|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000006.1:1286016..1288148+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_42146-T1 ID=ASPNIDRAFT_42146-T1|Name=ASPNIDRAFT_42146-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2133bp|location=Sequence derived from alignment at ACJE01000006.1:1286016..1288148+ (Aspergillus niger ATCC 1015)
ATGCCTTCAATCCTGAACGACAACGACAAGGAAACAGTCAGGAGAACTGT
ACCAAAGCCTGACAACAAAATCTTAGCGGTGGCTGTTGCGCGCCTCTACG
TGGCCCACCCAGACACCCAGAGATGGACGTACACTGGCCTGCAGGGAGCT
GCAGTTTTAGCAAATGACCTGGTCGGCCGTACCTTTTGGCTGAAATTGGT
GGATGTATCGGTGAGCACAGCCTGGTAAATCATGCACTGTGACAGTTACT
GACAGAAGACACCGTGCTGTGCTTTAGCCTGCCAATAGGGGAGTTATTTG
GGATCAAGAGATCTACGATAACTTCGCGTACAACCAAGATCGCACGTTCT
TCCACTCCTTCGAATTAGAAGACTGTCCCGCCGGACTGTCATTCGCCGAT
GAGAAAGAGGCCAAGACATTCATCAAGAAAGTACAGGAACGAGAAAAACA
TGCGAGCAAAGAGACACGGCAGACGCCCTTTGCATCTACCCGAGGCCAGG
GCCCTGCTCCGGTGGTGAACGGCAAATCCGGGGTTGGACGATCGCTGTTT
GGCAGCTTACTCGGCCATCGCTCATCGTCAGGATCTCATGTACCCCCGCC
GGTGACACCTGCGGAACTGCCTCCTGCTCCCTCGATCCAAGTGGCTCCCC
CGCCTCCACCTTCGGCCAGCCCAGCACGCAAGGAACTGCCGTTCGACACC
AATGACCCTGCATTCAAGGGCGTCCTGGACGAGCTCCTACAAATGGGCAT
TACGGAAGACTTGATCGCCGAGAACTTCGATTTCATCAAGTCCTATATCG
AACAGAAACAAGCGGCAACGCCCAGCCCGCCTTCTGCCGATGATCAAAGG
AAAGGAAAAGCGCCGCCTCCACCTCCCCCGTCTGCGCCGCCTGCTCCGAA
GGTGGCTGCCATCAGCCCACAGAACACTGGCAACAGCACAGGGAGTCGAC
GAGGTGCTCCGCCGCCCCCTCCTCCGACGAGGAGGACTCGAATGGATACG
ACGGATGACGAGCCTGCCTCGAAACGTGAACCGTCTCCTCCCAGGAACCG
GTTTCGTGCGCCGCCTCCAATTGCAGATGCTGGTAAATTTGCTCACACAC
CATTGCCGCCTACTCGCCAACGGGCCTCGTCAAATGCTACACCCGGTCCT
CCACCTCCTCCACGGCCTCCAAAGACTCCAATGGATGAGAACCACTCCCG
CTTCGGCGTTCCCCCGCCGTTCCAGGGCGAGCGCAAGGTGTCTGCTCCTC
CCGCACCTCCCAGTCGGCCAGGGCCTTCAGGGCCTCCTCCTCCTCCTCCA
CGCACTATGAGCCCTGTGCCACCTCCACAGCTACCTCCCAAAGTTCCCAA
TGTTTCTGCAACAGGACCTCCTCCACCACCACCCAGAAGCCCTGCTTCGC
AGCCGCCACCACCCCCACCTGTGCCTTCCAATTCCCGGCCTATTCCTCCC
CCACCTACATCAAGCGTGTCGCCTCCTTCGTCGGGTCTTCCGCCCCGGCC
TCCTCTGCCAATTGGTATTCCTCCACCTGGACCTCCGCCATCGCATCCTT
CACCTAGTGCCGGACCTCCTGCACCGCCTCCGCCCCCACCGCCGCCCACA
ACCTCGGTCCCGCCTCCTCCACCCCCTCCGCCTCCGGCAAGCACTGGTCC
TCCAGCACCCCCACCGCCTCCGCCGGCACCAGGAAGTTCAATCCCACCAC
CACCACCTCCTCCACCGCCAGGAGCTGGTGCTCCACCGCCGCCACCGCCG
CCTCCTGGAGCTGGTGCGCCTCCCCCGCCTCCTCCAGGTGGAGCTGCTCC
GCCCTTGCCCAAAGCCGAAGGTGGTAGGAATGACCTCATGGCTGCCATCC
GGGCATCTGGAGGAAAGGGCGGCGGTGGCCTGCGGAGGGTCAAGGATACA
GAGAAGCGTGACCGGAGTGCAGCCCTTGTACCTGGCTCAGCCAGCGAATC
GTCTGCGCCGACCCCAAGTGGTGGTGCTGCTCAAGGAGGCCTGGCAGGTG
CTTTGCAAGATGCTCTGGCGAAGAGAAAGCAGAAGGTCAGCGGTAGCGGT
AAGTAGACACCCCCTGATGGCCAGTGATACGCGTACTAATGTGGACTATA
GATGACGAGAAGGAGGACGATGACGATTGGTGA back to topCoding sequence (CDS) from alignment at ACJE01000006.1:1286016..1288148+ >ASPNIDRAFT_42146-T1 ID=ASPNIDRAFT_42146-T1|Name=ASPNIDRAFT_42146-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=7692bp|location=Sequence derived from alignment at ACJE01000006.1:1286016..1288148+ (Aspergillus niger ATCC 1015)
ATGCCTTCAATCCTGAACGACAACGACAAGGAAACAGTCAGGAGAACTGT
ACCAAAGCCTGACAACAAAATCTTAGCGGTGGCTGTTGCGCGCCTCTACG
TGGCCCACCCAGACACCCAGAGATGGACGTACACTGGCCTGCAGGGAGCT
GCAGTTTTAGCAAATGACCTGGTCGGCCGTACCTTTTGGCTGAAATTGGT
GGATGTATCGCCTGCCAATAGGGGAGTTATTTGGGATCAAGAGATCTACG
ATAACTTCGCGTACAACCAAGATCGCACGTTCTTCCACTCCTTCGAATTA
GAAGACTGTCCCGCCGGACTGTCATTCGCCGATGAGAAAGAGGCCAAGAC
ATTCATCAAGAAAGTACAGGAACGAGAAAAACATGCGAGCAAAGAGACAC
GGCAGACGCCCTTTGCATCTACCCGAGGCCAGGGCCCTGCTCCGGTGGTG
AACGGCAAATCCGGGGTTGGACGATCGCTGTTTGGCAGCTTACTCGGCCA
TCGCTCATCGTCAGGATCTCATGTACCCCCGCCGGTGACACCTGCGGAAC
TGCCTCCTGCTCCCTCGATCCAAGTGGCTCCCCCGCCTCCACCTTCGGCC
AGCCCAGCACGCAAGGAACTGCCGTTCGACACCAATGACCCTGCATTCAA
GGGCGTCCTGGACGAGCTCCTACAAATGGGCATTACGGAAGACTTGATCG
CCGAGAACTTCGATTTCATCAAGTCCTATATCGAACAGAAACAAGCGGCA
ACGCCCAGCCCGCCTTCTGCCGATGATCAAAGGAAAGGAAAAGCGCCGCC
TCCACCTCCCCCGTCTGCGCCGCCTGCTCCGAAGGTGGCTGCCATCAGCC
CACAGAACACTGGCAACAGCACAGGGAGTCGACGAGGTGCTCCGCCGCCC
CCTCCTCCGACGAGGAGGACTCGAATGGATACGACGGATGACGAGCCTGC
CTCGAAACGTGAACCGTCTCCTCCCAGGAACCGGTTTCGTGCGCCGCCTC
CAATTGCAGATGCTGGTAAATTTGCTCACACACCATTGCCGCCTACTCGC
CAACGGGCCTCGTCAAATGCTACACCCGGTCCTCCACCTCCTCCACGGCC
TCCAAAGACTCCAATGGATGAGAACCACTCCCGCTTCGGCGTTCCCCCGC
CGTTCCAGGGCGAGCGCAAGGTGTCTGCTCCTCCCGCACCTCCCAGTCGG
CCAGGGCCTTCAGGGCCTCCTCCTCCTCCTCCACGCACTATGAGCCCTGT
GCCACCTCCACAGCTACCTCCCAAAGTTCCCAATGTTTCTGCAACAGGAC
CTCCTCCACCACCACCCAGAAGCCCTGCTTCGCAGCCGCCACCACCCCCA
CCTGTGCCTTCCAATTCCCGGCCTATTCCTCCCCCACCTACATCAAGCGT
TGCCGGACCTCCTGCACCGCCTCCGCCCCCACCGCCGCCCACAACCTCGG
TCCCGCCTCCTCCACCCCCTCCGCCTCCGGCAAGCACTGGTCCTCCAGCA
CCCCCACCGCCTCCGCCGGCACCAGGAAGTTCAATCCCACCACCACCACC
TCCTCCACCGCCAGGAGCTGGTGCTCCACCGCCGCCACCGCCGCCTCCTG
GAGCTGGTGCGCCTCCCCCGCCTCCTCCAGGTGGAGCTGCTCCGCCCTTG
CCCAAAGCCGAAGGTGGTAGGAATGACCTCATGGCTGCCATCCGGGCATC
TGGAGGAAAGGGCGGCGGTGGCCTGCGGAGGGTCAAGGATACAGAGAAGC
GTGACCGGAGTGCAGCCCTTGTACCTGGCTCAGCCAGCGAATCGTCTGCG
CCGACCCCAAGTGGTGGTGCTGCTCAAGGAGGCCTGGCAGGTGCTTTGCA
AGATGCTCTGGCGAAGAGAAAGCAGAAGGTCAGCGGTAGCGATGACGAGA
AGGAGGACGATGACGATTGGTGAATGCCTTCAATCCTGAACGACAACGAC
AAGGAAACAGTCAGGAGAACTGTACCAAAGCCTGACAACAAAATCTTAGC
GGTGGCTGTTGCGCGCCTCTACGTGGCCCACCCAGACACCCAGAGATGGA
CGTACACTGGCCTGCAGGGAGCTGCAGTTTTAGCAAATGACCTGGTCGGC
CGTACCTTTTGGCTGAAATTGGTGGATGTATCGCCTGCCAATAGGGGAGT
TATTTGGGATCAAGAGATCTACGATAACTTCGCGTACAACCAAGATCGCA
CGTTCTTCCACTCCTTCGAATTAGAAGACTGTCCCGCCGGACTGTCATTC
GCCGATGAGAAAGAGGCCAAGACATTCATCAAGAAAGTACAGGAACGAGA
AAAACATGCGAGCAAAGAGACACGGCAGACGCCCTTTGCATCTACCCGAG
GCCAGGGCCCTGCTCCGGTGGTGAACGGCAAATCCGGGGTTGGACGATCG
CTGTTTGGCAGCTTACTCGGCCATCGCTCATCGTCAGGATCTCATGTACC
CCCGCCGGTGACACCTGCGGAACTGCCTCCTGCTCCCTCGATCCAAGTGG
CTCCCCCGCCTCCACCTTCGGCCAGCCCAGCACGCAAGGAACTGCCGTTC
GACACCAATGACCCTGCATTCAAGGGCGTCCTGGACGAGCTCCTACAAAT
GGGCATTACGGAAGACTTGATCGCCGAGAACTTCGATTTCATCAAGTCCT
ATATCGAACAGAAACAAGCGGCAACGCCCAGCCCGCCTTCTGCCGATGAT
CAAAGGAAAGGAAAAGCGCCGCCTCCACCTCCCCCGTCTGCGCCGCCTGC
TCCGAAGGTGGCTGCCATCAGCCCACAGAACACTGGCAACAGCACAGGGA
GTCGACGAGGTGCTCCGCCGCCCCCTCCTCCGACGAGGAGGACTCGAATG
GATACGACGGATGACGAGCCTGCCTCGAAACGTGAACCGTCTCCTCCCAG
GAACCGGTTTCGTGCGCCGCCTCCAATTGCAGATGCTGGTAAATTTGCTC
ACACACCATTGCCGCCTACTCGCCAACGGGCCTCGTCAAATGCTACACCC
GGTCCTCCACCTCCTCCACGGCCTCCAAAGACTCCAATGGATGAGAACCA
CTCCCGCTTCGGCGTTCCCCCGCCGTTCCAGGGCGAGCGCAAGGTGTCTG
CTCCTCCCGCACCTCCCAGTCGGCCAGGGCCTTCAGGGCCTCCTCCTCCT
CCTCCACGCACTATGAGCCCTGTGCCACCTCCACAGCTACCTCCCAAAGT
TCCCAATGTTTCTGCAACAGGACCTCCTCCACCACCACCCAGAAGCCCTG
CTTCGCAGCCGCCACCACCCCCACCTGTGCCTTCCAATTCCCGGCCTATT
CCTCCCCCACCTACATCAAGCGTTGCCGGACCTCCTGCACCGCCTCCGCC
CCCACCGCCGCCCACAACCTCGGTCCCGCCTCCTCCACCCCCTCCGCCTC
CGGCAAGCACTGGTCCTCCAGCACCCCCACCGCCTCCGCCGGCACCAGGA
AGTTCAATCCCACCACCACCACCTCCTCCACCGCCAGGAGCTGGTGCTCC
ACCGCCGCCACCGCCGCCTCCTGGAGCTGGTGCGCCTCCCCCGCCTCCTC
CAGGTGGAGCTGCTCCGCCCTTGCCCAAAGCCGAAGGTGGTAGGAATGAC
CTCATGGCTGCCATCCGGGCATCTGGAGGAAAGGGCGGCGGTGGCCTGCG
GAGGGTCAAGGATACAGAGAAGCGTGACCGGAGTGCAGCCCTTGTACCTG
GCTCAGCCAGCGAATCGTCTGCGCCGACCCCAAGTGGTGGTGCTGCTCAA
GGAGGCCTGGCAGGTGCTTTGCAAGATGCTCTGGCGAAGAGAAAGCAGAA
GGTCAGCGGTAGCGATGACGAGAAGGAGGACGATGACGATTGGTGAATGC
CTTCAATCCTGAACGACAACGACAAGGAAACAGTCAGGAGAACTGTACCA
AAGCCTGACAACAAAATCTTAGCGGTGGCTGTTGCGCGCCTCTACGTGGC
CCACCCAGACACCCAGAGATGGACGTACACTGGCCTGCAGGGAGCTGCAG
TTTTAGCAAATGACCTGGTCGGCCGTACCTTTTGGCTGAAATTGGTGGAT
GTATCGCCTGCCAATAGGGGAGTTATTTGGGATCAAGAGATCTACGATAA
CTTCGCGTACAACCAAGATCGCACGTTCTTCCACTCCTTCGAATTAGAAG
ACTGTCCCGCCGGACTGTCATTCGCCGATGAGAAAGAGGCCAAGACATTC
ATCAAGAAAGTACAGGAACGAGAAAAACATGCGAGCAAAGAGACACGGCA
GACGCCCTTTGCATCTACCCGAGGCCAGGGCCCTGCTCCGGTGGTGAACG
GCAAATCCGGGGTTGGACGATCGCTGTTTGGCAGCTTACTCGGCCATCGC
TCATCGTCAGGATCTCATGTACCCCCGCCGGTGACACCTGCGGAACTGCC
TCCTGCTCCCTCGATCCAAGTGGCTCCCCCGCCTCCACCTTCGGCCAGCC
CAGCACGCAAGGAACTGCCGTTCGACACCAATGACCCTGCATTCAAGGGC
GTCCTGGACGAGCTCCTACAAATGGGCATTACGGAAGACTTGATCGCCGA
GAACTTCGATTTCATCAAGTCCTATATCGAACAGAAACAAGCGGCAACGC
CCAGCCCGCCTTCTGCCGATGATCAAAGGAAAGGAAAAGCGCCGCCTCCA
CCTCCCCCGTCTGCGCCGCCTGCTCCGAAGGTGGCTGCCATCAGCCCACA
GAACACTGGCAACAGCACAGGGAGTCGACGAGGTGCTCCGCCGCCCCCTC
CTCCGACGAGGAGGACTCGAATGGATACGACGGATGACGAGCCTGCCTCG
AAACGTGAACCGTCTCCTCCCAGGAACCGGTTTCGTGCGCCGCCTCCAAT
TGCAGATGCTGGTAAATTTGCTCACACACCATTGCCGCCTACTCGCCAAC
GGGCCTCGTCAAATGCTACACCCGGTCCTCCACCTCCTCCACGGCCTCCA
AAGACTCCAATGGATGAGAACCACTCCCGCTTCGGCGTTCCCCCGCCGTT
CCAGGGCGAGCGCAAGGTGTCTGCTCCTCCCGCACCTCCCAGTCGGCCAG
GGCCTTCAGGGCCTCCTCCTCCTCCTCCACGCACTATGAGCCCTGTGCCA
CCTCCACAGCTACCTCCCAAAGTTCCCAATGTTTCTGCAACAGGACCTCC
TCCACCACCACCCAGAAGCCCTGCTTCGCAGCCGCCACCACCCCCACCTG
TGCCTTCCAATTCCCGGCCTATTCCTCCCCCACCTACATCAAGCGTTGCC
GGACCTCCTGCACCGCCTCCGCCCCCACCGCCGCCCACAACCTCGGTCCC
GCCTCCTCCACCCCCTCCGCCTCCGGCAAGCACTGGTCCTCCAGCACCCC
CACCGCCTCCGCCGGCACCAGGAAGTTCAATCCCACCACCACCACCTCCT
CCACCGCCAGGAGCTGGTGCTCCACCGCCGCCACCGCCGCCTCCTGGAGC
TGGTGCGCCTCCCCCGCCTCCTCCAGGTGGAGCTGCTCCGCCCTTGCCCA
AAGCCGAAGGTGGTAGGAATGACCTCATGGCTGCCATCCGGGCATCTGGA
GGAAAGGGCGGCGGTGGCCTGCGGAGGGTCAAGGATACAGAGAAGCGTGA
CCGGAGTGCAGCCCTTGTACCTGGCTCAGCCAGCGAATCGTCTGCGCCGA
CCCCAAGTGGTGGTGCTGCTCAAGGAGGCCTGGCAGGTGCTTTGCAAGAT
GCTCTGGCGAAGAGAAAGCAGAAGGTCAGCGGTAGCGATGACGAGAAGGA
GGACGATGACGATTGGTGAATGCCTTCAATCCTGAACGACAACGACAAGG
AAACAGTCAGGAGAACTGTACCAAAGCCTGACAACAAAATCTTAGCGGTG
GCTGTTGCGCGCCTCTACGTGGCCCACCCAGACACCCAGAGATGGACGTA
CACTGGCCTGCAGGGAGCTGCAGTTTTAGCAAATGACCTGGTCGGCCGTA
CCTTTTGGCTGAAATTGGTGGATGTATCGCCTGCCAATAGGGGAGTTATT
TGGGATCAAGAGATCTACGATAACTTCGCGTACAACCAAGATCGCACGTT
CTTCCACTCCTTCGAATTAGAAGACTGTCCCGCCGGACTGTCATTCGCCG
ATGAGAAAGAGGCCAAGACATTCATCAAGAAAGTACAGGAACGAGAAAAA
CATGCGAGCAAAGAGACACGGCAGACGCCCTTTGCATCTACCCGAGGCCA
GGGCCCTGCTCCGGTGGTGAACGGCAAATCCGGGGTTGGACGATCGCTGT
TTGGCAGCTTACTCGGCCATCGCTCATCGTCAGGATCTCATGTACCCCCG
CCGGTGACACCTGCGGAACTGCCTCCTGCTCCCTCGATCCAAGTGGCTCC
CCCGCCTCCACCTTCGGCCAGCCCAGCACGCAAGGAACTGCCGTTCGACA
CCAATGACCCTGCATTCAAGGGCGTCCTGGACGAGCTCCTACAAATGGGC
ATTACGGAAGACTTGATCGCCGAGAACTTCGATTTCATCAAGTCCTATAT
CGAACAGAAACAAGCGGCAACGCCCAGCCCGCCTTCTGCCGATGATCAAA
GGAAAGGAAAAGCGCCGCCTCCACCTCCCCCGTCTGCGCCGCCTGCTCCG
AAGGTGGCTGCCATCAGCCCACAGAACACTGGCAACAGCACAGGGAGTCG
ACGAGGTGCTCCGCCGCCCCCTCCTCCGACGAGGAGGACTCGAATGGATA
CGACGGATGACGAGCCTGCCTCGAAACGTGAACCGTCTCCTCCCAGGAAC
CGGTTTCGTGCGCCGCCTCCAATTGCAGATGCTGGTAAATTTGCTCACAC
ACCATTGCCGCCTACTCGCCAACGGGCCTCGTCAAATGCTACACCCGGTC
CTCCACCTCCTCCACGGCCTCCAAAGACTCCAATGGATGAGAACCACTCC
CGCTTCGGCGTTCCCCCGCCGTTCCAGGGCGAGCGCAAGGTGTCTGCTCC
TCCCGCACCTCCCAGTCGGCCAGGGCCTTCAGGGCCTCCTCCTCCTCCTC
CACGCACTATGAGCCCTGTGCCACCTCCACAGCTACCTCCCAAAGTTCCC
AATGTTTCTGCAACAGGACCTCCTCCACCACCACCCAGAAGCCCTGCTTC
GCAGCCGCCACCACCCCCACCTGTGCCTTCCAATTCCCGGCCTATTCCTC
CCCCACCTACATCAAGCGTTGCCGGACCTCCTGCACCGCCTCCGCCCCCA
CCGCCGCCCACAACCTCGGTCCCGCCTCCTCCACCCCCTCCGCCTCCGGC
AAGCACTGGTCCTCCAGCACCCCCACCGCCTCCGCCGGCACCAGGAAGTT
CAATCCCACCACCACCACCTCCTCCACCGCCAGGAGCTGGTGCTCCACCG
CCGCCACCGCCGCCTCCTGGAGCTGGTGCGCCTCCCCCGCCTCCTCCAGG
TGGAGCTGCTCCGCCCTTGCCCAAAGCCGAAGGTGGTAGGAATGACCTCA
TGGCTGCCATCCGGGCATCTGGAGGAAAGGGCGGCGGTGGCCTGCGGAGG
GTCAAGGATACAGAGAAGCGTGACCGGAGTGCAGCCCTTGTACCTGGCTC
AGCCAGCGAATCGTCTGCGCCGACCCCAAGTGGTGGTGCTGCTCAAGGAG
GCCTGGCAGGTGCTTTGCAAGATGCTCTGGCGAAGAGAAAGCAGAAGGTC
AGCGGTAGCGATGACGAGAAGGAGGACGATGACGATTGGTGA back to top
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 |
|---|
| Note | BUSCO:EOG09264U78 |
| DBxref | InterPro:IPR033927 |
| DBxref | InterPro:IPR011993 |
| DBxref | InterPro:IPR000697 |
| DBxref | PFAM:PF00568 |
| 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 |
|---|
| ACJE01000006.1 | supercontig | ACJE01000006.1:1286016..1288148 + |
|
