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Sequences
The following sequences are available for this feature:
mRNA from alignment at KZ851956.1:123910..126154+ Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >M747DRAFT_299821-T1 ID=M747DRAFT_299821-T1|Name=M747DRAFT_299821-T1|organism=Aspergillus niger ATCC 13496|type=mRNA|length=2245bp|location=Sequence derived from alignment at KZ851956.1:123910..126154+ (Aspergillus niger ATCC 13496)
AGTCAAACATCCTAGTTTCTTCATTCAAAGGCGACCCGCAATTCATCTTA
CCACTTTCTTTGGCACACAATTAGTGCCATTTGCCTTACACAATTATATC
CCACTCCACCTCCCACTCCCCCAAAGAGAAACACCATGTATATTCAGCTT
GACCTCTCTTCATACTACGGAGCCTACTAGCTAATACGGATTTTGATGCT
CAGGCTATGCACACCGTCAGAAAAATACGATGCTTCCCCCCGGCCGTACG
TCAACAGCAGGAAATGGCCTACTCAAACTTTGACTCAAGCTCCCCGATGG
CTTTCAACCGACCTGAGGGATGGCAATCAGGCATTAGTCCAGGTACCTCT
GACTCCGCATGTACAGCTATCTCAACCTGCTAATCAAACCAGCCCATGAA
TGGTGATCTCAAGCTACGCTATTTCCAAACCCTCATTAAGCTGGGATACA
AGGAGATTGAAGTCTCTTATCCCTCTGCCTCACAGACCGAGTTCGATTTC
ACGCGATACCTCATAAGTACCCCTGGTATTGTGCCCGATGACACGTGGAT
CCAAGTCATGGCGCCTTGTCGCGACGAACTCATTCAAAGAACGATTGAGG
CCGTCCGGGGTGCGAGGAAAGTCGTTCTGCACATACATCTCTCTACATCC
GATCTTTTCCGCGAAATCGTCTATCTAATGACAAAGAAAGAGATGATAGA
CCTTGCTGTTCGGTGCATGAGGATGATTCGCGAACTCACGAAAGACTCCC
TAGATGCCGAGATGCGGAAAACTGAATGGACGATGGAATTTACCTTGGAA
AACTTTCAAGATACATCCGTTGAATTTGCACTTGAAATCTGCGAAGCTGT
GAAAGCAGCCTGGGAGCCGACCACTGAGAATAAAATCATTTTCAATCTTC
CTTCAACTGTCGAGATATCTATGCCGAACGTCTTCGCAGACCAGATCGAG
CTCTTCTGTAGGGGTATCTCCGAGCGAGAAAAGGTTTGTGTATCAGTTCA
TCCTCACAATGACCGGGGATGTGGCGTGGCGGCAGCCGAGATGGCTCAGC
TGGCTGGTGCAGATCGAGTTGAAGGATGTCTATTCGGGAATGGCGAACGC
ACTGGAAACGTTGATCTCGTCACGCTGGCTCTGAATTTATATACTCAGGG
CATATCACCCAGAGTTAACCTGGGCAATTTGAATGAGGTTGTCGCGATGG
TAGAGGACTGCACTAAGATCCCCATCCATCCTAGAGCTCCCTATGCAGGA
AAGTATGTGTTTTGCACATTTACCGGTACGCACCAGGACGCTATTCGAAA
GGGATATAACCAGCTCCAAGAGAGTGAGAAACATGATGCTACACAGACCC
CCAAGTGGAGAATGCCATATTTACCAATGGATCCAGCTGATCTGGGAAGG
CAACACGAAGCTATTGTGAGGGTGAACTCGCAAAGTGGGAAAAGTGGCGT
TGCCTGGCTTCTCGAGGAGAGTTTCCACATTCATATGCCCCGAGAGTTAG
AAATTGAGTTCACAAAGATCGTCAAAACATATGCGAATATGAGTGGTTTT
GAGATTACTCAGGAGACTATCCGTCGCTTGTTCCGGGAACACTACATGCA
TGCTGATTCTGAAAAAGCCAGGCTGTTGGATTGCAGAGCCGATGAGACCA
AAGGAGATCGGGTTGTTACACAAGTGCAACTTAAAGTTGCAGTCGAGGGG
TCCGAACACGACCTTGAAGCAACTGGAAGTGAACTATTACCGACCATACT
CGATGCCCTGAAGCCATTGGGCTATGGCTTCGAGGCATTGGACAGCCAAA
TGCAATACACAACCAACCGGGATACAATCACGAGTTTCGTTAGGCTAGGC
ACATCCGAGAACTTCGCTGCATGGGGTGTCGGCATGCATAAAGACACGGC
GTGGGCCGTGTCACTTGCCGTAAGTAAAAAGGGCATGAACAATTGAGCAC
GGCATTAACGGAATTTTAGGTTTTAGCGGCAGGCCAAAAGATGATGGCAG
AGAAGGTCAACAGCTTCTTCTCCAACTAAAAACTGGGTATTAACCGTGTG
ATGGCAAGTAACCGATGTTGCCAGTGTGTGTTTGAGTAACCAAATTATTG
GTGATGGGCTTAATCGTATTGACTGTTTATCCTCCCGCCCACCTGAAAAA
TAGGTACAGCGTCGGATAGTACCGTGTCAGCCAACAGTGGCATAAATGAG
AATAAATTACAGCAATGCAATTGACTCTAAGAAGGAAATACAAAA back to topCoding sequence (CDS) from alignment at KZ851956.1:123910..126154+ >M747DRAFT_299821-T1 ID=M747DRAFT_299821-T1|Name=M747DRAFT_299821-T1|organism=Aspergillus niger ATCC 13496|type=CDS|length=6912bp|location=Sequence derived from alignment at KZ851956.1:123910..126154+ (Aspergillus niger ATCC 13496)
ATGCTATGCACACCGTCAGAAAAATACGATGCTTCCCCCCGGCCGTACGT
CAACAGCAGGAAATGGCCTACTCAAACTTTGACTCAAGCTCCCCGATGGC
TTTCAACCGACCTGAGGGATGGCAATCAGGCATTAGTCCAGCCCATGAAT
GGTGATCTCAAGCTACGCTATTTCCAAACCCTCATTAAGCTGGGATACAA
GGAGATTGAAGTCTCTTATCCCTCTGCCTCACAGACCGAGTTCGATTTCA
CGCGATACCTCATAAGTACCCCTGGTATTGTGCCCGATGACACGTGGATC
CAAGTCATGGCGCCTTGTCGCGACGAACTCATTCAAAGAACGATTGAGGC
CGTCCGGGGTGCGAGGAAAGTCGTTCTGCACATACATCTCTCTACATCCG
ATCTTTTCCGCGAAATCGTCTATCTAATGACAAAGAAAGAGATGATAGAC
CTTGCTGTTCGGTGCATGAGGATGATTCGCGAACTCACGAAAGACTCCCT
AGATGCCGAGATGCGGAAAACTGAATGGACGATGGAATTTACCTTGGAAA
ACTTTCAAGATACATCCGTTGAATTTGCACTTGAAATCTGCGAAGCTGTG
AAAGCAGCCTGGGAGCCGACCACTGAGAATAAAATCATTTTCAATCTTCC
TTCAACTGTCGAGATATCTATGCCGAACGTCTTCGCAGACCAGATCGAGC
TCTTCTGTAGGGGTATCTCCGAGCGAGAAAAGGTTTGTGTATCAGTTCAT
CCTCACAATGACCGGGGATGTGGCGTGGCGGCAGCCGAGATGGCTCAGCT
GGCTGGTGCAGATCGAGTTGAAGGATGTCTATTCGGGAATGGCGAACGCA
CTGGAAACGTTGATCTCGTCACGCTGGCTCTGAATTTATATACTCAGGGC
ATATCACCCAGAGTTAACCTGGGCAATTTGAATGAGGTTGTCGCGATGGT
AGAGGACTGCACTAAGATCCCCATCCATCCTAGAGCTCCCTATGCAGGAA
AGTATGTGTTTTGCACATTTACCGGTACGCACCAGGACGCTATTCGAAAG
GGATATAACCAGCTCCAAGAGAGTGAGAAACATGATGCTACACAGACCCC
CAAGTGGAGAATGCCATATTTACCAATGGATCCAGCTGATCTGGGAAGGC
AACACGAAGCTATTGTGAGGGTGAACTCGCAAAGTGGGAAAAGTGGCGTT
GCCTGGCTTCTCGAGGAGAGTTTCCACATTCATATGCCCCGAGAGTTAGA
AATTGAGTTCACAAAGATCGTCAAAACATATGCGAATATGAGTGGTTTTG
AGATTACTCAGGAGACTATCCGTCGCTTGTTCCGGGAACACTACATGCAT
GCTGATTCTGAAAAAGCCAGGCTGTTGGATTGCAGAGCCGATGAGACCAA
AGGAGATCGGGTTGTTACACAAGTGCAACTTAAAGTTGCAGTCGAGGGGT
CCGAACACGACCTTGAAGCAACTGGAAGTGAACTATTACCGACCATACTC
GATGCCCTGAAGCCATTGGGCTATGGCTTCGAGGCATTGGACAGCCAAAT
GCAATACACAACCAACCGGGATACAATCACGAGTTTCGTTAGGCTAGGCA
CATCCGAGAACTTCGCTGCATGGGGTGTCGGCATGCATAAAGACACGGCG
TGGGCCGTGTCACTTGCCGTTTTAGCGGCAGGCCAAAAGATGATGGCAGA
GAAGGTCAACAGCTTCTTCTCCAACTAAATGCTATGCACACCGTCAGAAA
AATACGATGCTTCCCCCCGGCCGTACGTCAACAGCAGGAAATGGCCTACT
CAAACTTTGACTCAAGCTCCCCGATGGCTTTCAACCGACCTGAGGGATGG
CAATCAGGCATTAGTCCAGCCCATGAATGGTGATCTCAAGCTACGCTATT
TCCAAACCCTCATTAAGCTGGGATACAAGGAGATTGAAGTCTCTTATCCC
TCTGCCTCACAGACCGAGTTCGATTTCACGCGATACCTCATAAGTACCCC
TGGTATTGTGCCCGATGACACGTGGATCCAAGTCATGGCGCCTTGTCGCG
ACGAACTCATTCAAAGAACGATTGAGGCCGTCCGGGGTGCGAGGAAAGTC
GTTCTGCACATACATCTCTCTACATCCGATCTTTTCCGCGAAATCGTCTA
TCTAATGACAAAGAAAGAGATGATAGACCTTGCTGTTCGGTGCATGAGGA
TGATTCGCGAACTCACGAAAGACTCCCTAGATGCCGAGATGCGGAAAACT
GAATGGACGATGGAATTTACCTTGGAAAACTTTCAAGATACATCCGTTGA
ATTTGCACTTGAAATCTGCGAAGCTGTGAAAGCAGCCTGGGAGCCGACCA
CTGAGAATAAAATCATTTTCAATCTTCCTTCAACTGTCGAGATATCTATG
CCGAACGTCTTCGCAGACCAGATCGAGCTCTTCTGTAGGGGTATCTCCGA
GCGAGAAAAGGTTTGTGTATCAGTTCATCCTCACAATGACCGGGGATGTG
GCGTGGCGGCAGCCGAGATGGCTCAGCTGGCTGGTGCAGATCGAGTTGAA
GGATGTCTATTCGGGAATGGCGAACGCACTGGAAACGTTGATCTCGTCAC
GCTGGCTCTGAATTTATATACTCAGGGCATATCACCCAGAGTTAACCTGG
GCAATTTGAATGAGGTTGTCGCGATGGTAGAGGACTGCACTAAGATCCCC
ATCCATCCTAGAGCTCCCTATGCAGGAAAGTATGTGTTTTGCACATTTAC
CGGTACGCACCAGGACGCTATTCGAAAGGGATATAACCAGCTCCAAGAGA
GTGAGAAACATGATGCTACACAGACCCCCAAGTGGAGAATGCCATATTTA
CCAATGGATCCAGCTGATCTGGGAAGGCAACACGAAGCTATTGTGAGGGT
GAACTCGCAAAGTGGGAAAAGTGGCGTTGCCTGGCTTCTCGAGGAGAGTT
TCCACATTCATATGCCCCGAGAGTTAGAAATTGAGTTCACAAAGATCGTC
AAAACATATGCGAATATGAGTGGTTTTGAGATTACTCAGGAGACTATCCG
TCGCTTGTTCCGGGAACACTACATGCATGCTGATTCTGAAAAAGCCAGGC
TGTTGGATTGCAGAGCCGATGAGACCAAAGGAGATCGGGTTGTTACACAA
GTGCAACTTAAAGTTGCAGTCGAGGGGTCCGAACACGACCTTGAAGCAAC
TGGAAGTGAACTATTACCGACCATACTCGATGCCCTGAAGCCATTGGGCT
ATGGCTTCGAGGCATTGGACAGCCAAATGCAATACACAACCAACCGGGAT
ACAATCACGAGTTTCGTTAGGCTAGGCACATCCGAGAACTTCGCTGCATG
GGGTGTCGGCATGCATAAAGACACGGCGTGGGCCGTGTCACTTGCCGTTT
TAGCGGCAGGCCAAAAGATGATGGCAGAGAAGGTCAACAGCTTCTTCTCC
AACTAAATGCTATGCACACCGTCAGAAAAATACGATGCTTCCCCCCGGCC
GTACGTCAACAGCAGGAAATGGCCTACTCAAACTTTGACTCAAGCTCCCC
GATGGCTTTCAACCGACCTGAGGGATGGCAATCAGGCATTAGTCCAGCCC
ATGAATGGTGATCTCAAGCTACGCTATTTCCAAACCCTCATTAAGCTGGG
ATACAAGGAGATTGAAGTCTCTTATCCCTCTGCCTCACAGACCGAGTTCG
ATTTCACGCGATACCTCATAAGTACCCCTGGTATTGTGCCCGATGACACG
TGGATCCAAGTCATGGCGCCTTGTCGCGACGAACTCATTCAAAGAACGAT
TGAGGCCGTCCGGGGTGCGAGGAAAGTCGTTCTGCACATACATCTCTCTA
CATCCGATCTTTTCCGCGAAATCGTCTATCTAATGACAAAGAAAGAGATG
ATAGACCTTGCTGTTCGGTGCATGAGGATGATTCGCGAACTCACGAAAGA
CTCCCTAGATGCCGAGATGCGGAAAACTGAATGGACGATGGAATTTACCT
TGGAAAACTTTCAAGATACATCCGTTGAATTTGCACTTGAAATCTGCGAA
GCTGTGAAAGCAGCCTGGGAGCCGACCACTGAGAATAAAATCATTTTCAA
TCTTCCTTCAACTGTCGAGATATCTATGCCGAACGTCTTCGCAGACCAGA
TCGAGCTCTTCTGTAGGGGTATCTCCGAGCGAGAAAAGGTTTGTGTATCA
GTTCATCCTCACAATGACCGGGGATGTGGCGTGGCGGCAGCCGAGATGGC
TCAGCTGGCTGGTGCAGATCGAGTTGAAGGATGTCTATTCGGGAATGGCG
AACGCACTGGAAACGTTGATCTCGTCACGCTGGCTCTGAATTTATATACT
CAGGGCATATCACCCAGAGTTAACCTGGGCAATTTGAATGAGGTTGTCGC
GATGGTAGAGGACTGCACTAAGATCCCCATCCATCCTAGAGCTCCCTATG
CAGGAAAGTATGTGTTTTGCACATTTACCGGTACGCACCAGGACGCTATT
CGAAAGGGATATAACCAGCTCCAAGAGAGTGAGAAACATGATGCTACACA
GACCCCCAAGTGGAGAATGCCATATTTACCAATGGATCCAGCTGATCTGG
GAAGGCAACACGAAGCTATTGTGAGGGTGAACTCGCAAAGTGGGAAAAGT
GGCGTTGCCTGGCTTCTCGAGGAGAGTTTCCACATTCATATGCCCCGAGA
GTTAGAAATTGAGTTCACAAAGATCGTCAAAACATATGCGAATATGAGTG
GTTTTGAGATTACTCAGGAGACTATCCGTCGCTTGTTCCGGGAACACTAC
ATGCATGCTGATTCTGAAAAAGCCAGGCTGTTGGATTGCAGAGCCGATGA
GACCAAAGGAGATCGGGTTGTTACACAAGTGCAACTTAAAGTTGCAGTCG
AGGGGTCCGAACACGACCTTGAAGCAACTGGAAGTGAACTATTACCGACC
ATACTCGATGCCCTGAAGCCATTGGGCTATGGCTTCGAGGCATTGGACAG
CCAAATGCAATACACAACCAACCGGGATACAATCACGAGTTTCGTTAGGC
TAGGCACATCCGAGAACTTCGCTGCATGGGGTGTCGGCATGCATAAAGAC
ACGGCGTGGGCCGTGTCACTTGCCGTTTTAGCGGCAGGCCAAAAGATGAT
GGCAGAGAAGGTCAACAGCTTCTTCTCCAACTAAATGCTATGCACACCGT
CAGAAAAATACGATGCTTCCCCCCGGCCGTACGTCAACAGCAGGAAATGG
CCTACTCAAACTTTGACTCAAGCTCCCCGATGGCTTTCAACCGACCTGAG
GGATGGCAATCAGGCATTAGTCCAGCCCATGAATGGTGATCTCAAGCTAC
GCTATTTCCAAACCCTCATTAAGCTGGGATACAAGGAGATTGAAGTCTCT
TATCCCTCTGCCTCACAGACCGAGTTCGATTTCACGCGATACCTCATAAG
TACCCCTGGTATTGTGCCCGATGACACGTGGATCCAAGTCATGGCGCCTT
GTCGCGACGAACTCATTCAAAGAACGATTGAGGCCGTCCGGGGTGCGAGG
AAAGTCGTTCTGCACATACATCTCTCTACATCCGATCTTTTCCGCGAAAT
CGTCTATCTAATGACAAAGAAAGAGATGATAGACCTTGCTGTTCGGTGCA
TGAGGATGATTCGCGAACTCACGAAAGACTCCCTAGATGCCGAGATGCGG
AAAACTGAATGGACGATGGAATTTACCTTGGAAAACTTTCAAGATACATC
CGTTGAATTTGCACTTGAAATCTGCGAAGCTGTGAAAGCAGCCTGGGAGC
CGACCACTGAGAATAAAATCATTTTCAATCTTCCTTCAACTGTCGAGATA
TCTATGCCGAACGTCTTCGCAGACCAGATCGAGCTCTTCTGTAGGGGTAT
CTCCGAGCGAGAAAAGGTTTGTGTATCAGTTCATCCTCACAATGACCGGG
GATGTGGCGTGGCGGCAGCCGAGATGGCTCAGCTGGCTGGTGCAGATCGA
GTTGAAGGATGTCTATTCGGGAATGGCGAACGCACTGGAAACGTTGATCT
CGTCACGCTGGCTCTGAATTTATATACTCAGGGCATATCACCCAGAGTTA
ACCTGGGCAATTTGAATGAGGTTGTCGCGATGGTAGAGGACTGCACTAAG
ATCCCCATCCATCCTAGAGCTCCCTATGCAGGAAAGTATGTGTTTTGCAC
ATTTACCGGTACGCACCAGGACGCTATTCGAAAGGGATATAACCAGCTCC
AAGAGAGTGAGAAACATGATGCTACACAGACCCCCAAGTGGAGAATGCCA
TATTTACCAATGGATCCAGCTGATCTGGGAAGGCAACACGAAGCTATTGT
GAGGGTGAACTCGCAAAGTGGGAAAAGTGGCGTTGCCTGGCTTCTCGAGG
AGAGTTTCCACATTCATATGCCCCGAGAGTTAGAAATTGAGTTCACAAAG
ATCGTCAAAACATATGCGAATATGAGTGGTTTTGAGATTACTCAGGAGAC
TATCCGTCGCTTGTTCCGGGAACACTACATGCATGCTGATTCTGAAAAAG
CCAGGCTGTTGGATTGCAGAGCCGATGAGACCAAAGGAGATCGGGTTGTT
ACACAAGTGCAACTTAAAGTTGCAGTCGAGGGGTCCGAACACGACCTTGA
AGCAACTGGAAGTGAACTATTACCGACCATACTCGATGCCCTGAAGCCAT
TGGGCTATGGCTTCGAGGCATTGGACAGCCAAATGCAATACACAACCAAC
CGGGATACAATCACGAGTTTCGTTAGGCTAGGCACATCCGAGAACTTCGC
TGCATGGGGTGTCGGCATGCATAAAGACACGGCGTGGGCCGTGTCACTTG
CCGTTTTAGCGGCAGGCCAAAAGATGATGGCAGAGAAGGTCAACAGCTTC
TTCTCCAACTAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0046912 | transferase activity, transferring acyl groups, acyl groups converted into alkyl on transfer |
| GO:0003824 | catalytic activity |
| GO:0003852 | 2-isopropylmalate synthase activity |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0019752 | carboxylic acid metabolic process |
| GO:0009098 | leucine biosynthetic process |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
The following exon feature(s) are a part of 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:
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR036230 |
| DBxref | InterPro:IPR039371 |
| DBxref | InterPro:IPR002034 |
| DBxref | InterPro:IPR000891 |
| DBxref | InterPro:IPR013785 |
| DBxref | InterPro:IPR013709 |
| DBxref | PFAM:PF08502 |
| DBxref | PFAM:PF00682 |
| Product | 2-isopropylmalate synthase |
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 |
|---|
| KZ851956.1 | supercontig | KZ851956.1:123910..126154 + |
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