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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch1:1209532..1212884+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >KYF_000552-T1 ID=KYF_000552-T1|Name=KYF_000552-T1|organism=Aspergillus niger KYF3|type=mRNA|length=3353bp|location=Sequence derived from alignment at ch1:1209532..1212884+ (Aspergillus niger KYF3)
ATGGCTGGGTCCCGCAGGAGTCCGGTGTTGAGAGACCAGTGGAGAGCCAC
CAGCGACACTAGAGACCCCAGAGACCGGGAGAGGCACCGGCCTCGAGGCT
CGTACCGCGATAGGGGAAGGGACAAATTTCGCGACCGTGAGCGTCGTCGC
CGACCCAAAGAGGGCAGACCCGACGACGAGCTTCCTCTACGGTCGCCGCC
ACCGCGTCCCTTTCCTCCTCCACCTCACCACGAACCTCGTCAACACCGTG
ATTTGTCCCCTAGCACCATCTCCGCCCGTGGCTCCCCTGGTCATCCACAT
CCGGAATTTCACCCTGGTCGGAAACTAGGCCGTCATCGCTCACCCTTACC
CGCTGATTATCCTGGCGTGGAATCGCGTCGTTCCCTCGAAGCTGAAGTAA
CCACCGATAGAGGTCACCCTCGGCGCGACCACTCACCATCCGCTCCGCCT
CCCTTCAAGCGTAAAAGAACGCGCAGTCCTTCTCCCAGTGGCTTCGATCA
GCCTCCCACCCGGCCAAGCCATCGCTATCCTCCTTCTAATCACAGTGACG
ACCTGGATCGAGGCCTGCCATCCAACAGGCGAGGACGATTTGCAACTCGG
GGTCGGTCTGGTCGGAGACCATCCCCCCGACGAGGGAGAGATAGGCGCCC
ACCCGGGGGTAGACGTCCAATATCCCCACGGCCTAGGCGCTCTAGGTCTC
CCGTACGTGGTGGGAAATCTTACGCGTACCCTCGCCGTCGCTTTCACAGC
CCTTTGCCGGAAGACGAAGTCGAAGACGAGCCCCGTTATCGATCACCTTC
GCGTCACTCTGTGCAGTCCGGTGTTTCAAGACTATCTATAGCGTCTCGCC
GCAATTCTTTGGGCGATTCGACGATGAACTCCGCCAGGCCCGCCCGCTCA
GCAGCGGGTGACTCGTTTAGGTCTCTATCCCCGTCTCGGGAAGCCCCAGG
GCACGATGCAGATAATGCCAGTGTTTCGGCCAACGGGGAGACATCACGCG
ATGCATTCCAGCGCCCGCGAACATCTCGGCCGTATGCGGATGCTTCCCAA
TACTCATCGACGATGCAGAACGCTACTCCGACGAACTCTTACCACGGATC
GCCACAGCCTACTTCTCCATACTCGGGCGGACGCGGGGGACGGGTCCAGC
ATGTGTAAGTCGAGCCATCTCAGAACGCTTCTTAGCAGCATCAGACTAAC
CTCAGGCGATATATGTAGCCCTACCTCTCCGTACCGGCAGAACAACTACA
CCACGAGTGGCCCGCATGGTCACAGTTCATCCTATTCAGGACCTTCTTAC
CGTGGTGGGCATTCAGGGTACCGTGGCGGCTATCAAGGCCACGGCGGCGA
TCGTCGCTACATGAACTCTGGCCCTCAGAGCCATAATAACGGGCCGCCAC
ATGGCCGAAGCAATTTTAACAAAGCACATTGGAGGGGCCAGGATCCCCGA
GGCCGAGGCCCTTCCAGTCCTCATGAGCCCTATAGGCAACCATCAGCCAG
CCCCCCGCCGCCCCCCGCCAACGAAGAAAGACCCCATGTTGACGATAATG
ATGACCGTTTTACATCAAGGAAAGAAACCCACGCAGAAGATGACGGTTCG
AAGGCTACTGCGGGAGGTGATGCTCAAGGCAACCCACCTGCAACTAATGC
TACCCAACAGTCTAATTCATCTGCTACCCCCAACAAAGGGGGCAAAATCA
GTTTTGCCTTCAAGGCAAAGTCTACCCCAGCTCCAGCTCCTAAGCCAGTT
CCCGACCTGGCCCAAAGAATGCTGGCACGAGAGCCACCGCCGCGCGCAGC
TGAGCCACCTCCCCGCAATAGGTTATCAACTGGCCCGCCGCCACCGAAGT
TCAAGCCCGACACACGTTTCGATCGTCGCGATCGTGACAGGGATAGGGAT
CGCGACCGCGATCGGCCACGCGACAGGGACCGAGATCGAGGGAGGATCGA
CCGCAGAGAGTTTCGGGAACCCCGTAGCTTTCGTGAAGCTCGAGATCCAC
GCGACATGAGAAGAGACGACCGTCGTTTCGAACATCGCAATGAAAGAAGG
AGAGGTGATCGAAGACAGGATTTCCGTCCCGAGCGCCGTCGCGAGCGATC
TCCAGAACCAAAGAAGCAGCCAAAGATCTTGACTCGTCCCAAGCCACGTC
CCACCCTCTCTGAAGAGTTTGCCCAGTCGGACTCGGTCTACTATCGAAAG
CCTGGCAATGAGTCTGTCATTGGTGCCGGTACATATGGAAAGGTCTTCAA
GGCAATCCATGTCTACACACAGAAAAAGGTTGCATTGAAAAAAATACGAA
TGGAAGGCGAGAAGGACGGCTTTCCCGTCACAGCTGTGCGGGAGATCAAA
TTACTCCAACATCTTCGCAACAACAACGTTGTCAGCTTGTTGGAAGTCAT
GGTTGAGAGAAACGAGTGTTTCATGGTCTTTGAATATCTCTCGCACGATT
TGACTGGCTTGATTAACCATCCGACCTTCACGCTGACGGCAGCTCACAAG
AAAGACTTGGCTAAACAGATGTTTGAGGGCTTGAACTACCTGCACCACCG
TGGGGTCATGCATCGTGACATCAAGGCCGCCAACATTCTCATTAGCAACA
GAGGGCAACTGAAATTCGCGGACTTTGGATTGGCCCGTTTCTTTTCCAAG
AGCCGCCAACTGGATTACACCAATCGTGTCATCACCATTTGGTATCGACC
ACCCGAACTTTTGTTGGGTGAAACCAGGTACGGTCCGGCGGTCGATGTCT
GGAGTGCGGCGTGCGTGTACGTGGAGATGTTTACGAAGAAAGCTGTCTTT
CCCGGAGAGGGCGGAGAGATCAGTCAATTGGAGAAACTTTACAATTCACT
TGGTACGCCAACTCGGCAAGAGTGGCCAGACATTGTCGAGATGCCCTGGT
TCGAGCTGATGCGGCCGACTGAACGGCGCAAGAGGATATTTGAAGAGGTC
TACCGGGAAGTCCTATCGCCCGCTGCTCTGGATTTGGTTTCGCAGATATT
CCGCTACGATCCTACAAAACGACCAAGTACCGAGGAGATTCTGTCACACC
CATACTTTGTTTCAGAGGAGCCAAGTGCTCAACAAGCCGTCGAGTAAGTT
CGAATGCATTATCGCCCATGCTACACTATCGCTAACGCATCTCAGATTGG
AGAATATTGAAGGTGACTGGCATGAGTTTGAGTCCAAGGCCCTCCGTCGC
GAGAGAGACAAAGAACGTCGTGCTGAGTACCAGCGAGACAAGGAGAAGCG
CAAGGGGGCACCGTCTGCACCTCCGAGCGAGAGAGACCCCAAGCGTGTCA
AGCAAGACGGGTCTGAAAGCGGACCACCTTCCGCACCACACCCGGGGCAG
TGA back to topCoding sequence (CDS) from alignment at ch1:1209532..1212884+ >KYF_000552-T1 ID=KYF_000552-T1|Name=KYF_000552-T1|organism=Aspergillus niger KYF3|type=CDS|length=9711bp|location=Sequence derived from alignment at ch1:1209532..1212884+ (Aspergillus niger KYF3)
ATGGCTGGGTCCCGCAGGAGTCCGGTGTTGAGAGACCAGTGGAGAGCCAC
CAGCGACACTAGAGACCCCAGAGACCGGGAGAGGCACCGGCCTCGAGGCT
CGTACCGCGATAGGGGAAGGGACAAATTTCGCGACCGTGAGCGTCGTCGC
CGACCCAAAGAGGGCAGACCCGACGACGAGCTTCCTCTACGGTCGCCGCC
ACCGCGTCCCTTTCCTCCTCCACCTCACCACGAACCTCGTCAACACCGTG
ATTTGTCCCCTAGCACCATCTCCGCCCGTGGCTCCCCTGGTCATCCACAT
CCGGAATTTCACCCTGGTCGGAAACTAGGCCGTCATCGCTCACCCTTACC
CGCTGATTATCCTGGCGTGGAATCGCGTCGTTCCCTCGAAGCTGAAGTAA
CCACCGATAGAGGTCACCCTCGGCGCGACCACTCACCATCCGCTCCGCCT
CCCTTCAAGCGTAAAAGAACGCGCAGTCCTTCTCCCAGTGGCTTCGATCA
GCCTCCCACCCGGCCAAGCCATCGCTATCCTCCTTCTAATCACAGTGACG
ACCTGGATCGAGGCCTGCCATCCAACAGGCGAGGACGATTTGCAACTCGG
GGTCGGTCTGGTCGGAGACCATCCCCCCGACGAGGGAGAGATAGGCGCCC
ACCCGGGGGTAGACGTCCAATATCCCCACGGCCTAGGCGCTCTAGGTCTC
CCGTACGTGGTGGGAAATCTTACGCGTACCCTCGCCGTCGCTTTCACAGC
CCTTTGCCGGAAGACGAAGTCGAAGACGAGCCCCGTTATCGATCACCTTC
GCGTCACTCTGTGCAGTCCGGTGTTTCAAGACTATCTATAGCGTCTCGCC
GCAATTCTTTGGGCGATTCGACGATGAACTCCGCCAGGCCCGCCCGCTCA
GCAGCGGGTGACTCGTTTAGGTCTCTATCCCCGTCTCGGGAAGCCCCAGG
GCACGATGCAGATAATGCCAGTGTTTCGGCCAACGGGGAGACATCACGCG
ATGCATTCCAGCGCCCGCGAACATCTCGGCCGTATGCGGATGCTTCCCAA
TACTCATCGACGATGCAGAACGCTACTCCGACGAACTCTTACCACGGATC
GCCACAGCCTACTTCTCCATACTCGGGCGGACGCGGGGGACGGGTCCAGC
ATGTCCCTACCTCTCCGTACCGGCAGAACAACTACACCACGAGTGGCCCG
CATGGTCACAGTTCATCCTATTCAGGACCTTCTTACCGTGGTGGGCATTC
AGGGTACCGTGGCGGCTATCAAGGCCACGGCGGCGATCGTCGCTACATGA
ACTCTGGCCCTCAGAGCCATAATAACGGGCCGCCACATGGCCGAAGCAAT
TTTAACAAAGCACATTGGAGGGGCCAGGATCCCCGAGGCCGAGGCCCTTC
CAGTCCTCATGAGCCCTATAGGCAACCATCAGCCAGCCCCCCGCCGCCCC
CCGCCAACGAAGAAAGACCCCATGTTGACGATAATGATGACCGTTTTACA
TCAAGGAAAGAAACCCACGCAGAAGATGACGGTTCGAAGGCTACTGCGGG
AGGTGATGCTCAAGGCAACCCACCTGCAACTAATGCTACCCAACAGTCTA
ATTCATCTGCTACCCCCAACAAAGGGGGCAAAATCAGTTTTGCCTTCAAG
GCAAAGTCTACCCCAGCTCCAGCTCCTAAGCCAGTTCCCGACCTGGCCCA
AAGAATGCTGGCACGAGAGCCACCGCCGCGCGCAGCTGAGCCACCTCCCC
GCAATAGGTTATCAACTGGCCCGCCGCCACCGAAGTTCAAGCCCGACACA
CGTTTCGATCGTCGCGATCGTGACAGGGATAGGGATCGCGACCGCGATCG
GCCACGCGACAGGGACCGAGATCGAGGGAGGATCGACCGCAGAGAGTTTC
GGGAACCCCGTAGCTTTCGTGAAGCTCGAGATCCACGCGACATGAGAAGA
GACGACCGTCGTTTCGAACATCGCAATGAAAGAAGGAGAGGTGATCGAAG
ACAGGATTTCCGTCCCGAGCGCCGTCGCGAGCGATCTCCAGAACCAAAGA
AGCAGCCAAAGATCTTGACTCGTCCCAAGCCACGTCCCACCCTCTCTGAA
GAGTTTGCCCAGTCGGACTCGGTCTACTATCGAAAGCCTGGCAATGAGTC
TGTCATTGGTGCCGGTACATATGGAAAGGTCTTCAAGGCAATCCATGTCT
ACACACAGAAAAAGGTTGCATTGAAAAAAATACGAATGGAAGGCGAGAAG
GACGGCTTTCCCGTCACAGCTGTGCGGGAGATCAAATTACTCCAACATCT
TCGCAACAACAACGTTGTCAGCTTGTTGGAAGTCATGGTTGAGAGAAACG
AGTGTTTCATGGTCTTTGAATATCTCTCGCACGATTTGACTGGCTTGATT
AACCATCCGACCTTCACGCTGACGGCAGCTCACAAGAAAGACTTGGCTAA
ACAGATGTTTGAGGGCTTGAACTACCTGCACCACCGTGGGGTCATGCATC
GTGACATCAAGGCCGCCAACATTCTCATTAGCAACAGAGGGCAACTGAAA
TTCGCGGACTTTGGATTGGCCCGTTTCTTTTCCAAGAGCCGCCAACTGGA
TTACACCAATCGTGTCATCACCATTTGGTATCGACCACCCGAACTTTTGT
TGGGTGAAACCAGGTACGGTCCGGCGGTCGATGTCTGGAGTGCGGCGTGC
GTGTACGTGGAGATGTTTACGAAGAAAGCTGTCTTTCCCGGAGAGGGCGG
AGAGATCAGTCAATTGGAGAAACTTTACAATTCACTTGGTACGCCAACTC
GGCAAGAGTGGCCAGACATTGTCGAGATGCCCTGGTTCGAGCTGATGCGG
CCGACTGAACGGCGCAAGAGGATATTTGAAGAGGTCTACCGGGAAGTCCT
ATCGCCCGCTGCTCTGGATTTGGTTTCGCAGATATTCCGCTACGATCCTA
CAAAACGACCAAGTACCGAGGAGATTCTGTCACACCCATACTTTGTTTCA
GAGGAGCCAAGTGCTCAACAAGCCGTCGAATTGGAGAATATTGAAGGTGA
CTGGCATGAGTTTGAGTCCAAGGCCCTCCGTCGCGAGAGAGACAAAGAAC
GTCGTGCTGAGTACCAGCGAGACAAGGAGAAGCGCAAGGGGGCACCGTCT
GCACCTCCGAGCGAGAGAGACCCCAAGCGTGTCAAGCAAGACGGGTCTGA
AAGCGGACCACCTTCCGCACCACACCCGGGGCAGTGAATGGCTGGGTCCC
GCAGGAGTCCGGTGTTGAGAGACCAGTGGAGAGCCACCAGCGACACTAGA
GACCCCAGAGACCGGGAGAGGCACCGGCCTCGAGGCTCGTACCGCGATAG
GGGAAGGGACAAATTTCGCGACCGTGAGCGTCGTCGCCGACCCAAAGAGG
GCAGACCCGACGACGAGCTTCCTCTACGGTCGCCGCCACCGCGTCCCTTT
CCTCCTCCACCTCACCACGAACCTCGTCAACACCGTGATTTGTCCCCTAG
CACCATCTCCGCCCGTGGCTCCCCTGGTCATCCACATCCGGAATTTCACC
CTGGTCGGAAACTAGGCCGTCATCGCTCACCCTTACCCGCTGATTATCCT
GGCGTGGAATCGCGTCGTTCCCTCGAAGCTGAAGTAACCACCGATAGAGG
TCACCCTCGGCGCGACCACTCACCATCCGCTCCGCCTCCCTTCAAGCGTA
AAAGAACGCGCAGTCCTTCTCCCAGTGGCTTCGATCAGCCTCCCACCCGG
CCAAGCCATCGCTATCCTCCTTCTAATCACAGTGACGACCTGGATCGAGG
CCTGCCATCCAACAGGCGAGGACGATTTGCAACTCGGGGTCGGTCTGGTC
GGAGACCATCCCCCCGACGAGGGAGAGATAGGCGCCCACCCGGGGGTAGA
CGTCCAATATCCCCACGGCCTAGGCGCTCTAGGTCTCCCGTACGTGGTGG
GAAATCTTACGCGTACCCTCGCCGTCGCTTTCACAGCCCTTTGCCGGAAG
ACGAAGTCGAAGACGAGCCCCGTTATCGATCACCTTCGCGTCACTCTGTG
CAGTCCGGTGTTTCAAGACTATCTATAGCGTCTCGCCGCAATTCTTTGGG
CGATTCGACGATGAACTCCGCCAGGCCCGCCCGCTCAGCAGCGGGTGACT
CGTTTAGGTCTCTATCCCCGTCTCGGGAAGCCCCAGGGCACGATGCAGAT
AATGCCAGTGTTTCGGCCAACGGGGAGACATCACGCGATGCATTCCAGCG
CCCGCGAACATCTCGGCCGTATGCGGATGCTTCCCAATACTCATCGACGA
TGCAGAACGCTACTCCGACGAACTCTTACCACGGATCGCCACAGCCTACT
TCTCCATACTCGGGCGGACGCGGGGGACGGGTCCAGCATGTCCCTACCTC
TCCGTACCGGCAGAACAACTACACCACGAGTGGCCCGCATGGTCACAGTT
CATCCTATTCAGGACCTTCTTACCGTGGTGGGCATTCAGGGTACCGTGGC
GGCTATCAAGGCCACGGCGGCGATCGTCGCTACATGAACTCTGGCCCTCA
GAGCCATAATAACGGGCCGCCACATGGCCGAAGCAATTTTAACAAAGCAC
ATTGGAGGGGCCAGGATCCCCGAGGCCGAGGCCCTTCCAGTCCTCATGAG
CCCTATAGGCAACCATCAGCCAGCCCCCCGCCGCCCCCCGCCAACGAAGA
AAGACCCCATGTTGACGATAATGATGACCGTTTTACATCAAGGAAAGAAA
CCCACGCAGAAGATGACGGTTCGAAGGCTACTGCGGGAGGTGATGCTCAA
GGCAACCCACCTGCAACTAATGCTACCCAACAGTCTAATTCATCTGCTAC
CCCCAACAAAGGGGGCAAAATCAGTTTTGCCTTCAAGGCAAAGTCTACCC
CAGCTCCAGCTCCTAAGCCAGTTCCCGACCTGGCCCAAAGAATGCTGGCA
CGAGAGCCACCGCCGCGCGCAGCTGAGCCACCTCCCCGCAATAGGTTATC
AACTGGCCCGCCGCCACCGAAGTTCAAGCCCGACACACGTTTCGATCGTC
GCGATCGTGACAGGGATAGGGATCGCGACCGCGATCGGCCACGCGACAGG
GACCGAGATCGAGGGAGGATCGACCGCAGAGAGTTTCGGGAACCCCGTAG
CTTTCGTGAAGCTCGAGATCCACGCGACATGAGAAGAGACGACCGTCGTT
TCGAACATCGCAATGAAAGAAGGAGAGGTGATCGAAGACAGGATTTCCGT
CCCGAGCGCCGTCGCGAGCGATCTCCAGAACCAAAGAAGCAGCCAAAGAT
CTTGACTCGTCCCAAGCCACGTCCCACCCTCTCTGAAGAGTTTGCCCAGT
CGGACTCGGTCTACTATCGAAAGCCTGGCAATGAGTCTGTCATTGGTGCC
GGTACATATGGAAAGGTCTTCAAGGCAATCCATGTCTACACACAGAAAAA
GGTTGCATTGAAAAAAATACGAATGGAAGGCGAGAAGGACGGCTTTCCCG
TCACAGCTGTGCGGGAGATCAAATTACTCCAACATCTTCGCAACAACAAC
GTTGTCAGCTTGTTGGAAGTCATGGTTGAGAGAAACGAGTGTTTCATGGT
CTTTGAATATCTCTCGCACGATTTGACTGGCTTGATTAACCATCCGACCT
TCACGCTGACGGCAGCTCACAAGAAAGACTTGGCTAAACAGATGTTTGAG
GGCTTGAACTACCTGCACCACCGTGGGGTCATGCATCGTGACATCAAGGC
CGCCAACATTCTCATTAGCAACAGAGGGCAACTGAAATTCGCGGACTTTG
GATTGGCCCGTTTCTTTTCCAAGAGCCGCCAACTGGATTACACCAATCGT
GTCATCACCATTTGGTATCGACCACCCGAACTTTTGTTGGGTGAAACCAG
GTACGGTCCGGCGGTCGATGTCTGGAGTGCGGCGTGCGTGTACGTGGAGA
TGTTTACGAAGAAAGCTGTCTTTCCCGGAGAGGGCGGAGAGATCAGTCAA
TTGGAGAAACTTTACAATTCACTTGGTACGCCAACTCGGCAAGAGTGGCC
AGACATTGTCGAGATGCCCTGGTTCGAGCTGATGCGGCCGACTGAACGGC
GCAAGAGGATATTTGAAGAGGTCTACCGGGAAGTCCTATCGCCCGCTGCT
CTGGATTTGGTTTCGCAGATATTCCGCTACGATCCTACAAAACGACCAAG
TACCGAGGAGATTCTGTCACACCCATACTTTGTTTCAGAGGAGCCAAGTG
CTCAACAAGCCGTCGAATTGGAGAATATTGAAGGTGACTGGCATGAGTTT
GAGTCCAAGGCCCTCCGTCGCGAGAGAGACAAAGAACGTCGTGCTGAGTA
CCAGCGAGACAAGGAGAAGCGCAAGGGGGCACCGTCTGCACCTCCGAGCG
AGAGAGACCCCAAGCGTGTCAAGCAAGACGGGTCTGAAAGCGGACCACCT
TCCGCACCACACCCGGGGCAGTGAATGGCTGGGTCCCGCAGGAGTCCGGT
GTTGAGAGACCAGTGGAGAGCCACCAGCGACACTAGAGACCCCAGAGACC
GGGAGAGGCACCGGCCTCGAGGCTCGTACCGCGATAGGGGAAGGGACAAA
TTTCGCGACCGTGAGCGTCGTCGCCGACCCAAAGAGGGCAGACCCGACGA
CGAGCTTCCTCTACGGTCGCCGCCACCGCGTCCCTTTCCTCCTCCACCTC
ACCACGAACCTCGTCAACACCGTGATTTGTCCCCTAGCACCATCTCCGCC
CGTGGCTCCCCTGGTCATCCACATCCGGAATTTCACCCTGGTCGGAAACT
AGGCCGTCATCGCTCACCCTTACCCGCTGATTATCCTGGCGTGGAATCGC
GTCGTTCCCTCGAAGCTGAAGTAACCACCGATAGAGGTCACCCTCGGCGC
GACCACTCACCATCCGCTCCGCCTCCCTTCAAGCGTAAAAGAACGCGCAG
TCCTTCTCCCAGTGGCTTCGATCAGCCTCCCACCCGGCCAAGCCATCGCT
ATCCTCCTTCTAATCACAGTGACGACCTGGATCGAGGCCTGCCATCCAAC
AGGCGAGGACGATTTGCAACTCGGGGTCGGTCTGGTCGGAGACCATCCCC
CCGACGAGGGAGAGATAGGCGCCCACCCGGGGGTAGACGTCCAATATCCC
CACGGCCTAGGCGCTCTAGGTCTCCCGTACGTGGTGGGAAATCTTACGCG
TACCCTCGCCGTCGCTTTCACAGCCCTTTGCCGGAAGACGAAGTCGAAGA
CGAGCCCCGTTATCGATCACCTTCGCGTCACTCTGTGCAGTCCGGTGTTT
CAAGACTATCTATAGCGTCTCGCCGCAATTCTTTGGGCGATTCGACGATG
AACTCCGCCAGGCCCGCCCGCTCAGCAGCGGGTGACTCGTTTAGGTCTCT
ATCCCCGTCTCGGGAAGCCCCAGGGCACGATGCAGATAATGCCAGTGTTT
CGGCCAACGGGGAGACATCACGCGATGCATTCCAGCGCCCGCGAACATCT
CGGCCGTATGCGGATGCTTCCCAATACTCATCGACGATGCAGAACGCTAC
TCCGACGAACTCTTACCACGGATCGCCACAGCCTACTTCTCCATACTCGG
GCGGACGCGGGGGACGGGTCCAGCATGTCCCTACCTCTCCGTACCGGCAG
AACAACTACACCACGAGTGGCCCGCATGGTCACAGTTCATCCTATTCAGG
ACCTTCTTACCGTGGTGGGCATTCAGGGTACCGTGGCGGCTATCAAGGCC
ACGGCGGCGATCGTCGCTACATGAACTCTGGCCCTCAGAGCCATAATAAC
GGGCCGCCACATGGCCGAAGCAATTTTAACAAAGCACATTGGAGGGGCCA
GGATCCCCGAGGCCGAGGCCCTTCCAGTCCTCATGAGCCCTATAGGCAAC
CATCAGCCAGCCCCCCGCCGCCCCCCGCCAACGAAGAAAGACCCCATGTT
GACGATAATGATGACCGTTTTACATCAAGGAAAGAAACCCACGCAGAAGA
TGACGGTTCGAAGGCTACTGCGGGAGGTGATGCTCAAGGCAACCCACCTG
CAACTAATGCTACCCAACAGTCTAATTCATCTGCTACCCCCAACAAAGGG
GGCAAAATCAGTTTTGCCTTCAAGGCAAAGTCTACCCCAGCTCCAGCTCC
TAAGCCAGTTCCCGACCTGGCCCAAAGAATGCTGGCACGAGAGCCACCGC
CGCGCGCAGCTGAGCCACCTCCCCGCAATAGGTTATCAACTGGCCCGCCG
CCACCGAAGTTCAAGCCCGACACACGTTTCGATCGTCGCGATCGTGACAG
GGATAGGGATCGCGACCGCGATCGGCCACGCGACAGGGACCGAGATCGAG
GGAGGATCGACCGCAGAGAGTTTCGGGAACCCCGTAGCTTTCGTGAAGCT
CGAGATCCACGCGACATGAGAAGAGACGACCGTCGTTTCGAACATCGCAA
TGAAAGAAGGAGAGGTGATCGAAGACAGGATTTCCGTCCCGAGCGCCGTC
GCGAGCGATCTCCAGAACCAAAGAAGCAGCCAAAGATCTTGACTCGTCCC
AAGCCACGTCCCACCCTCTCTGAAGAGTTTGCCCAGTCGGACTCGGTCTA
CTATCGAAAGCCTGGCAATGAGTCTGTCATTGGTGCCGGTACATATGGAA
AGGTCTTCAAGGCAATCCATGTCTACACACAGAAAAAGGTTGCATTGAAA
AAAATACGAATGGAAGGCGAGAAGGACGGCTTTCCCGTCACAGCTGTGCG
GGAGATCAAATTACTCCAACATCTTCGCAACAACAACGTTGTCAGCTTGT
TGGAAGTCATGGTTGAGAGAAACGAGTGTTTCATGGTCTTTGAATATCTC
TCGCACGATTTGACTGGCTTGATTAACCATCCGACCTTCACGCTGACGGC
AGCTCACAAGAAAGACTTGGCTAAACAGATGTTTGAGGGCTTGAACTACC
TGCACCACCGTGGGGTCATGCATCGTGACATCAAGGCCGCCAACATTCTC
ATTAGCAACAGAGGGCAACTGAAATTCGCGGACTTTGGATTGGCCCGTTT
CTTTTCCAAGAGCCGCCAACTGGATTACACCAATCGTGTCATCACCATTT
GGTATCGACCACCCGAACTTTTGTTGGGTGAAACCAGGTACGGTCCGGCG
GTCGATGTCTGGAGTGCGGCGTGCGTGTACGTGGAGATGTTTACGAAGAA
AGCTGTCTTTCCCGGAGAGGGCGGAGAGATCAGTCAATTGGAGAAACTTT
ACAATTCACTTGGTACGCCAACTCGGCAAGAGTGGCCAGACATTGTCGAG
ATGCCCTGGTTCGAGCTGATGCGGCCGACTGAACGGCGCAAGAGGATATT
TGAAGAGGTCTACCGGGAAGTCCTATCGCCCGCTGCTCTGGATTTGGTTT
CGCAGATATTCCGCTACGATCCTACAAAACGACCAAGTACCGAGGAGATT
CTGTCACACCCATACTTTGTTTCAGAGGAGCCAAGTGCTCAACAAGCCGT
CGAATTGGAGAATATTGAAGGTGACTGGCATGAGTTTGAGTCCAAGGCCC
TCCGTCGCGAGAGAGACAAAGAACGTCGTGCTGAGTACCAGCGAGACAAG
GAGAAGCGCAAGGGGGCACCGTCTGCACCTCCGAGCGAGAGAGACCCCAA
GCGTGTCAAGCAAGACGGGTCTGAAAGCGGACCACCTTCCGCACCACACC
CGGGGCAGTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006468 | protein phosphorylation |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004672 | protein kinase activity |
| GO:0005524 | ATP binding |
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 |
|---|
| DBxref | InterPro:IPR011009 |
| DBxref | InterPro:IPR017441 |
| DBxref | InterPro:IPR008271 |
| DBxref | InterPro:IPR000719 |
| DBxref | PFAM:PF07714 |
| DBxref | PFAM:PF00069 |
| 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 |
|---|
| ch1 | supercontig | ch1:1209532..1212884 + |
|
