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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000010.1:1004627..1008803- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_13720-T1 ID=CAN33_13720-T1|Name=CAN33_13720-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=4177bp|location=Sequence derived from alignment at NKJJ01000010.1:1004627..1008803- (Aspergillus niger FDAARGOS_311)
ATGTTGTCCTCTCGTCTCACCCGCGCGGTAAGTTCTGCTCATCATCATTT
GTCAATGCTGAAGTGTTGTTTCTAACATCACATTCTGTGATTCAGCTCCC
GCGCACCACTCCTTTCGCTCGCGCCCCTGCTTTCAGAGTCCCCGGTGCTG
CCGTTCGCAGATGGAACTCCACCGAGGGTGGTGAGGAGAAGGTGAAGGGC
CAGGTCATCGGTATCGACTTGGGTAGGTTGAGAATCCCTGTGTTCGTGAT
GTAATCCATACAGTATCTAATACAAGCGCACAGGTACCACCAACTCCGCC
GTTGCCGTCATGGAGGGCAAGACCCCCAAGATCATTGAGAACACCGAAGG
TACGCGAAAATTTTTTTTCCCTCCCGTCGCGCCAGTTCCGCCATGCCTCC
GAAATCGGAGCCATCAGTGGAATCTCGCTGGTATCATGCAGATCGAAGAA
AAGGGGCTGACTTGGATGTAAATAGGTGCCAGAACCACTCCTTCCGTTGT
TGCTTTCGCCCAGGACGGTGAGCGTCTGGTCGGTATCGCCGCCAAGCGTC
AGGCCGTTGTCAACCCCGAGAACACTCTCTTCGCCACCAAGCGTCTCATC
GGTCGCAAGTTCACCGACGCCGAGGTCCAGCGTGACATCAAGGAGGTTCC
CTACAAGATCGTCCAGCACACCAACGGCGATGCCTGGGTTGAGGCTCGTG
GCCAGAAGTACTCTCCTTCCCAGATTGGTGGTTTCGTCCTCAACAAGATG
AAGGAGACTGCCGAGAACTACCTCAGCAAGCCCGTTAAGAACGCTGTTGT
CACTGTTCCCGCCTACTTCAACGACTCCCAGCGTCAGGCCACCAAGGACG
CCGGTCAGATCGCTGGTCTGAACGTTCTCCGTGTCGTTAACGAGCCCACT
GCCGCCGCTCTTGCCTACGGTCTTGAGAAGGAGGCCGACCGTGTTGTCGC
CGTCTACGATCTTGGTGGTGGTACTTTCGATATCTCCGTTCTGGAGATCC
AGAAGGGTGTTTTCGAGGTCAAGTCTACCAACGGTGACACCCACCTTGGT
GGTGAGGACTTCGACATTGCCCTTGTCCGCCAGATTGTCCAGCAGTTCAA
GAAGGAGTCCGGCCTGGACCTCTCCGGCGACCGCATGGCTATCCAGCGTA
TCCGTGAGGCTGCTGAGAAGGCCAAGATTGAGCTGTCTTCTTCTCTCCAG
ACTGAGATCAACCTTCCTTTCATCACTGCTGATGCCAGCGGTGCCAAGCA
CATCAACCACAAGATGACCCGTGCCAGCCTCGAGTCCCTGGTTGACCCTC
TCATCAGCCGCACCGTTGAGCCCGTCCGCAAGGCCCTCAAGGATGCCAAC
CTCCAGTCCGGTGACATCCAGGACATCATCCTGGTCGGTGGTATGACCCG
TATGCCCAAGGTCACCGAGTCCGTCAAGTCCATGTTCGGCCGTGAGCCCG
CCAAGTCCGTCAACCCCGATGAGGCTGTCGCCATCGGTGCTGCCATCCAG
GGTGCTGTCCTTGCTGGTGAGGTCACTGACGTCCTCCTGCTCGATGTCAC
TCCCCTCTCTCTCGGTATCGAGACCCTTGGTGGTGTCTTCACTCGCCTGA
TCAACCGCAACACCACCATCCCCACCAAGAAGTCCCAGACCTTCTCCACG
GCCGCTGATTTCCAGACCGCTGTCGAGATCAAGGTCTTCCAGGGTGAGCG
TGAGCTTGTCAAGGACAACAAGCTCCTCGGAAATTTCCAGCTTGTTGGTA
TCCCTCCTGCCCACCGTGGTGTTCCCCAGGTCGAGGTCACCTTCGACATC
GATGCCGACTCCATCGTCCACGTTGCCGCTAAGGACAAGTCCACCGGCAA
GGACCAGTCCATCACCATCGCCTCTGGCTCCGGTCTTTCCGACTCCGAGA
TCCAGTCCATGGTTGAGGATGCCGAGAAGTACGGTGCTCAGGACAAGGAG
CGCAAGGCTGCTATCGAGGCTGCCAACCGCGCCGACAGCGTCGTGAACGA
CACTGAGAAGGCTCTCAAGGAGTTCGAGGACCGCCTTGACAAGGCCGAGG
CTGACCAGATCCGCGAGAAGATCGCTACTCTCCGCGAGTTCATTGCCCAG
AACCAGTCCGGTGAGGGCACTGTCACTGCTGAGGAGTTCAAGCAGAAGAC
CGACGAGCTCCAGAACGCCAGCTTGACCCTCTTTGACAAGATGCACAAGG
CTCAGTCCGAGCAGCAGCAGCAGCAGCAGAGCGGCGAGGGCGAGAACAAG
GCCTAAATGTACAACCACTGAACCTCCCATGACTTGAACAAGCCATGGGT
GTTTCCTGTATTTCACCTTTGCGTTATTCCCTAGAGCCTTTCCTCTTTTT
TCTCTCCGATGTTTTAACACGCATGATATGTATACATACCTGATAGCTCT
GACTGATCTATCCCTGTTCCGGTGTATTGGTGTTTTTATTTACTCTTTTC
ATGTTCATTTCCTTTTCCCTTCTGTATTCTGATTTCTCTTTTCTCCAATC
CCCTCTTCATACCTTTTTGGGCCGGGTGAGCGTTTGCACTTCTTTGACAG
GAGGGCCATCCGTTGGAACGGATGCATGGAGTTTACATTTTGTAACTTAA
TGACATTACGGCTGGGAGACCACGAAAAAAAGGATGTGGTGGGCTGGAAT
CTGTGACAATAGAATATGAAATTCTCCTCTCGATTCAAAACTATTGCTGG
ACCTGATACATGTGTAGACTTGGCTGTATACTAAAGACCAGAGAAAAACA
TACGTAGACACATACGTAGCCAAATTCCTTCTGTGAAACAACTACCGAGT
TCACCCAGCTGCCAGCTAGCTAGTCTACCACAAAGTAGTCTAGTTCCTAT
GACTAGTGAGCGTGAGCAAGACCGGGTGGGCACTACCACCAAGCCAGCCA
GCATTCTGGAATCGGCCCGAAATACCAGGCAAGAGTGGGCCAGACAGGGC
AAGAAGACGCCGCGTACACACAAAACAAGTCTGACTGTTTAGACTAGCTA
GATAGTAGACTAGATTGACTGAACCTGGCAGGCACACTCTGGGACTCATT
AACCAACTAATTAATTAGTTAGTTAGTTATCTAGTGGACTGACTGACTAG
TCAACTATTCTGTTCTGTGTCGATATTCATTCGTCCCCAGACCGCATGTA
ATGGTAATCCAATCAACCAGTGCTCGAAGCCACTCGCTCGCCCACCAGTC
TAACTAGAAACCACGGTTGATTTAAACAGGTGTTCCAGGAAATGGGTCAG
TTATCGTTAGCGTTGTGTTTGGTACATAGTGGAATTTAGTACTGAGTTTT
GTTGTGGTTAGATAGATACTTTGTCGATAGCCTCGTTGCCAAGCTGGCCA
GTCTAGGAGTGGATTAATACTAGATAGTAAGTAGTGGCTGGACGGAGTGG
TTCTTGGAGAACAGTTTATCTGGAACAGGAGGTACTTTGGTTGTTTGTAG
ATGGTGTATAGTTACTAGATTTGATTTGAATAAGTAATAGTCTGTGAGTA
GAGTATTTGGCTTTGGCTTGCCAGCTGTTCGTTCATTCGGTCATTTGTTG
TGTTGTGTTGTGATGTGATGATGATCGCAGGAGGGAGGGAAGGAGGGATG
AACGGATGGAGGGAAGGAGGGAGGGAAGTCATTTACTAGATGATGTGATT
AATTAATTAATTGGCAGTAATAAGTGGCTGCTGCGAATCAGGTTGAAGGT
GTGGTGTGAAGCATACGTAGTGCATCTTTGTTTGGGATTGACTACTATTC
TGTACTTGTTGTTATTGTTCTTGTTTGGTATACATTCTTGTAAGTGTTTT
GATAGATCTTCATCTTCTAGGAGAATTGTTGAAAGTATTTGGTATTTCTG
CCACTGCTTTGCAACGAAAGGGTTAGATGGATTCTCGCCAGGAGTGATAC
AGTGATAAACCTTGCATTGGCTTTTACAGAGAGAAAGGAAAGAGTAAGAG
AAAAGGGTGGATAGATCGAAGGAGGAATGAAAACCTGCCACGAGTCCCGC
AAAGATTCCGATGCCTTGAGAGGACATGTTCTGGGTTCAGTTATTTTTCC
TTGTTCTGACGATCCTTTCGCTAATCGAAGCTTCTAGCACGCACAGATTT
CACAAGGGCGAGAGAGAGAGACAGAGAGAAAGCAAAAGAGGGGAGAGAGG
GGCGGAAGTGACTTCCAGAGTCCATGA back to topCoding sequence (CDS) from alignment at NKJJ01000010.1:1004627..1008803- >CAN33_13720-T1 ID=CAN33_13720-T1|Name=CAN33_13720-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=9780bp|location=Sequence derived from alignment at NKJJ01000010.1:1004627..1008803- (Aspergillus niger FDAARGOS_311)
TCCATGAGTGCCAGAACCACTCCTTCCGTTGTTGCTTTCGCCCAGGACGG
TGAGCGTCTGGTCGGTATCGCCGCCAAGCGTCAGGCCGTTGTCAACCCCG
AGAACACTCTCTTCGCCACCAAGCGTCTCATCGGTCGCAAGTTCACCGAC
GCCGAGGTCCAGCGTGACATCAAGGAGGTTCCCTACAAGATCGTCCAGCA
CACCAACGGCGATGCCTGGGTTGAGGCTCGTGGCCAGAAGTACTCTCCTT
CCCAGATTGGTGGTTTCGTCCTCAACAAGATGAAGGAGACTGCCGAGAAC
TACCTCAGCAAGCCCGTTAAGAACGCTGTTGTCACTGTTCCCGCCTACTT
CAACGACTCCCAGCGTCAGGCCACCAAGGACGCCGGTCAGATCGCTGGTC
TGAACGTTCTCCGTGTCGTTAACGAGCCCACTGCCGCCGCTCTTGCCTAC
GGTCTTGAGAAGGAGGCCGACCGTGTTGTCGCCGTCTACGATCTTGGTGG
TGGTACTTTCGATATCTCCGTTCTGGAGATCCAGAAGGGTGTTTTCGAGG
TCAAGTCTACCAACGGTGACACCCACCTTGGTGGTGAGGACTTCGACATT
GCCCTTGTCCGCCAGATTGTCCAGCAGTTCAAGAAGGAGTCCGGCCTGGA
CCTCTCCGGCGACCGCATGGCTATCCAGCGTATCCGTGAGGCTGCTGAGA
AGGCCAAGATTGAGCTGTCTTCTTCTCTCCAGACTGAGATCAACCTTCCT
TTCATCACTGCTGATGCCAGCGGTGCCAAGCACATCAACCACAAGATGAC
CCGTGCCAGCCTCGAGTCCCTGGTTGACCCTCTCATCAGCCGCACCGTTG
AGCCCGTCCGCAAGGCCCTCAAGGATGCCAACCTCCAGTCCGGTGACATC
CAGGACATCATCCTGGTCGGTGGTATGACCCGTATGCCCAAGGTCACCGA
GTCCGTCAAGTCCATGTTCGGCCGTGAGCCCGCCAAGTCCGTCAACCCCG
ATGAGGCTGTCGCCATCGGTGCTGCCATCCAGGGTGCTGTCCTTGCTGGT
GAGGTCACTGACGTCCTCCTGCTCGATGTCACTCCCCTCTCTCTCGGTAT
CGAGACCCTTGGTGGTGTCTTCACTCGCCTGATCAACCGCAACACCACCA
TCCCCACCAAGAAGTCCCAGACCTTCTCCACGGCCGCTGATTTCCAGACC
GCTGTCGAGATCAAGGTCTTCCAGGGTGAGCGTGAGCTTGTCAAGGACAA
CAAGCTCCTCGGAAATTTCCAGCTTGTTGGTATCCCTCCTGCCCACCGTG
GTGTTCCCCAGGTCGAGGTCACCTTCGACATCGATGCCGACTCCATCGTC
CACGTTGCCGCTAAGGACAAGTCCACCGGCAAGGACCAGTCCATCACCAT
CGCCTCTGGCTCCGGTCTTTCCGACTCCGAGATCCAGTCCATGGTTGAGG
ATGCCGAGAAGTACGGTGCTCAGGACAAGGAGCGCAAGGCTGCTATCGAG
GCTGCCAACCGCGCCGACAGCGTCGTGAACGACACTGAGAAGGCTCTCAA
GGAGTTCGAGGACCGCCTTGACAAGGCCGAGGCTGACCAGATCCGCGAGA
AGATCGCTACTCTCCGCGAGTTCATTGCCCAGAACCAGTCCGGTGAGGGC
ACTGTCACTGCTGAGGAGTTCAAGCAGAAGACCGACGAGCTCCAGAACGC
CAGCTTGACCCTCTTTGACAAGATGCACAAGGCTCAGTACCACCAACTCC
GCCGTTGCCGTCATGGAGGGCAAGACCCCCAAGATCATTGAGAACACCGA
AGCTCCCGCGCACCACTCCTTTCGCTCGCGCCCCTGCTTTCAGAGTCCCC
GGTGCTGCCGTTCGCAGATGGAACTCCACCGAGGGTGGTGAGGAGAAGGT
GAAGGGCCAGGTCATCGGTATCGACTTGGATGTTGTCCTCTCGTCTCACC
CGCGCGTCCATGAGTGCCAGAACCACTCCTTCCGTTGTTGCTTTCGCCCA
GGACGGTGAGCGTCTGGTCGGTATCGCCGCCAAGCGTCAGGCCGTTGTCA
ACCCCGAGAACACTCTCTTCGCCACCAAGCGTCTCATCGGTCGCAAGTTC
ACCGACGCCGAGGTCCAGCGTGACATCAAGGAGGTTCCCTACAAGATCGT
CCAGCACACCAACGGCGATGCCTGGGTTGAGGCTCGTGGCCAGAAGTACT
CTCCTTCCCAGATTGGTGGTTTCGTCCTCAACAAGATGAAGGAGACTGCC
GAGAACTACCTCAGCAAGCCCGTTAAGAACGCTGTTGTCACTGTTCCCGC
CTACTTCAACGACTCCCAGCGTCAGGCCACCAAGGACGCCGGTCAGATCG
CTGGTCTGAACGTTCTCCGTGTCGTTAACGAGCCCACTGCCGCCGCTCTT
GCCTACGGTCTTGAGAAGGAGGCCGACCGTGTTGTCGCCGTCTACGATCT
TGGTGGTGGTACTTTCGATATCTCCGTTCTGGAGATCCAGAAGGGTGTTT
TCGAGGTCAAGTCTACCAACGGTGACACCCACCTTGGTGGTGAGGACTTC
GACATTGCCCTTGTCCGCCAGATTGTCCAGCAGTTCAAGAAGGAGTCCGG
CCTGGACCTCTCCGGCGACCGCATGGCTATCCAGCGTATCCGTGAGGCTG
CTGAGAAGGCCAAGATTGAGCTGTCTTCTTCTCTCCAGACTGAGATCAAC
CTTCCTTTCATCACTGCTGATGCCAGCGGTGCCAAGCACATCAACCACAA
GATGACCCGTGCCAGCCTCGAGTCCCTGGTTGACCCTCTCATCAGCCGCA
CCGTTGAGCCCGTCCGCAAGGCCCTCAAGGATGCCAACCTCCAGTCCGGT
GACATCCAGGACATCATCCTGGTCGGTGGTATGACCCGTATGCCCAAGGT
CACCGAGTCCGTCAAGTCCATGTTCGGCCGTGAGCCCGCCAAGTCCGTCA
ACCCCGATGAGGCTGTCGCCATCGGTGCTGCCATCCAGGGTGCTGTCCTT
GCTGGTGAGGTCACTGACGTCCTCCTGCTCGATGTCACTCCCCTCTCTCT
CGGTATCGAGACCCTTGGTGGTGTCTTCACTCGCCTGATCAACCGCAACA
CCACCATCCCCACCAAGAAGTCCCAGACCTTCTCCACGGCCGCTGATTTC
CAGACCGCTGTCGAGATCAAGGTCTTCCAGGGTGAGCGTGAGCTTGTCAA
GGACAACAAGCTCCTCGGAAATTTCCAGCTTGTTGGTATCCCTCCTGCCC
ACCGTGGTGTTCCCCAGGTCGAGGTCACCTTCGACATCGATGCCGACTCC
ATCGTCCACGTTGCCGCTAAGGACAAGTCCACCGGCAAGGACCAGTCCAT
CACCATCGCCTCTGGCTCCGGTCTTTCCGACTCCGAGATCCAGTCCATGG
TTGAGGATGCCGAGAAGTACGGTGCTCAGGACAAGGAGCGCAAGGCTGCT
ATCGAGGCTGCCAACCGCGCCGACAGCGTCGTGAACGACACTGAGAAGGC
TCTCAAGGAGTTCGAGGACCGCCTTGACAAGGCCGAGGCTGACCAGATCC
GCGAGAAGATCGCTACTCTCCGCGAGTTCATTGCCCAGAACCAGTCCGGT
GAGGGCACTGTCACTGCTGAGGAGTTCAAGCAGAAGACCGACGAGCTCCA
GAACGCCAGCTTGACCCTCTTTGACAAGATGCACAAGGCTCAGTACCACC
AACTCCGCCGTTGCCGTCATGGAGGGCAAGACCCCCAAGATCATTGAGAA
CACCGAAGCTCCCGCGCACCACTCCTTTCGCTCGCGCCCCTGCTTTCAGA
GTCCCCGGTGCTGCCGTTCGCAGATGGAACTCCACCGAGGGTGGTGAGGA
GAAGGTGAAGGGCCAGGTCATCGGTATCGACTTGGATGTTGTCCTCTCGT
CTCACCCGCGCGTCCATGAGTGCCAGAACCACTCCTTCCGTTGTTGCTTT
CGCCCAGGACGGTGAGCGTCTGGTCGGTATCGCCGCCAAGCGTCAGGCCG
TTGTCAACCCCGAGAACACTCTCTTCGCCACCAAGCGTCTCATCGGTCGC
AAGTTCACCGACGCCGAGGTCCAGCGTGACATCAAGGAGGTTCCCTACAA
GATCGTCCAGCACACCAACGGCGATGCCTGGGTTGAGGCTCGTGGCCAGA
AGTACTCTCCTTCCCAGATTGGTGGTTTCGTCCTCAACAAGATGAAGGAG
ACTGCCGAGAACTACCTCAGCAAGCCCGTTAAGAACGCTGTTGTCACTGT
TCCCGCCTACTTCAACGACTCCCAGCGTCAGGCCACCAAGGACGCCGGTC
AGATCGCTGGTCTGAACGTTCTCCGTGTCGTTAACGAGCCCACTGCCGCC
GCTCTTGCCTACGGTCTTGAGAAGGAGGCCGACCGTGTTGTCGCCGTCTA
CGATCTTGGTGGTGGTACTTTCGATATCTCCGTTCTGGAGATCCAGAAGG
GTGTTTTCGAGGTCAAGTCTACCAACGGTGACACCCACCTTGGTGGTGAG
GACTTCGACATTGCCCTTGTCCGCCAGATTGTCCAGCAGTTCAAGAAGGA
GTCCGGCCTGGACCTCTCCGGCGACCGCATGGCTATCCAGCGTATCCGTG
AGGCTGCTGAGAAGGCCAAGATTGAGCTGTCTTCTTCTCTCCAGACTGAG
ATCAACCTTCCTTTCATCACTGCTGATGCCAGCGGTGCCAAGCACATCAA
CCACAAGATGACCCGTGCCAGCCTCGAGTCCCTGGTTGACCCTCTCATCA
GCCGCACCGTTGAGCCCGTCCGCAAGGCCCTCAAGGATGCCAACCTCCAG
TCCGGTGACATCCAGGACATCATCCTGGTCGGTGGTATGACCCGTATGCC
CAAGGTCACCGAGTCCGTCAAGTCCATGTTCGGCCGTGAGCCCGCCAAGT
CCGTCAACCCCGATGAGGCTGTCGCCATCGGTGCTGCCATCCAGGGTGCT
GTCCTTGCTGGTGAGGTCACTGACGTCCTCCTGCTCGATGTCACTCCCCT
CTCTCTCGGTATCGAGACCCTTGGTGGTGTCTTCACTCGCCTGATCAACC
GCAACACCACCATCCCCACCAAGAAGTCCCAGACCTTCTCCACGGCCGCT
GATTTCCAGACCGCTGTCGAGATCAAGGTCTTCCAGGGTGAGCGTGAGCT
TGTCAAGGACAACAAGCTCCTCGGAAATTTCCAGCTTGTTGGTATCCCTC
CTGCCCACCGTGGTGTTCCCCAGGTCGAGGTCACCTTCGACATCGATGCC
GACTCCATCGTCCACGTTGCCGCTAAGGACAAGTCCACCGGCAAGGACCA
GTCCATCACCATCGCCTCTGGCTCCGGTCTTTCCGACTCCGAGATCCAGT
CCATGGTTGAGGATGCCGAGAAGTACGGTGCTCAGGACAAGGAGCGCAAG
GCTGCTATCGAGGCTGCCAACCGCGCCGACAGCGTCGTGAACGACACTGA
GAAGGCTCTCAAGGAGTTCGAGGACCGCCTTGACAAGGCCGAGGCTGACC
AGATCCGCGAGAAGATCGCTACTCTCCGCGAGTTCATTGCCCAGAACCAG
TCCGGTGAGGGCACTGTCACTGCTGAGGAGTTCAAGCAGAAGACCGACGA
GCTCCAGAACGCCAGCTTGACCCTCTTTGACAAGATGCACAAGGCTCAGT
ACCACCAACTCCGCCGTTGCCGTCATGGAGGGCAAGACCCCCAAGATCAT
TGAGAACACCGAAGCTCCCGCGCACCACTCCTTTCGCTCGCGCCCCTGCT
TTCAGAGTCCCCGGTGCTGCCGTTCGCAGATGGAACTCCACCGAGGGTGG
TGAGGAGAAGGTGAAGGGCCAGGTCATCGGTATCGACTTGGATGTTGTCC
TCTCGTCTCACCCGCGCGTCCATGAGTGCCAGAACCACTCCTTCCGTTGT
TGCTTTCGCCCAGGACGGTGAGCGTCTGGTCGGTATCGCCGCCAAGCGTC
AGGCCGTTGTCAACCCCGAGAACACTCTCTTCGCCACCAAGCGTCTCATC
GGTCGCAAGTTCACCGACGCCGAGGTCCAGCGTGACATCAAGGAGGTTCC
CTACAAGATCGTCCAGCACACCAACGGCGATGCCTGGGTTGAGGCTCGTG
GCCAGAAGTACTCTCCTTCCCAGATTGGTGGTTTCGTCCTCAACAAGATG
AAGGAGACTGCCGAGAACTACCTCAGCAAGCCCGTTAAGAACGCTGTTGT
CACTGTTCCCGCCTACTTCAACGACTCCCAGCGTCAGGCCACCAAGGACG
CCGGTCAGATCGCTGGTCTGAACGTTCTCCGTGTCGTTAACGAGCCCACT
GCCGCCGCTCTTGCCTACGGTCTTGAGAAGGAGGCCGACCGTGTTGTCGC
CGTCTACGATCTTGGTGGTGGTACTTTCGATATCTCCGTTCTGGAGATCC
AGAAGGGTGTTTTCGAGGTCAAGTCTACCAACGGTGACACCCACCTTGGT
GGTGAGGACTTCGACATTGCCCTTGTCCGCCAGATTGTCCAGCAGTTCAA
GAAGGAGTCCGGCCTGGACCTCTCCGGCGACCGCATGGCTATCCAGCGTA
TCCGTGAGGCTGCTGAGAAGGCCAAGATTGAGCTGTCTTCTTCTCTCCAG
ACTGAGATCAACCTTCCTTTCATCACTGCTGATGCCAGCGGTGCCAAGCA
CATCAACCACAAGATGACCCGTGCCAGCCTCGAGTCCCTGGTTGACCCTC
TCATCAGCCGCACCGTTGAGCCCGTCCGCAAGGCCCTCAAGGATGCCAAC
CTCCAGTCCGGTGACATCCAGGACATCATCCTGGTCGGTGGTATGACCCG
TATGCCCAAGGTCACCGAGTCCGTCAAGTCCATGTTCGGCCGTGAGCCCG
CCAAGTCCGTCAACCCCGATGAGGCTGTCGCCATCGGTGCTGCCATCCAG
GGTGCTGTCCTTGCTGGTGAGGTCACTGACGTCCTCCTGCTCGATGTCAC
TCCCCTCTCTCTCGGTATCGAGACCCTTGGTGGTGTCTTCACTCGCCTGA
TCAACCGCAACACCACCATCCCCACCAAGAAGTCCCAGACCTTCTCCACG
GCCGCTGATTTCCAGACCGCTGTCGAGATCAAGGTCTTCCAGGGTGAGCG
TGAGCTTGTCAAGGACAACAAGCTCCTCGGAAATTTCCAGCTTGTTGGTA
TCCCTCCTGCCCACCGTGGTGTTCCCCAGGTCGAGGTCACCTTCGACATC
GATGCCGACTCCATCGTCCACGTTGCCGCTAAGGACAAGTCCACCGGCAA
GGACCAGTCCATCACCATCGCCTCTGGCTCCGGTCTTTCCGACTCCGAGA
TCCAGTCCATGGTTGAGGATGCCGAGAAGTACGGTGCTCAGGACAAGGAG
CGCAAGGCTGCTATCGAGGCTGCCAACCGCGCCGACAGCGTCGTGAACGA
CACTGAGAAGGCTCTCAAGGAGTTCGAGGACCGCCTTGACAAGGCCGAGG
CTGACCAGATCCGCGAGAAGATCGCTACTCTCCGCGAGTTCATTGCCCAG
AACCAGTCCGGTGAGGGCACTGTCACTGCTGAGGAGTTCAAGCAGAAGAC
CGACGAGCTCCAGAACGCCAGCTTGACCCTCTTTGACAAGATGCACAAGG
CTCAGTACCACCAACTCCGCCGTTGCCGTCATGGAGGGCAAGACCCCCAA
GATCATTGAGAACACCGAAGCTCCCGCGCACCACTCCTTTCGCTCGCGCC
CCTGCTTTCAGAGTCCCCGGTGCTGCCGTTCGCAGATGGAACTCCACCGA
GGGTGGTGAGGAGAAGGTGAAGGGCCAGGTCATCGGTATCGACTTGGATG
TTGTCCTCTCGTCTCACCCGCGCGTCCATGAGTGCCAGAACCACTCCTTC
CGTTGTTGCTTTCGCCCAGGACGGTGAGCGTCTGGTCGGTATCGCCGCCA
AGCGTCAGGCCGTTGTCAACCCCGAGAACACTCTCTTCGCCACCAAGCGT
CTCATCGGTCGCAAGTTCACCGACGCCGAGGTCCAGCGTGACATCAAGGA
GGTTCCCTACAAGATCGTCCAGCACACCAACGGCGATGCCTGGGTTGAGG
CTCGTGGCCAGAAGTACTCTCCTTCCCAGATTGGTGGTTTCGTCCTCAAC
AAGATGAAGGAGACTGCCGAGAACTACCTCAGCAAGCCCGTTAAGAACGC
TGTTGTCACTGTTCCCGCCTACTTCAACGACTCCCAGCGTCAGGCCACCA
AGGACGCCGGTCAGATCGCTGGTCTGAACGTTCTCCGTGTCGTTAACGAG
CCCACTGCCGCCGCTCTTGCCTACGGTCTTGAGAAGGAGGCCGACCGTGT
TGTCGCCGTCTACGATCTTGGTGGTGGTACTTTCGATATCTCCGTTCTGG
AGATCCAGAAGGGTGTTTTCGAGGTCAAGTCTACCAACGGTGACACCCAC
CTTGGTGGTGAGGACTTCGACATTGCCCTTGTCCGCCAGATTGTCCAGCA
GTTCAAGAAGGAGTCCGGCCTGGACCTCTCCGGCGACCGCATGGCTATCC
AGCGTATCCGTGAGGCTGCTGAGAAGGCCAAGATTGAGCTGTCTTCTTCT
CTCCAGACTGAGATCAACCTTCCTTTCATCACTGCTGATGCCAGCGGTGC
CAAGCACATCAACCACAAGATGACCCGTGCCAGCCTCGAGTCCCTGGTTG
ACCCTCTCATCAGCCGCACCGTTGAGCCCGTCCGCAAGGCCCTCAAGGAT
GCCAACCTCCAGTCCGGTGACATCCAGGACATCATCCTGGTCGGTGGTAT
GACCCGTATGCCCAAGGTCACCGAGTCCGTCAAGTCCATGTTCGGCCGTG
AGCCCGCCAAGTCCGTCAACCCCGATGAGGCTGTCGCCATCGGTGCTGCC
ATCCAGGGTGCTGTCCTTGCTGGTGAGGTCACTGACGTCCTCCTGCTCGA
TGTCACTCCCCTCTCTCTCGGTATCGAGACCCTTGGTGGTGTCTTCACTC
GCCTGATCAACCGCAACACCACCATCCCCACCAAGAAGTCCCAGACCTTC
TCCACGGCCGCTGATTTCCAGACCGCTGTCGAGATCAAGGTCTTCCAGGG
TGAGCGTGAGCTTGTCAAGGACAACAAGCTCCTCGGAAATTTCCAGCTTG
TTGGTATCCCTCCTGCCCACCGTGGTGTTCCCCAGGTCGAGGTCACCTTC
GACATCGATGCCGACTCCATCGTCCACGTTGCCGCTAAGGACAAGTCCAC
CGGCAAGGACCAGTCCATCACCATCGCCTCTGGCTCCGGTCTTTCCGACT
CCGAGATCCAGTCCATGGTTGAGGATGCCGAGAAGTACGGTGCTCAGGAC
AAGGAGCGCAAGGCTGCTATCGAGGCTGCCAACCGCGCCGACAGCGTCGT
GAACGACACTGAGAAGGCTCTCAAGGAGTTCGAGGACCGCCTTGACAAGG
CCGAGGCTGACCAGATCCGCGAGAAGATCGCTACTCTCCGCGAGTTCATT
GCCCAGAACCAGTCCGGTGAGGGCACTGTCACTGCTGAGGAGTTCAAGCA
GAAGACCGACGAGCTCCAGAACGCCAGCTTGACCCTCTTTGACAAGATGC
ACAAGGCTCAGTACCACCAACTCCGCCGTTGCCGTCATGGAGGGCAAGAC
CCCCAAGATCATTGAGAACACCGAAGCTCCCGCGCACCACTCCTTTCGCT
CGCGCCCCTGCTTTCAGAGTCCCCGGTGCTGCCGTTCGCAGATGGAACTC
CACCGAGGGTGGTGAGGAGAAGGTGAAGGGCCAGGTCATCGGTATCGACT
TGGATGTTGTCCTCTCGTCTCACCCGCGCG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006457 | protein folding |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005524 | ATP binding |
| GO:0051082 | unfolded protein 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:IPR018181 |
| DBxref | InterPro:IPR012725 |
| DBxref | InterPro:IPR029048 |
| DBxref | InterPro:IPR029047 |
| DBxref | InterPro:IPR013126 |
| DBxref | PFAM:PF06723 |
| DBxref | PFAM:PF00012 |
| Product | chaperone protein DnaK |
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 | NKJJ01000010.1:1004627..1008803 - |
|
