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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch3:5467431..5471213+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >KJC3_004506-T1 ID=KJC3_004506-T1|Name=KJC3_004506-T1|organism=Aspergillus niger KJC3|type=mRNA|length=3783bp|location=Sequence derived from alignment at ch3:5467431..5471213+ (Aspergillus niger KJC3)
ATGGCATCCGGGCCGAAAGCTTCTCACCATGATTATACCGTGGCGTGGAT
ATGCGCACTACCGGTGGAGCTGGCAGCTGCCCAAGCTCTTCTGGATGAGA
TTCACGATCAGCTACCGGCCGGACCAGCTGACACGAATGTCTACACCCTA
GGGTGCATATATGGCCACAGGATTGTCCTCACCTGCTTACCGAGCGGTGT
ATGCGGGACGATCTCTGCTGCCATTGTCGCGACGCAGCTTTTGTCGACTT
TCCATTCCATCCAATTTGCCCTCCTGGTCGGTATTGGCGGAGGCATACCG
ACTGAGAGCGCAGATATTCGCCTCGGCGATGTTGTCGTTGCAAGGCCTAC
TGACAAGCACGGCGGAGTTGTACAATATGACTTTGGCAAAGCAACACCCA
CTGGCTTTCAGCGTACGGGCATCCTAAATAGCCCGCCTAGACCTCTGTTA
CAAGCGCTCTCTAAATTAGAAGCAAATCATTTAACACATGTTGGTCAATT
CAGTTCTATCCTGTCTGAGTTGGAAAGGAGGCTGCCTGGTCAGGGAGCAT
TGGTCTTCTCTCGGCCAGTGATGGAAGACCATTTGTATCTTGCAGATTAC
CATCATGTTGGTACTCAGTCCGATGGTTGTGAAAATTGTGATAAGTCAAG
GACGGCTGCACGGCCTGTGCGATGCGATGACTTACCAGTAGTTCATTACG
GGTTGATTGCGTCGGGAAACCAGGTGGTCAAAGACAGCCACTTGCGTAAC
AAGTTAGGGCAGGAACTAGGGGCGTACTGTGTCGAGATGGAAGCAGCCGG
CTTGACTAACCATTTGCCTTGTCTGGTGGTCCGCGGCATATGTGACTATG
CTGATTCACACAAGAATGACGCCTGGCACGGGTATGCTGCCGCCACAGCT
GCAGCGTATGCTAAGGAACTACTTTCTGTGATACCAGTTACGCAACACCA
TATGGCTTATTCGACAGGCAATACGTGGGGTAAGCAACTTGAAGGTCTCT
TGACAGAGCATCTCACCGCTAACAGCTAGAGGCCAGACAACTACCACATT
CCATTTCAGCTGACTGACGTACCCACAATTAGCAATTTTGTCGGTCGTGG
AGCAAATATCCACGAGCTCTGGGAGATCTTGCGCCCAAACACAGCGATGG
CGCGCAAAGCCGTAGTAATATATGGAATGGGTGGGCTAGGCAAAACACAG
CTTGCGGCCCACTTTGCTCGCATACACAAAGAGGACTTCACATCAATCTT
TTGGCTGCATGGCAAGGACGAGACTACCTTGAATGCGTCCTTTGCAGACC
TTGTTGCTCGTGTCAGAGAATTGGCTGCATTCAATAGTACAAATCATCAT
GCAATGCGCGAAGGGCCAGGATTGTGTGCCAAAACAGCTTTAGAGTGGCT
CTCCAAGAAGAACAATGCTGAGTGGCTTCTAATCTACGACGATGTAGAAG
CCCGTGACATTGAAAAGTGGCTGCCGACTGCAGATCATGGTTCAATTATC
GTCACAACTCGATCACAGCAATTCGCTGACAGTGGCATGATAGCCCACCC
ACTCAAGCCGCTTCCCTTTGAGGAAGCATTGCAACTACTCACTAATGAAC
CAGGCCCTGGGGACGGCACATGCAGCCGATGCCAAAATGACCCAAGCTCC
GAAGCTTTAGCTAGGCGTTTGCATGGACTACCTTTAGCGCTGGCACTTGC
AGGCTCTTATATTCACCGGACAGGTATGAGCTGCTCCAAATACTTGGAAT
ACTACCAACGGGAATGGTGCAGCCTTCAGGCAGCGGCAGAACCGCTTCGA
GAGTACCGAAACGGGAATTTGCAGACGGCGTGGAGAGTTTCTTACGAGGC
AGTTAAGCAAACCTCTCCACTGGCGGCCCAGTCCTTCTTTGTTCTTTCAT
TTTTTCACCATGAGGATATATGGTATGAGCTACTCAACAGCGCCATGCAA
TCCCACGCCTTACCCCCGTGGCTCTCTGAAGTCATGTCGAACGAGATTCA
GTTCTCAAAGTTGATGCAGATATTGCTGGAATTCTCGCTGGTACAACAGT
CGTCGCGCAATGGAAGTTATTGCATACACCCCGTCATACAGGATTGGTGT
AAGAATGAGCTTCCAACAATCGATCCAGACCTCTTTGAGCTTGGCACGAA
AACTTTCACCATTGTCGCAGTCGCAGTGGGGTCGAACGCCCGAACTGCGC
TAGACACGAACGACTGGTCGCTGCAACACCGCCTGCTGTATCACGCAAAC
AGACTCACGCCACTATTACGAGCCAAACCAGGAGAAAGTCGAGATGCTGA
GGTCCTTTCGGCAGTTCATACAATTGGACGCCTGTATTGGACACATGGAA
GGTATGAACGTGCCGAGGAGATGTACCAAGAGGCACTCGCTGGGAGAGAG
ATGGTCTTCGGCCTAGATCACAATGTCACTCTCCAGACTGTCCACAATAT
GGGCTTGCTTTACCACGACCGGGGCGACTTAAGATCTGCCGAGCTGATGT
TTCAACGGGCGCTTTCCGGATATAATTGCACCGAGAATGATAATGCCCAC
TTGGAGGCTCTGGACACTCTTCAAAGCCTTGCGAATGTCTACCATGCTCA
AGGGAGACTAGACGAGGCTGAAAGGCTGTGCTACAACGCACTGACAGGAT
ACCAAAGTTTATTGACAGCAAATAGTCCCTTGGTCATGGATGCAATGCAC
AACCTCGCAAACATCTACTTTTCCCAACACCAGTTACCCGCAGCAGAAGA
GCTGTACGACCGAGCCTTTAAGGGCAAACAGAGACTGCTTGGTGAATATC
ACACATCAACGCTTGACACAATTCATAATTTAGGGGTTGTTTATTTCGAA
CAAGGTCGACTGCAGGAAGCCGAAGAAATGTACGATCGTGCACTTTCTGG
GAAGGTAAGAGTAATGGGGGAAGACCACGCGTCCGTGTTCGACACGCTAT
TCCAATTAGGAACCCTGTATCGCTCACAGGGTAGATCGAAAGCTGCCGAG
GAAATGTACCAACGAGCTCTGTTGGGACGAGAGAAAGTCGTGGGTGTCTG
TCACCCCTCGACTCTTCATACTATCCATCATATTGGAAACCTTTATTTGC
GGCAAGGCAGGCTGCAAGAGGCGGAGCAGATGCAAGAACGAGCACTCCAC
GGCTATGACAGTACCTTTGGTCACGACCACACCTATACGCTTGAACTAGC
CCATACCCTGGCTATTGTCTGTTGCCAACGAGGGAAGCTTGCTAAAGCAG
AAACCCTGTTCCAACGCGTCCTGGCCGCTAAGGAGCAGACCGATGGGAAG
CGTAGTGCGCCAGTGCTTGCTATTCTGAACAACCTAGCAAACGTATACAG
AGAGCAAGGCAGGCTCGTGGAAGCCGAAGAGACATATAAATTGGTCTTGA
GCGAATGGCAGAAACGCAGCCGAACCCATCCTGCGGCACTCGGGGCTCTG
AGCAATCTCGGGATCATCTATCAAGACCGGAACCAGCTGAAAGAGGCGGA
AAGAGTGTTCAAAGAATCTCTCAACGGATACAATAGCGAGCTCGGTCCTG
ATCATGTCCTCACACTGGACACGGTATGTAACCTAGGGGATTTGTATCGG
GACCAGCACAAGGCCCACAGGGCAAAGGAACTCTACCAGCGCGCTCTTAC
CGGCTATGAGAGTATTCTGGGTCCAGACCACCCGAGAACACAAGAAACCG
CAAACAAGGTACGCTTGATATGCAATTCTTCAAAACCGACCAAGCGAGAC
CTCATTGCCCGACTTTGGAAAGGTGGTCGTTAA back to topCoding sequence (CDS) from alignment at ch3:5467431..5471213+ >KJC3_004506-T1 ID=KJC3_004506-T1|Name=KJC3_004506-T1|organism=Aspergillus niger KJC3|type=CDS|length=7452bp|location=Sequence derived from alignment at ch3:5467431..5471213+ (Aspergillus niger KJC3)
ATGGCATCCGGGCCGAAAGCTTCTCACCATGATTATACCGTGGCGTGGAT
ATGCGCACTACCGGTGGAGCTGGCAGCTGCCCAAGCTCTTCTGGATGAGA
TTCACGATCAGCTACCGGCCGGACCAGCTGACACGAATGTCTACACCCTA
GGGTGCATATATGGCCACAGGATTGTCCTCACCTGCTTACCGAGCGGTGT
ATGCGGGACGATCTCTGCTGCCATTGTCGCGACGCAGCTTTTGTCGACTT
TCCATTCCATCCAATTTGCCCTCCTGGTCGGTATTGGCGGAGGCATACCG
ACTGAGAGCGCAGATATTCGCCTCGGCGATGTTGTCGTTGCAAGGCCTAC
TGACAAGCACGGCGGAGTTGTACAATATGACTTTGGCAAAGCAACACCCA
CTGGCTTTCAGCGTACGGGCATCCTAAATAGCCCGCCTAGACCTCTGTTA
CAAGCGCTCTCTAAATTAGAAGCAAATCATTTAACACATGTTGGTCAATT
CAGTTCTATCCTGTCTGAGTTGGAAAGGAGGCTGCCTGGTCAGGGAGCAT
TGGTCTTCTCTCGGCCAGTGATGGAAGACCATTTGTATCTTGCAGATTAC
CATCATGTTGGTACTCAGTCCGATGGTTGTGAAAATTGTGATAAGTCAAG
GACGGCTGCACGGCCTGTGCGATGCGATGACTTACCAGTAGTTCATTACG
GGTTGATTGCGTCGGGAAACCAGGTGGTCAAAGACAGCCACTTGCGTAAC
AAGTTAGGGCAGGAACTAGGGGCGTACTGTGTCGAGATGGAAGCAGCCGG
CTTGACTAACCATTTGCCTTGTCTGGTGGTCCGCGGCATATGTGACTATG
CTGATTCACACAAGAATGACGCCTGGCACGGGTATGCTGCCGCCACAGCT
GCAGCGTATGCTAAGGAACTACTTTCTGTGATACCAGTTACGCAACACCA
TATGGCTTATTCGACAGGCAATACGTGGGACAACTACCACATTCCATTTC
AGCTGACTGACGTACCCACAATTAGCAATTTTGTCGGTCGTGGAGCAAAT
ATCCACGAGCTCTGGGAGATCTTGCGCCCAAACACAGCGATGGCGCGCAA
AGCCGTAGTAATATATGGAATGGGTGGGCTAGGCAAAACACAGCTTGCGG
CCCACTTTGCTCGCATACACAAAGAGGACTTCACATCAATCTTTTGGCTG
CATGGCAAGGACGAGACTACCTTGAATGCGTCCTTTGCAGACCTTGTTGC
TCGTGTCAGAGAATTGGCTGCATTCAATAGTACAAATCATCATGCAATGC
GCGAAGGGCCAGGATTGTGTGCCAAAACAGCTTTAGAGTGGCTCTCCAAG
AAGAACAATGCTGAGTGGCTTCTAATCTACGACGATGTAGAAGCCCGTGA
CATTGAAAAGTGGCTGCCGACTGCAGATCATGGTTCAATTATCGTCACAA
CTCGATCACAGCAATTCGCTGACAGTGGCATGATAGCCCACCCACTCAAG
CCGCTTCCCTTTGAGGAAGCATTGCAACTACTCACTAATGAACCAGGCCC
TGGGGACGGCACATGCAGCCGATGCCAAAATGACCCAAGCTCCGAAGCTT
TAGCTAGGCGTTTGCATGGACTACCTTTAGCGCTGGCACTTGCAGGCTCT
TATATTCACCGGACAGGTATGAGCTGCTCCAAATACTTGGAATACTACCA
ACGGGAATGGTGCAGCCTTCAGGCAGCGGCAGAACCGCTTCGAGAGTACC
GAAACGGGAATTTGCAGACGGCGTGGAGAGTTTCTTACGAGGCAGTTAAG
CAAACCTCTCCACTGGCGGCCCAGTCCTTCTTTGTTCTTTCATTTTTTCA
CCATGAGGATATATGGTATGAGCTACTCAACAGCGCCATGCAATCCCACG
CCTTACCCCCGTGGCTCTCTGAAGTCATGTCGAACGAGATTCAGTTCTCA
AAGTTGATGCAGATATTGCTGGAATTCTCGCTGGTACAACAGTCGTCGCG
CAATGGAAGTTATTGCATACACCCCGTCATACAGGATTGGTGTAAGAATG
AGCTTCCAACAATCGATCCAGACCTCTTTGAGCTTGGCACGAAAACTTTC
ACCATTGTCGCAGTCGCAGTGGGGTCGAACGCCCGAACTGCGCTAGACAC
GAACGACTGGTCGCTGCAACACCGCCTGCTGTATCACGCAAACAGACTCA
CGCCACTATTACGAGCCAAACCAGGAGAAAGTCGAGATGCTGAGGTCCTT
TCGGCAGTTCATACAATTGGACGCCTGTATTGGACACATGGAAGGTATGA
ACGTGCCGAGGAGATGTACCAAGAGGCACTCGCTGGGAGAGAGATGGTCT
TCGGCCTAGATCACAATGTCACTCTCCAGACTGTCCACAATATGGGCTTG
CTTTACCACGACCGGGGCGACTTAAGATCTGCCGAGCTGATGTTTCAACG
GGCGCTTTCCGGATATAATTGCACCGAGAATGATAATGCCCACTTGGAGG
CTCTGGACACTCTTCAAAGCCTTGCGAATGTCTACCATGCTCAAGGGAGA
CTAGACGAGGCTGAAAGGCTGTGCTACAACGCACTGACAGGATACCAAAG
TTTATTGACAGCAAATAGTCCCTTGGTCATGGATGCAATGCACAACCTCG
CAAACATCTACTTTTCCCAACACCAGTTACCCGCAGCAGAAGAGCTGTAC
GACCGAGCCTTTAAGGGCAAACAGAGACTGCTTGGTGAATATCACACATC
AACGCTTGACACAATTCATAATTTAGGGGTTGTTTATTTCGAACAAGGTC
GACTGCAGGAAGCCGAAGAAATGTACGATCGTGCACTTTCTGGGAAGGTA
AGAGTAATGGGGGAAGACCACGCGTCCGTGTTCGACACGCTATTCCAATT
AGGAACCCTGTATCGCTCACAGGGTAGATCGAAAGCTGCCGAGGAAATGT
ACCAACGAGCTCTGTTGGGACGAGAGAAAGTCGTGGGTGTCTGTCACCCC
TCGACTCTTCATACTATCCATCATATTGGAAACCTTTATTTGCGGCAAGG
CAGGCTGCAAGAGGCGGAGCAGATGCAAGAACGAGCACTCCACGGCTATG
ACAGTACCTTTGGTCACGACCACACCTATACGCTTGAACTAGCCCATACC
CTGGCTATTGTCTGTTGCCAACGAGGGAAGCTTGCTAAAGCAGAAACCCT
GTTCCAACGCGTCCTGGCCGCTAAGGAGCAGACCGATGGGAAGCGTAGTG
CGCCAGTGCTTGCTATTCTGAACAACCTAGCAAACGTATACAGAGAGCAA
GGCAGGCTCGTGGAAGCCGAAGAGACATATAAATTGGTCTTGAGCGAATG
GCAGAAACGCAGCCGAACCCATCCTGCGGCACTCGGGGCTCTGAGCAATC
TCGGGATCATCTATCAAGACCGGAACCAGCTGAAAGAGGCGGAAAGAGTG
TTCAAAGAATCTCTCAACGGATACAATAGCGAGCTCGGTCCTGATCATGT
CCTCACACTGGACACGGTATGTAACCTAGGGGATTTGTATCGGGACCAGC
ACAAGGCCCACAGGGCAAAGGAACTCTACCAGCGCGCTCTTACCGGCTAT
GAGAGTATTCTGGGTCCAGACCACCCGAGAACACAAGAAACCGCAAACAA
GGTACGCTTGATATGCAATTCTTCAAAACCGACCAAGCGAGACCTCATTG
CCCGACTTTGGAAAGGTGGTCGTTAAATGGCATCCGGGCCGAAAGCTTCT
CACCATGATTATACCGTGGCGTGGATATGCGCACTACCGGTGGAGCTGGC
AGCTGCCCAAGCTCTTCTGGATGAGATTCACGATCAGCTACCGGCCGGAC
CAGCTGACACGAATGTCTACACCCTAGGGTGCATATATGGCCACAGGATT
GTCCTCACCTGCTTACCGAGCGGTGTATGCGGGACGATCTCTGCTGCCAT
TGTCGCGACGCAGCTTTTGTCGACTTTCCATTCCATCCAATTTGCCCTCC
TGGTCGGTATTGGCGGAGGCATACCGACTGAGAGCGCAGATATTCGCCTC
GGCGATGTTGTCGTTGCAAGGCCTACTGACAAGCACGGCGGAGTTGTACA
ATATGACTTTGGCAAAGCAACACCCACTGGCTTTCAGCGTACGGGCATCC
TAAATAGCCCGCCTAGACCTCTGTTACAAGCGCTCTCTAAATTAGAAGCA
AATCATTTAACACATGTTGGTCAATTCAGTTCTATCCTGTCTGAGTTGGA
AAGGAGGCTGCCTGGTCAGGGAGCATTGGTCTTCTCTCGGCCAGTGATGG
AAGACCATTTGTATCTTGCAGATTACCATCATGTTGGTACTCAGTCCGAT
GGTTGTGAAAATTGTGATAAGTCAAGGACGGCTGCACGGCCTGTGCGATG
CGATGACTTACCAGTAGTTCATTACGGGTTGATTGCGTCGGGAAACCAGG
TGGTCAAAGACAGCCACTTGCGTAACAAGTTAGGGCAGGAACTAGGGGCG
TACTGTGTCGAGATGGAAGCAGCCGGCTTGACTAACCATTTGCCTTGTCT
GGTGGTCCGCGGCATATGTGACTATGCTGATTCACACAAGAATGACGCCT
GGCACGGGTATGCTGCCGCCACAGCTGCAGCGTATGCTAAGGAACTACTT
TCTGTGATACCAGTTACGCAACACCATATGGCTTATTCGACAGGCAATAC
GTGGGACAACTACCACATTCCATTTCAGCTGACTGACGTACCCACAATTA
GCAATTTTGTCGGTCGTGGAGCAAATATCCACGAGCTCTGGGAGATCTTG
CGCCCAAACACAGCGATGGCGCGCAAAGCCGTAGTAATATATGGAATGGG
TGGGCTAGGCAAAACACAGCTTGCGGCCCACTTTGCTCGCATACACAAAG
AGGACTTCACATCAATCTTTTGGCTGCATGGCAAGGACGAGACTACCTTG
AATGCGTCCTTTGCAGACCTTGTTGCTCGTGTCAGAGAATTGGCTGCATT
CAATAGTACAAATCATCATGCAATGCGCGAAGGGCCAGGATTGTGTGCCA
AAACAGCTTTAGAGTGGCTCTCCAAGAAGAACAATGCTGAGTGGCTTCTA
ATCTACGACGATGTAGAAGCCCGTGACATTGAAAAGTGGCTGCCGACTGC
AGATCATGGTTCAATTATCGTCACAACTCGATCACAGCAATTCGCTGACA
GTGGCATGATAGCCCACCCACTCAAGCCGCTTCCCTTTGAGGAAGCATTG
CAACTACTCACTAATGAACCAGGCCCTGGGGACGGCACATGCAGCCGATG
CCAAAATGACCCAAGCTCCGAAGCTTTAGCTAGGCGTTTGCATGGACTAC
CTTTAGCGCTGGCACTTGCAGGCTCTTATATTCACCGGACAGGTATGAGC
TGCTCCAAATACTTGGAATACTACCAACGGGAATGGTGCAGCCTTCAGGC
AGCGGCAGAACCGCTTCGAGAGTACCGAAACGGGAATTTGCAGACGGCGT
GGAGAGTTTCTTACGAGGCAGTTAAGCAAACCTCTCCACTGGCGGCCCAG
TCCTTCTTTGTTCTTTCATTTTTTCACCATGAGGATATATGGTATGAGCT
ACTCAACAGCGCCATGCAATCCCACGCCTTACCCCCGTGGCTCTCTGAAG
TCATGTCGAACGAGATTCAGTTCTCAAAGTTGATGCAGATATTGCTGGAA
TTCTCGCTGGTACAACAGTCGTCGCGCAATGGAAGTTATTGCATACACCC
CGTCATACAGGATTGGTGTAAGAATGAGCTTCCAACAATCGATCCAGACC
TCTTTGAGCTTGGCACGAAAACTTTCACCATTGTCGCAGTCGCAGTGGGG
TCGAACGCCCGAACTGCGCTAGACACGAACGACTGGTCGCTGCAACACCG
CCTGCTGTATCACGCAAACAGACTCACGCCACTATTACGAGCCAAACCAG
GAGAAAGTCGAGATGCTGAGGTCCTTTCGGCAGTTCATACAATTGGACGC
CTGTATTGGACACATGGAAGGTATGAACGTGCCGAGGAGATGTACCAAGA
GGCACTCGCTGGGAGAGAGATGGTCTTCGGCCTAGATCACAATGTCACTC
TCCAGACTGTCCACAATATGGGCTTGCTTTACCACGACCGGGGCGACTTA
AGATCTGCCGAGCTGATGTTTCAACGGGCGCTTTCCGGATATAATTGCAC
CGAGAATGATAATGCCCACTTGGAGGCTCTGGACACTCTTCAAAGCCTTG
CGAATGTCTACCATGCTCAAGGGAGACTAGACGAGGCTGAAAGGCTGTGC
TACAACGCACTGACAGGATACCAAAGTTTATTGACAGCAAATAGTCCCTT
GGTCATGGATGCAATGCACAACCTCGCAAACATCTACTTTTCCCAACACC
AGTTACCCGCAGCAGAAGAGCTGTACGACCGAGCCTTTAAGGGCAAACAG
AGACTGCTTGGTGAATATCACACATCAACGCTTGACACAATTCATAATTT
AGGGGTTGTTTATTTCGAACAAGGTCGACTGCAGGAAGCCGAAGAAATGT
ACGATCGTGCACTTTCTGGGAAGGTAAGAGTAATGGGGGAAGACCACGCG
TCCGTGTTCGACACGCTATTCCAATTAGGAACCCTGTATCGCTCACAGGG
TAGATCGAAAGCTGCCGAGGAAATGTACCAACGAGCTCTGTTGGGACGAG
AGAAAGTCGTGGGTGTCTGTCACCCCTCGACTCTTCATACTATCCATCAT
ATTGGAAACCTTTATTTGCGGCAAGGCAGGCTGCAAGAGGCGGAGCAGAT
GCAAGAACGAGCACTCCACGGCTATGACAGTACCTTTGGTCACGACCACA
CCTATACGCTTGAACTAGCCCATACCCTGGCTATTGTCTGTTGCCAACGA
GGGAAGCTTGCTAAAGCAGAAACCCTGTTCCAACGCGTCCTGGCCGCTAA
GGAGCAGACCGATGGGAAGCGTAGTGCGCCAGTGCTTGCTATTCTGAACA
ACCTAGCAAACGTATACAGAGAGCAAGGCAGGCTCGTGGAAGCCGAAGAG
ACATATAAATTGGTCTTGAGCGAATGGCAGAAACGCAGCCGAACCCATCC
TGCGGCACTCGGGGCTCTGAGCAATCTCGGGATCATCTATCAAGACCGGA
ACCAGCTGAAAGAGGCGGAAAGAGTGTTCAAAGAATCTCTCAACGGATAC
AATAGCGAGCTCGGTCCTGATCATGTCCTCACACTGGACACGGTATGTAA
CCTAGGGGATTTGTATCGGGACCAGCACAAGGCCCACAGGGCAAAGGAAC
TCTACCAGCGCGCTCTTACCGGCTATGAGAGTATTCTGGGTCCAGACCAC
CCGAGAACACAAGAAACCGCAAACAAGGTACGCTTGATATGCAATTCTTC
AAAACCGACCAAGCGAGACCTCATTGCCCGACTTTGGAAAGGTGGTCGTT
AA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0009116 | nucleoside metabolic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0043531 | ADP binding |
| GO:0003824 | catalytic 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 |
|---|
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR035994 |
| DBxref | InterPro:IPR013026 |
| DBxref | InterPro:IPR002182 |
| DBxref | InterPro:IPR000845 |
| DBxref | InterPro:IPR011990 |
| DBxref | InterPro:IPR019734 |
| DBxref | PFAM:PF17874 |
| DBxref | PFAM:PF13181 |
| DBxref | PFAM:PF13176 |
| DBxref | PFAM:PF07721 |
| DBxref | PFAM:PF07720 |
| DBxref | PFAM:PF13424 |
| DBxref | PFAM:PF13374 |
| DBxref | PFAM:PF01048 |
| DBxref | PFAM:PF00931 |
| 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 |
|---|
| ch3 | supercontig | ch3:5467431..5471213 + |
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