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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000009.1:1702861..1705951- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_39772-T1 ID=ASPNIDRAFT_39772-T1|Name=ASPNIDRAFT_39772-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=3091bp|location=Sequence derived from alignment at ACJE01000009.1:1702861..1705951- (Aspergillus niger ATCC 1015)
ATGGCCGACGCTTCATCTATCACCGTTGCGGTCCGAGTTCGACCGTTTAC
CATCCGGGAGGCAGCACAGCTCTCCAAATGCGAAGATGGTCCGCTCTTCC
TTGGTGACGGCTCTTTAGCTGGAGCACCGACACCAAAGCTCAATCAAAAG
GGCCTTCGCTCTATCATCAAGGTCATTGATGACCGGTGCCTGTGAGTTTA
CCAATAACCATGCTGTCTTCTTCGAATAATCTAATTGGGTATTCGATAGT
GTGTTCGACCCTCCGGAGGACAATCCTGTACAGAAGTTCTCCAAGAGTGT
TGTCCCCAACGGAAAACGTGTCAAAGATCAGACCTTCGCCTTCGACCGGA
TTTTCGACCAGAATGCCTCTCAAGGAGAGGTATACGAATCGACAACCCGA
AACCTCCTCGACAGCGTTCTCGATGGCTACAACGCGACGGTGTTTGCATA
CGGTGCCACAGGTTGTGGAAAGACTCACACCATAACAGGCACAGCTCAGC
AGCCCGGTATTATCTTCCTCACAATGCAGGAACTGTTCGAACGCATCGAC
GAACGATCCGGAGAGAAGGCGACCGAGGTTTCGCTTTCCTACCTCGAGAT
TTACAACGAGACTATCCGTGATCTTCTTGTGCCCGGAGGTAGCAAAGGGG
GGCTGATGCTCCGTGAGGATTCAAACAAGTCGGTATCGGTGTCGGGATTG
TCAAGCCATCACCCGCAGAATGTACAGCAGGTTATGGACATGATCATGAG
GGGTAACGAATGCCGTACAATGTCCCCGACCGAGGCAAACGCTACCTCCT
CGCGGTCGCACGCAGTCCTTCAGATCAACATTGCACAGAAAGACCGAAAC
GCCGATGTGAACGAGCCTCATACCATGGCAACCTTGAGCATTATCGACCT
CGCGGGCAGTGAGCGTGCCAGCGCAACCAAGAACAGGGGAGAGAGACTGT
TTGAAGGTGCAAACATCAACAAGTCCCTTCTTGCCCTCGGAAGCTGCATC
AATGCCCTCTGCGACCCTCGGAAACGGAACCATGTCCCCTACCGAAACTC
CAAATTGACCCGTCTCCTGAAGTTCGCGCTCGGTGGTAACTGCAAGACTG
TGATGATTGTCTGTGTTAGCCCATCGAGTCAGCACTTCGATGAGACACAG
AACACCCTACGCTATGCCAACAGGGCAAAGAACATTCAGACGAAAGTCAC
GCGCAACGTATTTAATGTTAACCGTCACGTCAAGGACTTCCTGGTGAAGA
TTGATGAGCAGATGGCCTTGATCAACGAACTCAAGGCACAGCAGAGGGAT
TCCGAGAAGGTCGCCTTTGCCAAATTCAAGAAGCAAACCGAAAAGAAGGA
TGCAGTCATTCGTGAAGGATTGTCTCGCATTCGCAATGCGTACGATCATT
CGTTGTCGGAGAGACAGGAGAGAACCAACTACATGATCAAGCAGAAGCAG
ATCAGTCGCCGGATTGGTTTGCTTTCCGCGTGGATCGGCGCTTTCGATCA
TGTATGCGCCAGTTGTGAAGCTGAGGATGCTCTGTCGAATCTAAGGGCAG
TACGGAAGACAGCACAAGGAATCCTTCTCGAACTAGAGAGTAGCAGGCAA
CATTATCACCAGCGACTGGCGAAGAATGCGTGGGACCGCGGTATGACTTC
CGCGGTGGAACACGCCATTCGTCAACTCCAAGACTTTGATATCAGCGACA
ACAGCGACTTTGTCAATATGACTCGGGAGGCCGAGCTGCTGAGGGCTAAC
CATGAGCGTGAGGCCCTGGCAGCGGTCGCTGAACAAGACAAGGCGGGCGA
AGCAGCCACTGTGCAATTGCTTCTCCAAGCACAGTTCGAGCTGATTACTG
AGATTGAGAATCTCATGCAACTCAGTGAGGAAGAAGCCATCGAGCAAGGG
CAGAAAATGCTGGCGAAGATGCTCAATTCTTGTTCCACCGCAGTCTCCAA
CATCGTGAAGCCAGATGGTAGCTTGCCATCCATGCCGCCATTGAGCCCAG
TCAAGGCCAGTCCCCTCAAGCAAAAGAAGAGGCTGAGCATCGCGACTACC
GTCCCCATGGGCCGACCCTTGGCTGCGCCCGCCTTGACTCCAACAGCAGC
GCCGCCTTCGCCGCAGAAGGGATCTCCCCGACGTCGCAAGCTGAACGTCG
GCAGAAAGAGCGTTAGCTTTTCACCGAAGAAACCCGCCGCGAAACCGACG
AAGAGAAGTGTACGATGGAAGGACGACGAGCACGAGGGCACATTGACCGA
ATTTCAAAAGACACCACAGAAGACGCAAATTACCACCATACCTGAGAACA
GCCCGGAGCCCCAGCTACCCCGGACATCGCCCATTCCTCGCGGAATTCCT
GTGCCCACTCGCAACTTCAGCCCTTCTTCAGGCGGGTCACCCCCGGTGTC
GGCTGTCCCCGAACCGACGCTGAACGTGCAGAAGAACAACCGATTCAAGG
CCGGGTTCTTGACGAAAAAAAACAGCAGCTCCCCAATAGCACCCCCACCC
ACGACAACGCTGCCTCTGTCCGACAGCGAAAAGTCACCCCTACGCGACAT
CGAGGGCAGCAGCTTCCTGAACCGGGCGTCCGTCGAGCGCCCATCTAGGA
TTGCGGTCCGGACATCGAGTGGCAGCTACTCGGGCAGCCCGGCATCCGAC
AAGAACAGCTGGAAGGCAAGCAAGGATGATGCTATCAAGATTACCTCTGC
CATGAGACGGATTTCTGGAGGATCGTTTCAGGTGGGCAGCTCAGCCAATG
CCCTGCGCATCCACCGGCGACGAAGCCCGACATCGGCCACTTACGGAAGC
CCTCCAACTGAGAACAACACAATGAACACCATGAATACCATGTTCACGGC
CTCTCAGGCCCGGCGGATGGGCAAAGGCGAGAAAGAAATCGAAAGCAAGC
CCGGGGTGTTGGGACCTCGCACCCTGCCGATCATGAAGAACACGCATCGA
CGCACTACCTTTGGCGGTGATATCCGGCCCCGGGACATCAGCCTGAGCAG
CCGAGATGCTATCCGGCTCAGTGCGATGGCAACGCCTAAGTTGGAGAAGC
CCCCGGCGAGTTTCTCCAACGGCGGATTCGCCCTGCGGTAA back to topCoding sequence (CDS) from alignment at ACJE01000009.1:1702861..1705951- >ASPNIDRAFT_39772-T1 ID=ASPNIDRAFT_39772-T1|Name=ASPNIDRAFT_39772-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=6066bp|location=Sequence derived from alignment at ACJE01000009.1:1702861..1705951- (Aspergillus niger ATCC 1015)
TGTGTTCGACCCTCCGGAGGACAATCCTGTACAGAAGTTCTCCAAGAGTG
TTGTCCCCAACGGAAAACGTGTCAAAGATCAGACCTTCGCCTTCGACCGG
ATTTTCGACCAGAATGCCTCTCAAGGAGAGGTATACGAATCGACAACCCG
AAACCTCCTCGACAGCGTTCTCGATGGCTACAACGCGACGGTGTTTGCAT
ACGGTGCCACAGGTTGTGGAAAGACTCACACCATAACAGGCACAGCTCAG
CAGCCCGGTATTATCTTCCTCACAATGCAGGAACTGTTCGAACGCATCGA
CGAACGATCCGGAGAGAAGGCGACCGAGGTTTCGCTTTCCTACCTCGAGA
TTTACAACGAGACTATCCGTGATCTTCTTGTGCCCGGAGGTAGCAAAGGG
GGGCTGATGCTCCGTGAGGATTCAAACAAGTCGGTATCGGTGTCGGGATT
GTCAAGCCATCACCCGCAGAATGTACAGCAGGTTATGGACATGATCATGA
GGGGTAACGAATGCCGTACAATGTCCCCGACCGAGGCAAACGCTACCTCC
TCGCGGTCGCACGCAGTCCTTCAGATCAACATTGCACAGAAAGACCGAAA
CGCCGATGTGAACGAGCCTCATACCATGGCAACCTTGAGCATTATCGACC
TCGCGGGCAGTGAGCGTGCCAGCGCAACCAAGAACAGGGGAGAGAGACTG
TTTGAAGGTGCAAACATCAACAAGTCCCTTCTTGCCCTCGGAAGCTGCAT
CAATGCCCTCTGCGACCCTCGGAAACGGAACCATGTCCCCTACCGAAACT
CCAAATTGACCCGTCTCCTGAAGTTCGCGCTCGGTGGTAACTGCAAGACT
GTGATGATTGTCTGTGTTAGCCCATCGAGTCAGCACTTCGATGAGACACA
GAACACCCTACGCTATGCCAACAGGGCAAAGAACATTCAGACGAAAGTCA
CGCGCAACGTATTTAATGTTAACCGTCACGTCAAGGACTTCCTGGTGAAG
ATTGATGAGCAGATGGCCTTGATCAACGAACTCAAGGCACAGCAGAGGGA
TTCCGAGAAGGTCGCCTTTGCCAAATTCAAGAAGCAAACCGAAAAGAAGG
ATGCAGTCATTCGTGAAGGATTGTCTCGCATTCGCAATGCGTACGATCAT
TCGTTGTCGGAGAGACAGGAGAGAACCAACTACATGATCAAGCAGAAGCA
GATCAGTCGCCGGATTGGTTTGCTTTCCGCGTGGATCGGCGCTTTCGATC
ATGTATGCGCCAGTTGTGAAGCTGAGGATGCTCTGTCGAATCTAAGGGCA
GTACGGAAGACAGCACAAGGAATCCTTCTCGAACTAGAGAGTAGCAGGCA
ACATTATCACCAGCGACTGGCGAAGAATGCGTGGGACCGCGGTATGACTT
CCGCGGTGGAACACGCCATTCGTCAACTCCAAGACTTTGATATCAGCGAC
AACAGCGACTTTGTCAATATGACTCGGGAGGCCGAGCTGCTGAGGGCTAA
CCATGAGCGTGAGGCCCTGGCAGCGGTCGCTGAACAAGACAAGGCGGGCG
AAGCAGCCACTGTGCAATTGCTTCTCCAAGCACAGTTCGAGCTGATTACT
GAGATTGAGAATCTCATGCAACTCAGTGAGGAAGAAGCCATCGAGCAAGG
GCAGAAAATGCTGGCGAAGATGCTCAATTCTTGTTCCACCGCAGTCTCCA
ACATCGTGAAGCCAGATGGTAGCTTGCCATCCATGCCGCCATTGAGCCCA
GTCAAGGCCAGTCCCCTCAAGCAAAAGAAGAGGCTGAGCATCGCGACTAC
CGTCCCCATGGGCCGACCCTTGGCTGCGCCCGCCTTGACTCCAACAGCAG
CGCCGCCTTCGCCGCAGAAGGGATCTCCCCGACGTCGCAAGCTGAACGTC
GGCAGAAAGAGCGTTAGCTTTTCACCGAAGAAACCCGCCGCGAAACCGAC
GAAGAGAAGTGTACGATGGAAGGACGACGAGCACGAGGGCACATTGACCG
AATTTCAAAAGACACCACAGAAGACGCAAATTACCACCATACCTGAGAAC
AGCCCGGAGCCCCAGCTACCCCGGACATCGCCCATTCCTCGCGGAATTCC
TGTGCCCACTCGCAACTTCAGCCCTTCTTCAGGCGGGTCACCCCCGGTGT
CGGCTGTCCCCGAACCGACGCTGAACGTGCAGAAGAACAACCGATTCAAG
GCCGGGTTCTTGACGAAAAAAAACAGCAGCTCCCCAATAGCACCCCCACC
CACGACAACGCTGCCTCTGTCCGACAGCGAAAAGTCACCCCTACGCGACA
TCGAGGGCAGCAGCTTCCTGAACCGGGCGTCCGTCGAGCGCCCATCTAGG
ATTGCGGTCCGGACATCGAGTGGCAGCTACTCGGGCAGCCCGGCATCCGA
CAAGAACAGCTGGAAGGCAAGCAAGGATGATGCTATCAAGATTACCTCTG
CCATGAGACGGATTTCTGGAGGATCGTTTCAGGTGGGCAGCTCAGCCAAT
GCCCTGCGCATCCACCGGCGACGAAGCCCGACATCGGCCACTTACGGAAG
CCCTCCAACTGAGAACAACACAATGAACACCATGAATACCATGTTCACGG
CCTCTCAGGCCCGGCGGATGGGCAAAGGCGAGAAAGAAATCGAAAGCAAG
CCCGGGGTGTTGGGACCTCGCACCCTGCCGATCATGAAGAACACGCATCG
ACGCACTACCTTTGGCGGTGATATCCGGCCCCGGGACATCAGCCTGAGCA
GCCGAGATGCTATCCGGCTCAGTGCGATGGCAACGCCTAAGTTGGAGAAG
CCCCCGGCGAGTTTCTCCAACGGCGGATTCGCCCTGCGGTAAATGGCCGA
CGCTTCATCTATCACCGTTGCGGTCCGAGTTCGACCGTTTACCATCCGGG
AGGCAGCACAGCTCTCCAAATGCGAAGATGGTCCGCTCTTCCTTGGTGAC
GGCTCTTTAGCTGGAGCACCGACACCAAAGCTCAATCAAAAGGGCCTTCG
CTCTATCATCAAGGTCATTGATGACCGGTGCCTTGTGTTCGACCCTCCGG
AGGACAATCCTGTACAGAAGTTCTCCAAGAGTGTTGTCCCCAACGGAAAA
CGTGTCAAAGATCAGACCTTCGCCTTCGACCGGATTTTCGACCAGAATGC
CTCTCAAGGAGAGGTATACGAATCGACAACCCGAAACCTCCTCGACAGCG
TTCTCGATGGCTACAACGCGACGGTGTTTGCATACGGTGCCACAGGTTGT
GGAAAGACTCACACCATAACAGGCACAGCTCAGCAGCCCGGTATTATCTT
CCTCACAATGCAGGAACTGTTCGAACGCATCGACGAACGATCCGGAGAGA
AGGCGACCGAGGTTTCGCTTTCCTACCTCGAGATTTACAACGAGACTATC
CGTGATCTTCTTGTGCCCGGAGGTAGCAAAGGGGGGCTGATGCTCCGTGA
GGATTCAAACAAGTCGGTATCGGTGTCGGGATTGTCAAGCCATCACCCGC
AGAATGTACAGCAGGTTATGGACATGATCATGAGGGGTAACGAATGCCGT
ACAATGTCCCCGACCGAGGCAAACGCTACCTCCTCGCGGTCGCACGCAGT
CCTTCAGATCAACATTGCACAGAAAGACCGAAACGCCGATGTGAACGAGC
CTCATACCATGGCAACCTTGAGCATTATCGACCTCGCGGGCAGTGAGCGT
GCCAGCGCAACCAAGAACAGGGGAGAGAGACTGTTTGAAGGTGCAAACAT
CAACAAGTCCCTTCTTGCCCTCGGAAGCTGCATCAATGCCCTCTGCGACC
CTCGGAAACGGAACCATGTCCCCTACCGAAACTCCAAATTGACCCGTCTC
CTGAAGTTCGCGCTCGGTGGTAACTGCAAGACTGTGATGATTGTCTGTGT
TAGCCCATCGAGTCAGCACTTCGATGAGACACAGAACACCCTACGCTATG
CCAACAGGGCAAAGAACATTCAGACGAAAGTCACGCGCAACGTATTTAAT
GTTAACCGTCACGTCAAGGACTTCCTGGTGAAGATTGATGAGCAGATGGC
CTTGATCAACGAACTCAAGGCACAGCAGAGGGATTCCGAGAAGGTCGCCT
TTGCCAAATTCAAGAAGCAAACCGAAAAGAAGGATGCAGTCATTCGTGAA
GGATTGTCTCGCATTCGCAATGCGTACGATCATTCGTTGTCGGAGAGACA
GGAGAGAACCAACTACATGATCAAGCAGAAGCAGATCAGTCGCCGGATTG
GTTTGCTTTCCGCGTGGATCGGCGCTTTCGATCATGTATGCGCCAGTTGT
GAAGCTGAGGATGCTCTGTCGAATCTAAGGGCAGTACGGAAGACAGCACA
AGGAATCCTTCTCGAACTAGAGAGTAGCAGGCAACATTATCACCAGCGAC
TGGCGAAGAATGCGTGGGACCGCGGTATGACTTCCGCGGTGGAACACGCC
ATTCGTCAACTCCAAGACTTTGATATCAGCGACAACAGCGACTTTGTCAA
TATGACTCGGGAGGCCGAGCTGCTGAGGGCTAACCATGAGCGTGAGGCCC
TGGCAGCGGTCGCTGAACAAGACAAGGCGGGCGAAGCAGCCACTGTGCAA
TTGCTTCTCCAAGCACAGTTCGAGCTGATTACTGAGATTGAGAATCTCAT
GCAACTCAGTGAGGAAGAAGCCATCGAGCAAGGGCAGAAAATGCTGGCGA
AGATGCTCAATTCTTGTTCCACCGCAGTCTCCAACATCGTGAAGCCAGAT
GGTAGCTTGCCATCCATGCCGCCATTGAGCCCAGTCAAGGCCAGTCCCCT
CAAGCAAAAGAAGAGGCTGAGCATCGCGACTACCGTCCCCATGGGCCGAC
CCTTGGCTGCGCCCGCCTTGACTCCAACAGCAGCGCCGCCTTCGCCGCAG
AAGGGATCTCCCCGACGTCGCAAGCTGAACGTCGGCAGAAAGAGCGTTAG
CTTTTCACCGAAGAAACCCGCCGCGAAACCGACGAAGAGAAGTGTACGAT
GGAAGGACGACGAGCACGAGGGCACATTGACCGAATTTCAAAAGACACCA
CAGAAGACGCAAATTACCACCATACCTGAGAACAGCCCGGAGCCCCAGCT
ACCCCGGACATCGCCCATTCCTCGCGGAATTCCTGTGCCCACTCGCAACT
TCAGCCCTTCTTCAGGCGGGTCACCCCCGGTGTCGGCTGTCCCCGAACCG
ACGCTGAACGTGCAGAAGAACAACCGATTCAAGGCCGGGTTCTTGACGAA
AAAAAACAGCAGCTCCCCAATAGCACCCCCACCCACGACAACGCTGCCTC
TGTCCGACAGCGAAAAGTCACCCCTACGCGACATCGAGGGCAGCAGCTTC
CTGAACCGGGCGTCCGTCGAGCGCCCATCTAGGATTGCGGTCCGGACATC
GAGTGGCAGCTACTCGGGCAGCCCGGCATCCGACAAGAACAGCTGGAAGG
CAAGCAAGGATGATGCTATCAAGATTACCTCTGCCATGAGACGGATTTCT
GGAGGATCGTTTCAGGTGGGCAGCTCAGCCAATGCCCTGCGCATCCACCG
GCGACGAAGCCCGACATCGGCCACTTACGGAAGCCCTCCAACTGAGAACA
ACACAATGAACACCATGAATACCATGTTCACGGCCTCTCAGGCCCGGCGG
ATGGGCAAAGGCGAGAAAGAAATCGAAAGCAAGCCCGGGGTGTTGGGACC
TCGCACCCTGCCGATCATGAAGAACACGCATCGACGCACTACCTTTGGCG
GTGATATCCGGCCCCGGGACATCAGCCTGAGCAGCCGAGATGCTATCCGG
CTCAGTGCGATGGCAACGCCTAAGTTGGAGAAGCCCCCGGCGAGTTTCTC
CAACGGCGGATTCGCCCTGCGGTAAATGGCCGACGCTTCATCTATCACCG
TTGCGGTCCGAGTTCGACCGTTTACCATCCGGGAGGCAGCACAGCTCTCC
AAATGCGAAGATGGTCCGCTCTTCCTTGGTGACGGCTCTTTAGCTGGAGC
ACCGACACCAAAGCTCAATCAAAAGGGCCTTCGCTCTATCATCAAGGTCA
TTGATGACCGGTGCCT 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:0008017 | microtubule binding |
| GO:0005524 | ATP 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 |
|---|
| Note | BUSCO:EOG09260BRA |
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR019821 |
| 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 |
|---|
| ACJE01000009.1 | supercontig | ACJE01000009.1:1702861..1705951 - |
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