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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000020.1:2291821..2293951- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_53610-T1 ID=CAN33_53610-T1|Name=CAN33_53610-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2131bp|location=Sequence derived from alignment at NKJJ01000020.1:2291821..2293951- (Aspergillus niger FDAARGOS_311)
ATGTCGTGGAAACTCACTAGAAGTATGTGCGCTGTTTATGCCCGGTTGTG
TTCCCTTTGTCCCGGCATATCGGATAGCTAATCAATTAATTCCCTCATAC
AGAACTAAAGGAGACGCACTTGGCTCCTTTGACCCAAACATTCACCCGAT
CCTCCTCCACATCCACCATCAAAGGTGATTCTGGCGAAGAGACCCCCGTT
GTTTCGCAAACCCCCAGCATCTCCACAACAAACACCAATGGAATCAGTAC
GTTGTTCATATACCTTCTTCTCTTCAATTCCCTGCCGACCGTCTAACGTT
GTCCCAAAGATGCCTCGGAGTCGCTCGTCTCCCCGCCCGTGGCCCCTGTC
AAGCCCGGAATCCTGATCGTCACCCTCCACGAAGGTCGAGGCTTTTCTCT
TTCCCCCCACTACCAACAGATCTTCAACTCCCATTTCCAAAGTAGCGGTT
CCTATGGCATGCGTCCAAGCTCCTCGTCATCCCACTCTGCACACGGAACG
GCTGGCTCCTATGTCCCCAGCGGTCGCCCTCAGTCCACCAGCGGAGGTAT
CAATGCCGCTCCGACCTCCCACGGTCGCTATTCGACCAAGTACCTCCCCT
ACGCCCTTCTGGATTTCGAAAAGAACCAAGTCTTCGTCGATGCTGTTTCT
GGTTCCCCGAGAACCCCTTGTGGGCTGGAGACAACACGGCTTATAAGTTT
GATGTGTCGCGCAAGACGGAATTGAACGTTCAGTTGTATCTACGGAACCC
CACGGCTCGTCCTGGCGCTGGTCGCAGCGAGGATATCTTCCTTGGTGCCG
TCAAGGTACATCCTCGCTTCGAGGAGGCTCAGCCCCATGCGGAAGACCCC
AAGTCCAAGAAGACCCCGCAGGAGCGCCAGCTGGGCCAGCTGGGCGCCGA
ATGGCTGGATATGCAGTTCGGCACCGGCTCCATCAAGATTGGCGTCTCTT
TCGTCGAGAACAAGCAGCGCAGCATGAAGCTGGAAGACTTCGAGTTGCTG
AAGGTGGTGGGTAAGGGTAGTTTCGGCAAGGTCATGCAGGTCATGAAGAA
GGATACGGGTCGGATTTACGCCCTCAAGACTATCCGCAAAGCGCACATCA
TCTCACGGTCGGAAGTCACTCACACCCTCGCCGAAAGATCGGTGCTTTCT
CAAATCAACAATCCTTTCATCGTCCCTCTAAAGTTCTCCTTCCAGTCTCC
AGAGAAGCTGTACCTCGTCCTTGCTTTCGTCAACGGCGGTGAGCTGTTCC
ATCACCTTCAGCGCGAGCAACGCTTCGATATCAACCGGGCCCGTTTCTAT
ACTGCCGAGCTGCTCTGTGCGCTGGAGTGCCTGCATGGTTTCAAGGTCAT
CTACCGTGATCTCAAGCCTGAGAATATCCTTCTGGACTACACTGGCCACA
TTGCCCTGTGCGACTTTGGTCTGTGCAAGTTGGACATGAAGGATGAGGAT
CGCACAAACAGTAAGATTATTTCCTGCCCTCAACCTGGACTCGTTTAACA
TTTTGAAACAGCTTTCTGTGGTACCCCTGAATACCTCGCACCCGAGCTTC
TGCTTGGAAACGGATACACAAAGACCGTTGACTGGTGGACGCTGGGTGTC
CTCCTTTACGAGATGTTGACGGGTCTTCCCCCTTTCTACGATGAAAACAC
CAATGATATGTATCGGAAGATCCTTCAGGAGCCCCTGACGTTCCCCAGCA
CGGACATTGTTCCCCCGGCCGCTCGGGATCTACTGAGTCGTCTGCTTGAT
CGCGATCCCCAACGTCGGTTGGGAGCCAACGGCGCAGCGGAGATCAAGTC
GCACCACTTCTTCGCTAACATCGATTGGCGCAAGCTGCTCCAGCGGAAGT
ACGAGCCCAGCTTCCGTCCGAACGTGGTATGTAACTCTTGATGTGGCTCG
CATTATGATGGGGATGGTGACTAACCTTTGCAGATGGGCGCTCGCGATAT
CACTAACTTCGACCGGGAGTTCACCTCTGAAGCACCGCAAGATTCCTATG
TGGACGGCCCCATGCTGTCGCAGACCATGCAGCAACAGTTCGAAGGCTGG
TCTTACAACCGCCCGGTTGCCGGTCTCGGGGACGCTGGTGGCAGTGTCAA
GGATCCCTCTTTTGGTAGCATCACCGAGTAA back to topCoding sequence (CDS) from alignment at NKJJ01000020.1:2291821..2293951- >CAN33_53610-T1 ID=CAN33_53610-T1|Name=CAN33_53610-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10908bp|location=Sequence derived from alignment at NKJJ01000020.1:2291821..2293951- (Aspergillus niger FDAARGOS_311)
ATGGGCGCTCGCGATATCACTAACTTCGACCGGGAGTTCACCTCTGAAGC
ACCGCAAGATTCCTATGTGGACGGCCCCATGCTGTCGCAGACCATGCAGC
AACAGTTCGAAGGCTGGTCTTACAACCGCCCGGTTGCCGGTCTCGGGGAC
GCTGGTGGCAGTGTCAAGGATCCCTCTTTTGGTAGCATCACCGAGTAACT
TTCTGTGGTACCCCTGAATACCTCGCACCCGAGCTTCTGCTTGGAAACGG
ATACACAAAGACCGTTGACTGGTGGACGCTGGGTGTCCTCCTTTACGAGA
TGTTGACGGGTCTTCCCCCTTTCTACGATGAAAACACCAATGATATGTAT
CGGAAGATCCTTCAGGAGCCCCTGACGTTCCCCAGCACGGACATTGTTCC
CCCGGCCGCTCGGGATCTACTGAGTCGTCTGCTTGATCGCGATCCCCAAC
GTCGGTTGGGAGCCAACGGCGCAGCGGAGATCAAGTCGCACCACTTCTTC
GCTAACATCGATTGGCGCAAGCTGCTCCAGCGGAAGTACGAGCCCAGCTT
CCGTCCGAACGTGTTTGATGTGTCGCGCAAGACGGAATTGAACGTTCAGT
TGTATCTACGGAACCCCACGGCTCGTCCTGGCGCTGGTCGCAGCGAGGAT
ATCTTCCTTGGTGCCGTCAAGGTACATCCTCGCTTCGAGGAGGCTCAGCC
CCATGCGGAAGACCCCAAGTCCAAGAAGACCCCGCAGGAGCGCCAGCTGG
GCCAGCTGGGCGCCGAATGGCTGGATATGCAGTTCGGCACCGGCTCCATC
AAGATTGGCGTCTCTTTCGTCGAGAACAAGCAGCGCAGCATGAAGCTGGA
AGACTTCGAGTTGCTGAAGGTGGTGGGTAAGGGTAGTTTCGGCAAGGTCA
TGCAGGTCATGAAGAAGGATACGGGTCGGATTTACGCCCTCAAGACTATC
CGCAAAGCGCACATCATCTCACGGTCGGAAGTCACTCACACCCTCGCCGA
AAGATCGGTGCTTTCTCAAATCAACAATCCTTTCATCGTCCCTCTAAAGT
TCTCCTTCCAGTCTCCAGAGAAGCTGTACCTCGTCCTTGCTTTCGTCAAC
GGCGGTGAGCTGTTCCATCACCTTCAGCGCGAGCAACGCTTCGATATCAA
CCGGGCCCGTTTCTATACTGCCGAGCTGCTCTGTGCGCTGGAGTGCCTGC
ATGGTTTCAAGGTCATCTACCGTGATCTCAAGCCTGAGAATATCCTTCTG
GACTACACTGGCCACATTGCCCTGTGCGACTTTGGTCTGTGCAAGTTGGA
CATGAAGGATGAGGATCGCACAAACAATGCCTCGGAGTCGCTCGTCTCCC
CGCCCGTGGCCCCTGTCAAGCCCGGAATCCTGATCGTCACCCTCCACGAA
GGTCGAGGCTTTTCTCTTTCCCCCCACTACCAACAGATCTTCAACTCCCA
TTTCCAAAGTAGCGGTTCCTATGGCATGCGTCCAAGCTCCTCGTCATCCC
ACTCTGCACACGGAACGGCTGGCTCCTATGTCCCCAGCGGTCGCCCTCAG
TCCACCAGCGGAGGTATCAATGCCGCTCCGACCTCCCACGGTCGCTATTC
GACCAAGTACCTCCCCTACGCCCTTCTGGATTTCGAAAAGAACCAAGTCT
TCAACTAAAGGAGACGCACTTGGCTCCTTTGACCCAAACATTCACCCGAT
CCTCCTCCACATCCACCATCAAAGGTGATTCTGGCGAAGAGACCCCCGTT
GTTTCGCAAACCCCCAGCATCTCCACAACAAACACCAATGGAATCAATGT
CGTGGAAACTCACTAGAAATGGGCGCTCGCGATATCACTAACTTCGACCG
GGAGTTCACCTCTGAAGCACCGCAAGATTCCTATGTGGACGGCCCCATGC
TGTCGCAGACCATGCAGCAACAGTTCGAAGGCTGGTCTTACAACCGCCCG
GTTGCCGGTCTCGGGGACGCTGGTGGCAGTGTCAAGGATCCCTCTTTTGG
TAGCATCACCGAGTAACTTTCTGTGGTACCCCTGAATACCTCGCACCCGA
GCTTCTGCTTGGAAACGGATACACAAAGACCGTTGACTGGTGGACGCTGG
GTGTCCTCCTTTACGAGATGTTGACGGGTCTTCCCCCTTTCTACGATGAA
AACACCAATGATATGTATCGGAAGATCCTTCAGGAGCCCCTGACGTTCCC
CAGCACGGACATTGTTCCCCCGGCCGCTCGGGATCTACTGAGTCGTCTGC
TTGATCGCGATCCCCAACGTCGGTTGGGAGCCAACGGCGCAGCGGAGATC
AAGTCGCACCACTTCTTCGCTAACATCGATTGGCGCAAGCTGCTCCAGCG
GAAGTACGAGCCCAGCTTCCGTCCGAACGTGTTTGATGTGTCGCGCAAGA
CGGAATTGAACGTTCAGTTGTATCTACGGAACCCCACGGCTCGTCCTGGC
GCTGGTCGCAGCGAGGATATCTTCCTTGGTGCCGTCAAGGTACATCCTCG
CTTCGAGGAGGCTCAGCCCCATGCGGAAGACCCCAAGTCCAAGAAGACCC
CGCAGGAGCGCCAGCTGGGCCAGCTGGGCGCCGAATGGCTGGATATGCAG
TTCGGCACCGGCTCCATCAAGATTGGCGTCTCTTTCGTCGAGAACAAGCA
GCGCAGCATGAAGCTGGAAGACTTCGAGTTGCTGAAGGTGGTGGGTAAGG
GTAGTTTCGGCAAGGTCATGCAGGTCATGAAGAAGGATACGGGTCGGATT
TACGCCCTCAAGACTATCCGCAAAGCGCACATCATCTCACGGTCGGAAGT
CACTCACACCCTCGCCGAAAGATCGGTGCTTTCTCAAATCAACAATCCTT
TCATCGTCCCTCTAAAGTTCTCCTTCCAGTCTCCAGAGAAGCTGTACCTC
GTCCTTGCTTTCGTCAACGGCGGTGAGCTGTTCCATCACCTTCAGCGCGA
GCAACGCTTCGATATCAACCGGGCCCGTTTCTATACTGCCGAGCTGCTCT
GTGCGCTGGAGTGCCTGCATGGTTTCAAGGTCATCTACCGTGATCTCAAG
CCTGAGAATATCCTTCTGGACTACACTGGCCACATTGCCCTGTGCGACTT
TGGTCTGTGCAAGTTGGACATGAAGGATGAGGATCGCACAAACAATGCCT
CGGAGTCGCTCGTCTCCCCGCCCGTGGCCCCTGTCAAGCCCGGAATCCTG
ATCGTCACCCTCCACGAAGGTCGAGGCTTTTCTCTTTCCCCCCACTACCA
ACAGATCTTCAACTCCCATTTCCAAAGTAGCGGTTCCTATGGCATGCGTC
CAAGCTCCTCGTCATCCCACTCTGCACACGGAACGGCTGGCTCCTATGTC
CCCAGCGGTCGCCCTCAGTCCACCAGCGGAGGTATCAATGCCGCTCCGAC
CTCCCACGGTCGCTATTCGACCAAGTACCTCCCCTACGCCCTTCTGGATT
TCGAAAAGAACCAAGTCTTCAACTAAAGGAGACGCACTTGGCTCCTTTGA
CCCAAACATTCACCCGATCCTCCTCCACATCCACCATCAAAGGTGATTCT
GGCGAAGAGACCCCCGTTGTTTCGCAAACCCCCAGCATCTCCACAACAAA
CACCAATGGAATCAATGTCGTGGAAACTCACTAGAAATGGGCGCTCGCGA
TATCACTAACTTCGACCGGGAGTTCACCTCTGAAGCACCGCAAGATTCCT
ATGTGGACGGCCCCATGCTGTCGCAGACCATGCAGCAACAGTTCGAAGGC
TGGTCTTACAACCGCCCGGTTGCCGGTCTCGGGGACGCTGGTGGCAGTGT
CAAGGATCCCTCTTTTGGTAGCATCACCGAGTAACTTTCTGTGGTACCCC
TGAATACCTCGCACCCGAGCTTCTGCTTGGAAACGGATACACAAAGACCG
TTGACTGGTGGACGCTGGGTGTCCTCCTTTACGAGATGTTGACGGGTCTT
CCCCCTTTCTACGATGAAAACACCAATGATATGTATCGGAAGATCCTTCA
GGAGCCCCTGACGTTCCCCAGCACGGACATTGTTCCCCCGGCCGCTCGGG
ATCTACTGAGTCGTCTGCTTGATCGCGATCCCCAACGTCGGTTGGGAGCC
AACGGCGCAGCGGAGATCAAGTCGCACCACTTCTTCGCTAACATCGATTG
GCGCAAGCTGCTCCAGCGGAAGTACGAGCCCAGCTTCCGTCCGAACGTGT
TTGATGTGTCGCGCAAGACGGAATTGAACGTTCAGTTGTATCTACGGAAC
CCCACGGCTCGTCCTGGCGCTGGTCGCAGCGAGGATATCTTCCTTGGTGC
CGTCAAGGTACATCCTCGCTTCGAGGAGGCTCAGCCCCATGCGGAAGACC
CCAAGTCCAAGAAGACCCCGCAGGAGCGCCAGCTGGGCCAGCTGGGCGCC
GAATGGCTGGATATGCAGTTCGGCACCGGCTCCATCAAGATTGGCGTCTC
TTTCGTCGAGAACAAGCAGCGCAGCATGAAGCTGGAAGACTTCGAGTTGC
TGAAGGTGGTGGGTAAGGGTAGTTTCGGCAAGGTCATGCAGGTCATGAAG
AAGGATACGGGTCGGATTTACGCCCTCAAGACTATCCGCAAAGCGCACAT
CATCTCACGGTCGGAAGTCACTCACACCCTCGCCGAAAGATCGGTGCTTT
CTCAAATCAACAATCCTTTCATCGTCCCTCTAAAGTTCTCCTTCCAGTCT
CCAGAGAAGCTGTACCTCGTCCTTGCTTTCGTCAACGGCGGTGAGCTGTT
CCATCACCTTCAGCGCGAGCAACGCTTCGATATCAACCGGGCCCGTTTCT
ATACTGCCGAGCTGCTCTGTGCGCTGGAGTGCCTGCATGGTTTCAAGGTC
ATCTACCGTGATCTCAAGCCTGAGAATATCCTTCTGGACTACACTGGCCA
CATTGCCCTGTGCGACTTTGGTCTGTGCAAGTTGGACATGAAGGATGAGG
ATCGCACAAACAATGCCTCGGAGTCGCTCGTCTCCCCGCCCGTGGCCCCT
GTCAAGCCCGGAATCCTGATCGTCACCCTCCACGAAGGTCGAGGCTTTTC
TCTTTCCCCCCACTACCAACAGATCTTCAACTCCCATTTCCAAAGTAGCG
GTTCCTATGGCATGCGTCCAAGCTCCTCGTCATCCCACTCTGCACACGGA
ACGGCTGGCTCCTATGTCCCCAGCGGTCGCCCTCAGTCCACCAGCGGAGG
TATCAATGCCGCTCCGACCTCCCACGGTCGCTATTCGACCAAGTACCTCC
CCTACGCCCTTCTGGATTTCGAAAAGAACCAAGTCTTCAACTAAAGGAGA
CGCACTTGGCTCCTTTGACCCAAACATTCACCCGATCCTCCTCCACATCC
ACCATCAAAGGTGATTCTGGCGAAGAGACCCCCGTTGTTTCGCAAACCCC
CAGCATCTCCACAACAAACACCAATGGAATCAATGTCGTGGAAACTCACT
AGAAATGGGCGCTCGCGATATCACTAACTTCGACCGGGAGTTCACCTCTG
AAGCACCGCAAGATTCCTATGTGGACGGCCCCATGCTGTCGCAGACCATG
CAGCAACAGTTCGAAGGCTGGTCTTACAACCGCCCGGTTGCCGGTCTCGG
GGACGCTGGTGGCAGTGTCAAGGATCCCTCTTTTGGTAGCATCACCGAGT
AACTTTCTGTGGTACCCCTGAATACCTCGCACCCGAGCTTCTGCTTGGAA
ACGGATACACAAAGACCGTTGACTGGTGGACGCTGGGTGTCCTCCTTTAC
GAGATGTTGACGGGTCTTCCCCCTTTCTACGATGAAAACACCAATGATAT
GTATCGGAAGATCCTTCAGGAGCCCCTGACGTTCCCCAGCACGGACATTG
TTCCCCCGGCCGCTCGGGATCTACTGAGTCGTCTGCTTGATCGCGATCCC
CAACGTCGGTTGGGAGCCAACGGCGCAGCGGAGATCAAGTCGCACCACTT
CTTCGCTAACATCGATTGGCGCAAGCTGCTCCAGCGGAAGTACGAGCCCA
GCTTCCGTCCGAACGTGTTTGATGTGTCGCGCAAGACGGAATTGAACGTT
CAGTTGTATCTACGGAACCCCACGGCTCGTCCTGGCGCTGGTCGCAGCGA
GGATATCTTCCTTGGTGCCGTCAAGGTACATCCTCGCTTCGAGGAGGCTC
AGCCCCATGCGGAAGACCCCAAGTCCAAGAAGACCCCGCAGGAGCGCCAG
CTGGGCCAGCTGGGCGCCGAATGGCTGGATATGCAGTTCGGCACCGGCTC
CATCAAGATTGGCGTCTCTTTCGTCGAGAACAAGCAGCGCAGCATGAAGC
TGGAAGACTTCGAGTTGCTGAAGGTGGTGGGTAAGGGTAGTTTCGGCAAG
GTCATGCAGGTCATGAAGAAGGATACGGGTCGGATTTACGCCCTCAAGAC
TATCCGCAAAGCGCACATCATCTCACGGTCGGAAGTCACTCACACCCTCG
CCGAAAGATCGGTGCTTTCTCAAATCAACAATCCTTTCATCGTCCCTCTA
AAGTTCTCCTTCCAGTCTCCAGAGAAGCTGTACCTCGTCCTTGCTTTCGT
CAACGGCGGTGAGCTGTTCCATCACCTTCAGCGCGAGCAACGCTTCGATA
TCAACCGGGCCCGTTTCTATACTGCCGAGCTGCTCTGTGCGCTGGAGTGC
CTGCATGGTTTCAAGGTCATCTACCGTGATCTCAAGCCTGAGAATATCCT
TCTGGACTACACTGGCCACATTGCCCTGTGCGACTTTGGTCTGTGCAAGT
TGGACATGAAGGATGAGGATCGCACAAACAATGCCTCGGAGTCGCTCGTC
TCCCCGCCCGTGGCCCCTGTCAAGCCCGGAATCCTGATCGTCACCCTCCA
CGAAGGTCGAGGCTTTTCTCTTTCCCCCCACTACCAACAGATCTTCAACT
CCCATTTCCAAAGTAGCGGTTCCTATGGCATGCGTCCAAGCTCCTCGTCA
TCCCACTCTGCACACGGAACGGCTGGCTCCTATGTCCCCAGCGGTCGCCC
TCAGTCCACCAGCGGAGGTATCAATGCCGCTCCGACCTCCCACGGTCGCT
ATTCGACCAAGTACCTCCCCTACGCCCTTCTGGATTTCGAAAAGAACCAA
GTCTTCAACTAAAGGAGACGCACTTGGCTCCTTTGACCCAAACATTCACC
CGATCCTCCTCCACATCCACCATCAAAGGTGATTCTGGCGAAGAGACCCC
CGTTGTTTCGCAAACCCCCAGCATCTCCACAACAAACACCAATGGAATCA
ATGTCGTGGAAACTCACTAGAAATGGGCGCTCGCGATATCACTAACTTCG
ACCGGGAGTTCACCTCTGAAGCACCGCAAGATTCCTATGTGGACGGCCCC
ATGCTGTCGCAGACCATGCAGCAACAGTTCGAAGGCTGGTCTTACAACCG
CCCGGTTGCCGGTCTCGGGGACGCTGGTGGCAGTGTCAAGGATCCCTCTT
TTGGTAGCATCACCGAGTAACTTTCTGTGGTACCCCTGAATACCTCGCAC
CCGAGCTTCTGCTTGGAAACGGATACACAAAGACCGTTGACTGGTGGACG
CTGGGTGTCCTCCTTTACGAGATGTTGACGGGTCTTCCCCCTTTCTACGA
TGAAAACACCAATGATATGTATCGGAAGATCCTTCAGGAGCCCCTGACGT
TCCCCAGCACGGACATTGTTCCCCCGGCCGCTCGGGATCTACTGAGTCGT
CTGCTTGATCGCGATCCCCAACGTCGGTTGGGAGCCAACGGCGCAGCGGA
GATCAAGTCGCACCACTTCTTCGCTAACATCGATTGGCGCAAGCTGCTCC
AGCGGAAGTACGAGCCCAGCTTCCGTCCGAACGTGTTTGATGTGTCGCGC
AAGACGGAATTGAACGTTCAGTTGTATCTACGGAACCCCACGGCTCGTCC
TGGCGCTGGTCGCAGCGAGGATATCTTCCTTGGTGCCGTCAAGGTACATC
CTCGCTTCGAGGAGGCTCAGCCCCATGCGGAAGACCCCAAGTCCAAGAAG
ACCCCGCAGGAGCGCCAGCTGGGCCAGCTGGGCGCCGAATGGCTGGATAT
GCAGTTCGGCACCGGCTCCATCAAGATTGGCGTCTCTTTCGTCGAGAACA
AGCAGCGCAGCATGAAGCTGGAAGACTTCGAGTTGCTGAAGGTGGTGGGT
AAGGGTAGTTTCGGCAAGGTCATGCAGGTCATGAAGAAGGATACGGGTCG
GATTTACGCCCTCAAGACTATCCGCAAAGCGCACATCATCTCACGGTCGG
AAGTCACTCACACCCTCGCCGAAAGATCGGTGCTTTCTCAAATCAACAAT
CCTTTCATCGTCCCTCTAAAGTTCTCCTTCCAGTCTCCAGAGAAGCTGTA
CCTCGTCCTTGCTTTCGTCAACGGCGGTGAGCTGTTCCATCACCTTCAGC
GCGAGCAACGCTTCGATATCAACCGGGCCCGTTTCTATACTGCCGAGCTG
CTCTGTGCGCTGGAGTGCCTGCATGGTTTCAAGGTCATCTACCGTGATCT
CAAGCCTGAGAATATCCTTCTGGACTACACTGGCCACATTGCCCTGTGCG
ACTTTGGTCTGTGCAAGTTGGACATGAAGGATGAGGATCGCACAAACAAT
GCCTCGGAGTCGCTCGTCTCCCCGCCCGTGGCCCCTGTCAAGCCCGGAAT
CCTGATCGTCACCCTCCACGAAGGTCGAGGCTTTTCTCTTTCCCCCCACT
ACCAACAGATCTTCAACTCCCATTTCCAAAGTAGCGGTTCCTATGGCATG
CGTCCAAGCTCCTCGTCATCCCACTCTGCACACGGAACGGCTGGCTCCTA
TGTCCCCAGCGGTCGCCCTCAGTCCACCAGCGGAGGTATCAATGCCGCTC
CGACCTCCCACGGTCGCTATTCGACCAAGTACCTCCCCTACGCCCTTCTG
GATTTCGAAAAGAACCAAGTCTTCAACTAAAGGAGACGCACTTGGCTCCT
TTGACCCAAACATTCACCCGATCCTCCTCCACATCCACCATCAAAGGTGA
TTCTGGCGAAGAGACCCCCGTTGTTTCGCAAACCCCCAGCATCTCCACAA
CAAACACCAATGGAATCAATGTCGTGGAAACTCACTAGAAATGGGCGCTC
GCGATATCACTAACTTCGACCGGGAGTTCACCTCTGAAGCACCGCAAGAT
TCCTATGTGGACGGCCCCATGCTGTCGCAGACCATGCAGCAACAGTTCGA
AGGCTGGTCTTACAACCGCCCGGTTGCCGGTCTCGGGGACGCTGGTGGCA
GTGTCAAGGATCCCTCTTTTGGTAGCATCACCGAGTAACTTTCTGTGGTA
CCCCTGAATACCTCGCACCCGAGCTTCTGCTTGGAAACGGATACACAAAG
ACCGTTGACTGGTGGACGCTGGGTGTCCTCCTTTACGAGATGTTGACGGG
TCTTCCCCCTTTCTACGATGAAAACACCAATGATATGTATCGGAAGATCC
TTCAGGAGCCCCTGACGTTCCCCAGCACGGACATTGTTCCCCCGGCCGCT
CGGGATCTACTGAGTCGTCTGCTTGATCGCGATCCCCAACGTCGGTTGGG
AGCCAACGGCGCAGCGGAGATCAAGTCGCACCACTTCTTCGCTAACATCG
ATTGGCGCAAGCTGCTCCAGCGGAAGTACGAGCCCAGCTTCCGTCCGAAC
GTGTTTGATGTGTCGCGCAAGACGGAATTGAACGTTCAGTTGTATCTACG
GAACCCCACGGCTCGTCCTGGCGCTGGTCGCAGCGAGGATATCTTCCTTG
GTGCCGTCAAGGTACATCCTCGCTTCGAGGAGGCTCAGCCCCATGCGGAA
GACCCCAAGTCCAAGAAGACCCCGCAGGAGCGCCAGCTGGGCCAGCTGGG
CGCCGAATGGCTGGATATGCAGTTCGGCACCGGCTCCATCAAGATTGGCG
TCTCTTTCGTCGAGAACAAGCAGCGCAGCATGAAGCTGGAAGACTTCGAG
TTGCTGAAGGTGGTGGGTAAGGGTAGTTTCGGCAAGGTCATGCAGGTCAT
GAAGAAGGATACGGGTCGGATTTACGCCCTCAAGACTATCCGCAAAGCGC
ACATCATCTCACGGTCGGAAGTCACTCACACCCTCGCCGAAAGATCGGTG
CTTTCTCAAATCAACAATCCTTTCATCGTCCCTCTAAAGTTCTCCTTCCA
GTCTCCAGAGAAGCTGTACCTCGTCCTTGCTTTCGTCAACGGCGGTGAGC
TGTTCCATCACCTTCAGCGCGAGCAACGCTTCGATATCAACCGGGCCCGT
TTCTATACTGCCGAGCTGCTCTGTGCGCTGGAGTGCCTGCATGGTTTCAA
GGTCATCTACCGTGATCTCAAGCCTGAGAATATCCTTCTGGACTACACTG
GCCACATTGCCCTGTGCGACTTTGGTCTGTGCAAGTTGGACATGAAGGAT
GAGGATCGCACAAACAATGCCTCGGAGTCGCTCGTCTCCCCGCCCGTGGC
CCCTGTCAAGCCCGGAATCCTGATCGTCACCCTCCACGAAGGTCGAGGCT
TTTCTCTTTCCCCCCACTACCAACAGATCTTCAACTCCCATTTCCAAAGT
AGCGGTTCCTATGGCATGCGTCCAAGCTCCTCGTCATCCCACTCTGCACA
CGGAACGGCTGGCTCCTATGTCCCCAGCGGTCGCCCTCAGTCCACCAGCG
GAGGTATCAATGCCGCTCCGACCTCCCACGGTCGCTATTCGACCAAGTAC
CTCCCCTACGCCCTTCTGGATTTCGAAAAGAACCAAGTCTTCAACTAAAG
GAGACGCACTTGGCTCCTTTGACCCAAACATTCACCCGATCCTCCTCCAC
ATCCACCATCAAAGGTGATTCTGGCGAAGAGACCCCCGTTGTTTCGCAAA
CCCCCAGCATCTCCACAACAAACACCAATGGAATCAATGTCGTGGAAACT
CACTAGAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004672 | protein kinase activity |
| GO:0004674 | protein serine/threonine kinase activity |
| GO:0005524 | ATP binding |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006468 | protein phosphorylation |
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:IPR011009 |
| DBxref | InterPro:IPR008271 |
| DBxref | InterPro:IPR017441 |
| DBxref | InterPro:IPR017892 |
| DBxref | InterPro:IPR000719 |
| DBxref | InterPro:IPR000961 |
| DBxref | PFAM:PF07714 |
| DBxref | PFAM:PF00433 |
| DBxref | PFAM:PF00069 |
| Product | Protein kinase domain family 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 |
|---|
| NKJJ01000020.1 | supercontig | NKJJ01000020.1:2291821..2293951 - |
|
