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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000166:247871..250690+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_006345-T1 ID=ATCC10864_006345-T1|Name=ATCC10864_006345-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2820bp|location=Sequence derived from alignment at MCQH01000166:247871..250690+ (Aspergillus niger ATCC 10864)
ATGACGTCTGAAGCGACGGATTTTGCCCAAGCCAACGACAACATGAGTTC
CGGTAAGCACCGCCCTTCCACAACAACCAATCCGGCCTTTTCCCTCTGAC
TCGGCTACCTCGCAACCTTTAGCTGCTGAAACTACCCAACCTCCTGCCCA
GATGGCCCCTGGACAGGCTACCGACTTTGCCGACAATGACTACAAGTCGA
AGTCGCAACCCGGCCAGGTCCGATTCTCGACGATAACGGAGGAAATTGAG
CCTGGGGATTCCTCGGCCCCTCCCCAAGTACCGCCGGCCGATGACTCGTT
GAAGGATCAGAAGCAAGAGGAGGAACTGCGGTCCCTGGCTGCCAGCCTAC
AAAAATCCCAATTACAAGAGACGCGGTTGCGACAGTTCTCGTATGATCCA
ATCTCTCTTCCATCCTCCAGGGTATGTACTCCACCCAGTTACTCACAATC
GTCCTGTGCCGCTGTTCAGCAGCAGTGGTGGCGTGGGAGATCATGCCGCC
CACTCCGGGACAGTCGGCTCCTCGCATGGCCTTGCATGACCTTCCAGAAC
TTCCAGATCTGAACAGAATCTGACTGCTGCACCCCTCCCTTACAGGTTGC
GTCGCGAGAATCGAGCGAGCGCAGTGGTCGCGAAGTCAATGGATCAGGCC
TGCCCTCTCCCCGAGACTCCCCGACAGTGTCCGCCATGCAGTCACCCCCG
CTTACACCAGCCGCGACTCACTCACGTGAAGCCAAGTCTACTGATACCTC
GTCAACCTCGAATACTACGGACAAAGGAGCACCGGGGCAGTCCGCTGCGA
TGACCCCCACTACTTCCCCGCCGACCAGCGCGACCCTAAAGAACAAAGCC
TCTCAAAGCGCTCCCTCTTCACGACCCTCTTCAACCGATCAACTGTCCAA
ACAGAATAATGTCGCGCAAACATCGTCCCATCCGCTAAATTCCCCGAAAC
ATAGGGCGCAGTTCTTCGTCGGTCCCACGGCTGATGGCGGTGCACAGGAC
GAAAGCCCTCCGATGACTCCTAGGGTTGAGAGTTATACCCCTCCAGGCGC
CATTACACCCGTCGGCGAGCCCAACGATCCGTATGCCCGCAGCAAGCGGC
CCCCGCAGCCAAAGAACCTCGCACAACTGGACCAACGATTTATATTCAAT
GGTAGAGATGCGAAACGTCGCACAAACACTTCCTCATCTTTCACCCGCCC
CATGTCTCCTCGGTCCGCCAGTGCAAGTGATCTCAGGTCCACCGAAAAGC
GCAGCGGCTTTTTCGGGAGCAAAAAGGAAGTTAGGCAGCAGGAACCGGAA
AGCAAGCCCCACGGCCACATGTCCGAGCTCAAGCGCTTCTTCAAACGGAA
CCACCATAAACACAAGCGTGCTGATTCGCCCTCATCCATACCGTTCAAAA
AGTCTAGCCGGTCTTCGGGAAAGAACGGTCCTTTCCATACATCTGATAGT
GTTCCGTTTGCTGATGACCATGGGCTCAACTCAAAGTACGGGAAATTGGG
CAAGGTCTTGGGTTCAGGAGCAGGTGGATCCGTTAGGTTGCTCAAGCGTA
ACAGCGACGGCGTGACCTTCGCTGTCAAGCAATTTCGTGATCGCCATTCT
TGGGAGAGTATGAAGGAGTATTCGAAGAAGGTCACTGCGGAATTCTGCAT
CGGCTCGACTCTTCATCACGGCAATATTATCGAGACACTGGATATCATCC
AAGAAGGCAGCCATTGGTACGAGGTCATGGAGTATGCCCCGTTCGATTTA
TTCGCGATTGTCATGACGGGGAAGATGGTGAAGGACGAGATTGCCTGCGC
CTTCAAGCAGATACTCAGCGGAGTGGCCTACTTGCACGGAATGGGCCTCG
CCCACCGGGATCTGAAATTGGACAATGTGGTCGTTAATGAACATGGCATC
ATGAAGCTTATCGACTTTGGGAGTGCGGTAGTCTTTCGGTACCCCTTTGA
GAATGACATTGTTCCTGCTTCTGGTAAGTCGCGCTCTGCTGATTGACAGT
GCCAAATTGGGCTTCCACCTTCTAACGCGTGGCAGGAATCGTCGGCTCTG
ATCCGTATCTGGCTCCGGAGGTGTACGATGAAAAGAAATACGATCCCCGC
CCCACTGACGTCTGGTCTCTGGCCATCATCTTCTGTTGCATGACCTTGCG
CCGATTCCCCTGGAAGCAACCCCGTGTCAGCGACAACTCTTACCGACTTT
TTGTCTCCCCACCCACCCCCGGCACACCGGTTCCTGATACAGACCCCAAA
CGTCACCGAGTCGTTAAATCGTCTCCTGATCTCCAATCGTCTGCCCACGA
AGAAAAGGCCTCGCCGGTTGTTGACCCCAAGAAGGGGCCAATCGATCAAC
CCGTGCAGGCTAATGGACGTCAGGAGCCCCCGAAGAGTACTGCTCAGACG
GGTCCTACCGGCGGAGAAGAGAACCGTCCTCCGGAGAGTCCACAGGAACG
TACGCCTACCAACAAGACCGCTGTCGAGGACAAGAATGGCCCTACTCATA
AGCCAACTCGGACCACAAGCAAGGAGGCTCCCCCTCTTCCAGCTTCATCT
CAGCCTTCCGGCCAACGCCAGGAAGTTATCAAGGGTCCCTGGAGGCTTCT
GCGACTCCTGCCACGCGAGAGCCGGTATATCGTCGGTCGCATGTTGAAGG
TGAGCGTCAATGAACGAGCCACCCTCGATGACGTTTTAACCGACGAATGG
GTTCGCAACATCAAGGCATGTCAGCAGGAGCTTTCAGGTGAGGTCATCCG
GGCCCCTGGTCATACGCATGTCCTGGAGCCACCATCGGCCAGTGTCCCAG
TGCCCAGCAAGGCCAAGTGA back to topCoding sequence (CDS) from alignment at MCQH01000166:247871..250690+ >ATCC10864_006345-T1 ID=ATCC10864_006345-T1|Name=ATCC10864_006345-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=10056bp|location=Sequence derived from alignment at MCQH01000166:247871..250690+ (Aspergillus niger ATCC 10864)
ATGACGTCTGAAGCGACGGATTTTGCCCAAGCCAACGACAACATGAGTTC
CGCTGCTGAAACTACCCAACCTCCTGCCCAGATGGCCCCTGGACAGGCTA
CCGACTTTGCCGACAATGACTACAAGTCGAAGTCGCAACCCGGCCAGGTC
CGATTCTCGACGATAACGGAGGAAATTGAGCCTGGGGATTCCTCGGCCCC
TCCCCAAGTACCGCCGGCCGATGACTCGTTGAAGGATCAGAAGCAAGAGG
AGGAACTGCGGTCCCTGGCTGCCAGCCTACAAAAATCCCAATTACAAGAG
ACGCGGTTGCGACAGTTCTCGTATGATCCAATCTCTCTTCCATCCTCCAG
GGTTGCGTCGCGAGAATCGAGCGAGCGCAGTGGTCGCGAAGTCAATGGAT
CAGGCCTGCCCTCTCCCCGAGACTCCCCGACAGTGTCCGCCATGCAGTCA
CCCCCGCTTACACCAGCCGCGACTCACTCACGTGAAGCCAAGTCTACTGA
TACCTCGTCAACCTCGAATACTACGGACAAAGGAGCACCGGGGCAGTCCG
CTGCGATGACCCCCACTACTTCCCCGCCGACCAGCGCGACCCTAAAGAAC
AAAGCCTCTCAAAGCGCTCCCTCTTCACGACCCTCTTCAACCGATCAACT
GTCCAAACAGAATAATGTCGCGCAAACATCGTCCCATCCGCTAAATTCCC
CGAAACATAGGGCGCAGTTCTTCGTCGGTCCCACGGCTGATGGCGGTGCA
CAGGACGAAAGCCCTCCGATGACTCCTAGGGTTGAGAGTTATACCCCTCC
AGGCGCCATTACACCCGTCGGCGAGCCCAACGATCCGTATGCCCGCAGCA
AGCGGCCCCCGCAGCCAAAGAACCTCGCACAACTGGACCAACGATTTATA
TTCAATGGTAGAGATGCGAAACGTCGCACAAACACTTCCTCATCTTTCAC
CCGCCCCATGTCTCCTCGGTCCGCCAGTGCAAGTGATCTCAGGTCCACCG
AAAAGCGCAGCGGCTTTTTCGGGAGCAAAAAGGAAGTTAGGCAGCAGGAA
CCGGAAAGCAAGCCCCACGGCCACATGTCCGAGCTCAAGCGCTTCTTCAA
ACGGAACCACCATAAACACAAGCGTGCTGATTCGCCCTCATCCATACCGT
TCAAAAAGTCTAGCCGGTCTTCGGGAAAGAACGGTCCTTTCCATACATCT
GATAGTGTTCCGTTTGCTGATGACCATGGGCTCAACTCAAAGTACGGGAA
ATTGGGCAAGGTCTTGGGTTCAGGAGCAGGTGGATCCGTTAGGTTGCTCA
AGCGTAACAGCGACGGCGTGACCTTCGCTGTCAAGCAATTTCGTGATCGC
CATTCTTGGGAGAGTATGAAGGAGTATTCGAAGAAGGTCACTGCGGAATT
CTGCATCGGCTCGACTCTTCATCACGGCAATATTATCGAGACACTGGATA
TCATCCAAGAAGGCAGCCATTGGTACGAGGTCATGGAGTATGCCCCGTTC
GATTTATTCGCGATTGTCATGACGGGGAAGATGGTGAAGGACGAGATTGC
CTGCGCCTTCAAGCAGATACTCAGCGGAGTGGCCTACTTGCACGGAATGG
GCCTCGCCCACCGGGATCTGAAATTGGACAATGTGGTCGTTAATGAACAT
GGCATCATGAAGCTTATCGACTTTGGGAGTGCGGTAGTCTTTCGGTACCC
CTTTGAGAATGACATTGTTCCTGCTTCTGGAATCGTCGGCTCTGATCCGT
ATCTGGCTCCGGAGGTGTACGATGAAAAGAAATACGATCCCCGCCCCACT
GACGTCTGGTCTCTGGCCATCATCTTCTGTTGCATGACCTTGCGCCGATT
CCCCTGGAAGCAACCCCGTGTCAGCGACAACTCTTACCGACTTTTTGTCT
CCCCACCCACCCCCGGCACACCGGTTCCTGATACAGACCCCAAACGTCAC
CGAGTCGTTAAATCGTCTCCTGATCTCCAATCGTCTGCCCACGAAGAAAA
GGCCTCGCCGGTTGTTGACCCCAAGAAGGGGCCAATCGATCAACCCGTGC
AGGCTAATGGACGTCAGGAGCCCCCGAAGAGTACTGCTCAGACGGGTCCT
ACCGGCGGAGAAGAGAACCGTCCTCCGGAGAGTCCACAGGAACGTACGCC
TACCAACAAGACCGCTGTCGAGGACAAGAATGGCCCTACTCATAAGCCAA
CTCGGACCACAAGCAAGGAGGCTCCCCCTCTTCCAGCTTCATCTCAGCCT
TCCGGCCAACGCCAGGAAGTTATCAAGGGTCCCTGGAGGCTTCTGCGACT
CCTGCCACGCGAGAGCCGGTATATCGTCGGTCGCATGTTGAAGGTGAGCG
TCAATGAACGAGCCACCCTCGATGACGTTTTAACCGACGAATGGGTTCGC
AACATCAAGGCATGTCAGCAGGAGCTTTCAGGTGAGGTCATCCGGGCCCC
TGGTCATACGCATGTCCTGGAGCCACCATCGGCCAGTGTCCCAGTGCCCA
GCAAGGCCAAGTGAATGACGTCTGAAGCGACGGATTTTGCCCAAGCCAAC
GACAACATGAGTTCCGCTGCTGAAACTACCCAACCTCCTGCCCAGATGGC
CCCTGGACAGGCTACCGACTTTGCCGACAATGACTACAAGTCGAAGTCGC
AACCCGGCCAGGTCCGATTCTCGACGATAACGGAGGAAATTGAGCCTGGG
GATTCCTCGGCCCCTCCCCAAGTACCGCCGGCCGATGACTCGTTGAAGGA
TCAGAAGCAAGAGGAGGAACTGCGGTCCCTGGCTGCCAGCCTACAAAAAT
CCCAATTACAAGAGACGCGGTTGCGACAGTTCTCGTATGATCCAATCTCT
CTTCCATCCTCCAGGGTTGCGTCGCGAGAATCGAGCGAGCGCAGTGGTCG
CGAAGTCAATGGATCAGGCCTGCCCTCTCCCCGAGACTCCCCGACAGTGT
CCGCCATGCAGTCACCCCCGCTTACACCAGCCGCGACTCACTCACGTGAA
GCCAAGTCTACTGATACCTCGTCAACCTCGAATACTACGGACAAAGGAGC
ACCGGGGCAGTCCGCTGCGATGACCCCCACTACTTCCCCGCCGACCAGCG
CGACCCTAAAGAACAAAGCCTCTCAAAGCGCTCCCTCTTCACGACCCTCT
TCAACCGATCAACTGTCCAAACAGAATAATGTCGCGCAAACATCGTCCCA
TCCGCTAAATTCCCCGAAACATAGGGCGCAGTTCTTCGTCGGTCCCACGG
CTGATGGCGGTGCACAGGACGAAAGCCCTCCGATGACTCCTAGGGTTGAG
AGTTATACCCCTCCAGGCGCCATTACACCCGTCGGCGAGCCCAACGATCC
GTATGCCCGCAGCAAGCGGCCCCCGCAGCCAAAGAACCTCGCACAACTGG
ACCAACGATTTATATTCAATGGTAGAGATGCGAAACGTCGCACAAACACT
TCCTCATCTTTCACCCGCCCCATGTCTCCTCGGTCCGCCAGTGCAAGTGA
TCTCAGGTCCACCGAAAAGCGCAGCGGCTTTTTCGGGAGCAAAAAGGAAG
TTAGGCAGCAGGAACCGGAAAGCAAGCCCCACGGCCACATGTCCGAGCTC
AAGCGCTTCTTCAAACGGAACCACCATAAACACAAGCGTGCTGATTCGCC
CTCATCCATACCGTTCAAAAAGTCTAGCCGGTCTTCGGGAAAGAACGGTC
CTTTCCATACATCTGATAGTGTTCCGTTTGCTGATGACCATGGGCTCAAC
TCAAAGTACGGGAAATTGGGCAAGGTCTTGGGTTCAGGAGCAGGTGGATC
CGTTAGGTTGCTCAAGCGTAACAGCGACGGCGTGACCTTCGCTGTCAAGC
AATTTCGTGATCGCCATTCTTGGGAGAGTATGAAGGAGTATTCGAAGAAG
GTCACTGCGGAATTCTGCATCGGCTCGACTCTTCATCACGGCAATATTAT
CGAGACACTGGATATCATCCAAGAAGGCAGCCATTGGTACGAGGTCATGG
AGTATGCCCCGTTCGATTTATTCGCGATTGTCATGACGGGGAAGATGGTG
AAGGACGAGATTGCCTGCGCCTTCAAGCAGATACTCAGCGGAGTGGCCTA
CTTGCACGGAATGGGCCTCGCCCACCGGGATCTGAAATTGGACAATGTGG
TCGTTAATGAACATGGCATCATGAAGCTTATCGACTTTGGGAGTGCGGTA
GTCTTTCGGTACCCCTTTGAGAATGACATTGTTCCTGCTTCTGGAATCGT
CGGCTCTGATCCGTATCTGGCTCCGGAGGTGTACGATGAAAAGAAATACG
ATCCCCGCCCCACTGACGTCTGGTCTCTGGCCATCATCTTCTGTTGCATG
ACCTTGCGCCGATTCCCCTGGAAGCAACCCCGTGTCAGCGACAACTCTTA
CCGACTTTTTGTCTCCCCACCCACCCCCGGCACACCGGTTCCTGATACAG
ACCCCAAACGTCACCGAGTCGTTAAATCGTCTCCTGATCTCCAATCGTCT
GCCCACGAAGAAAAGGCCTCGCCGGTTGTTGACCCCAAGAAGGGGCCAAT
CGATCAACCCGTGCAGGCTAATGGACGTCAGGAGCCCCCGAAGAGTACTG
CTCAGACGGGTCCTACCGGCGGAGAAGAGAACCGTCCTCCGGAGAGTCCA
CAGGAACGTACGCCTACCAACAAGACCGCTGTCGAGGACAAGAATGGCCC
TACTCATAAGCCAACTCGGACCACAAGCAAGGAGGCTCCCCCTCTTCCAG
CTTCATCTCAGCCTTCCGGCCAACGCCAGGAAGTTATCAAGGGTCCCTGG
AGGCTTCTGCGACTCCTGCCACGCGAGAGCCGGTATATCGTCGGTCGCAT
GTTGAAGGTGAGCGTCAATGAACGAGCCACCCTCGATGACGTTTTAACCG
ACGAATGGGTTCGCAACATCAAGGCATGTCAGCAGGAGCTTTCAGGTGAG
GTCATCCGGGCCCCTGGTCATACGCATGTCCTGGAGCCACCATCGGCCAG
TGTCCCAGTGCCCAGCAAGGCCAAGTGAATGACGTCTGAAGCGACGGATT
TTGCCCAAGCCAACGACAACATGAGTTCCGCTGCTGAAACTACCCAACCT
CCTGCCCAGATGGCCCCTGGACAGGCTACCGACTTTGCCGACAATGACTA
CAAGTCGAAGTCGCAACCCGGCCAGGTCCGATTCTCGACGATAACGGAGG
AAATTGAGCCTGGGGATTCCTCGGCCCCTCCCCAAGTACCGCCGGCCGAT
GACTCGTTGAAGGATCAGAAGCAAGAGGAGGAACTGCGGTCCCTGGCTGC
CAGCCTACAAAAATCCCAATTACAAGAGACGCGGTTGCGACAGTTCTCGT
ATGATCCAATCTCTCTTCCATCCTCCAGGGTTGCGTCGCGAGAATCGAGC
GAGCGCAGTGGTCGCGAAGTCAATGGATCAGGCCTGCCCTCTCCCCGAGA
CTCCCCGACAGTGTCCGCCATGCAGTCACCCCCGCTTACACCAGCCGCGA
CTCACTCACGTGAAGCCAAGTCTACTGATACCTCGTCAACCTCGAATACT
ACGGACAAAGGAGCACCGGGGCAGTCCGCTGCGATGACCCCCACTACTTC
CCCGCCGACCAGCGCGACCCTAAAGAACAAAGCCTCTCAAAGCGCTCCCT
CTTCACGACCCTCTTCAACCGATCAACTGTCCAAACAGAATAATGTCGCG
CAAACATCGTCCCATCCGCTAAATTCCCCGAAACATAGGGCGCAGTTCTT
CGTCGGTCCCACGGCTGATGGCGGTGCACAGGACGAAAGCCCTCCGATGA
CTCCTAGGGTTGAGAGTTATACCCCTCCAGGCGCCATTACACCCGTCGGC
GAGCCCAACGATCCGTATGCCCGCAGCAAGCGGCCCCCGCAGCCAAAGAA
CCTCGCACAACTGGACCAACGATTTATATTCAATGGTAGAGATGCGAAAC
GTCGCACAAACACTTCCTCATCTTTCACCCGCCCCATGTCTCCTCGGTCC
GCCAGTGCAAGTGATCTCAGGTCCACCGAAAAGCGCAGCGGCTTTTTCGG
GAGCAAAAAGGAAGTTAGGCAGCAGGAACCGGAAAGCAAGCCCCACGGCC
ACATGTCCGAGCTCAAGCGCTTCTTCAAACGGAACCACCATAAACACAAG
CGTGCTGATTCGCCCTCATCCATACCGTTCAAAAAGTCTAGCCGGTCTTC
GGGAAAGAACGGTCCTTTCCATACATCTGATAGTGTTCCGTTTGCTGATG
ACCATGGGCTCAACTCAAAGTACGGGAAATTGGGCAAGGTCTTGGGTTCA
GGAGCAGGTGGATCCGTTAGGTTGCTCAAGCGTAACAGCGACGGCGTGAC
CTTCGCTGTCAAGCAATTTCGTGATCGCCATTCTTGGGAGAGTATGAAGG
AGTATTCGAAGAAGGTCACTGCGGAATTCTGCATCGGCTCGACTCTTCAT
CACGGCAATATTATCGAGACACTGGATATCATCCAAGAAGGCAGCCATTG
GTACGAGGTCATGGAGTATGCCCCGTTCGATTTATTCGCGATTGTCATGA
CGGGGAAGATGGTGAAGGACGAGATTGCCTGCGCCTTCAAGCAGATACTC
AGCGGAGTGGCCTACTTGCACGGAATGGGCCTCGCCCACCGGGATCTGAA
ATTGGACAATGTGGTCGTTAATGAACATGGCATCATGAAGCTTATCGACT
TTGGGAGTGCGGTAGTCTTTCGGTACCCCTTTGAGAATGACATTGTTCCT
GCTTCTGGAATCGTCGGCTCTGATCCGTATCTGGCTCCGGAGGTGTACGA
TGAAAAGAAATACGATCCCCGCCCCACTGACGTCTGGTCTCTGGCCATCA
TCTTCTGTTGCATGACCTTGCGCCGATTCCCCTGGAAGCAACCCCGTGTC
AGCGACAACTCTTACCGACTTTTTGTCTCCCCACCCACCCCCGGCACACC
GGTTCCTGATACAGACCCCAAACGTCACCGAGTCGTTAAATCGTCTCCTG
ATCTCCAATCGTCTGCCCACGAAGAAAAGGCCTCGCCGGTTGTTGACCCC
AAGAAGGGGCCAATCGATCAACCCGTGCAGGCTAATGGACGTCAGGAGCC
CCCGAAGAGTACTGCTCAGACGGGTCCTACCGGCGGAGAAGAGAACCGTC
CTCCGGAGAGTCCACAGGAACGTACGCCTACCAACAAGACCGCTGTCGAG
GACAAGAATGGCCCTACTCATAAGCCAACTCGGACCACAAGCAAGGAGGC
TCCCCCTCTTCCAGCTTCATCTCAGCCTTCCGGCCAACGCCAGGAAGTTA
TCAAGGGTCCCTGGAGGCTTCTGCGACTCCTGCCACGCGAGAGCCGGTAT
ATCGTCGGTCGCATGTTGAAGGTGAGCGTCAATGAACGAGCCACCCTCGA
TGACGTTTTAACCGACGAATGGGTTCGCAACATCAAGGCATGTCAGCAGG
AGCTTTCAGGTGAGGTCATCCGGGCCCCTGGTCATACGCATGTCCTGGAG
CCACCATCGGCCAGTGTCCCAGTGCCCAGCAAGGCCAAGTGAATGACGTC
TGAAGCGACGGATTTTGCCCAAGCCAACGACAACATGAGTTCCGCTGCTG
AAACTACCCAACCTCCTGCCCAGATGGCCCCTGGACAGGCTACCGACTTT
GCCGACAATGACTACAAGTCGAAGTCGCAACCCGGCCAGGTCCGATTCTC
GACGATAACGGAGGAAATTGAGCCTGGGGATTCCTCGGCCCCTCCCCAAG
TACCGCCGGCCGATGACTCGTTGAAGGATCAGAAGCAAGAGGAGGAACTG
CGGTCCCTGGCTGCCAGCCTACAAAAATCCCAATTACAAGAGACGCGGTT
GCGACAGTTCTCGTATGATCCAATCTCTCTTCCATCCTCCAGGGTTGCGT
CGCGAGAATCGAGCGAGCGCAGTGGTCGCGAAGTCAATGGATCAGGCCTG
CCCTCTCCCCGAGACTCCCCGACAGTGTCCGCCATGCAGTCACCCCCGCT
TACACCAGCCGCGACTCACTCACGTGAAGCCAAGTCTACTGATACCTCGT
CAACCTCGAATACTACGGACAAAGGAGCACCGGGGCAGTCCGCTGCGATG
ACCCCCACTACTTCCCCGCCGACCAGCGCGACCCTAAAGAACAAAGCCTC
TCAAAGCGCTCCCTCTTCACGACCCTCTTCAACCGATCAACTGTCCAAAC
AGAATAATGTCGCGCAAACATCGTCCCATCCGCTAAATTCCCCGAAACAT
AGGGCGCAGTTCTTCGTCGGTCCCACGGCTGATGGCGGTGCACAGGACGA
AAGCCCTCCGATGACTCCTAGGGTTGAGAGTTATACCCCTCCAGGCGCCA
TTACACCCGTCGGCGAGCCCAACGATCCGTATGCCCGCAGCAAGCGGCCC
CCGCAGCCAAAGAACCTCGCACAACTGGACCAACGATTTATATTCAATGG
TAGAGATGCGAAACGTCGCACAAACACTTCCTCATCTTTCACCCGCCCCA
TGTCTCCTCGGTCCGCCAGTGCAAGTGATCTCAGGTCCACCGAAAAGCGC
AGCGGCTTTTTCGGGAGCAAAAAGGAAGTTAGGCAGCAGGAACCGGAAAG
CAAGCCCCACGGCCACATGTCCGAGCTCAAGCGCTTCTTCAAACGGAACC
ACCATAAACACAAGCGTGCTGATTCGCCCTCATCCATACCGTTCAAAAAG
TCTAGCCGGTCTTCGGGAAAGAACGGTCCTTTCCATACATCTGATAGTGT
TCCGTTTGCTGATGACCATGGGCTCAACTCAAAGTACGGGAAATTGGGCA
AGGTCTTGGGTTCAGGAGCAGGTGGATCCGTTAGGTTGCTCAAGCGTAAC
AGCGACGGCGTGACCTTCGCTGTCAAGCAATTTCGTGATCGCCATTCTTG
GGAGAGTATGAAGGAGTATTCGAAGAAGGTCACTGCGGAATTCTGCATCG
GCTCGACTCTTCATCACGGCAATATTATCGAGACACTGGATATCATCCAA
GAAGGCAGCCATTGGTACGAGGTCATGGAGTATGCCCCGTTCGATTTATT
CGCGATTGTCATGACGGGGAAGATGGTGAAGGACGAGATTGCCTGCGCCT
TCAAGCAGATACTCAGCGGAGTGGCCTACTTGCACGGAATGGGCCTCGCC
CACCGGGATCTGAAATTGGACAATGTGGTCGTTAATGAACATGGCATCAT
GAAGCTTATCGACTTTGGGAGTGCGGTAGTCTTTCGGTACCCCTTTGAGA
ATGACATTGTTCCTGCTTCTGGAATCGTCGGCTCTGATCCGTATCTGGCT
CCGGAGGTGTACGATGAAAAGAAATACGATCCCCGCCCCACTGACGTCTG
GTCTCTGGCCATCATCTTCTGTTGCATGACCTTGCGCCGATTCCCCTGGA
AGCAACCCCGTGTCAGCGACAACTCTTACCGACTTTTTGTCTCCCCACCC
ACCCCCGGCACACCGGTTCCTGATACAGACCCCAAACGTCACCGAGTCGT
TAAATCGTCTCCTGATCTCCAATCGTCTGCCCACGAAGAAAAGGCCTCGC
CGGTTGTTGACCCCAAGAAGGGGCCAATCGATCAACCCGTGCAGGCTAAT
GGACGTCAGGAGCCCCCGAAGAGTACTGCTCAGACGGGTCCTACCGGCGG
AGAAGAGAACCGTCCTCCGGAGAGTCCACAGGAACGTACGCCTACCAACA
AGACCGCTGTCGAGGACAAGAATGGCCCTACTCATAAGCCAACTCGGACC
ACAAGCAAGGAGGCTCCCCCTCTTCCAGCTTCATCTCAGCCTTCCGGCCA
ACGCCAGGAAGTTATCAAGGGTCCCTGGAGGCTTCTGCGACTCCTGCCAC
GCGAGAGCCGGTATATCGTCGGTCGCATGTTGAAGGTGAGCGTCAATGAA
CGAGCCACCCTCGATGACGTTTTAACCGACGAATGGGTTCGCAACATCAA
GGCATGTCAGCAGGAGCTTTCAGGTGAGGTCATCCGGGCCCCTGGTCATA
CGCATGTCCTGGAGCCACCATCGGCCAGTGTCCCAGTGCCCAGCAAGGCC
AAGTGA 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:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| InterPro | IPR017441 |
| PFAM | PF00069 |
| InterPro | IPR008271 |
| InterPro | IPR000719 |
| InterPro | IPR011009 |
| PFAM | PF07714 |
Properties
| Property Name | Value |
|---|
| 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 |
|---|
| MCQH01000166 | supercontig | MCQH01000166:247871..250690 + |
|
