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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000021.1:2560078..2562435- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_47312-T1 ID=ASPNIDRAFT_47312-T1|Name=ASPNIDRAFT_47312-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2358bp|location=Sequence derived from alignment at ACJE01000021.1:2560078..2562435- (Aspergillus niger ATCC 1015)
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
GGATGTACCAGCTAGCACTCCCATACTTCCCCGACAACGAGAAGCTATCC
AGGAAGATTGCCAGCTTGAAGGAGCGTATGCAAGGTAAACCGCGTCAGGA
CGCCGACACCACCATCAGCCACTCCGGCCCCAAGAGAGAACTCGGCAGTA
TGCTATCAATCAAGAAGCAGCCCGCCAAGACGAACCTCAAGCGTGTTGCT
GAAGACTCCGACGCGGACTACGAGGAACCTGAAGCGTCCCTCGAACAGTT
CAGCGACGAAGACATCGAGGAAATCACTCACATACGACGAAAGAAGCGCA
CAAAGACCAAGTCCTCACTAGACGACGAACGCGCCAGCGTCGACATGAAC
GAGCAACCGCCTTCCCCACGGACAATCCACCTCCTCTCCATCATCAATTC
GCGGGACATCAGCCAGATCAAGCTGCTGAAAGGCGTGGGGGTCAAGAAGG
CCGAGGCTATTGTTGACTGTTTATGCGAGATGGACCAAAACACAGCCAAC
CAAGATGAAGAAGCACGGTTCCACATCAGCAGCCTCGCCGAACTGAGTCA
GTTCAAGGGCGTGGGTGTGAAGAGTGTCCAGAGCATGCGAAACGGAGTTC
TGGTATAA back to topCoding sequence (CDS) from alignment at ACJE01000021.1:2560078..2562435- >ASPNIDRAFT_47312-T1 ID=ASPNIDRAFT_47312-T1|Name=ASPNIDRAFT_47312-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=8856bp|location=Sequence derived from alignment at ACJE01000021.1:2560078..2562435- (Aspergillus niger ATCC 1015)
CGTCCCTCGAACAGTTCAGCGACGAAGACATCGAGGAAATCACTCACATA
CGACGAAAGAAGCGCACAAAGACCAAGTCCTCACTAGACGACGAACGCGC
CAGCGTCGACATGAACGAGCAACCGCCTTCCCCACGGACAATCCACCTCC
TCTCCATCATCAATTCGCGGGACATCAGCCAGATCAAGCTGCTGAAAGGC
GTGGGGGTCAAGAAGGCCGAGGCTATTGTTGACTGTTTATGCGAGATGGA
CCAAAACACAGCCAACCAAGATGAAGAAGCACGGTTCCACATCAGCAGCC
TCGCCGAACTGAGTCAGTTCAAGGGCGTGGGTGTGAAGAGTGTCCAGAGC
ATGCGAAACGGAGTTCTGGTATAACTAAACGCCCACTCGTCACGATCCCA
TGCCATCCTCTGCGTGCGCGTCGCAGTCACTACTGGAGACAAAACGCGCA
TCAGTACCGCATCTGCTATCGACCTTGCTGGCTCCGAGGATAACCGCCGG
ACGGATAATGACAAAGAGCGCATGGTTGAGTCTGCTAGTATCAACAAGAG
CCTCTTCGTACTGGCTCAGTGTGTCGAAGCAATCAGCAAGAAGCACTCGA
GGATACCGTATCGAGAGTCGAAGATGACGAGGATCCTGTCTTTGGGACAG
AACAACGGACTGACTGTGATGATCCTGAACCTGGCGCCTGTCAGGTCCTA
CCATCTGGACACAATAAGCTCGCTCAACTTCGCCAATCGCACGAAGAAGA
TCGAAGTGCGCGAGGTAGAAAATGAGCCAATGTTCAAGGGTCCCCCTAGA
CCAGCGTCGCGGCCTTCGATCGCAGCCCTGCGGCAACCCCTGCGGCCTCT
GACAGCTTCAGTGAACGTAAACCTGACTGCCGCAGCCAAAGACACGACGA
AGACCCTCGAAAAGCCTGCCAAAGCCTTCCACGTCTACTCCGATAAATCA
CACCCTAGAACCACCACGCAGTTCAAGAAGCCTGAGCCCCCTAAGCGCAC
TTCTATGAGCTCCCGGCCTTCTTTGAGTTCCGAAATCTCCCGCCTCTCGA
AGCCATCTCGTCCCGCTCAACCAACACAGCCTCAAAAGCACCATGACGAT
ATCACCGCGGCCAAGATCGAAGAGATGGTAGAAAAGAAAGTCGAGGAAAT
CCTGGCCGTGCGAGCCGTCAGCGAGCAGTCGAGACAAACGCAGGTTCGCG
AACTGAATGAGCAAGTCCAGCGTCGCCTAGAACTTCTCGAACAACGCATC
GAAGGCTCCGAAGATGCAAGGGCCGAAGGCCTGTCATACTTGCTCATGGC
CAAGCAGCACCAAGCACGTGGCGAGGACAGCTTCGCTCTGAGGATGTACC
AGCTAGCACTCCCATACTTCCCCGACAACGAGAAGCTATCCAGGAAGATT
GCCAGCTTGAAGGAGCGTATGCAAGGTAAACCGCGTCAGGACGCCGACAC
CACCATCAGCCACTCCGGCCCCAAGAGAGAACTCGGCAGTATGCTATCAA
TCAAGAAGCAGCCCGCCAAGACGAACCTCAAGCTTGCTCCTACTGTCAAG
CATCTCTTTAACGGCTTCGACGTAACGATATTCGCATATGGAGTCACAGG
AACTGGAAAGACGCACACAATGCGAGGCGGTAAAAGCCTGGCTGACCGTG
GCGCCATTCCCCGTCTCCTAAGCAGCATCTACAGACGCAGCCGGAAGATG
GAGAAGGACAGTGACGGGGAAACTACCGTCAAGGTATCTTTGAGCTACTA
CGAGATTTATAACGACAAAGTCTTCGATCTATTCGAACCCCCCGAAAAGA
GGACGCTGGCGGGACTACCTCTTCGAGACAACGGCGGCAAGACAGTCGTC
GTGGGTTTGACGGAGAGGCCATGCCATACTCTGAAGGAATTCGAAATCTT
GTATGACCAGGCCAATACCAACAGGTCTACATCTGCAACAAAGATGAGCG
TCCGGGTAGTCGCGCGGGTCCGACCGCTCCTCAAATCGGAACGGGAGTTG
GATGTCATCCTACGCACAGGATCATCAAACCAGGCAGTGCCCGGCAAGAG
CGATAAGACAAGCTCCCAGGGGAAAGGCGCATTGGCAGCCTTGAGGGATC
GAGATAACCTCGTGCGAATCCCGAACCCCAAGAACGAAGGCGAAGAATAC
TCGTTCCAGTTCAATGCTGTCTATGATGCGGAAGCTTCGCAGCAGGAGCT
CTTCGATGCAGAGGCGTCCCTCGAACAGTTCAGCGACGAAGACATCGAGG
AAATCACTCACATACGACGAAAGAAGCGCACAAAGACCAAGTCCTCACTA
GACGACGAACGCGCCAGCGTCGACATGAACGAGCAACCGCCTTCCCCACG
GACAATCCACCTCCTCTCCATCATCAATTCGCGGGACATCAGCCAGATCA
AGCTGCTGAAAGGCGTGGGGGTCAAGAAGGCCGAGGCTATTGTTGACTGT
TTATGCGAGATGGACCAAAACACAGCCAACCAAGATGAAGAAGCACGGTT
CCACATCAGCAGCCTCGCCGAACTGAGTCAGTTCAAGGGCGTGGGTGTGA
AGAGTGTCCAGAGCATGCGAAACGGAGTTCTGGTATAACTAAACGCCCAC
TCGTCACGATCCCATGCCATCCTCTGCGTGCGCGTCGCAGTCACTACTGG
AGACAAAACGCGCATCAGTACCGCATCTGCTATCGACCTTGCTGGCTCCG
AGGATAACCGCCGGACGGATAATGACAAAGAGCGCATGGTTGAGTCTGCT
AGTATCAACAAGAGCCTCTTCGTACTGGCTCAGTGTGTCGAAGCAATCAG
CAAGAAGCACTCGAGGATACCGTATCGAGAGTCGAAGATGACGAGGATCC
TGTCTTTGGGACAGAACAACGGACTGACTGTGATGATCCTGAACCTGGCG
CCTGTCAGGTCCTACCATCTGGACACAATAAGCTCGCTCAACTTCGCCAA
TCGCACGAAGAAGATCGAAGTGCGCGAGGTAGAAAATGAGCCAATGTTCA
AGGGTCCCCCTAGACCAGCGTCGCGGCCTTCGATCGCAGCCCTGCGGCAA
CCCCTGCGGCCTCTGACAGCTTCAGTGAACGTAAACCTGACTGCCGCAGC
CAAAGACACGACGAAGACCCTCGAAAAGCCTGCCAAAGCCTTCCACGTCT
ACTCCGATAAATCACACCCTAGAACCACCACGCAGTTCAAGAAGCCTGAG
CCCCCTAAGCGCACTTCTATGAGCTCCCGGCCTTCTTTGAGTTCCGAAAT
CTCCCGCCTCTCGAAGCCATCTCGTCCCGCTCAACCAACACAGCCTCAAA
AGCACCATGACGATATCACCGCGGCCAAGATCGAAGAGATGGTAGAAAAG
AAAGTCGAGGAAATCCTGGCCGTGCGAGCCGTCAGCGAGCAGTCGAGACA
AACGCAGGTTCGCGAACTGAATGAGCAAGTCCAGCGTCGCCTAGAACTTC
TCGAACAACGCATCGAAGGCTCCGAAGATGCAAGGGCCGAAGGCCTGTCA
TACTTGCTCATGGCCAAGCAGCACCAAGCACGTGGCGAGGACAGCTTCGC
TCTGAGGATGTACCAGCTAGCACTCCCATACTTCCCCGACAACGAGAAGC
TATCCAGGAAGATTGCCAGCTTGAAGGAGCGTATGCAAGGTAAACCGCGT
CAGGACGCCGACACCACCATCAGCCACTCCGGCCCCAAGAGAGAACTCGG
CAGTATGCTATCAATCAAGAAGCAGCCCGCCAAGACGAACCTCAAGCTTG
CTCCTACTGTCAAGCATCTCTTTAACGGCTTCGACGTAACGATATTCGCA
TATGGAGTCACAGGAACTGGAAAGACGCACACAATGCGAGGCGGTAAAAG
CCTGGCTGACCGTGGCGCCATTCCCCGTCTCCTAAGCAGCATCTACAGAC
GCAGCCGGAAGATGGAGAAGGACAGTGACGGGGAAACTACCGTCAAGGTA
TCTTTGAGCTACTACGAGATTTATAACGACAAAGTCTTCGATCTATTCGA
ACCCCCCGAAAAGAGGACGCTGGCGGGACTACCTCTTCGAGACAACGGCG
GCAAGACAGTCGTCGTGGGTTTGACGGAGAGGCCATGCCATACTCTGAAG
GAATTCGAAATCTTGTATGACCAGGCCAATACCAACAGGTCTACATCTGC
AACAAAGATGAGCGTCCGGGTAGTCGCGCGGGTCCGACCGCTCCTCAAAT
CGGAACGGGAGTTGGATGTCATCCTACGCACAGGATCATCAAACCAGGCA
GTGCCCGGCAAGAGCGATAAGACAAGCTCCCAGGGGAAAGGCGCATTGGC
AGCCTTGAGGGATCGAGATAACCTCGTGCGAATCCCGAACCCCAAGAACG
AAGGCGAAGAATACTCGTTCCAGTTCAATGCTGTCTATGATGCGGAAGCT
TCGCAGCAGGAGCTCTTCGATGCAGAGGCGTCCCTCGAACAGTTCAGCGA
CGAAGACATCGAGGAAATCACTCACATACGACGAAAGAAGCGCACAAAGA
CCAAGTCCTCACTAGACGACGAACGCGCCAGCGTCGACATGAACGAGCAA
CCGCCTTCCCCACGGACAATCCACCTCCTCTCCATCATCAATTCGCGGGA
CATCAGCCAGATCAAGCTGCTGAAAGGCGTGGGGGTCAAGAAGGCCGAGG
CTATTGTTGACTGTTTATGCGAGATGGACCAAAACACAGCCAACCAAGAT
GAAGAAGCACGGTTCCACATCAGCAGCCTCGCCGAACTGAGTCAGTTCAA
GGGCGTGGGTGTGAAGAGTGTCCAGAGCATGCGAAACGGAGTTCTGGTAT
AACTAAACGCCCACTCGTCACGATCCCATGCCATCCTCTGCGTGCGCGTC
GCAGTCACTACTGGAGACAAAACGCGCATCAGTACCGCATCTGCTATCGA
CCTTGCTGGCTCCGAGGATAACCGCCGGACGGATAATGACAAAGAGCGCA
TGGTTGAGTCTGCTAGTATCAACAAGAGCCTCTTCGTACTGGCTCAGTGT
GTCGAAGCAATCAGCAAGAAGCACTCGAGGATACCGTATCGAGAGTCGAA
GATGACGAGGATCCTGTCTTTGGGACAGAACAACGGACTGACTGTGATGA
TCCTGAACCTGGCGCCTGTCAGGTCCTACCATCTGGACACAATAAGCTCG
CTCAACTTCGCCAATCGCACGAAGAAGATCGAAGTGCGCGAGGTAGAAAA
TGAGCCAATGTTCAAGGGTCCCCCTAGACCAGCGTCGCGGCCTTCGATCG
CAGCCCTGCGGCAACCCCTGCGGCCTCTGACAGCTTCAGTGAACGTAAAC
CTGACTGCCGCAGCCAAAGACACGACGAAGACCCTCGAAAAGCCTGCCAA
AGCCTTCCACGTCTACTCCGATAAATCACACCCTAGAACCACCACGCAGT
TCAAGAAGCCTGAGCCCCCTAAGCGCACTTCTATGAGCTCCCGGCCTTCT
TTGAGTTCCGAAATCTCCCGCCTCTCGAAGCCATCTCGTCCCGCTCAACC
AACACAGCCTCAAAAGCACCATGACGATATCACCGCGGCCAAGATCGAAG
AGATGGTAGAAAAGAAAGTCGAGGAAATCCTGGCCGTGCGAGCCGTCAGC
GAGCAGTCGAGACAAACGCAGGTTCGCGAACTGAATGAGCAAGTCCAGCG
TCGCCTAGAACTTCTCGAACAACGCATCGAAGGCTCCGAAGATGCAAGGG
CCGAAGGCCTGTCATACTTGCTCATGGCCAAGCAGCACCAAGCACGTGGC
GAGGACAGCTTCGCTCTGAGGATGTACCAGCTAGCACTCCCATACTTCCC
CGACAACGAGAAGCTATCCAGGAAGATTGCCAGCTTGAAGGAGCGTATGC
AAGGTAAACCGCGTCAGGACGCCGACACCACCATCAGCCACTCCGGCCCC
AAGAGAGAACTCGGCAGTATGCTATCAATCAAGAAGCAGCCCGCCAAGAC
GAACCTCAAGCTTGCTCCTACTGTCAAGCATCTCTTTAACGGCTTCGACG
TAACGATATTCGCATATGGAGTCACAGGAACTGGAAAGACGCACACAATG
CGAGGCGGTAAAAGCCTGGCTGACCGTGGCGCCATTCCCCGTCTCCTAAG
CAGCATCTACAGACGCAGCCGGAAGATGGAGAAGGACAGTGACGGGGAAA
CTACCGTCAAGGTATCTTTGAGCTACTACGAGATTTATAACGACAAAGTC
TTCGATCTATTCGAACCCCCCGAAAAGAGGACGCTGGCGGGACTACCTCT
TCGAGACAACGGCGGCAAGACAGTCGTCGTGGGTTTGACGGAGAGGCCAT
GCCATACTCTGAAGGAATTCGAAATCTTGTATGACCAGGCCAATACCAAC
AGGTCTACATCTGCAACAAAGATGAGCGTCCGGGTAGTCGCGCGGGTCCG
ACCGCTCCTCAAATCGGAACGGGAGTTGGATGTCATCCTACGCACAGGAT
CATCAAACCAGGCAGTGCCCGGCAAGAGCGATAAGACAAGCTCCCAGGGG
AAAGGCGCATTGGCAGCCTTGAGGGATCGAGATAACCTCGTGCGAATCCC
GAACCCCAAGAACGAAGGCGAAGAATACTCGTTCCAGTTCAATGCTGTCT
ATGATGCGGAAGCTTCGCAGCAGGAGCTCTTCGATGCAGAGGCGTCCCTC
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
ACCAAGCACGTGGCGAGGACAGCTTCGCTCTGAGGATGTACCAGCTAGCA
CTCCCATACTTCCCCGACAACGAGAAGCTATCCAGGAAGATTGCCAGCTT
GAAGGAGCGTATGCAAGGTAAACCGCGTCAGGACGCCGACACCACCATCA
GCCACTCCGGCCCCAAGAGAGAACTCGGCAGTATGCTATCAATCAAGAAG
CAGCCCGCCAAGACGAACCTCAAGCTTGCTCCTACTGTCAAGCATCTCTT
TAACGGCTTCGACGTAACGATATTCGCATATGGAGTCACAGGAACTGGAA
AGACGCACACAATGCGAGGCGGTAAAAGCCTGGCTGACCGTGGCGCCATT
CCCCGTCTCCTAAGCAGCATCTACAGACGCAGCCGGAAGATGGAGAAGGA
CAGTGACGGGGAAACTACCGTCAAGGTATCTTTGAGCTACTACGAGATTT
ATAACGACAAAGTCTTCGATCTATTCGAACCCCCCGAAAAGAGGACGCTG
GCGGGACTACCTCTTCGAGACAACGGCGGCAAGACAGTCGTCGTGGGTTT
GACGGAGAGGCCATGCCATACTCTGAAGGAATTCGAAATCTTGTATGACC
AGGCCAATACCAACAGGTCTACATCTGCAACAAAGATGAGCGTCCGGGTA
GTCGCGCGGGTCCGACCGCTCCTCAAATCGGAACGGGAGTTGGATGTCAT
CCTACGCACAGGATCATCAAACCAGGCAGTGCCCGGCAAGAGCGATAAGA
CAAGCTCCCAGGGGAAAGGCGCATTGGCAGCCTTGAGGGATCGAGATAAC
CTCGTGCGAATCCCGAACCCCAAGAACGAAGGCGAAGAATACTCGTTCCA
GTTCAATGCTGTCTATGATGCGGAAGCTTCGCAGCAGGAGCTCTTCGATG
CAGAGG 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:0005524 | ATP binding |
| GO:0008017 | microtubule binding |
| GO:0003777 | microtubule motor activity |
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 | 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 |
|---|
| ACJE01000021.1 | supercontig | ACJE01000021.1:2560078..2562435 - |
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