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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000010.1:1202130..1204457- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_14050-T1 ID=CAN33_14050-T1|Name=CAN33_14050-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2328bp|location=Sequence derived from alignment at NKJJ01000010.1:1202130..1204457- (Aspergillus niger FDAARGOS_311)
ATGCGCGCTCTGCATTATCAGAGGTATATCGCCTCCGGCAGAATGACTTT
TACCACTGCTTCCGTTGCTGCGACCGCGCCCCACCGCTTTTCAGCTCAGA
AGAGATTCCAGAGCACCGCAACTGCCCCGGCTGAGTGAGTATTATCTACA
ATTAGCATCCAGATAGCTACTGGGCTGTCAATGACTGTTGCTAACATGTC
TGTGAATTTCCAGAGGCACAAGACCTGTCCCCAGCCCTGCCTTCAACCAG
GAACCTCACCGCAATGAGGTCTCGCCACTGCAAAATCGCCAGGTCCCCGA
ACTGGACGACTCGTATGCAGTCCCTTCAACAACATAGATGACTCATGGGA
GTAGAGCTGACCTGGTTCTTGGAGCGTAAACAGTTTTGTCGGACTCAGTG
GAGGAGAGATCTTTCATGAGATGATGCTGCGTCTTGGCGTCAAGCATGTC
TGTGAGTCACGCGTCTTTTTTCTCGGTTTCCCGATGTTCTTCAAGACCGT
AAGATTGACCCACTACTTTTAGTTGGTTACCCTGGAGGTGCCATTCTTCC
CGTCTTCGATGCTATTTACAACTCCAAACACTTCGACTTCGTTCTTCCGA
GACATGAACAGGGCGCCGGACACATGGCCGAAGGCTACGCCCGTGCCTCT
GGAAAGCCCGGTGTCGTCCTTGTCACCTCCGGCCCTGGAGCCACCAACGT
TATCACCCCCATGCAGGATGCCCTCTCGGACGGTACCCCCATGGTCGTCT
TCTGCGGTCAGGTGCCTACCAGCCTGATCGGTACCGATTCTTTCCAGGAA
GCCGATGTTATCGGTATCTCTCGCGCTTGCACCAAGTGGAACGTCATGGT
CAAGTCCGTCGCTGAACTCCCCCGTCGCATCCAGGAGGCCTTCGAAATCG
CCACCAGCGGCCGCCCCGGACCTGTCCTCGTCGATCTGCCCAAGGATATT
ACCGCCGGTATTCTCCGTAAACCCATCCCCATGAACAGCACCCTGCCCTC
TCTCCCCAGCGCTGCGACCATGGCCGCCCGCGAACTGAGCATGCAGCAGC
TGCAGGGTACCATCAACCGTGTGGCCCGCCTCGTGAACGTTTCCAAGAAG
CCCATCCTGTATGTGGGTCAGGGTCTCCTTGCTCGCCCTGAAGGACCCCA
GATCTTGAAGGAGCTGGCCGACAAGGCTTGCATTCCGGTCACCACCACTC
TCCAGGGTCTGGGTGGGTTCGACGAAACGGACCCCAAGGCCCTGCACATG
CTGGGAATGCACGGATCTGCCTATGCCAACATGGCCATGCAGGAGGCTGA
TCTCATCATCGCTATCGGTGCTCGCTTCGATGACCGTGTGACTGGTAACA
TCTCCAAGTTTGCCCCCCAGGCCAAGCTTGCTGCCTCGGAGAACCGTGGT
GGTATCGTCCACTTTGAAATCATGCCCAAGAACATCAACAAGGTTGTCCA
GGCCAACGAGGCTGTTGAGGGTGACTGTGCTGAGAACATCCGTCTCCTCC
TGCCCCACGTCGAGCCCGTTGCTGAGCGCAAGGAGTGGTTCGAGCAGATC
AACGACTGGAAGGCTCGCTTCCCCTTCTCCCTTTATGAGAAGCAGACTGC
TGAAGGACCCATCAAGCCCCAGGCTGTGATTGAGAAGCTCAGCGATCTCA
CCGCTCACATGAAGGACCGCACTGTCATCACTACTGGTGTCGGTCAGCAT
CAGATGTGGGCTGCTCAGCACTTCCGCTGGCGCCACCCCCGTACCATGAT
CACCTCTGGTGGTCTTGGAACTATGGGATACGGTCTCCCCGCTGCCATTG
GTGCCAAGGTTGCCCGCCCTGACGCTCTTGTCGTTGATATCGATGGTGAT
GCCTCGTTCAACATGACCCTGACTGAGCTCACCACTGCTGCTCAGTTCAA
CATTGGTGTGAAGGTTCTCCTCCTGAACAACGAGGAACAGGGTATGGTGA
CGCAATGGCAGAACCTGTTCTACGAGGACCGGTACTCGCACACTCACCAG
AAGAACCCCGACTTCGTTCCCATGGCCCAGTCCATGGGTGTTGCTGCCAA
CCGCTGCACCAAGCCCTCGGAGGTTGAGGCGAAGCTCAAGTGGCTGATCG
AGCAGGACGGCCCTGCCCTTCTGGAAGTGTTTACTGATCGCAAGGTGCCT
GTGCTCCCCATGGTGCCCGCTGGCTGTGCCCTGCACGAGTTCCTTGTCTA
TGACGAAGGTATGCACTATAATTCTTTTTCTGATTGGGTGAATGAATGCT
AATATAATTTTTCGCAATACAGCCAAGGAGAAGGAGCGCAAGGCTCTGAT
GAAGAAGCGGAAAGTTCCCGGTTTCTAA back to topCoding sequence (CDS) from alignment at NKJJ01000010.1:1202130..1204457- >CAN33_14050-T1 ID=CAN33_14050-T1|Name=CAN33_14050-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10215bp|location=Sequence derived from alignment at NKJJ01000010.1:1202130..1204457- (Aspergillus niger FDAARGOS_311)
CCAAGGAGAAGGAGCGCAAGGCTCTGATGAAGAAGCGGAAAGTTCCCGGT
TTCTAATTGGTTACCCTGGAGGTGCCATTCTTCCCGTCTTCGATGCTATT
TACAACTCCAAACACTTCGACTTCGTTCTTCCGAGACATGAACAGGGCGC
CGGACACATGGCCGAAGGCTACGCCCGTGCCTCTGGAAAGCCCGGTGTCG
TCCTTGTCACCTCCGGCCCTGGAGCCACCAACGTTATCACCCCCATGCAG
GATGCCCTCTCGGACGGTACCCCCATGGTCGTCTTCTGCGGTCAGGTGCC
TACCAGCCTGATCGGTACCGATTCTTTCCAGGAAGCCGATGTTATCGGTA
TCTCTCGCGCTTGCACCAAGTGGAACGTCATGGTCAAGTCCGTCGCTGAA
CTCCCCCGTCGCATCCAGGAGGCCTTCGAAATCGCCACCAGCGGCCGCCC
CGGACCTGTCCTCGTCGATCTGCCCAAGGATATTACCGCCGGTATTCTCC
GTAAACCCATCCCCATGAACAGCACCCTGCCCTCTCTCCCCAGCGCTGCG
ACCATGGCCGCCCGCGAACTGAGCATGCAGCAGCTGCAGGGTACCATCAA
CCGTGTGGCCCGCCTCGTGAACGTTTCCAAGAAGCCCATCCTGTATGTGG
GTCAGGGTCTCCTTGCTCGCCCTGAAGGACCCCAGATCTTGAAGGAGCTG
GCCGACAAGGCTTGCATTCCGGTCACCACCACTCTCCAGGGTCTGGGTGG
GTTCGACGAAACGGACCCCAAGGCCCTGCACATGCTGGGAATGCACGGAT
CTGCCTATGCCAACATGGCCATGCAGGAGGCTGATCTCATCATCGCTATC
GGTGCTCGCTTCGATGACCGTGTGACTGGTAACATCTCCAAGTTTGCCCC
CCAGGCCAAGCTTGCTGCCTCGGAGAACCGTGGTGGTATCGTCCACTTTG
AAATCATGCCCAAGAACATCAACAAGGTTGTCCAGGCCAACGAGGCTGTT
GAGGGTGACTGTGCTGAGAACATCCGTCTCCTCCTGCCCCACGTCGAGCC
CGTTGCTGAGCGCAAGGAGTGGTTCGAGCAGATCAACGACTGGAAGGCTC
GCTTCCCCTTCTCCCTTTATGAGAAGCAGACTGCTGAAGGACCCATCAAG
CCCCAGGCTGTGATTGAGAAGCTCAGCGATCTCACCGCTCACATGAAGGA
CCGCACTGTCATCACTACTGGTGTCGGTCAGCATCAGATGTGGGCTGCTC
AGCACTTCCGCTGGCGCCACCCCCGTACCATGATCACCTCTGGTGGTCTT
GGAACTATGGGATACGGTCTCCCCGCTGCCATTGGTGCCAAGGTTGCCCG
CCCTGACGCTCTTGTCGTTGATATCGATGGTGATGCCTCGTTCAACATGA
CCCTGACTGAGCTCACCACTGCTGCTCAGTTCAACATTGGTGTGAAGGTT
CTCCTCCTGAACAACGAGGAACAGGGTATGGTGACGCAATGGCAGAACCT
GTTCTACGAGGACCGGTACTCGCACACTCACCAGAAGAACCCCGACTTCG
TTCCCATGGCCCAGTCCATGGGTGTTGCTGCCAACCGCTGCACCAAGCCC
TCGGAGGTTGAGGCGAAGCTCAAGTGGCTGATCGAGCAGGACGGCCCTGC
CCTTCTGGAAGTGTTTACTGATCGCAAGGTGCCTGTGCTCCCCATGGTGC
CCGCTGGCTGTGCCCTGCACGAGTTCCTTGTCTATGACGAAGTTTTGTCG
GACTCAGTGGAGGAGAGATCTTTCATGAGATGATGCTGCGTCTTGGCGTC
AAGCATGTCTAGGCACAAGACCTGTCCCCAGCCCTGCCTTCAACCAGGAA
CCTCACCGCAATGAGGTCTCGCCACTGCAAAATCGCCAGGTCCCCGAACT
GGACGACTCATGCGCGCTCTGCATTATCAGAGGTATATCGCCTCCGGCAG
AATGACTTTTACCACTGCTTCCGTTGCTGCGACCGCGCCCCACCGCTTTT
CAGCTCAGAAGAGATTCCAGAGCACCGCAACTGCCCCGGCTGACCAAGGA
GAAGGAGCGCAAGGCTCTGATGAAGAAGCGGAAAGTTCCCGGTTTCTAAT
TGGTTACCCTGGAGGTGCCATTCTTCCCGTCTTCGATGCTATTTACAACT
CCAAACACTTCGACTTCGTTCTTCCGAGACATGAACAGGGCGCCGGACAC
ATGGCCGAAGGCTACGCCCGTGCCTCTGGAAAGCCCGGTGTCGTCCTTGT
CACCTCCGGCCCTGGAGCCACCAACGTTATCACCCCCATGCAGGATGCCC
TCTCGGACGGTACCCCCATGGTCGTCTTCTGCGGTCAGGTGCCTACCAGC
CTGATCGGTACCGATTCTTTCCAGGAAGCCGATGTTATCGGTATCTCTCG
CGCTTGCACCAAGTGGAACGTCATGGTCAAGTCCGTCGCTGAACTCCCCC
GTCGCATCCAGGAGGCCTTCGAAATCGCCACCAGCGGCCGCCCCGGACCT
GTCCTCGTCGATCTGCCCAAGGATATTACCGCCGGTATTCTCCGTAAACC
CATCCCCATGAACAGCACCCTGCCCTCTCTCCCCAGCGCTGCGACCATGG
CCGCCCGCGAACTGAGCATGCAGCAGCTGCAGGGTACCATCAACCGTGTG
GCCCGCCTCGTGAACGTTTCCAAGAAGCCCATCCTGTATGTGGGTCAGGG
TCTCCTTGCTCGCCCTGAAGGACCCCAGATCTTGAAGGAGCTGGCCGACA
AGGCTTGCATTCCGGTCACCACCACTCTCCAGGGTCTGGGTGGGTTCGAC
GAAACGGACCCCAAGGCCCTGCACATGCTGGGAATGCACGGATCTGCCTA
TGCCAACATGGCCATGCAGGAGGCTGATCTCATCATCGCTATCGGTGCTC
GCTTCGATGACCGTGTGACTGGTAACATCTCCAAGTTTGCCCCCCAGGCC
AAGCTTGCTGCCTCGGAGAACCGTGGTGGTATCGTCCACTTTGAAATCAT
GCCCAAGAACATCAACAAGGTTGTCCAGGCCAACGAGGCTGTTGAGGGTG
ACTGTGCTGAGAACATCCGTCTCCTCCTGCCCCACGTCGAGCCCGTTGCT
GAGCGCAAGGAGTGGTTCGAGCAGATCAACGACTGGAAGGCTCGCTTCCC
CTTCTCCCTTTATGAGAAGCAGACTGCTGAAGGACCCATCAAGCCCCAGG
CTGTGATTGAGAAGCTCAGCGATCTCACCGCTCACATGAAGGACCGCACT
GTCATCACTACTGGTGTCGGTCAGCATCAGATGTGGGCTGCTCAGCACTT
CCGCTGGCGCCACCCCCGTACCATGATCACCTCTGGTGGTCTTGGAACTA
TGGGATACGGTCTCCCCGCTGCCATTGGTGCCAAGGTTGCCCGCCCTGAC
GCTCTTGTCGTTGATATCGATGGTGATGCCTCGTTCAACATGACCCTGAC
TGAGCTCACCACTGCTGCTCAGTTCAACATTGGTGTGAAGGTTCTCCTCC
TGAACAACGAGGAACAGGGTATGGTGACGCAATGGCAGAACCTGTTCTAC
GAGGACCGGTACTCGCACACTCACCAGAAGAACCCCGACTTCGTTCCCAT
GGCCCAGTCCATGGGTGTTGCTGCCAACCGCTGCACCAAGCCCTCGGAGG
TTGAGGCGAAGCTCAAGTGGCTGATCGAGCAGGACGGCCCTGCCCTTCTG
GAAGTGTTTACTGATCGCAAGGTGCCTGTGCTCCCCATGGTGCCCGCTGG
CTGTGCCCTGCACGAGTTCCTTGTCTATGACGAAGTTTTGTCGGACTCAG
TGGAGGAGAGATCTTTCATGAGATGATGCTGCGTCTTGGCGTCAAGCATG
TCTAGGCACAAGACCTGTCCCCAGCCCTGCCTTCAACCAGGAACCTCACC
GCAATGAGGTCTCGCCACTGCAAAATCGCCAGGTCCCCGAACTGGACGAC
TCATGCGCGCTCTGCATTATCAGAGGTATATCGCCTCCGGCAGAATGACT
TTTACCACTGCTTCCGTTGCTGCGACCGCGCCCCACCGCTTTTCAGCTCA
GAAGAGATTCCAGAGCACCGCAACTGCCCCGGCTGACCAAGGAGAAGGAG
CGCAAGGCTCTGATGAAGAAGCGGAAAGTTCCCGGTTTCTAATTGGTTAC
CCTGGAGGTGCCATTCTTCCCGTCTTCGATGCTATTTACAACTCCAAACA
CTTCGACTTCGTTCTTCCGAGACATGAACAGGGCGCCGGACACATGGCCG
AAGGCTACGCCCGTGCCTCTGGAAAGCCCGGTGTCGTCCTTGTCACCTCC
GGCCCTGGAGCCACCAACGTTATCACCCCCATGCAGGATGCCCTCTCGGA
CGGTACCCCCATGGTCGTCTTCTGCGGTCAGGTGCCTACCAGCCTGATCG
GTACCGATTCTTTCCAGGAAGCCGATGTTATCGGTATCTCTCGCGCTTGC
ACCAAGTGGAACGTCATGGTCAAGTCCGTCGCTGAACTCCCCCGTCGCAT
CCAGGAGGCCTTCGAAATCGCCACCAGCGGCCGCCCCGGACCTGTCCTCG
TCGATCTGCCCAAGGATATTACCGCCGGTATTCTCCGTAAACCCATCCCC
ATGAACAGCACCCTGCCCTCTCTCCCCAGCGCTGCGACCATGGCCGCCCG
CGAACTGAGCATGCAGCAGCTGCAGGGTACCATCAACCGTGTGGCCCGCC
TCGTGAACGTTTCCAAGAAGCCCATCCTGTATGTGGGTCAGGGTCTCCTT
GCTCGCCCTGAAGGACCCCAGATCTTGAAGGAGCTGGCCGACAAGGCTTG
CATTCCGGTCACCACCACTCTCCAGGGTCTGGGTGGGTTCGACGAAACGG
ACCCCAAGGCCCTGCACATGCTGGGAATGCACGGATCTGCCTATGCCAAC
ATGGCCATGCAGGAGGCTGATCTCATCATCGCTATCGGTGCTCGCTTCGA
TGACCGTGTGACTGGTAACATCTCCAAGTTTGCCCCCCAGGCCAAGCTTG
CTGCCTCGGAGAACCGTGGTGGTATCGTCCACTTTGAAATCATGCCCAAG
AACATCAACAAGGTTGTCCAGGCCAACGAGGCTGTTGAGGGTGACTGTGC
TGAGAACATCCGTCTCCTCCTGCCCCACGTCGAGCCCGTTGCTGAGCGCA
AGGAGTGGTTCGAGCAGATCAACGACTGGAAGGCTCGCTTCCCCTTCTCC
CTTTATGAGAAGCAGACTGCTGAAGGACCCATCAAGCCCCAGGCTGTGAT
TGAGAAGCTCAGCGATCTCACCGCTCACATGAAGGACCGCACTGTCATCA
CTACTGGTGTCGGTCAGCATCAGATGTGGGCTGCTCAGCACTTCCGCTGG
CGCCACCCCCGTACCATGATCACCTCTGGTGGTCTTGGAACTATGGGATA
CGGTCTCCCCGCTGCCATTGGTGCCAAGGTTGCCCGCCCTGACGCTCTTG
TCGTTGATATCGATGGTGATGCCTCGTTCAACATGACCCTGACTGAGCTC
ACCACTGCTGCTCAGTTCAACATTGGTGTGAAGGTTCTCCTCCTGAACAA
CGAGGAACAGGGTATGGTGACGCAATGGCAGAACCTGTTCTACGAGGACC
GGTACTCGCACACTCACCAGAAGAACCCCGACTTCGTTCCCATGGCCCAG
TCCATGGGTGTTGCTGCCAACCGCTGCACCAAGCCCTCGGAGGTTGAGGC
GAAGCTCAAGTGGCTGATCGAGCAGGACGGCCCTGCCCTTCTGGAAGTGT
TTACTGATCGCAAGGTGCCTGTGCTCCCCATGGTGCCCGCTGGCTGTGCC
CTGCACGAGTTCCTTGTCTATGACGAAGTTTTGTCGGACTCAGTGGAGGA
GAGATCTTTCATGAGATGATGCTGCGTCTTGGCGTCAAGCATGTCTAGGC
ACAAGACCTGTCCCCAGCCCTGCCTTCAACCAGGAACCTCACCGCAATGA
GGTCTCGCCACTGCAAAATCGCCAGGTCCCCGAACTGGACGACTCATGCG
CGCTCTGCATTATCAGAGGTATATCGCCTCCGGCAGAATGACTTTTACCA
CTGCTTCCGTTGCTGCGACCGCGCCCCACCGCTTTTCAGCTCAGAAGAGA
TTCCAGAGCACCGCAACTGCCCCGGCTGACCAAGGAGAAGGAGCGCAAGG
CTCTGATGAAGAAGCGGAAAGTTCCCGGTTTCTAATTGGTTACCCTGGAG
GTGCCATTCTTCCCGTCTTCGATGCTATTTACAACTCCAAACACTTCGAC
TTCGTTCTTCCGAGACATGAACAGGGCGCCGGACACATGGCCGAAGGCTA
CGCCCGTGCCTCTGGAAAGCCCGGTGTCGTCCTTGTCACCTCCGGCCCTG
GAGCCACCAACGTTATCACCCCCATGCAGGATGCCCTCTCGGACGGTACC
CCCATGGTCGTCTTCTGCGGTCAGGTGCCTACCAGCCTGATCGGTACCGA
TTCTTTCCAGGAAGCCGATGTTATCGGTATCTCTCGCGCTTGCACCAAGT
GGAACGTCATGGTCAAGTCCGTCGCTGAACTCCCCCGTCGCATCCAGGAG
GCCTTCGAAATCGCCACCAGCGGCCGCCCCGGACCTGTCCTCGTCGATCT
GCCCAAGGATATTACCGCCGGTATTCTCCGTAAACCCATCCCCATGAACA
GCACCCTGCCCTCTCTCCCCAGCGCTGCGACCATGGCCGCCCGCGAACTG
AGCATGCAGCAGCTGCAGGGTACCATCAACCGTGTGGCCCGCCTCGTGAA
CGTTTCCAAGAAGCCCATCCTGTATGTGGGTCAGGGTCTCCTTGCTCGCC
CTGAAGGACCCCAGATCTTGAAGGAGCTGGCCGACAAGGCTTGCATTCCG
GTCACCACCACTCTCCAGGGTCTGGGTGGGTTCGACGAAACGGACCCCAA
GGCCCTGCACATGCTGGGAATGCACGGATCTGCCTATGCCAACATGGCCA
TGCAGGAGGCTGATCTCATCATCGCTATCGGTGCTCGCTTCGATGACCGT
GTGACTGGTAACATCTCCAAGTTTGCCCCCCAGGCCAAGCTTGCTGCCTC
GGAGAACCGTGGTGGTATCGTCCACTTTGAAATCATGCCCAAGAACATCA
ACAAGGTTGTCCAGGCCAACGAGGCTGTTGAGGGTGACTGTGCTGAGAAC
ATCCGTCTCCTCCTGCCCCACGTCGAGCCCGTTGCTGAGCGCAAGGAGTG
GTTCGAGCAGATCAACGACTGGAAGGCTCGCTTCCCCTTCTCCCTTTATG
AGAAGCAGACTGCTGAAGGACCCATCAAGCCCCAGGCTGTGATTGAGAAG
CTCAGCGATCTCACCGCTCACATGAAGGACCGCACTGTCATCACTACTGG
TGTCGGTCAGCATCAGATGTGGGCTGCTCAGCACTTCCGCTGGCGCCACC
CCCGTACCATGATCACCTCTGGTGGTCTTGGAACTATGGGATACGGTCTC
CCCGCTGCCATTGGTGCCAAGGTTGCCCGCCCTGACGCTCTTGTCGTTGA
TATCGATGGTGATGCCTCGTTCAACATGACCCTGACTGAGCTCACCACTG
CTGCTCAGTTCAACATTGGTGTGAAGGTTCTCCTCCTGAACAACGAGGAA
CAGGGTATGGTGACGCAATGGCAGAACCTGTTCTACGAGGACCGGTACTC
GCACACTCACCAGAAGAACCCCGACTTCGTTCCCATGGCCCAGTCCATGG
GTGTTGCTGCCAACCGCTGCACCAAGCCCTCGGAGGTTGAGGCGAAGCTC
AAGTGGCTGATCGAGCAGGACGGCCCTGCCCTTCTGGAAGTGTTTACTGA
TCGCAAGGTGCCTGTGCTCCCCATGGTGCCCGCTGGCTGTGCCCTGCACG
AGTTCCTTGTCTATGACGAAGTTTTGTCGGACTCAGTGGAGGAGAGATCT
TTCATGAGATGATGCTGCGTCTTGGCGTCAAGCATGTCTAGGCACAAGAC
CTGTCCCCAGCCCTGCCTTCAACCAGGAACCTCACCGCAATGAGGTCTCG
CCACTGCAAAATCGCCAGGTCCCCGAACTGGACGACTCATGCGCGCTCTG
CATTATCAGAGGTATATCGCCTCCGGCAGAATGACTTTTACCACTGCTTC
CGTTGCTGCGACCGCGCCCCACCGCTTTTCAGCTCAGAAGAGATTCCAGA
GCACCGCAACTGCCCCGGCTGACCAAGGAGAAGGAGCGCAAGGCTCTGAT
GAAGAAGCGGAAAGTTCCCGGTTTCTAATTGGTTACCCTGGAGGTGCCAT
TCTTCCCGTCTTCGATGCTATTTACAACTCCAAACACTTCGACTTCGTTC
TTCCGAGACATGAACAGGGCGCCGGACACATGGCCGAAGGCTACGCCCGT
GCCTCTGGAAAGCCCGGTGTCGTCCTTGTCACCTCCGGCCCTGGAGCCAC
CAACGTTATCACCCCCATGCAGGATGCCCTCTCGGACGGTACCCCCATGG
TCGTCTTCTGCGGTCAGGTGCCTACCAGCCTGATCGGTACCGATTCTTTC
CAGGAAGCCGATGTTATCGGTATCTCTCGCGCTTGCACCAAGTGGAACGT
CATGGTCAAGTCCGTCGCTGAACTCCCCCGTCGCATCCAGGAGGCCTTCG
AAATCGCCACCAGCGGCCGCCCCGGACCTGTCCTCGTCGATCTGCCCAAG
GATATTACCGCCGGTATTCTCCGTAAACCCATCCCCATGAACAGCACCCT
GCCCTCTCTCCCCAGCGCTGCGACCATGGCCGCCCGCGAACTGAGCATGC
AGCAGCTGCAGGGTACCATCAACCGTGTGGCCCGCCTCGTGAACGTTTCC
AAGAAGCCCATCCTGTATGTGGGTCAGGGTCTCCTTGCTCGCCCTGAAGG
ACCCCAGATCTTGAAGGAGCTGGCCGACAAGGCTTGCATTCCGGTCACCA
CCACTCTCCAGGGTCTGGGTGGGTTCGACGAAACGGACCCCAAGGCCCTG
CACATGCTGGGAATGCACGGATCTGCCTATGCCAACATGGCCATGCAGGA
GGCTGATCTCATCATCGCTATCGGTGCTCGCTTCGATGACCGTGTGACTG
GTAACATCTCCAAGTTTGCCCCCCAGGCCAAGCTTGCTGCCTCGGAGAAC
CGTGGTGGTATCGTCCACTTTGAAATCATGCCCAAGAACATCAACAAGGT
TGTCCAGGCCAACGAGGCTGTTGAGGGTGACTGTGCTGAGAACATCCGTC
TCCTCCTGCCCCACGTCGAGCCCGTTGCTGAGCGCAAGGAGTGGTTCGAG
CAGATCAACGACTGGAAGGCTCGCTTCCCCTTCTCCCTTTATGAGAAGCA
GACTGCTGAAGGACCCATCAAGCCCCAGGCTGTGATTGAGAAGCTCAGCG
ATCTCACCGCTCACATGAAGGACCGCACTGTCATCACTACTGGTGTCGGT
CAGCATCAGATGTGGGCTGCTCAGCACTTCCGCTGGCGCCACCCCCGTAC
CATGATCACCTCTGGTGGTCTTGGAACTATGGGATACGGTCTCCCCGCTG
CCATTGGTGCCAAGGTTGCCCGCCCTGACGCTCTTGTCGTTGATATCGAT
GGTGATGCCTCGTTCAACATGACCCTGACTGAGCTCACCACTGCTGCTCA
GTTCAACATTGGTGTGAAGGTTCTCCTCCTGAACAACGAGGAACAGGGTA
TGGTGACGCAATGGCAGAACCTGTTCTACGAGGACCGGTACTCGCACACT
CACCAGAAGAACCCCGACTTCGTTCCCATGGCCCAGTCCATGGGTGTTGC
TGCCAACCGCTGCACCAAGCCCTCGGAGGTTGAGGCGAAGCTCAAGTGGC
TGATCGAGCAGGACGGCCCTGCCCTTCTGGAAGTGTTTACTGATCGCAAG
GTGCCTGTGCTCCCCATGGTGCCCGCTGGCTGTGCCCTGCACGAGTTCCT
TGTCTATGACGAAGTTTTGTCGGACTCAGTGGAGGAGAGATCTTTCATGA
GATGATGCTGCGTCTTGGCGTCAAGCATGTCTAGGCACAAGACCTGTCCC
CAGCCCTGCCTTCAACCAGGAACCTCACCGCAATGAGGTCTCGCCACTGC
AAAATCGCCAGGTCCCCGAACTGGACGACTCATGCGCGCTCTGCATTATC
AGAGGTATATCGCCTCCGGCAGAATGACTTTTACCACTGCTTCCGTTGCT
GCGACCGCGCCCCACCGCTTTTCAGCTCAGAAGAGATTCCAGAGCACCGC
AACTGCCCCGGCTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0009082 | branched-chain amino acid biosynthetic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003824 | catalytic activity |
| GO:0000287 | magnesium ion binding |
| GO:0050660 | flavin adenine dinucleotide binding |
| GO:0003984 | acetolactate synthase activity |
| GO:0030976 | thiamine pyrophosphate binding |
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:IPR029061 |
| DBxref | InterPro:IPR029035 |
| DBxref | InterPro:IPR039368 |
| DBxref | InterPro:IPR000399 |
| DBxref | InterPro:IPR012000 |
| DBxref | InterPro:IPR011766 |
| DBxref | InterPro:IPR012846 |
| DBxref | InterPro:IPR012001 |
| DBxref | PFAM:PF02776 |
| DBxref | PFAM:PF00205 |
| DBxref | PFAM:PF02775 |
| Product | mitochondrial |
| Product | Acetolactate 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 |
|---|
| NKJJ01000010.1 | supercontig | NKJJ01000010.1:1202130..1204457 - |
|
