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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000022.1:4248406..4250762- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_48915-T1 ID=CAN33_48915-T1|Name=CAN33_48915-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2357bp|location=Sequence derived from alignment at NKJJ01000022.1:4248406..4250762- (Aspergillus niger FDAARGOS_311)
ATGAGCGTCCGGGTAGTCGCGCGGGTCCGACCGCTCCTCAAATCGGAACG
GGAGTTGGATGTCATCCTACGCACAGGATCATCAAACCAGGCAGTGCCCG
GCAAGAGCGATAAGACAAGCTCCCAGGGGAAAGGCGCATTGGCAGCCTTG
AGGGATCGAGATAACCTCGTGCGAATCCCGAACCCCAAGAACGAAGGCGA
AGAATACTCGTTCCAGTTCAATGCTGTCTATGATGCGGAAGCTTCGCAGC
AGGAGCTCTTCGATGCAGAGGGTTTGTGACGCCAATTGTCTGGGAGGGGA
ACGGCATGCTGATGAAACGCGCAGTTGCTCCTACTGTCAAGCATCTCTTT
AACGGCTTCGACGTAACGATATTCGCATATGGAGTCACAGGAACTGGAAA
GACGCACACAATGCGAGGCGGTAAAAGCCTGGCTGACCGTGGCGCCATTC
CCCGTCTCCTAAGCAGCATCTACAGACGCAGCCGGAAGATGGAGAAGGAC
AGTGACGGGGAAACTACCGTCAAGGTATCTTTGAGCTACTACGAGATTTA
TAACGACAAAGTCTTCGATCTATTCGAACCCCCCGAAAAGAGGACGCTGG
CGGGACTACCTCTTCGAGACAACGGCGGCAAGACAGTCGTCGTGGGTTTG
ACGGAGAGGCCATGCCATACTCTGAAGGAATTCGAAATCTTGTATGACCA
GGCCAATACCAACAGGTCTACATCTGCAACAAAGGTTTGCATCCGCGCTG
TTCTTGGAATAGGTTAAATATTAACAGTTTTAGCTAAACGCCCACTCGTC
ACGATCCCATGCCATCCTCTGCGTGCGCGTCGCAGTCACTACTGGAGACA
AAACGCGCATCAGTACCGCATCTGCTATCGACCTTGCTGGCTCCGAGGAT
AACCGCCGGACGGATAATGACAAAGAGCGCATGGTTGAGTCTGCTAGTAT
CAACAAGAGCCTCTTCGTACTGGCTCAGTGTGTCGAAGCAATCAGCAAGA
AGCACTCGAGGATACCGTATCGAGAGTCGAAGATGACGAGGATCCTGTCT
TTGGGACAGAACAACGGACTGACTGTGATGATCCTGAACCTGGCGCCTGT
CAGGTCCTACCATCTGGACACAATAAGCTCGCTCAACTTCGCCAATCGCA
CGAAGAAGATCGAAGTGCGCGAGGTAGAAAATGAGCCAATGTTCAAGGGT
CCCCCTAGACCAGCGTCGCGGCCTTCGATCGCAGCCCTGCGGCAACCCCT
GCGGCCTCTGACAGCTTCAGTGAACGTAAACCTGACTGCCGCAGCCAAAG
ACACGACGAAGACCCTCGAAAAGCCTGCCAAAGCCTTCCACGTCTACTCC
GATAAATCACACCCTAGAACCACCACGCAGTTCAAGAAGCCTGAGCCCCC
TAAGCGCACTTCTATGAGCTCCCGGCCTTCTTTGAGTTCCGAAATCTCCC
GCCTCTCGAAGCCATCTCGTCCCGCTCAACCAACACAGCCTCAAAAGCAC
CATGACGATATCACCGCGGCCAAGATCGAAGAGATGGTAGAAAAGAAAGT
CGAGGAAATCCTGGCCGTGCGAGCCGTCAGCGAGCAGTCGAGACAAACGC
AGGTTCGCGAACTGAATGAGCAAGTCCAGCGTCGCCTAGAACTTCTCGAA
CAACGCATCGAAGGCTCCGAAGATGCAAGGGCCGAAGGCCTGTCATACTT
GCTCATGGCCAAGCAGCACCAAGCACGTGGCGAGGACAGCTTCGCTCTGA
GGATGTACCAGCTAGCACTCCCATACTTCCCGACAACGAGAAGCTATCCA
GGAAGATTGCCAGCTTGAAGGAGCGTATGCAAGGTAAACCGCGTCAGGAC
GCCGACACCACCATCAGCCACTCCGGCCCCAAGAGAGAACTCGGCAGTAT
GCTATCAATCAAGAAGCAGCCCGCCAAGACGAACCTCAAGCGTGTTGCTG
AAGACTCCGACGCGGACTACGAGGAACCTGAAGCGTCCCTCGAACAGTTC
AGCGACGAAGACATCGAGGAAATCACTCACATACGACGAAAGAAGCGCAC
AAAGACCAAGTCCTCACTAGACGACGAACGCGCCAGCGTCGACATGAACG
AGCAACCGCCTTCCCCACGGACAATCCACCTCCTCTCCATCATCAATTCG
CGGGACATCAGCCAGATCAAGCTGCTGAAAGGCGTGGGGGTCAAGAAGGC
CGAGGCTATTGTTGACTGTTTATGCGAGATGGACCAAAACACAGCCAACC
AAGATGAAGAAGCACGGTTCCACATCAGCAGCCTCGCCGAACTGAGTCAG
TTCAAGGGCGTGGGTGTGAAGAGTGTCCAGAGCATGCGAAACGGAGTTCT
GGTATAA back to topCoding sequence (CDS) from alignment at NKJJ01000022.1:4248406..4250762- >CAN33_48915-T1 ID=CAN33_48915-T1|Name=CAN33_48915-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=8880bp|location=Sequence derived from alignment at NKJJ01000022.1:4248406..4250762- (Aspergillus niger FDAARGOS_311)
CTAGCACTCCCATACTTCCCGACAACGAGAAGCTATCCAGGAAGATTGCC
AGCTTGAAGGAGCGTATGCAAGGTAAACCGCGTCAGGACGCCGACACCAC
CATCAGCCACTCCGGCCCCAAGAGAGAACTCGGCAGTATGCTATCAATCA
AGAAGCAGCCCGCCAAGACGAACCTCAAGCGTGTTGCTGAAGACTCCGAC
GCGGACTACGAGGAACCTGAAGCGTCCCTCGAACAGTTCAGCGACGAAGA
CATCGAGGAAATCACTCACATACGACGAAAGAAGCGCACAAAGACCAAGT
CCTCACTAGACGACGAACGCGCCAGCGTCGACATGAACGAGCAACCGCCT
TCCCCACGGACAATCCACCTCCTCTCCATCATCAATTCGCGGGACATCAG
CCAGATCAAGCTGCTGAAAGGCGTGGGGGTCAAGAAGGCCGAGGCTATTG
TTGACTGTTTATGCGAGATGGACCAAAACACAGCCAACCAAGATGAAGAA
GCACGGTTCCACATCAGCAGCCTCGCCGAACTGAGTCAGTTCAAGGGCGT
GGGTGTGAAGAGTGTCCAGAGCATGCGAAACGGAGTTCTGGTATAACTAA
ACGCCCACTCGTCACGATCCCATGCCATCCTCTGCGTGCGCGTCGCAGTC
ACTACTGGAGACAAAACGCGCATCAGTACCGCATCTGCTATCGACCTTGC
TGGCTCCGAGGATAACCGCCGGACGGATAATGACAAAGAGCGCATGGTTG
AGTCTGCTAGTATCAACAAGAGCCTCTTCGTACTGGCTCAGTGTGTCGAA
GCAATCAGCAAGAAGCACTCGAGGATACCGTATCGAGAGTCGAAGATGAC
GAGGATCCTGTCTTTGGGACAGAACAACGGACTGACTGTGATGATCCTGA
ACCTGGCGCCTGTCAGGTCCTACCATCTGGACACAATAAGCTCGCTCAAC
TTCGCCAATCGCACGAAGAAGATCGAAGTGCGCGAGGTAGAAAATGAGCC
AATGTTCAAGGGTCCCCCTAGACCAGCGTCGCGGCCTTCGATCGCAGCCC
TGCGGCAACCCCTGCGGCCTCTGACAGCTTCAGTGAACGTAAACCTGACT
GCCGCAGCCAAAGACACGACGAAGACCCTCGAAAAGCCTGCCAAAGCCTT
CCACGTCTACTCCGATAAATCACACCCTAGAACCACCACGCAGTTCAAGA
AGCCTGAGCCCCCTAAGCGCACTTCTATGAGCTCCCGGCCTTCTTTGAGT
TCCGAAATCTCCCGCCTCTCGAAGCCATCTCGTCCCGCTCAACCAACACA
GCCTCAAAAGCACCATGACGATATCACCGCGGCCAAGATCGAAGAGATGG
TAGAAAAGAAAGTCGAGGAAATCCTGGCCGTGCGAGCCGTCAGCGAGCAG
TCGAGACAAACGCAGGTTCGCGAACTGAATGAGCAAGTCCAGCGTCGCCT
AGAACTTCTCGAACAACGCATCGAAGGCTCCGAAGATGCAAGGGCCGAAG
GCCTGTCATACTTGCTCATGGCCAAGCAGCACCAAGCACTTGCTCCTACT
GTCAAGCATCTCTTTAACGGCTTCGACGTAACGATATTCGCATATGGAGT
CACAGGAACTGGAAAGACGCACACAATGCGAGGCGGTAAAAGCCTGGCTG
ACCGTGGCGCCATTCCCCGTCTCCTAAGCAGCATCTACAGACGCAGCCGG
AAGATGGAGAAGGACAGTGACGGGGAAACTACCGTCAAGGTATCTTTGAG
CTACTACGAGATTTATAACGACAAAGTCTTCGATCTATTCGAACCCCCCG
AAAAGAGGACGCTGGCGGGACTACCTCTTCGAGACAACGGCGGCAAGACA
GTCGTCGTGGGTTTGACGGAGAGGCCATGCCATACTCTGAAGGAATTCGA
AATCTTGTATGACCAGGCCAATACCAACAGGTCTACATCTGCAACAAAGA
TGAGCGTCCGGGTAGTCGCGCGGGTCCGACCGCTCCTCAAATCGGAACGG
GAGTTGGATGTCATCCTACGCACAGGATCATCAAACCAGGCAGTGCCCGG
CAAGAGCGATAAGACAAGCTCCCAGGGGAAAGGCGCATTGGCAGCCTTGA
GGGATCGAGATAACCTCGTGCGAATCCCGAACCCCAAGAACGAAGGCGAA
GAATACTCGTTCCAGTTCAATGCTGTCTATGATGCGGAAGCTTCGCAGCA
GGAGCTCTTCGATGCAGAGGCTAGCACTCCCATACTTCCCGACAACGAGA
AGCTATCCAGGAAGATTGCCAGCTTGAAGGAGCGTATGCAAGGTAAACCG
CGTCAGGACGCCGACACCACCATCAGCCACTCCGGCCCCAAGAGAGAACT
CGGCAGTATGCTATCAATCAAGAAGCAGCCCGCCAAGACGAACCTCAAGC
GTGTTGCTGAAGACTCCGACGCGGACTACGAGGAACCTGAAGCGTCCCTC
GAACAGTTCAGCGACGAAGACATCGAGGAAATCACTCACATACGACGAAA
GAAGCGCACAAAGACCAAGTCCTCACTAGACGACGAACGCGCCAGCGTCG
ACATGAACGAGCAACCGCCTTCCCCACGGACAATCCACCTCCTCTCCATC
ATCAATTCGCGGGACATCAGCCAGATCAAGCTGCTGAAAGGCGTGGGGGT
CAAGAAGGCCGAGGCTATTGTTGACTGTTTATGCGAGATGGACCAAAACA
CAGCCAACCAAGATGAAGAAGCACGGTTCCACATCAGCAGCCTCGCCGAA
CTGAGTCAGTTCAAGGGCGTGGGTGTGAAGAGTGTCCAGAGCATGCGAAA
CGGAGTTCTGGTATAACTAAACGCCCACTCGTCACGATCCCATGCCATCC
TCTGCGTGCGCGTCGCAGTCACTACTGGAGACAAAACGCGCATCAGTACC
GCATCTGCTATCGACCTTGCTGGCTCCGAGGATAACCGCCGGACGGATAA
TGACAAAGAGCGCATGGTTGAGTCTGCTAGTATCAACAAGAGCCTCTTCG
TACTGGCTCAGTGTGTCGAAGCAATCAGCAAGAAGCACTCGAGGATACCG
TATCGAGAGTCGAAGATGACGAGGATCCTGTCTTTGGGACAGAACAACGG
ACTGACTGTGATGATCCTGAACCTGGCGCCTGTCAGGTCCTACCATCTGG
ACACAATAAGCTCGCTCAACTTCGCCAATCGCACGAAGAAGATCGAAGTG
CGCGAGGTAGAAAATGAGCCAATGTTCAAGGGTCCCCCTAGACCAGCGTC
GCGGCCTTCGATCGCAGCCCTGCGGCAACCCCTGCGGCCTCTGACAGCTT
CAGTGAACGTAAACCTGACTGCCGCAGCCAAAGACACGACGAAGACCCTC
GAAAAGCCTGCCAAAGCCTTCCACGTCTACTCCGATAAATCACACCCTAG
AACCACCACGCAGTTCAAGAAGCCTGAGCCCCCTAAGCGCACTTCTATGA
GCTCCCGGCCTTCTTTGAGTTCCGAAATCTCCCGCCTCTCGAAGCCATCT
CGTCCCGCTCAACCAACACAGCCTCAAAAGCACCATGACGATATCACCGC
GGCCAAGATCGAAGAGATGGTAGAAAAGAAAGTCGAGGAAATCCTGGCCG
TGCGAGCCGTCAGCGAGCAGTCGAGACAAACGCAGGTTCGCGAACTGAAT
GAGCAAGTCCAGCGTCGCCTAGAACTTCTCGAACAACGCATCGAAGGCTC
CGAAGATGCAAGGGCCGAAGGCCTGTCATACTTGCTCATGGCCAAGCAGC
ACCAAGCACTTGCTCCTACTGTCAAGCATCTCTTTAACGGCTTCGACGTA
ACGATATTCGCATATGGAGTCACAGGAACTGGAAAGACGCACACAATGCG
AGGCGGTAAAAGCCTGGCTGACCGTGGCGCCATTCCCCGTCTCCTAAGCA
GCATCTACAGACGCAGCCGGAAGATGGAGAAGGACAGTGACGGGGAAACT
ACCGTCAAGGTATCTTTGAGCTACTACGAGATTTATAACGACAAAGTCTT
CGATCTATTCGAACCCCCCGAAAAGAGGACGCTGGCGGGACTACCTCTTC
GAGACAACGGCGGCAAGACAGTCGTCGTGGGTTTGACGGAGAGGCCATGC
CATACTCTGAAGGAATTCGAAATCTTGTATGACCAGGCCAATACCAACAG
GTCTACATCTGCAACAAAGATGAGCGTCCGGGTAGTCGCGCGGGTCCGAC
CGCTCCTCAAATCGGAACGGGAGTTGGATGTCATCCTACGCACAGGATCA
TCAAACCAGGCAGTGCCCGGCAAGAGCGATAAGACAAGCTCCCAGGGGAA
AGGCGCATTGGCAGCCTTGAGGGATCGAGATAACCTCGTGCGAATCCCGA
ACCCCAAGAACGAAGGCGAAGAATACTCGTTCCAGTTCAATGCTGTCTAT
GATGCGGAAGCTTCGCAGCAGGAGCTCTTCGATGCAGAGGCTAGCACTCC
CATACTTCCCGACAACGAGAAGCTATCCAGGAAGATTGCCAGCTTGAAGG
AGCGTATGCAAGGTAAACCGCGTCAGGACGCCGACACCACCATCAGCCAC
TCCGGCCCCAAGAGAGAACTCGGCAGTATGCTATCAATCAAGAAGCAGCC
CGCCAAGACGAACCTCAAGCGTGTTGCTGAAGACTCCGACGCGGACTACG
AGGAACCTGAAGCGTCCCTCGAACAGTTCAGCGACGAAGACATCGAGGAA
ATCACTCACATACGACGAAAGAAGCGCACAAAGACCAAGTCCTCACTAGA
CGACGAACGCGCCAGCGTCGACATGAACGAGCAACCGCCTTCCCCACGGA
CAATCCACCTCCTCTCCATCATCAATTCGCGGGACATCAGCCAGATCAAG
CTGCTGAAAGGCGTGGGGGTCAAGAAGGCCGAGGCTATTGTTGACTGTTT
ATGCGAGATGGACCAAAACACAGCCAACCAAGATGAAGAAGCACGGTTCC
ACATCAGCAGCCTCGCCGAACTGAGTCAGTTCAAGGGCGTGGGTGTGAAG
AGTGTCCAGAGCATGCGAAACGGAGTTCTGGTATAACTAAACGCCCACTC
GTCACGATCCCATGCCATCCTCTGCGTGCGCGTCGCAGTCACTACTGGAG
ACAAAACGCGCATCAGTACCGCATCTGCTATCGACCTTGCTGGCTCCGAG
GATAACCGCCGGACGGATAATGACAAAGAGCGCATGGTTGAGTCTGCTAG
TATCAACAAGAGCCTCTTCGTACTGGCTCAGTGTGTCGAAGCAATCAGCA
AGAAGCACTCGAGGATACCGTATCGAGAGTCGAAGATGACGAGGATCCTG
TCTTTGGGACAGAACAACGGACTGACTGTGATGATCCTGAACCTGGCGCC
TGTCAGGTCCTACCATCTGGACACAATAAGCTCGCTCAACTTCGCCAATC
GCACGAAGAAGATCGAAGTGCGCGAGGTAGAAAATGAGCCAATGTTCAAG
GGTCCCCCTAGACCAGCGTCGCGGCCTTCGATCGCAGCCCTGCGGCAACC
CCTGCGGCCTCTGACAGCTTCAGTGAACGTAAACCTGACTGCCGCAGCCA
AAGACACGACGAAGACCCTCGAAAAGCCTGCCAAAGCCTTCCACGTCTAC
TCCGATAAATCACACCCTAGAACCACCACGCAGTTCAAGAAGCCTGAGCC
CCCTAAGCGCACTTCTATGAGCTCCCGGCCTTCTTTGAGTTCCGAAATCT
CCCGCCTCTCGAAGCCATCTCGTCCCGCTCAACCAACACAGCCTCAAAAG
CACCATGACGATATCACCGCGGCCAAGATCGAAGAGATGGTAGAAAAGAA
AGTCGAGGAAATCCTGGCCGTGCGAGCCGTCAGCGAGCAGTCGAGACAAA
CGCAGGTTCGCGAACTGAATGAGCAAGTCCAGCGTCGCCTAGAACTTCTC
GAACAACGCATCGAAGGCTCCGAAGATGCAAGGGCCGAAGGCCTGTCATA
CTTGCTCATGGCCAAGCAGCACCAAGCACTTGCTCCTACTGTCAAGCATC
TCTTTAACGGCTTCGACGTAACGATATTCGCATATGGAGTCACAGGAACT
GGAAAGACGCACACAATGCGAGGCGGTAAAAGCCTGGCTGACCGTGGCGC
CATTCCCCGTCTCCTAAGCAGCATCTACAGACGCAGCCGGAAGATGGAGA
AGGACAGTGACGGGGAAACTACCGTCAAGGTATCTTTGAGCTACTACGAG
ATTTATAACGACAAAGTCTTCGATCTATTCGAACCCCCCGAAAAGAGGAC
GCTGGCGGGACTACCTCTTCGAGACAACGGCGGCAAGACAGTCGTCGTGG
GTTTGACGGAGAGGCCATGCCATACTCTGAAGGAATTCGAAATCTTGTAT
GACCAGGCCAATACCAACAGGTCTACATCTGCAACAAAGATGAGCGTCCG
GGTAGTCGCGCGGGTCCGACCGCTCCTCAAATCGGAACGGGAGTTGGATG
TCATCCTACGCACAGGATCATCAAACCAGGCAGTGCCCGGCAAGAGCGAT
AAGACAAGCTCCCAGGGGAAAGGCGCATTGGCAGCCTTGAGGGATCGAGA
TAACCTCGTGCGAATCCCGAACCCCAAGAACGAAGGCGAAGAATACTCGT
TCCAGTTCAATGCTGTCTATGATGCGGAAGCTTCGCAGCAGGAGCTCTTC
GATGCAGAGGCTAGCACTCCCATACTTCCCGACAACGAGAAGCTATCCAG
GAAGATTGCCAGCTTGAAGGAGCGTATGCAAGGTAAACCGCGTCAGGACG
CCGACACCACCATCAGCCACTCCGGCCCCAAGAGAGAACTCGGCAGTATG
CTATCAATCAAGAAGCAGCCCGCCAAGACGAACCTCAAGCGTGTTGCTGA
AGACTCCGACGCGGACTACGAGGAACCTGAAGCGTCCCTCGAACAGTTCA
GCGACGAAGACATCGAGGAAATCACTCACATACGACGAAAGAAGCGCACA
AAGACCAAGTCCTCACTAGACGACGAACGCGCCAGCGTCGACATGAACGA
GCAACCGCCTTCCCCACGGACAATCCACCTCCTCTCCATCATCAATTCGC
GGGACATCAGCCAGATCAAGCTGCTGAAAGGCGTGGGGGTCAAGAAGGCC
GAGGCTATTGTTGACTGTTTATGCGAGATGGACCAAAACACAGCCAACCA
AGATGAAGAAGCACGGTTCCACATCAGCAGCCTCGCCGAACTGAGTCAGT
TCAAGGGCGTGGGTGTGAAGAGTGTCCAGAGCATGCGAAACGGAGTTCTG
GTATAACTAAACGCCCACTCGTCACGATCCCATGCCATCCTCTGCGTGCG
CGTCGCAGTCACTACTGGAGACAAAACGCGCATCAGTACCGCATCTGCTA
TCGACCTTGCTGGCTCCGAGGATAACCGCCGGACGGATAATGACAAAGAG
CGCATGGTTGAGTCTGCTAGTATCAACAAGAGCCTCTTCGTACTGGCTCA
GTGTGTCGAAGCAATCAGCAAGAAGCACTCGAGGATACCGTATCGAGAGT
CGAAGATGACGAGGATCCTGTCTTTGGGACAGAACAACGGACTGACTGTG
ATGATCCTGAACCTGGCGCCTGTCAGGTCCTACCATCTGGACACAATAAG
CTCGCTCAACTTCGCCAATCGCACGAAGAAGATCGAAGTGCGCGAGGTAG
AAAATGAGCCAATGTTCAAGGGTCCCCCTAGACCAGCGTCGCGGCCTTCG
ATCGCAGCCCTGCGGCAACCCCTGCGGCCTCTGACAGCTTCAGTGAACGT
AAACCTGACTGCCGCAGCCAAAGACACGACGAAGACCCTCGAAAAGCCTG
CCAAAGCCTTCCACGTCTACTCCGATAAATCACACCCTAGAACCACCACG
CAGTTCAAGAAGCCTGAGCCCCCTAAGCGCACTTCTATGAGCTCCCGGCC
TTCTTTGAGTTCCGAAATCTCCCGCCTCTCGAAGCCATCTCGTCCCGCTC
AACCAACACAGCCTCAAAAGCACCATGACGATATCACCGCGGCCAAGATC
GAAGAGATGGTAGAAAAGAAAGTCGAGGAAATCCTGGCCGTGCGAGCCGT
CAGCGAGCAGTCGAGACAAACGCAGGTTCGCGAACTGAATGAGCAAGTCC
AGCGTCGCCTAGAACTTCTCGAACAACGCATCGAAGGCTCCGAAGATGCA
AGGGCCGAAGGCCTGTCATACTTGCTCATGGCCAAGCAGCACCAAGCACT
TGCTCCTACTGTCAAGCATCTCTTTAACGGCTTCGACGTAACGATATTCG
CATATGGAGTCACAGGAACTGGAAAGACGCACACAATGCGAGGCGGTAAA
AGCCTGGCTGACCGTGGCGCCATTCCCCGTCTCCTAAGCAGCATCTACAG
ACGCAGCCGGAAGATGGAGAAGGACAGTGACGGGGAAACTACCGTCAAGG
TATCTTTGAGCTACTACGAGATTTATAACGACAAAGTCTTCGATCTATTC
GAACCCCCCGAAAAGAGGACGCTGGCGGGACTACCTCTTCGAGACAACGG
CGGCAAGACAGTCGTCGTGGGTTTGACGGAGAGGCCATGCCATACTCTGA
AGGAATTCGAAATCTTGTATGACCAGGCCAATACCAACAGGTCTACATCT
GCAACAAAGATGAGCGTCCGGGTAGTCGCGCGGGTCCGACCGCTCCTCAA
ATCGGAACGGGAGTTGGATGTCATCCTACGCACAGGATCATCAAACCAGG
CAGTGCCCGGCAAGAGCGATAAGACAAGCTCCCAGGGGAAAGGCGCATTG
GCAGCCTTGAGGGATCGAGATAACCTCGTGCGAATCCCGAACCCCAAGAA
CGAAGGCGAAGAATACTCGTTCCAGTTCAATGCTGTCTATGATGCGGAAG
CTTCGCAGCAGGAGCTCTTCGATGCAGAGG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0007018 | microtubule-based movement |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003777 | microtubule motor activity |
| GO:0005524 | ATP binding |
| GO:0008017 | microtubule binding |
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 |
|---|
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR036961 |
| DBxref | InterPro:IPR001752 |
| DBxref | PFAM:PF16796 |
| DBxref | PFAM:PF00225 |
| Product | Kinesin motor domain 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 |
|---|
| NKJJ01000022.1 | supercontig | NKJJ01000022.1:4248406..4250762 - |
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