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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000021.1:1002952..1005235- Legend: polypeptideCDSexonthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_208152-T1 ID=ASPNIDRAFT_208152-T1|Name=ASPNIDRAFT_208152-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2284bp|location=Sequence derived from alignment at ACJE01000021.1:1002952..1005235- (Aspergillus niger ATCC 1015)
ATGTCTCTCCCGATCCTCTCAACGAAGCCGTATCTCCCCGCCCTCCACCC
GATCACTCCTACTATAGCTCCTTCCTCGCGGACTGAAGGCTCGCTCAGTG
CAAGGAAACGACCTCTTGAGGCTTTTTCGGAAGTTCCTGATTACACCTGG
ACTGCTCCCTTCCGGGACGGTCTGCCTACCCCTCCGAACGATATGAATAG
CGTCACTGCTTGCAGCGCTCTGCCGGCGTCTTCCTATGGGGGCAAGCTCG
ATGGATTTCAGCTTCCACCCTATTCCAAGGTGTCTGACTATACGCGCATG
CCTTCTGATGTGTCGAATGGAGCGGTCTCCTCGTCCCAGCCGCAATATCA
AGCGCCGGCCAAGAATGCCATGACCTCCGAACGAGAGTCTCAGAAGAAGA
GCAGCTCCAATGGTGTTGCGTCGTATCTTCAGATTCCTCCGTCTATCAGC
AACAGCCAAGGAAGCCTGGCTGAATTTGCAGCACAGGTAAGCTGGGTTCT
TCTATCCGTTCTGGATCTAAGATGCTGACTAGGCCGTAGATGACGTGCCT
TTTCTGGTTCGAAAGTACAGCGAAACTGAAGGCCGTGGAGGACCGTCTCA
AGCCGGCCACTTCGCTTGCACCAGAAGCAGTTCCCGCTGTTGCGTTCCAA
AAGTGGGTGACAAATATCCTGTCAACTACACAGGTTAGCCAGAACGTCAT
CTTACTGGCACTGCTCTTCGTCTACCGGTTGAAGAAGTTCAACCCTGGTG
TGCGGGGAAAGAAGGGTAGTGAGTATCGGCTGATGACCATCGCGCTGATG
CTGGGCAATAAATGTATGTCTCTTTAGTGAAATGGCCATGGATAGAGAGC
TGACACAGGGTAGTCCTCGATGATAACACATACACGAACAAGACCTGGGC
AGAGGTCTCCGGGATCACAGTCCAAGAGATCCACATCATGGAAGTGGAGT
TCCTAAGCAACATTCGCTATAATCTTTTCGTGTCCAAAGAAGAATGGAAC
GAGTGGCACGCCAAACTCGGGCTCTTCTCGAACTACTTTAACAACGCACC
TCGAGCTATTGAGAAGAATGAGAAACACCCTACTCCGCCAGTCCTCAATG
TGTCTCCCACTTTGGTGCCATCACCTCGGGCACATTCGCCATCACCTTCG
ACAAAGTTGCCGTCGCCTCCCGCATCCGATCCCCTCCGGACGCAGCCCTG
GGCTTTGCCTATGAACACTTTGCCATACACTGGCGCACCTCAGCTCCCAA
ACGACCTGCCACCGGCCACTAGCTCTCGGAAGCGGTCCCGTGAAGAGCCA
CTGGAGGAGCCTACAGCGAAGAGGACAGCCATGCCCAACAACATACTCAC
ATCCATGCCGTCACTTCCACCGTCATCGGCCCTCACAAGCATTCCGGCCT
TGCCTCCGGTTCTAGCGTCCTCCAGTGTCCCCCCTCACCTTCCGGCCATG
TCAGAACCGGTCTCGCGACTCCCCCGGCCCAACTTCCCGTCTCACAGTCT
TCCCCCTACCATGCCGACGTCTTTGTCTCAACTTCCCCCTTCCGGTCGAG
TCATGCCCCCGGTCTACAACCCTTCTGCCAATTGGGTTCCACAGATGCCA
CCTGCGACGTCGGTTCCTACTACTGCCGTTGCACCTTTGGCCAACGGACT
ATACAACACGTCCATCTCACTACCCGACCCCAGCAGACACCACAACAGTC
CGTTCACAGTGACATCAGGCACAATCTCGCCTGCAGTTTCTGCGTACTCC
GTCCACACTCCTCAAAACCACCTCTCCCCTTCCTTCTTTTTGGCAAACCG
AAACTCGCCTTACCGACCGGTTCGCAGTGTCAATACGTTGTTGATTCCGC
CCCCGTCGGCGTCTCTGCAGCAGCGCAGTAACATCCCGTTCGAGCACATG
CACTACCAGCCGCTTGGCAAAAACGAACGCAGGACGGGTGTGCTGCCATA
TGCGCAGTCTGAGGCTTGGCCGCAGGGACCTTTCCCGCAACCGATCTTCC
ACGCCACACTGAACTATTAGATGACTTGCCGTTATCGAAAGAGCTTTTTT
ACGACTAGATTTTACGATGATATACGAGAAGAAGTTCGCATTCTTTTCTC
TCTTTTGCTTGTCTCGCACACCTGTCGTTCATGTTTGCCCCTTTGTGTAT
CTTGTACAAAACTTTCTTCACTCTGTGTTATGACCTAGCATTATTACGGC
GTTGGCATTTATAGATGGCCTTTGTACTGGGAAGGAATTGTTTGCATACT
TGGCCATGGGAGGGATTCTGATTGATTTTTCGAA back to topCoding sequence (CDS) from alignment at ACJE01000021.1:1002952..1005235- >ASPNIDRAFT_208152-T1 ID=ASPNIDRAFT_208152-T1|Name=ASPNIDRAFT_208152-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=7428bp|location=Sequence derived from alignment at ACJE01000021.1:1002952..1005235- (Aspergillus niger ATCC 1015)
TCCTCGATGATAACACATACACGAACAAGACCTGGGCAGAGGTCTCCGGG
ATCACAGTCCAAGAGATCCACATCATGGAAGTGGAGTTCCTAAGCAACAT
TCGCTATAATCTTTTCGTGTCCAAAGAAGAATGGAACGAGTGGCACGCCA
AACTCGGGCTCTTCTCGAACTACTTTAACAACGCACCTCGAGCTATTGAG
AAGAATGAGAAACACCCTACTCCGCCAGTCCTCAATGTGTCTCCCACTTT
GGTGCCATCACCTCGGGCACATTCGCCATCACCTTCGACAAAGTTGCCGT
CGCCTCCCGCATCCGATCCCCTCCGGACGCAGCCCTGGGCTTTGCCTATG
AACACTTTGCCATACACTGGCGCACCTCAGCTCCCAAACGACCTGCCACC
GGCCACTAGCTCTCGGAAGCGGTCCCGTGAAGAGCCACTGGAGGAGCCTA
CAGCGAAGAGGACAGCCATGCCCAACAACATACTCACATCCATGCCGTCA
CTTCCACCGTCATCGGCCCTCACAAGCATTCCGGCCTTGCCTCCGGTTCT
AGCGTCCTCCAGTGTCCCCCCTCACCTTCCGGCCATGTCAGAACCGGTCT
CGCGACTCCCCCGGCCCAACTTCCCGTCTCACAGTCTTCCCCCTACCATG
CCGACGTCTTTGTCTCAACTTCCCCCTTCCGGTCGAGTCATGCCCCCGGT
CTACAACCCTTCTGCCAATTGGGTTCCACAGATGCCACCTGCGACGTCGG
TTCCTACTACTGCCGTTGCACCTTTGGCCAACGGACTATACAACACGTCC
ATCTCACTACCCGACCCCAGCAGACACCACAACAGTCCGTTCACAGTGAC
ATCAGGCACAATCTCGCCTGCAGTTTCTGCGTACTCCGTCCACACTCCTC
AAAACCACCTCTCCCCTTCCTTCTTTTTGGCAAACCGAAACTCGCCTTAC
CGACCGGTTCGCAGTGTCAATACGTTGTTGATTCCGCCCCCGTCGGCGTC
TCTGCAGCAGCGCAGTAACATCCCGTTCGAGCACATGCACTACCAGCCGC
TTGGCAAAAACGAACGCAGGACGGGTGTGCTGCCATATGCGCAGTCTGAG
GCTTGGCCGCAGGGACCTTTCCCGCAACCGATCTTCCACGCCACACTGAA
CTATTAGATGACGTGCCTTTTCTGGTTCGAAAGTACAGCGAAACTGAAGG
CCGTGGAGGACCGTCTCAAGCCGGCCACTTCGCTTGCACCAGAAGCAGTT
CCCGCTGTTGCGTTCCAAAAGTGGGTGACAAATATCCTGTCAACTACACA
GGTTAGCCAGAACGTCATCTTACTGGCACTGCTCTTCGTCTACCGGTTGA
AGAAGTTCAACCCTGGTGTGCGGGGAAAGAAGGGTAGTGAGTATCGGCTG
ATGACCATCGCGCTGATGCTGGGCAATAAATCCGCAATATCAAGCGCCGG
CCAAGAATGCCATGACCTCCGAACGAGAGTCTCAGAAGAAGAGCAGCTCC
AATGGTGTTGCGTCGTATCTTCAGATTCCTCCGTCTATCAGCAACAGCCA
AGGAAGCCTGGCTGAATTTGCAGCACAGATGTCTCTCCCGATCCTCTCAA
CGAAGCCGTATCTCCCCGCCCTCCACCCGATCACTCCTACTATAGCTCCT
TCCTCGCGGACTGAAGGCTCGCTCAGTGCAAGGAAACGACCTCTTGAGGC
TTTTTCGGAAGTTCCTGATTACACCTGGACTGCTCCCTTCCGGGACGGTC
TGCCTACCCCTCCGAACGATATGAATAGCGTCACTGCTTGCAGCGCTCTG
CCGGCGTCTTCCTATGGGGGCAAGCTCGATGGATTTCAGCTTCCACCCTA
TTCCAAGTCCTCGATGATAACACATACACGAACAAGACCTGGGCAGAGGT
CTCCGGGATCACAGTCCAAGAGATCCACATCATGGAAGTGGAGTTCCTAA
GCAACATTCGCTATAATCTTTTCGTGTCCAAAGAAGAATGGAACGAGTGG
CACGCCAAACTCGGGCTCTTCTCGAACTACTTTAACAACGCACCTCGAGC
TATTGAGAAGAATGAGAAACACCCTACTCCGCCAGTCCTCAATGTGTCTC
CCACTTTGGTGCCATCACCTCGGGCACATTCGCCATCACCTTCGACAAAG
TTGCCGTCGCCTCCCGCATCCGATCCCCTCCGGACGCAGCCCTGGGCTTT
GCCTATGAACACTTTGCCATACACTGGCGCACCTCAGCTCCCAAACGACC
TGCCACCGGCCACTAGCTCTCGGAAGCGGTCCCGTGAAGAGCCACTGGAG
GAGCCTACAGCGAAGAGGACAGCCATGCCCAACAACATACTCACATCCAT
GCCGTCACTTCCACCGTCATCGGCCCTCACAAGCATTCCGGCCTTGCCTC
CGGTTCTAGCGTCCTCCAGTGTCCCCCCTCACCTTCCGGCCATGTCAGAA
CCGGTCTCGCGACTCCCCCGGCCCAACTTCCCGTCTCACAGTCTTCCCCC
TACCATGCCGACGTCTTTGTCTCAACTTCCCCCTTCCGGTCGAGTCATGC
CCCCGGTCTACAACCCTTCTGCCAATTGGGTTCCACAGATGCCACCTGCG
ACGTCGGTTCCTACTACTGCCGTTGCACCTTTGGCCAACGGACTATACAA
CACGTCCATCTCACTACCCGACCCCAGCAGACACCACAACAGTCCGTTCA
CAGTGACATCAGGCACAATCTCGCCTGCAGTTTCTGCGTACTCCGTCCAC
ACTCCTCAAAACCACCTCTCCCCTTCCTTCTTTTTGGCAAACCGAAACTC
GCCTTACCGACCGGTTCGCAGTGTCAATACGTTGTTGATTCCGCCCCCGT
CGGCGTCTCTGCAGCAGCGCAGTAACATCCCGTTCGAGCACATGCACTAC
CAGCCGCTTGGCAAAAACGAACGCAGGACGGGTGTGCTGCCATATGCGCA
GTCTGAGGCTTGGCCGCAGGGACCTTTCCCGCAACCGATCTTCCACGCCA
CACTGAACTATTAGATGACGTGCCTTTTCTGGTTCGAAAGTACAGCGAAA
CTGAAGGCCGTGGAGGACCGTCTCAAGCCGGCCACTTCGCTTGCACCAGA
AGCAGTTCCCGCTGTTGCGTTCCAAAAGTGGGTGACAAATATCCTGTCAA
CTACACAGGTTAGCCAGAACGTCATCTTACTGGCACTGCTCTTCGTCTAC
CGGTTGAAGAAGTTCAACCCTGGTGTGCGGGGAAAGAAGGGTAGTGAGTA
TCGGCTGATGACCATCGCGCTGATGCTGGGCAATAAATCCGCAATATCAA
GCGCCGGCCAAGAATGCCATGACCTCCGAACGAGAGTCTCAGAAGAAGAG
CAGCTCCAATGGTGTTGCGTCGTATCTTCAGATTCCTCCGTCTATCAGCA
ACAGCCAAGGAAGCCTGGCTGAATTTGCAGCACAGATGTCTCTCCCGATC
CTCTCAACGAAGCCGTATCTCCCCGCCCTCCACCCGATCACTCCTACTAT
AGCTCCTTCCTCGCGGACTGAAGGCTCGCTCAGTGCAAGGAAACGACCTC
TTGAGGCTTTTTCGGAAGTTCCTGATTACACCTGGACTGCTCCCTTCCGG
GACGGTCTGCCTACCCCTCCGAACGATATGAATAGCGTCACTGCTTGCAG
CGCTCTGCCGGCGTCTTCCTATGGGGGCAAGCTCGATGGATTTCAGCTTC
CACCCTATTCCAAGTCCTCGATGATAACACATACACGAACAAGACCTGGG
CAGAGGTCTCCGGGATCACAGTCCAAGAGATCCACATCATGGAAGTGGAG
TTCCTAAGCAACATTCGCTATAATCTTTTCGTGTCCAAAGAAGAATGGAA
CGAGTGGCACGCCAAACTCGGGCTCTTCTCGAACTACTTTAACAACGCAC
CTCGAGCTATTGAGAAGAATGAGAAACACCCTACTCCGCCAGTCCTCAAT
GTGTCTCCCACTTTGGTGCCATCACCTCGGGCACATTCGCCATCACCTTC
GACAAAGTTGCCGTCGCCTCCCGCATCCGATCCCCTCCGGACGCAGCCCT
GGGCTTTGCCTATGAACACTTTGCCATACACTGGCGCACCTCAGCTCCCA
AACGACCTGCCACCGGCCACTAGCTCTCGGAAGCGGTCCCGTGAAGAGCC
ACTGGAGGAGCCTACAGCGAAGAGGACAGCCATGCCCAACAACATACTCA
CATCCATGCCGTCACTTCCACCGTCATCGGCCCTCACAAGCATTCCGGCC
TTGCCTCCGGTTCTAGCGTCCTCCAGTGTCCCCCCTCACCTTCCGGCCAT
GTCAGAACCGGTCTCGCGACTCCCCCGGCCCAACTTCCCGTCTCACAGTC
TTCCCCCTACCATGCCGACGTCTTTGTCTCAACTTCCCCCTTCCGGTCGA
GTCATGCCCCCGGTCTACAACCCTTCTGCCAATTGGGTTCCACAGATGCC
ACCTGCGACGTCGGTTCCTACTACTGCCGTTGCACCTTTGGCCAACGGAC
TATACAACACGTCCATCTCACTACCCGACCCCAGCAGACACCACAACAGT
CCGTTCACAGTGACATCAGGCACAATCTCGCCTGCAGTTTCTGCGTACTC
CGTCCACACTCCTCAAAACCACCTCTCCCCTTCCTTCTTTTTGGCAAACC
GAAACTCGCCTTACCGACCGGTTCGCAGTGTCAATACGTTGTTGATTCCG
CCCCCGTCGGCGTCTCTGCAGCAGCGCAGTAACATCCCGTTCGAGCACAT
GCACTACCAGCCGCTTGGCAAAAACGAACGCAGGACGGGTGTGCTGCCAT
ATGCGCAGTCTGAGGCTTGGCCGCAGGGACCTTTCCCGCAACCGATCTTC
CACGCCACACTGAACTATTAGATGACGTGCCTTTTCTGGTTCGAAAGTAC
AGCGAAACTGAAGGCCGTGGAGGACCGTCTCAAGCCGGCCACTTCGCTTG
CACCAGAAGCAGTTCCCGCTGTTGCGTTCCAAAAGTGGGTGACAAATATC
CTGTCAACTACACAGGTTAGCCAGAACGTCATCTTACTGGCACTGCTCTT
CGTCTACCGGTTGAAGAAGTTCAACCCTGGTGTGCGGGGAAAGAAGGGTA
GTGAGTATCGGCTGATGACCATCGCGCTGATGCTGGGCAATAAATCCGCA
ATATCAAGCGCCGGCCAAGAATGCCATGACCTCCGAACGAGAGTCTCAGA
AGAAGAGCAGCTCCAATGGTGTTGCGTCGTATCTTCAGATTCCTCCGTCT
ATCAGCAACAGCCAAGGAAGCCTGGCTGAATTTGCAGCACAGATGTCTCT
CCCGATCCTCTCAACGAAGCCGTATCTCCCCGCCCTCCACCCGATCACTC
CTACTATAGCTCCTTCCTCGCGGACTGAAGGCTCGCTCAGTGCAAGGAAA
CGACCTCTTGAGGCTTTTTCGGAAGTTCCTGATTACACCTGGACTGCTCC
CTTCCGGGACGGTCTGCCTACCCCTCCGAACGATATGAATAGCGTCACTG
CTTGCAGCGCTCTGCCGGCGTCTTCCTATGGGGGCAAGCTCGATGGATTT
CAGCTTCCACCCTATTCCAAGTCCTCGATGATAACACATACACGAACAAG
ACCTGGGCAGAGGTCTCCGGGATCACAGTCCAAGAGATCCACATCATGGA
AGTGGAGTTCCTAAGCAACATTCGCTATAATCTTTTCGTGTCCAAAGAAG
AATGGAACGAGTGGCACGCCAAACTCGGGCTCTTCTCGAACTACTTTAAC
AACGCACCTCGAGCTATTGAGAAGAATGAGAAACACCCTACTCCGCCAGT
CCTCAATGTGTCTCCCACTTTGGTGCCATCACCTCGGGCACATTCGCCAT
CACCTTCGACAAAGTTGCCGTCGCCTCCCGCATCCGATCCCCTCCGGACG
CAGCCCTGGGCTTTGCCTATGAACACTTTGCCATACACTGGCGCACCTCA
GCTCCCAAACGACCTGCCACCGGCCACTAGCTCTCGGAAGCGGTCCCGTG
AAGAGCCACTGGAGGAGCCTACAGCGAAGAGGACAGCCATGCCCAACAAC
ATACTCACATCCATGCCGTCACTTCCACCGTCATCGGCCCTCACAAGCAT
TCCGGCCTTGCCTCCGGTTCTAGCGTCCTCCAGTGTCCCCCCTCACCTTC
CGGCCATGTCAGAACCGGTCTCGCGACTCCCCCGGCCCAACTTCCCGTCT
CACAGTCTTCCCCCTACCATGCCGACGTCTTTGTCTCAACTTCCCCCTTC
CGGTCGAGTCATGCCCCCGGTCTACAACCCTTCTGCCAATTGGGTTCCAC
AGATGCCACCTGCGACGTCGGTTCCTACTACTGCCGTTGCACCTTTGGCC
AACGGACTATACAACACGTCCATCTCACTACCCGACCCCAGCAGACACCA
CAACAGTCCGTTCACAGTGACATCAGGCACAATCTCGCCTGCAGTTTCTG
CGTACTCCGTCCACACTCCTCAAAACCACCTCTCCCCTTCCTTCTTTTTG
GCAAACCGAAACTCGCCTTACCGACCGGTTCGCAGTGTCAATACGTTGTT
GATTCCGCCCCCGTCGGCGTCTCTGCAGCAGCGCAGTAACATCCCGTTCG
AGCACATGCACTACCAGCCGCTTGGCAAAAACGAACGCAGGACGGGTGTG
CTGCCATATGCGCAGTCTGAGGCTTGGCCGCAGGGACCTTTCCCGCAACC
GATCTTCCACGCCACACTGAACTATTAGATGACGTGCCTTTTCTGGTTCG
AAAGTACAGCGAAACTGAAGGCCGTGGAGGACCGTCTCAAGCCGGCCACT
TCGCTTGCACCAGAAGCAGTTCCCGCTGTTGCGTTCCAAAAGTGGGTGAC
AAATATCCTGTCAACTACACAGGTTAGCCAGAACGTCATCTTACTGGCAC
TGCTCTTCGTCTACCGGTTGAAGAAGTTCAACCCTGGTGTGCGGGGAAAG
AAGGGTAGTGAGTATCGGCTGATGACCATCGCGCTGATGCTGGGCAATAA
ATCCGCAATATCAAGCGCCGGCCAAGAATGCCATGACCTCCGAACGAGAG
TCTCAGAAGAAGAGCAGCTCCAATGGTGTTGCGTCGTATCTTCAGATTCC
TCCGTCTATCAGCAACAGCCAAGGAAGCCTGGCTGAATTTGCAGCACAGA
TGTCTCTCCCGATCCTCTCAACGAAGCCGTATCTCCCCGCCCTCCACCCG
ATCACTCCTACTATAGCTCCTTCCTCGCGGACTGAAGGCTCGCTCAGTGC
AAGGAAACGACCTCTTGAGGCTTTTTCGGAAGTTCCTGATTACACCTGGA
CTGCTCCCTTCCGGGACGGTCTGCCTACCCCTCCGAACGATATGAATAGC
GTCACTGCTTGCAGCGCTCTGCCGGCGTCTTCCTATGGGGGCAAGCTCGA
TGGATTTCAGCTTCCACCCTATTCCAAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0019901 | protein kinase binding |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0000079 | regulation of cyclin-dependent protein serine/threonine kinase 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 three_prime_UTR feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | EggNog:ENOG41 |
| DBxref | InterPro:IPR036915 |
| DBxref | InterPro:IPR013922 |
| DBxref | PFAM:PF08613 |
| 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 | ACJE01000021.1:1002952..1005235 - |
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