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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000020.1:312149..314268- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_120926-T1 ID=ASPNIDRAFT_120926-T1|Name=ASPNIDRAFT_120926-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2120bp|location=Sequence derived from alignment at ACJE01000020.1:312149..314268- (Aspergillus niger ATCC 1015)
ATGTTCGCGGCTTCGAGCAGAAACCGTCTCTCCACTCTCCCCCGGACCCG
TCTCTCCCCCGCCAATTCACTCCTCGCCAGATCCGCTGTGGTAAGTCTGC
CTCCATACCACCAGACTCTGTGGGAAATGGCAGCTAATTATGACTTCTAC
CCATTAGACACCCATAATGGCACCCCGGCGCAAAGCATCTTCGGTCCCTG
AGGGTAAGCGATCACATGCGAATCCGACTCGAGATCCGCCATTGACACGT
TGTGATTGAATAGGCTACAAAGAAGACCTCTCCAAAGGCAACATGCTCAG
ATTCGAAGACTCTCTCCCCCGTCTGCCGGTCCCCTCTCTGGAAGAAACGG
GCCGCCGCTACCTTAAGTCCGTCCACGCGTTGGTCTCCGAGGCCGAATAT
GAGCGCACCAAGAAGGCCGTCGAGGCCTTTGTCCGCCCAGGTGGTGAGGG
TGAGCCCCTGCAGGAAAGGTTGCTCGCCCGCGCCGCCGACCCCAAGGTTA
AGAACTGGCTTCTTGAGTGGTGGAACCATGCCGCGTACCTGGCCTACCGG
GACCCTGTCATCCCCTACGTTTCCTACTTCTACTCCTACCGCGACGATCG
CGCCCGCCGGGACCCTGCCAAGCGCGCCGCCTCGGTTGCCACTGCCGCCC
TGGAGTTCAAGCGCCAGGTCGACGATGGCTCCTTGGAGCCTGAATACATG
CGCGGCCAGCCCATAGCTATGAGCACCTACCAATACATGTTCAACTGCTG
CCGTATCCCGGGTGACAGTGTCGACTACCCCCAGAAGTTCCCGGCTCAGG
ACAACGAACACATTGTGGTCGTGCGCAAGAACCAATTCTTCAAGGTGCCT
TTGACCGTCAATGGCAAGCGCCTGAACAACTCCGAGCTGCAGCGCCAGTT
TGAGCGCATCTACGAGGTCGCTCAGCCGGCTCCGGCGGTCGGCGTCTTGA
CCGTCGCTAACCGCGACCTGTGGGCCGACGCACGGAAGAAGCTGCTGGCC
GCGCACCCGGCCAATGAGCAGGCATTGCGGGACATCGAATCCAGCGGATT
CCTCGTCTGTCTCGACAATGCCAGCCCTGTCACCCTGGAGGAGCGTGCTC
ACCAGTACTGGCACGGTGATGGCACCAACCGCTGGTTCGACAAGCCTCTG
CAGTTCATCATCAACGACAATGGTACCGCCGGGTTCATGGGCGAGCACAG
CATGATGGACGGCAGCCCCACCCACCGCCTGAATGACCACCTGAACAACC
TCATCTTCAACCACAAGATCGACCTCTCTGAGCAGCCGGTGCGGTCTGAC
CTGCCCGATCCTCGTCCCATCACCTTCCACCTGGACGGCCCTGTGCTGGA
GGCCATCGATGCCGCCAACAAGGAGCACCGCCAGCAGATCTCGTCGCACG
AGCTCCGGGTCCAGGCCTACCAGGGCTACGGCAAGGGTCTCATCAAGAAG
TTCAAGTGCAGCCCGGATGCGTACGTGCAGATGATCATCCAGCTGGCCTA
CTTCAAGATGTACGGCAAGAACCGCCCGACTTACGAGTCTGCCTCGACCC
GCAAGTTCCAAGAGGGCCGCACAGAGACCATCCGCACGGTATCGGACGAG
AGCGTTGCCTTCTGCAAGGCCATCAGCGATCCTGCCGTCCCTCGCGAGGA
GGCTGTCCGTCTGCTCCGCTCGGCGCTGGCCGCCCACACGAAGTACACGG
CGGAAGCCAGCGATGGCCGTGGTGTGGACCGTCATTTGTTCGGTCTGAAG
AAGCTGCTGCGTGAGGGAGAGAAGCTGCCTGCTCTGTACGAAGACCCGGC
ATTCGCCTACAGTGGCTCGTGGTACCTGTCGACCAGCCAGCTGAGCTCGG
AGTTCTTCAACGGCTACGGATGGAGTCAGGTGATTGACGATGGATTCGGC
ATTGCTTATATGATCAACGAGAACAGGTGAGCCCTTTACCACATTCCCCC
CTATCGTGATGGTTGATCATTGCTGACTGTGATTTAGCTTGAACTTCAAC
ATTGTCTGCAAGCGCCTTGGAGCGGAACGCATGAGCTATTACCTCAACGA
GGCGGCATCTGACATGAGAGACATGCTGATGCCCGACTTGGCTGCCCAGA
GCGAGAAGGCCAAGATGTAA back to topCoding sequence (CDS) from alignment at ACJE01000020.1:312149..314268- >ASPNIDRAFT_120926-T1 ID=ASPNIDRAFT_120926-T1|Name=ASPNIDRAFT_120926-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=7728bp|location=Sequence derived from alignment at ACJE01000020.1:312149..314268- (Aspergillus niger ATCC 1015)
CTTGAACTTCAACATTGTCTGCAAGCGCCTTGGAGCGGAACGCATGAGCT
ATTACCTCAACGAGGCGGCATCTGACATGAGAGACATGCTGATGCCCGAC
TTGGCTGCCCAGAGCGAGAAGGCCAAGATGTAAGCTACAAAGAAGACCTC
TCCAAAGGCAACATGCTCAGATTCGAAGACTCTCTCCCCCGTCTGCCGGT
CCCCTCTCTGGAAGAAACGGGCCGCCGCTACCTTAAGTCCGTCCACGCGT
TGGTCTCCGAGGCCGAATATGAGCGCACCAAGAAGGCCGTCGAGGCCTTT
GTCCGCCCAGGTGGTGAGGGTGAGCCCCTGCAGGAAAGGTTGCTCGCCCG
CGCCGCCGACCCCAAGGTTAAGAACTGGCTTCTTGAGTGGTGGAACCATG
CCGCGTACCTGGCCTACCGGGACCCTGTCATCCCCTACGTTTCCTACTTC
TACTCCTACCGCGACGATCGCGCCCGCCGGGACCCTGCCAAGCGCGCCGC
CTCGGTTGCCACTGCCGCCCTGGAGTTCAAGCGCCAGGTCGACGATGGCT
CCTTGGAGCCTGAATACATGCGCGGCCAGCCCATAGCTATGAGCACCTAC
CAATACATGTTCAACTGCTGCCGTATCCCGGGTGACAGTGTCGACTACCC
CCAGAAGTTCCCGGCTCAGGACAACGAACACATTGTGGTCGTGCGCAAGA
ACCAATTCTTCAAGGTGCCTTTGACCGTCAATGGCAAGCGCCTGAACAAC
TCCGAGCTGCAGCGCCAGTTTGAGCGCATCTACGAGGTCGCTCAGCCGGC
TCCGGCGGTCGGCGTCTTGACCGTCGCTAACCGCGACCTGTGGGCCGACG
CACGGAAGAAGCTGCTGGCCGCGCACCCGGCCAATGAGCAGGCATTGCGG
GACATCGAATCCAGCGGATTCCTCGTCTGTCTCGACAATGCCAGCCCTGT
CACCCTGGAGGAGCGTGCTCACCAGTACTGGCACGGTGATGGCACCAACC
GCTGGTTCGACAAGCCTCTGCAGTTCATCATCAACGACAATGGTACCGCC
GGGTTCATGGGCGAGCACAGCATGATGGACGGCAGCCCCACCCACCGCCT
GAATGACCACCTGAACAACCTCATCTTCAACCACAAGATCGACCTCTCTG
AGCAGCCGGTGCGGTCTGACCTGCCCGATCCTCGTCCCATCACCTTCCAC
CTGGACGGCCCTGTGCTGGAGGCCATCGATGCCGCCAACAAGGAGCACCG
CCAGCAGATCTCGTCGCACGAGCTCCGGGTCCAGGCCTACCAGGGCTACG
GCAAGGGTCTCATCAAGAAGTTCAAGTGCAGCCCGGATGCGTACGTGCAG
ATGATCATCCAGCTGGCCTACTTCAAGATGTACGGCAAGAACCGCCCGAC
TTACGAGTCTGCCTCGACCCGCAAGTTCCAAGAGGGCCGCACAGAGACCA
TCCGCACGGTATCGGACGAGAGCGTTGCCTTCTGCAAGGCCATCAGCGAT
CCTGCCGTCCCTCGCGAGGAGGCTGTCCGTCTGCTCCGCTCGGCGCTGGC
CGCCCACACGAAGTACACGGCGGAAGCCAGCGATGGCCGTGGTGTGGACC
GTCATTTGTTCGGTCTGAAGAAGCTGCTGCGTGAGGGAGAGAAGCTGCCT
GCTCTGTACGAAGACCCGGCATTCGCCTACAGTGGCTCGTGGTACCTGTC
GACCAGCCAGCTGAGCTCGGAGTTCTTCAACGGCTACGGATGGAGTCAGG
TGATTGACGATGGATTCGGCATTGCTTATATGATCAACGAGAACAGACAC
CCATAATGGCACCCCGGCGCAAAGCATCTTCGGTCCCTGAGGATGTTCGC
GGCTTCGAGCAGAAACCGTCTCTCCACTCTCCCCCGGACCCGTCTCTCCC
CCGCCAATTCACTCCTCGCCAGATCCGCTGTGCTTGAACTTCAACATTGT
CTGCAAGCGCCTTGGAGCGGAACGCATGAGCTATTACCTCAACGAGGCGG
CATCTGACATGAGAGACATGCTGATGCCCGACTTGGCTGCCCAGAGCGAG
AAGGCCAAGATGTAAGCTACAAAGAAGACCTCTCCAAAGGCAACATGCTC
AGATTCGAAGACTCTCTCCCCCGTCTGCCGGTCCCCTCTCTGGAAGAAAC
GGGCCGCCGCTACCTTAAGTCCGTCCACGCGTTGGTCTCCGAGGCCGAAT
ATGAGCGCACCAAGAAGGCCGTCGAGGCCTTTGTCCGCCCAGGTGGTGAG
GGTGAGCCCCTGCAGGAAAGGTTGCTCGCCCGCGCCGCCGACCCCAAGGT
TAAGAACTGGCTTCTTGAGTGGTGGAACCATGCCGCGTACCTGGCCTACC
GGGACCCTGTCATCCCCTACGTTTCCTACTTCTACTCCTACCGCGACGAT
CGCGCCCGCCGGGACCCTGCCAAGCGCGCCGCCTCGGTTGCCACTGCCGC
CCTGGAGTTCAAGCGCCAGGTCGACGATGGCTCCTTGGAGCCTGAATACA
TGCGCGGCCAGCCCATAGCTATGAGCACCTACCAATACATGTTCAACTGC
TGCCGTATCCCGGGTGACAGTGTCGACTACCCCCAGAAGTTCCCGGCTCA
GGACAACGAACACATTGTGGTCGTGCGCAAGAACCAATTCTTCAAGGTGC
CTTTGACCGTCAATGGCAAGCGCCTGAACAACTCCGAGCTGCAGCGCCAG
TTTGAGCGCATCTACGAGGTCGCTCAGCCGGCTCCGGCGGTCGGCGTCTT
GACCGTCGCTAACCGCGACCTGTGGGCCGACGCACGGAAGAAGCTGCTGG
CCGCGCACCCGGCCAATGAGCAGGCATTGCGGGACATCGAATCCAGCGGA
TTCCTCGTCTGTCTCGACAATGCCAGCCCTGTCACCCTGGAGGAGCGTGC
TCACCAGTACTGGCACGGTGATGGCACCAACCGCTGGTTCGACAAGCCTC
TGCAGTTCATCATCAACGACAATGGTACCGCCGGGTTCATGGGCGAGCAC
AGCATGATGGACGGCAGCCCCACCCACCGCCTGAATGACCACCTGAACAA
CCTCATCTTCAACCACAAGATCGACCTCTCTGAGCAGCCGGTGCGGTCTG
ACCTGCCCGATCCTCGTCCCATCACCTTCCACCTGGACGGCCCTGTGCTG
GAGGCCATCGATGCCGCCAACAAGGAGCACCGCCAGCAGATCTCGTCGCA
CGAGCTCCGGGTCCAGGCCTACCAGGGCTACGGCAAGGGTCTCATCAAGA
AGTTCAAGTGCAGCCCGGATGCGTACGTGCAGATGATCATCCAGCTGGCC
TACTTCAAGATGTACGGCAAGAACCGCCCGACTTACGAGTCTGCCTCGAC
CCGCAAGTTCCAAGAGGGCCGCACAGAGACCATCCGCACGGTATCGGACG
AGAGCGTTGCCTTCTGCAAGGCCATCAGCGATCCTGCCGTCCCTCGCGAG
GAGGCTGTCCGTCTGCTCCGCTCGGCGCTGGCCGCCCACACGAAGTACAC
GGCGGAAGCCAGCGATGGCCGTGGTGTGGACCGTCATTTGTTCGGTCTGA
AGAAGCTGCTGCGTGAGGGAGAGAAGCTGCCTGCTCTGTACGAAGACCCG
GCATTCGCCTACAGTGGCTCGTGGTACCTGTCGACCAGCCAGCTGAGCTC
GGAGTTCTTCAACGGCTACGGATGGAGTCAGGTGATTGACGATGGATTCG
GCATTGCTTATATGATCAACGAGAACAGACACCCATAATGGCACCCCGGC
GCAAAGCATCTTCGGTCCCTGAGGATGTTCGCGGCTTCGAGCAGAAACCG
TCTCTCCACTCTCCCCCGGACCCGTCTCTCCCCCGCCAATTCACTCCTCG
CCAGATCCGCTGTGCTTGAACTTCAACATTGTCTGCAAGCGCCTTGGAGC
GGAACGCATGAGCTATTACCTCAACGAGGCGGCATCTGACATGAGAGACA
TGCTGATGCCCGACTTGGCTGCCCAGAGCGAGAAGGCCAAGATGTAAGCT
ACAAAGAAGACCTCTCCAAAGGCAACATGCTCAGATTCGAAGACTCTCTC
CCCCGTCTGCCGGTCCCCTCTCTGGAAGAAACGGGCCGCCGCTACCTTAA
GTCCGTCCACGCGTTGGTCTCCGAGGCCGAATATGAGCGCACCAAGAAGG
CCGTCGAGGCCTTTGTCCGCCCAGGTGGTGAGGGTGAGCCCCTGCAGGAA
AGGTTGCTCGCCCGCGCCGCCGACCCCAAGGTTAAGAACTGGCTTCTTGA
GTGGTGGAACCATGCCGCGTACCTGGCCTACCGGGACCCTGTCATCCCCT
ACGTTTCCTACTTCTACTCCTACCGCGACGATCGCGCCCGCCGGGACCCT
GCCAAGCGCGCCGCCTCGGTTGCCACTGCCGCCCTGGAGTTCAAGCGCCA
GGTCGACGATGGCTCCTTGGAGCCTGAATACATGCGCGGCCAGCCCATAG
CTATGAGCACCTACCAATACATGTTCAACTGCTGCCGTATCCCGGGTGAC
AGTGTCGACTACCCCCAGAAGTTCCCGGCTCAGGACAACGAACACATTGT
GGTCGTGCGCAAGAACCAATTCTTCAAGGTGCCTTTGACCGTCAATGGCA
AGCGCCTGAACAACTCCGAGCTGCAGCGCCAGTTTGAGCGCATCTACGAG
GTCGCTCAGCCGGCTCCGGCGGTCGGCGTCTTGACCGTCGCTAACCGCGA
CCTGTGGGCCGACGCACGGAAGAAGCTGCTGGCCGCGCACCCGGCCAATG
AGCAGGCATTGCGGGACATCGAATCCAGCGGATTCCTCGTCTGTCTCGAC
AATGCCAGCCCTGTCACCCTGGAGGAGCGTGCTCACCAGTACTGGCACGG
TGATGGCACCAACCGCTGGTTCGACAAGCCTCTGCAGTTCATCATCAACG
ACAATGGTACCGCCGGGTTCATGGGCGAGCACAGCATGATGGACGGCAGC
CCCACCCACCGCCTGAATGACCACCTGAACAACCTCATCTTCAACCACAA
GATCGACCTCTCTGAGCAGCCGGTGCGGTCTGACCTGCCCGATCCTCGTC
CCATCACCTTCCACCTGGACGGCCCTGTGCTGGAGGCCATCGATGCCGCC
AACAAGGAGCACCGCCAGCAGATCTCGTCGCACGAGCTCCGGGTCCAGGC
CTACCAGGGCTACGGCAAGGGTCTCATCAAGAAGTTCAAGTGCAGCCCGG
ATGCGTACGTGCAGATGATCATCCAGCTGGCCTACTTCAAGATGTACGGC
AAGAACCGCCCGACTTACGAGTCTGCCTCGACCCGCAAGTTCCAAGAGGG
CCGCACAGAGACCATCCGCACGGTATCGGACGAGAGCGTTGCCTTCTGCA
AGGCCATCAGCGATCCTGCCGTCCCTCGCGAGGAGGCTGTCCGTCTGCTC
CGCTCGGCGCTGGCCGCCCACACGAAGTACACGGCGGAAGCCAGCGATGG
CCGTGGTGTGGACCGTCATTTGTTCGGTCTGAAGAAGCTGCTGCGTGAGG
GAGAGAAGCTGCCTGCTCTGTACGAAGACCCGGCATTCGCCTACAGTGGC
TCGTGGTACCTGTCGACCAGCCAGCTGAGCTCGGAGTTCTTCAACGGCTA
CGGATGGAGTCAGGTGATTGACGATGGATTCGGCATTGCTTATATGATCA
ACGAGAACAGACACCCATAATGGCACCCCGGCGCAAAGCATCTTCGGTCC
CTGAGGATGTTCGCGGCTTCGAGCAGAAACCGTCTCTCCACTCTCCCCCG
GACCCGTCTCTCCCCCGCCAATTCACTCCTCGCCAGATCCGCTGTGCTTG
AACTTCAACATTGTCTGCAAGCGCCTTGGAGCGGAACGCATGAGCTATTA
CCTCAACGAGGCGGCATCTGACATGAGAGACATGCTGATGCCCGACTTGG
CTGCCCAGAGCGAGAAGGCCAAGATGTAAGCTACAAAGAAGACCTCTCCA
AAGGCAACATGCTCAGATTCGAAGACTCTCTCCCCCGTCTGCCGGTCCCC
TCTCTGGAAGAAACGGGCCGCCGCTACCTTAAGTCCGTCCACGCGTTGGT
CTCCGAGGCCGAATATGAGCGCACCAAGAAGGCCGTCGAGGCCTTTGTCC
GCCCAGGTGGTGAGGGTGAGCCCCTGCAGGAAAGGTTGCTCGCCCGCGCC
GCCGACCCCAAGGTTAAGAACTGGCTTCTTGAGTGGTGGAACCATGCCGC
GTACCTGGCCTACCGGGACCCTGTCATCCCCTACGTTTCCTACTTCTACT
CCTACCGCGACGATCGCGCCCGCCGGGACCCTGCCAAGCGCGCCGCCTCG
GTTGCCACTGCCGCCCTGGAGTTCAAGCGCCAGGTCGACGATGGCTCCTT
GGAGCCTGAATACATGCGCGGCCAGCCCATAGCTATGAGCACCTACCAAT
ACATGTTCAACTGCTGCCGTATCCCGGGTGACAGTGTCGACTACCCCCAG
AAGTTCCCGGCTCAGGACAACGAACACATTGTGGTCGTGCGCAAGAACCA
ATTCTTCAAGGTGCCTTTGACCGTCAATGGCAAGCGCCTGAACAACTCCG
AGCTGCAGCGCCAGTTTGAGCGCATCTACGAGGTCGCTCAGCCGGCTCCG
GCGGTCGGCGTCTTGACCGTCGCTAACCGCGACCTGTGGGCCGACGCACG
GAAGAAGCTGCTGGCCGCGCACCCGGCCAATGAGCAGGCATTGCGGGACA
TCGAATCCAGCGGATTCCTCGTCTGTCTCGACAATGCCAGCCCTGTCACC
CTGGAGGAGCGTGCTCACCAGTACTGGCACGGTGATGGCACCAACCGCTG
GTTCGACAAGCCTCTGCAGTTCATCATCAACGACAATGGTACCGCCGGGT
TCATGGGCGAGCACAGCATGATGGACGGCAGCCCCACCCACCGCCTGAAT
GACCACCTGAACAACCTCATCTTCAACCACAAGATCGACCTCTCTGAGCA
GCCGGTGCGGTCTGACCTGCCCGATCCTCGTCCCATCACCTTCCACCTGG
ACGGCCCTGTGCTGGAGGCCATCGATGCCGCCAACAAGGAGCACCGCCAG
CAGATCTCGTCGCACGAGCTCCGGGTCCAGGCCTACCAGGGCTACGGCAA
GGGTCTCATCAAGAAGTTCAAGTGCAGCCCGGATGCGTACGTGCAGATGA
TCATCCAGCTGGCCTACTTCAAGATGTACGGCAAGAACCGCCCGACTTAC
GAGTCTGCCTCGACCCGCAAGTTCCAAGAGGGCCGCACAGAGACCATCCG
CACGGTATCGGACGAGAGCGTTGCCTTCTGCAAGGCCATCAGCGATCCTG
CCGTCCCTCGCGAGGAGGCTGTCCGTCTGCTCCGCTCGGCGCTGGCCGCC
CACACGAAGTACACGGCGGAAGCCAGCGATGGCCGTGGTGTGGACCGTCA
TTTGTTCGGTCTGAAGAAGCTGCTGCGTGAGGGAGAGAAGCTGCCTGCTC
TGTACGAAGACCCGGCATTCGCCTACAGTGGCTCGTGGTACCTGTCGACC
AGCCAGCTGAGCTCGGAGTTCTTCAACGGCTACGGATGGAGTCAGGTGAT
TGACGATGGATTCGGCATTGCTTATATGATCAACGAGAACAGACACCCAT
AATGGCACCCCGGCGCAAAGCATCTTCGGTCCCTGAGGATGTTCGCGGCT
TCGAGCAGAAACCGTCTCTCCACTCTCCCCCGGACCCGTCTCTCCCCCGC
CAATTCACTCCTCGCCAGATCCGCTGTG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0016746 | transferase activity, transferring acyl groups |
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:IPR000542 |
| DBxref | InterPro:IPR042231 |
| DBxref | InterPro:IPR039551 |
| DBxref | InterPro:IPR042232 |
| DBxref | PFAM:PF00755 |
| 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 |
|---|
| ACJE01000020.1 | supercontig | ACJE01000020.1:312149..314268 - |
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