983551..1986672- >CAN33_24940-T1 ID=CAN33_24940-T1|Name=CAN33_24940-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=7968bp|location=Sequence derived from alignment at NKJJ01000002.1:1983551..1986672- (Aspergillus niger FDAARGOS_311)
ACTCGCCAAATCAATGATCGGCACGCCAATATGACCCAACAGAAAGAAGC
CTTGATGTTTTTGATTCACCTGTTTGGGGACTTACACCAACCCCTGCACG
TCACAGGAGTCGCCAGAGGTGGGAATGATATTCATGTCTGCTTCGATGGC
AAGGATCACTGTAACAACGACACCAAGAGATGGAACCTACACTCCGTCTG
GGATACTGCCATTCCACACAAGATTAATGGCATAAAGCACAATCTGAAAC
ACAACCCTGAAAGGCTGGCATCAGCCAAGTGGGCCGACAGGCTCCACGAA
GAGAACAAGCTGCGGCCAGCAGATACCGAGTGTGCAAATACCCAGGAACC
CTTGGAATGCATCATGCAGTGGGCGACGGAGTCGAATCAGCTAAATTGTG
ATTTCGTGATGAAAAAGGGGCTTCAGTGGCTTGAGAAGACCGATCTGGGT
GGTAAGTACTATGAGGTAGCTGCACCTATTGTTGACGATCAAATTTTCAA
GGCGGCCGTACGTCTCGCCGCTTGGATCAGTGCCCTAGCGGAGGATAGGG
AAGAAGCCGATAATTCTAGAGGCGTCCACCTTCAAGGTGATCTCTGAATC
CAGATGATGAACCCCCAAAGTCGTGTTTCGTCTCATACCCCCACGATTGC
CCTCCCGAGGGTTGCATTATCTCACAGATGGCAAACATGGGCCAGATTTA
CGCCACGTACCACGGCAATGCAGGTCATTATTTTCTTTTCACATTTATTG
CGCTGGCATCGCAACCAGTGATTGCGTGGGGCGACGTTGGACACCGAGCT
ATAGCCTACTTGGCTGAGAAATACCTTACTGTTGCCGGCTCAAATCTCGT
CAACGAGCTTCTCGCCAACGACAAGAACTATGATATCTCCGACGCCGCAA
CGTGGGCTGACACCATCAAATGGAAACGACCGCTAACTAGGCCCTGGCAT
TATATCAATGCCCGTCAAAGACTACGGAATCTGGAAGGCATTTCCAGCTC
ACTACGAGTTCGAGGATCGTTTCGAGGACCCCAAATCCCCCCACCTCTCG
CTATACTATCATGACAATAATGCAAAAATGCCACAATTTGACCGTGAATA
CCGACACAAACATAAGGGCAACCCGCCAAATAAGCTAAAACCAAGGGAGA
TTCCTGGATTATTCCGCGCAGCAATCAACATCAAGTCCACAGCCAAGGAG
TCCCGGCTTGCATATTGGGTGAATCATAACATTGTCGAGCACCCCATCGC
CGAGAAGCTATCTAACTTGGACTTCGGCTTCCACCCAATTGATCAAATCA
CCGATTTCGATGGTAAAGGTCTGGACTACATTCGAGGGAACCTCTTCACT
ACAAAGAGCGGCCGTGTTCTTCCCCATGACATCCCTGGCACAAATAATGA
TATAATCGACGTTCTGGAGCCCGAAGTAAAAAAGGCAATTCATCACAAAG
CTACTATCTATCTGTTCGGCTCTATGTTCAACACCAGAAACGGAATCCAC
AACGTCCACATGAACCAGGGCAATATCCCGCACTTTGTCAGAGATGACGG
CGTATTTCAGGATGGTGGCCTCCTCATCGAGTACGACGATCACTGGACTG
GCGTTTTTCTTGCATTCGCATCCCAGGCCGCTCACACGGATGACCACAAT
GGACATGCTTTTGCAAAACACGTCATTACTTGGGCAGACATTCTACCTCA
GGAGATTATTGAGAATTCGGTAACGATCAAGGAGGCACTTGTCAATCCGC
GAGGCAGAGATGATCGGTCCGCCAAACAAAAAGAGTTCGTAACGCTTGAA
AACCTTACAAACCACAGAGTAGCCCTGTCATCATGGAGGGTTCATAATGC
TGCTGGTCAAGTTCAAGCGCTCCCTCAAAATGCAGCTTTGGACTCTCGGG
CTATGAAAAGGTTCGAGATGTCAAACTGCCCTCTTTCTAACAACGGCGAT
ACTATCACCTTACTTAATGAAGAGGGACTAAGGGTCGATGGAACTCGCCA
AATCAATGATCGGCACGCCAATATGACCCAACAGAAAGAAGCCTTGATGT
TTTTGATTCACCTGTTTGGGGACTTACACCAACCCCTGCACGTCACAGGA
GTCGCCAGAGGTGGGAATGATATTCATGTCTGCTTCGATGGCAAGGATCA
CTGTAACAACGACACCAAGAGATGGAACCTACACTCCGTCTGGGATACTG
CCATTCCACACAAGATTAATGGCATAAAGCACAATCTGAAACACAACCCT
GAAAGGCTGGCATCAGCCAAGTGGGCCGACAGGCTCCACGAAGAGAACAA
GCTGCGGCCAGCAGATACCGAGTGTGCAAATACCCAGGAACCCTTGGAAT
GCATCATGCAGTGGGCGACGGAGTCGAATCAGCTAAATTGTGATTTCGTG
ATGAAAAAGGGGCTTCAGTGGCTTGAGAAGACCGATCTGGGTGGTAAGTA
CTATGAGGTAGCTGCACCTATTGTTGACGATCAAATTTTCAAGGCGGCCG
TACGTCTCGCCGCTTGGATCAGTGCCCTAGCGGAGGATAGGGAAGAAGCC
GATAATTCTAGAGGCGTCCACCTTCAAGGTGATCTCTGAATCCAGATGAT
GAACCCCCAAAGTCGTGTTTCGTCTCATACCCCCACGATTGCCCTCCCGA
GGGTTGCATTATCTCACAGATGGCAAACATGGGCCAGATTTACGCCACGT
ACCACGGCAATGCAGGTCATTATTTTCTTTTCACATTTATTGCGCTGGCA
TCGCAACCAGTGATTGCGTGGGGCGACGTTGGACACCGAGCTATAGCCTA
CTTGGCTGAGAAATACCTTACTGTTGCCGGCTCAAATCTCGTCAACGAGC
TTCTCGCCAACGACAAGAACTATGATATCTCCGACGCCGCAACGTGGGCT
GACACCATCAAATGGAAACGACCGCTAACTAGGCCCTGGCATTATATCAA
TGCCCGTCAAAGACTACGGAATCTGGAAGGCATTTCCAGCTCACTACGAG
TTCGAGGATCGTTTCGAGGACCCCAAATCCCCCCACCTCTCGCTATACTA
TCATGACAATAATGCAAAAATGCCACAATTTGACCGTGAATACCGACACA
AACATAAGGGCAACCCGCCAAATAAGCTAAAACCAAGGGAGATTCCTGGA
TTATTCCGCGCAGCAATCAACATCAAGTCCACAGCCAAGGAGTCCCGGCT
TGCATATTGGGTGAATCATAACATTGTCGAGCACCCCATCGCCGAGAAGC
TATCTAACTTGGACTTCGGCTTCCACCCAATTGATCAAATCACCGATTTC
GATGGTAAAGGTCTGGACTACATTCGAGGGAACCTCTTCACTACAAAGAG
CGGCCGTGTTCTTCCCCATGACATCCCTGGCACAAATAATGATATAATCG
ACGTTCTGGAGCCCGAAGTAAAAAAGGCAATTCATCACAAAGCTACTATC
TATCTGTTCGGCTCTATGTTCAACACCAGAAACGGAATCCACAACGTCCA
CATGAACCAGGGCAATATCCCGCACTTTGTCAGAGATGACGGCGTATTTC
AGGATGGTGGCCTCCTCATCGAGTACGACGATCACTGGACTGGCGTTTTT
CTTGCATTCGCATCCCAGGCCGCTCACACGGATGACCACAATGGACATGC
TTTTGCAAAACACGTCATTACTTGGGCAGACATTCTACCTCAGGAGATTA
TTGAGAATTCGGTAACGATCAAGGAGGCACTTGTCAATCCGCGAGGCAGA
GATGATCGGTCCGCCAAACAAAAAGAGTTCGTAACGCTTGAAAACCTTAC
AAACCACAGAGTAGCCCTGTCATCATGGAGGGTTCATAATGCTGCTGGTC
AAGTTCAAGCGCTCCCTCAAAATGCAGCTTTGGACTCTCGGGCTATGAAA
AGGTTCGAGATGTCAAACTGCCCTCTTTCTAACAACGGCGATACTATCAC
CTTACTTAATGAAGAGGGACTAAGGGTCGATGGAACTCGCCAAATCAATG
ATCGGCACGCCAATATGACCCAACAGAAAGAAGCCTTGATGTTTTTGATT
CACCTGTTTGGGGACTTACACCAACCCCTGCACGTCACAGGAGTCGCCAG
AGGTGGGAATGATATTCATGTCTGCTTCGATGGCAAGGATCACTGTAACA
ACGACACCAAGAGATGGAACCTACACTCCGTCTGGGATACTGCCATTCCA
CACAAGATTAATGGCATAAAGCACAATCTGAAACACAACCCTGAAAGGCT
GGCATCAGCCAAGTGGGCCGACAGGCTCCACGAAGAGAACAAGCTGCGGC
CAGCAGATACCGAGTGTGCAAATACCCAGGAACCCTTGGAATGCATCATG
CAGTGGGCGACGGAGTCGAATCAGCTAAATTGTGATTTCGTGATGAAAAA
GGGGCTTCAGTGGCTTGAGAAGACCGATCTGGGTGGTAAGTACTATGAGG
TAGCTGCACCTATTGTTGACGATCAAATTTTCAAGGCGGCCGTACGTCTC
GCCGCTTGGATCAGTGCCCTAGCGGAGGATAGGGAAGAAGCCGATAATTC
TAGAGGCGTCCACCTTCAAGGTGATCTCTGAATCCAGATGATGAACCCCC
AAAGTCGTGTTTCGTCTCATACCCCCACGATTGCCCTCCCGAGGGTTGCA
TTATCTCACAGATGGCAAACATGGGCCAGATTTACGCCACGTACCACGGC
AATGCAGGTCATTATTTTCTTTTCACATTTATTGCGCTGGCATCGCAACC
AGTGATTGCGTGGGGCGACGTTGGACACCGAGCTATAGCCTACTTGGCTG
AGAAATACCTTACTGTTGCCGGCTCAAATCTCGTCAACGAGCTTCTCGCC
AACGACAAGAACTATGATATCTCCGACGCCGCAACGTGGGCTGACACCAT
CAAATGGAAACGACCGCTAACTAGGCCCTGGCATTATATCAATGCCCGTC
AAAGACTACGGAATCTGGAAGGCATTTCCAGCTCACTACGAGTTCGAGGA
TCGTTTCGAGGACCCCAAATCCCCCCACCTCTCGCTATACTATCATGACA
ATAATGCAAAAATGCCACAATTTGACCGTGAATACCGACACAAACATAAG
GGCAACCCGCCAAATAAGCTAAAACCAAGGGAGATTCCTGGATTATTCCG
CGCAGCAATCAACATCAAGTCCACAGCCAAGGAGTCCCGGCTTGCATATT
GGGTGAATCATAACATTGTCGAGCACCCCATCGCCGAGAAGCTATCTAAC
TTGGACTTCGGCTTCCACCCAATTGATCAAATCACCGATTTCGATGGTAA
AGGTCTGGACTACATTCGAGGGAACCTCTTCACTACAAAGAGCGGCCGTG
TTCTTCCCCATGACATCCCTGGCACAAATAATGATATAATCGACGTTCTG
GAGCCCGAAGTAAAAAAGGCAATTCATCACAAAGCTACTATCTATCTGTT
CGGCTCTATGTTCAACACCAGAAACGGAATCCACAACGTCCACATGAACC
AGGGCAATATCCCGCACTTTGTCAGAGATGACGGCGTATTTCAGGATGGT
GGCCTCCTCATCGAGTACGACGATCACTGGACTGGCGTTTTTCTTGCATT
CGCATCCCAGGCCGCTCACACGGATGACCACAATGGACATGCTTTTGCAA
AACACGTCATTACTTGGGCAGACATTCTACCTCAGGAGATTATTGAGAAT
TCGGTAACGATCAAGGAGGCACTTGTCAATCCGCGAGGCAGAGATGATCG
GTCCGCCAAACAAAAAGAGTTCGTAACGCTTGAAAACCTTACAAACCACA
GAGTAGCCCTGTCATCATGGAGGGTTCATAATGCTGCTGGTCAAGTTCAA
GCGCTCCCTCAAAATGCAGCTTTGGACTCTCGGGCTATGAAAAGGTTCGA
GATGTCAAACTGCCCTCTTTCTAACAACGGCGATACTATCACCTTACTTA
ATGAAGAGGGACTAAGGGTCGATGGAACTCGCCAAATCAATGATCGGCAC
GCCAATATGACCCAACAGAAAGAAGCCTTGATGTTTTTGATTCACCTGTT
TGGGGACTTACACCAACCCCTGCACGTCACAGGAGTCGCCAGAGGTGGGA
ATGATATTCATGTCTGCTTCGATGGCAAGGATCACTGTAACAACGACACC
AAGAGATGGAACCTACACTCCGTCTGGGATACTGCCATTCCACACAAGAT
TAATGGCATAAAGCACAATCTGAAACACAACCCTGAAAGGCTGGCATCAG
CCAAGTGGGCCGACAGGCTCCACGAAGAGAACAAGCTGCGGCCAGCAGAT
ACCGAGTGTGCAAATACCCAGGAACCCTTGGAATGCATCATGCAGTGGGC
GACGGAGTCGAATCAGCTAAATTGTGATTTCGTGATGAAAAAGGGGCTTC
AGTGGCTTGAGAAGACCGATCTGGGTGGTAAGTACTATGAGGTAGCTGCA
CCTATTGTTGACGATCAAATTTTCAAGGCGGCCGTACGTCTCGCCGCTTG
GATCAGTGCCCTAGCGGAGGATAGGGAAGAAGCCGATAATTCTAGAGGCG
TCCACCTTCAAGGTGATCTCTGAATCCAGATGATGAACCCCCAAAGTCGT
GTTTCGTCTCATACCCCCACGATTGCCCTCCCGAGGGTTGCATTATCTCA
CAGATGGCAAACATGGGCCAGATTTACGCCACGTACCACGGCAATGCAGG
TCATTATTTTCTTTTCACATTTATTGCGCTGGCATCGCAACCAGTGATTG
CGTGGGGCGACGTTGGACACCGAGCTATAGCCTACTTGGCTGAGAAATAC
CTTACTGTTGCCGGCTCAAATCTCGTCAACGAGCTTCTCGCCAACGACAA
GAACTATGATATCTCCGACGCCGCAACGTGGGCTGACACCATCAAATGGA
AACGACCGCTAACTAGGCCCTGGCATTATATCAATGCCCGTCAAAGACTA
CGGAATCTGGAAGGCATTTCCAGCTCACTACGAGTTCGAGGATCGTTTCG
AGGACCCCAAATCCCCCCACCTCTCGCTATACTATCATGACAATAATGCA
AAAATGCCACAATTTGACCGTGAATACCGACACAAACATAAGGGCAACCC
GCCAAATAAGCTAAAACCAAGGGAGATTCCTGGATTATTCCGCGCAGCAA
TCAACATCAAGTCCACAGCCAAGGAGTCCCGGCTTGCATATTGGGTGAAT
CATAACATTGTCGAGCACCCCATCGCCGAGAAGCTATCTAACTTGGACTT
CGGCTTCCACCCAATTGATCAAATCACCGATTTCGATGGTAAAGGTCTGG
ACTACATTCGAGGGAACCTCTTCACTACAAAGAGCGGCCGTGTTCTTCCC
CATGACATCCCTGGCACAAATAATGATATAATCGACGTTCTGGAGCCCGA
AGTAAAAAAGGCAATTCATCACAAAGCTACTATCTATCTGTTCGGCTCTA
TGTTCAACACCAGAAACGGAATCCACAACGTCCACATGAACCAGGGCAAT
ATCCCGCACTTTGTCAGAGATGACGGCGTATTTCAGGATGGTGGCCTCCT
CATCGAGTACGACGATCACTGGACTGGCGTTTTTCTTGCATTCGCATCCC
AGGCCGCTCACACGGATGACCACAATGGACATGCTTTTGCAAAACACGTC
ATTACTTGGGCAGACATTCTACCTCAGGAGATTATTGAGAATTCGGTAAC
GATCAAGGAGGCACTTGTCAATCCGCGAGGCAGAGATGATCGGTCCGCCA
AACAAAAAGAGTTCGTAACGCTTGAAAACCTTACAAACCACAGAGTAGCC
CTGTCATCATGGAGGGTTCATAATGCTGCTGGTCAAGTTCAAGCGCTCCC
TCAAAATGCAGCTTTGGACTCTCGGGCTATGAAAAGGTTCGAGATGTCAA
ACTGCCCTCTTTCTAACAACGGCGATACTATCACCTTACTTAATGAAGAG
GGACTAAGGGTCGATGGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006308 | DNA catabolic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003676 | nucleic acid binding |
| GO:0004519 | endonuclease activity |
| GO:0016788 | hydrolase activity, acting on ester bonds |
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 |
|---|
| Note | EggNog:ENOG41 |
| DBxref | InterPro:IPR036415 |
| DBxref | InterPro:IPR019268 |
| DBxref | InterPro:IPR003154 |
| DBxref | InterPro:IPR008947 |
| DBxref | PFAM:PF02265 |
| DBxref | PFAM:PF10042 |
| Product | Uncharacterized conserved protein (DUF2278) family 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 |
|---|
| NKJJ01000002.1 | supercontig | NKJJ01000002.1:1983551..1986672 - |
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