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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000001.1:1525938..1529480+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_129183-T1 ID=ASPNIDRAFT_129183-T1|Name=ASPNIDRAFT_129183-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=3543bp|location=Sequence derived from alignment at ACJE01000001.1:1525938..1529480+ (Aspergillus niger ATCC 1015)
ATGGATTGGGAGTGTGTGAATCCGGTGCCGCCGGAGATTTGGTACGTTTG
TTTCTATCATGTCTAGTGGGTGATTTGTGGATGGGATACTGATTCGACCA
GGCTACTTCCTGACTGGGTGCCGTTTGCGCCCTGGCGCTGGTGGATTCAT
ATTCGCCAGGTATTTCTGCCCATGTCGTATCTGTGGTCTAAGAGGTTCTC
GCATCCCTTGGACCCTCTCACCAAGCAGCTGCGGCAGGAGCTGTATACCC
AGCCGTATGACTCGATTGACTTTGCGGCGCATCGCAACTCAATTCACAAG
GCAGACAATTACTACCCCAAGACTTGGCTGCTGAATACCTTGAACTCTCT
GCTCGTCAACATCTGGAACCCCTACCTTCGTGTCCCTGCCATTGTGCGTC
GCGCGGAGGAGTGGACGTGGGAGTTGGTCCGCATGGAGGACGAGAATACC
GACTACGCTGGCCTGGGGCCTGTGAGCAACCCGTTCAACATGATTGTGTG
CTACGAACATGACGGTCCGGACAGCTACTCGGTCCGTCGCCATCGCGAAC
GGCTGCACGACTACATGTGGATGAAGGACGAGGGCATGCTGATGAACGGC
ACCAACGGCGTCCAGGTATGGGATACGGCCTTTATCACGCAGAGTATCGT
GGTGGCCGGGTTCGGCGATGACCCGAAATGGCGGCCCATGCTCACCAAGG
CACTGGAGTTCCTGGAAGACCATCAGCTGCGCGAGAACGTGCCGGACCAG
GAGAAGTGCTACCGCCAGCACCGCAAGGGCGCATGGCCATTCAGCAACAA
GACGCAGGGATACACGGTCAGCGACTGCACCGCCGAGGGACTGCGCTCGA
CCATCCAGCTGCAGGAGATGCACAACTTCCCGAAACTGATCTCGGAGGAG
CGATTGAAGGACAGCGTCGACTGCCTGCTCCTGATGCAGAACCCCACTGG
TGGGTTCACCGAGTACGAAACCACGCGGGCATCCGAGAAAGTCGAGTGGC
TCAACGCAGCCGAGGTATTCGGCGGAATCATGATCGGATACGACTATCCC
GAGTGCACGACCGCGTCCGTCACCGCGCTCTCCCTCTTCAGCAAATACTA
TCCGAATTACCGGGCCGCAGAGATCAAGTCCGCCAAGGAAAAGGCCGTTC
AGTACATCAAGCGGGTGCAGCGCGCCGATGGCAGCTGGTACGGGTCCTGG
GGCATCTGCTTCACGTACGCGGCGATGTTTGCCCTGGAGAGTTTGGCCAG
CATCGGAGAGACGTACGAGACGAGCGCGGACTCCCGACGCGGATGCGAGT
TCCTCATCTCGAAGCAAAAGGAGGACGGCGGCTGGGGCGAGTCGTACCTC
AGCAGCGAGAAGCACGTCTATGTGCAGCACGAGAAATCGCAGGTCGTGCA
GACGGCATGGGCCAGTCTGGCATTGATGGAGGCCGGGTATCCGCATAAGG
AGCCGCTGCGGAAAGCAATGCAGCTGCTGATGTCGCGGCAGCAGGCCAAT
GGAGAGTGGTTGCAGGAGTCGATTGAGGGAGTGTTTAACCAATCTTGGTG
AGTATCATGATCGATTGATTGAGAGTTCTCCACTAACGAGTGACAGCATG
ATTTCGTATCCCAACTATAAGCTGTACTGGCCGATCCGGGCGTTGGGATT
GTATGCGCGCAAGTTTGGCAATGAGGAGTTGGTCTGATCTTCTATGAATT
GTTCTTCTATGAGTACATGTATTACTACTATACTACTATAACCTTCTACT
AATTGATAATATGATTCATGTATACTATCTTCTTTATCGTTGATCTGGAG
AGTTTAGATGTGTAGCCAATCACGTGGATGCTCCGCTCCCCGCATCTCTC
CAAAGAAGATCATCGAACTTGTTTCCATTCCATTCACCTCTCCACTTGTA
TTCCTCTTTCTCTTACACATTATTTCCTTTTCTCTTCGGAGATTCCCTTA
CAAACAACAAGACTCATTTTTCACATCTCGTACTCAGACCCATACTTAAA
CCCTATCTACCCACCCAACAAACACAACACAACACAGCACAACGCAACAC
CTCCATCCAAACACCACCACACTCCAACCCACCACCTCAAAACCTCAAAA
TGAACGCCGCCTCCCTCGGCGACACCGCCCTCCAACAGTCCGACCCCCAC
ACCGCAACAATCCACTACACGACCGCCCTCCTCACGCACCCCCGCTCGCC
CAGCTACTTCATCAAACGCTCAACAGCCTTCTCACGCCTAAAGCCCACAC
CGAACCTCTCCGCCGCCCTCCGCGATGCCGAATCCGCCGTTCTTCTCGCC
CGCGAGCGGGGGAAACGCGAGCTGATCGTCGAGGCGCAGATGCGGAGAGC
CATCGTTTTGTTTCTCATGGGGAGATACGTTGCTGCGGAGGGGGTGGTAG
GCGTGGTGGAGGGTATGATTGGATTGGATAAGGACGGTAATGGTGGGGAA
GATAAGGAGGAGAAGGTGAGGAAGGCGATGGGGGGTGGTGCTGGGAAGGG
TATTGAGGCGGAGGTGAGGATTTGGGGGGCGAAGATTAGGGCGAAGGTCA
ACGGTTTGGGCGAGCAGAGTGGTGAGCGTGGGGAGAAGGTGGAGGAGGTT
CCGGTGGGGGTTAAAGTGCCGGGGGAGAAGGAGTTGAGGGGACAGTTGGA
GGAGTTGAGGGGAGGGAAGGTTGGTGAGGGTATTGGTGGTGAAGAGAAGC
AGAGTCAGAAGGTTGAGGATAAGGTGGAGGAGAAGGGGAGAGCTGAGGTC
AAGGAGACTCAGCAGCAGCAACAACAGCAGCAGCAGCAGGTCAAGGTCCG
TCATGAATGGTACCAGTCCGGTGAGACGGTTGTTGTGACGCTTTACGTGA
AAGGCGTGCCCAAGGATAAAGTGGCTATTGAGCTGAAAGAGGACTCGGTA
TGTATTCACTCCCCTTGACTCAAACATGCAAGTCACTAACCTATATACAT
AGACATCCATCCAATTCCCCCTCCCCTCCGGCGCCGAATACGACTTCACT
CTCGACCCGCTCTTCGCTCCCATCGACCCCTCCACCTCTAAAGTCTCCGT
CTTCTCCACAAAGATCGAAATCTCCCTGCGCAAGAAAACTCCCGGCCAGA
AATGGAGCGCCCTGGAATCTACCACCGGACCTGTCATCTCTACTCCCCAG
CCCACGGTTACACCCACCACTACCACCACACAAGCCCAAGCCCCATCATA
CCCCACCTCCTCCCGCCACGGCGCCAAAGACTGGGACAAGCTCGCCTCCA
GCCTAACCCAGAAACCGAAAAAGGACAAGACCAAGAGCAGCTCAAAGCCC
AAGGATGAACAAGGAGAAGGAGAAGAAGACGATGGAGAAGCATCCGACGC
CGAATCCATCAACTCCGACTTCGGAGGCGGTGATGCCGTCGATGGCTTCT
TCAAGAAACTCTATGCCAATGCGGACCCGGATACCCGCCGCGCTATGGTG
AAGAGTTACGTGGAGAGTCAGGGGACGTCGCTGAGTACGAATTGGGATGA
GGTTGGGCAGGGGCCGGTTAAGGTTAGGCCGCCTAGTGAGTGA back to topCoding sequence (CDS) from alignment at ACJE01000001.1:1525938..1529480+ >ASPNIDRAFT_129183-T1 ID=ASPNIDRAFT_129183-T1|Name=ASPNIDRAFT_129183-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=15315bp|location=Sequence derived from alignment at ACJE01000001.1:1525938..1529480+ (Aspergillus niger ATCC 1015)
ATGGATTGGGAGTGTGTGAATCCGGTGCCGCCGGAGATTTGGTACTGGGT
GATTTGTGGATGGGATACTGATTCGACCAGGCTACTTCCTGACTGGGTGC
CGTTTGCGCCCTGGCGCTGGTGGATTCATATTCGCCAGGTATTTCTGCCC
ATGTCGTATCTGTGGTCTAAGAGGTTCTCGCATCCCTTGGACCCTCTCAC
CAAGCAGCTGCGGCAGGAGCTGTATACCCAGCCGTATGACTCGATTGACT
TTGCGGCGCATCGCAACTCAATTCACAAGGCAGACAATTACTACCCCAAG
ACTTGGCTGCTGAATACCTTGAACTCTCTGCTCGTCAACATCTGGAACCC
CTACCTTCGTGTCCCTGCCATTGTGCGTCGCGCGGAGGAGTGGACGTGGG
AGTTGGTCCGCATGGAGGACGAGAATACCGACTACGCTGGCCTGGGGCCT
GTGAGCAACCCGTTCAACATGATTGTGTGCTACGAACATGACGGTCCGGA
CAGCTACTCGGTCCGTCGCCATCGCGAACGGCTGCACGACTACATGTGGA
TGAAGGACGAGGGCATGCTGATGAACGGCACCAACGGCGTCCAGGTATGG
GATACGGCCTTTATCACGCAGAGTATCGTGGTGGCCGGGTTCGGCGATGA
CCCGAAATGGCGGCCCATGCTCACCAAGGCACTGGAGTTCCTGGAAGACC
ATCAGCTGCGCGAGAACGTGCCGGACCAGGAGAAGTGCTACCGCCAGCAC
CGCAAGGGCGCATGGCCATTCAGCAACAAGACGCAGGGATACACGGTCAG
CGACTGCACCGCCGAGGGACTGCGCTCGACCATCCAGCTGCAGGAGATGC
ACAACTTCCCGAAACTGATCTCGGAGGAGCGATTGAAGGACAGCGTCGAC
TGCCTGCTCCTGATGCAGAACCCCACTGGTGGGTTCACCGAGTACGAAAC
CACGCGGGCATCCGAGAAAGTCGAGTGGCTCAACGCAGCCGAGGTATTCG
GCGGAATCATGATCGGATACGACTATCCCGAGTGCACGACCGCGTCCGTC
ACCGCGCTCTCCCTCTTCAGCAAATACTATCCGAATTACCGGGCCGCAGA
GATCAAGTCCGCCAAGGAAAAGGCCGTTCAGTACATCAAGCGGGTGCAGC
GCGCCGATGGCAGCTGGTACGGGTCCTGGGGCATCTGCTTCACGTACGCG
GCGATGTTTGCCCTGGAGAGTTTGGCCAGCATCGGAGAGACGTACGAGAC
GAGCGCGGACTCCCGACGCGGATGCGAGTTCCTCATCTCGAAGCAAAAGG
AGGACGGCGGCTGGGGCGAGTCGTACCTCAGCAGCGAGAAGCACGTCTAT
GTGCAGCACGAGAAATCGCAGGTCGTGCAGACGGCATGGGCCAGTCTGGC
ATTGATGGAGGCCGGGTATCCGCATAAGGAGCCGCTGCGGAAAGCAATGC
AGCTGCTGATGTCGCGGCAGCAGGCCAATGGAGAGTGGTTGCAGGAGTCG
ATTGAGGGAGTGTTTAACCAATCTTGCATGATTTCGTATCCCAACTATAA
GCTGTACTGGCCGATCCGGGCGTTGGGATTGTATGCGCGCAAGTTTGGCA
ATGAGGAGTTGGCACAACGCAACACCTCCATCCAAACACCACCACACTCC
AACCCACCACCTCAAAACCTCAAAATGAACGCCGCCTCCCTCGGCGACAC
CGCCCTCCAACAGTCCGACCCCCACACCGCAACAATCCACTACACGACCG
CCCTCCTCACGCACCCCCGCTCGCCCAGCTACTTCATCAAACGCTCAACA
GCCTTCTCACGCCTAAAGCCCACACCGAACCTCTCCGCCGCCCTCCGCGA
TGCCGAATCCGCCGTTCTTCTCGCCCGCGAGCGGGGGAAACGCGAGCTGA
TCGTCGAGGCGCAGATGCGGAGAGCCATCGTTTTGTTTCTCATGGGGAGA
TACGTTGCTGCGGAGGGGGTGGTAGGCGTGGTGGAGGGTATGATTGGATT
GGATAAGGACGGTAATGGTGGGGAAGATAAGGAGGAGAAGGTGAGGAAGG
CGATGGGGGGTGGTGCTGGGAAGGGTATTGAGGCGGAGGTGAGGATTTGG
GGGGCGAAGATTAGGGCGAAGGTCAACGGTTTGGGCGAGCAGAGTGGTGA
GCGTGGGGAGAAGGTGGAGGAGGTTCCGGTGGGGGTTAAAGTGCCGGGGG
AGAAGGAGTTGAGGGGACAGTTGGAGGAGTTGAGGGGAGGGAAGGTTGGT
GAGGGTATTGGTGGTGAAGAGAAGCAGAGTCAGAAGGTTGAGGATAAGGT
GGAGGAGAAGGGGAGAGCTGAGGTCAAGGAGACTCAGCAGCAGCAACAAC
AGCAGCAGCAGCAGGTCAAGGTCCGTCATGAATGGTACCAGTCCGGTGAG
ACGGTTGTTGTGACGCTTTACGTGAAAGGCGTGCCCAAGGATAAAGTGGC
TATTGAGCTGAAAGAGGACTCGACATCCATCCAATTCCCCCTCCCCTCCG
GCGCCGAATACGACTTCACTCTCGACCCGCTCTTCGCTCCCATCGACCCC
TCCACCTCTAAAGTCTCCGTCTTCTCCACAAAGATCGAAATCTCCCTGCG
CAAGAAAACTCCCGGCCAGAAATGGAGCGCCCTGGAATCTACCACCGGAC
CTGTCATCTCTACTCCCCAGCCCACGGTTACACCCACCACTACCACCACA
CAAGCCCAAGCCCCATCATACCCCACCTCCTCCCGCCACGGCGCCAAAGA
CTGGGACAAGCTCGCCTCCAGCCTAACCCAGAAACCGAAAAAGGACAAGA
CCAAGAGCAGCTCAAAGCCCAAGGATGAACAAGGAGAAGGAGAAGAAGAC
GATGGAGAAGCATCCGACGCCGAATCCATCAACTCCGACTTCGGAGGCGG
TGATGCCGTCGATGGCTTCTTCAAGAAACTCTATGCCAATGCGGACCCGG
ATACCCGCCGCGCTATGGTGAAGAGTTACGTGGAGAGTCAGGGGACGTCG
CTGAGTACGAATTGGGATGAGGTTGGGCAGGGGCCGGTTAAGGTTAGGCC
GCCTAGTGAGTGAATGGATTGGGAGTGTGTGAATCCGGTGCCGCCGGAGA
TTTGGTACTGGGTGATTTGTGGATGGGATACTGATTCGACCAGGCTACTT
CCTGACTGGGTGCCGTTTGCGCCCTGGCGCTGGTGGATTCATATTCGCCA
GGTATTTCTGCCCATGTCGTATCTGTGGTCTAAGAGGTTCTCGCATCCCT
TGGACCCTCTCACCAAGCAGCTGCGGCAGGAGCTGTATACCCAGCCGTAT
GACTCGATTGACTTTGCGGCGCATCGCAACTCAATTCACAAGGCAGACAA
TTACTACCCCAAGACTTGGCTGCTGAATACCTTGAACTCTCTGCTCGTCA
ACATCTGGAACCCCTACCTTCGTGTCCCTGCCATTGTGCGTCGCGCGGAG
GAGTGGACGTGGGAGTTGGTCCGCATGGAGGACGAGAATACCGACTACGC
TGGCCTGGGGCCTGTGAGCAACCCGTTCAACATGATTGTGTGCTACGAAC
ATGACGGTCCGGACAGCTACTCGGTCCGTCGCCATCGCGAACGGCTGCAC
GACTACATGTGGATGAAGGACGAGGGCATGCTGATGAACGGCACCAACGG
CGTCCAGGTATGGGATACGGCCTTTATCACGCAGAGTATCGTGGTGGCCG
GGTTCGGCGATGACCCGAAATGGCGGCCCATGCTCACCAAGGCACTGGAG
TTCCTGGAAGACCATCAGCTGCGCGAGAACGTGCCGGACCAGGAGAAGTG
CTACCGCCAGCACCGCAAGGGCGCATGGCCATTCAGCAACAAGACGCAGG
GATACACGGTCAGCGACTGCACCGCCGAGGGACTGCGCTCGACCATCCAG
CTGCAGGAGATGCACAACTTCCCGAAACTGATCTCGGAGGAGCGATTGAA
GGACAGCGTCGACTGCCTGCTCCTGATGCAGAACCCCACTGGTGGGTTCA
CCGAGTACGAAACCACGCGGGCATCCGAGAAAGTCGAGTGGCTCAACGCA
GCCGAGGTATTCGGCGGAATCATGATCGGATACGACTATCCCGAGTGCAC
GACCGCGTCCGTCACCGCGCTCTCCCTCTTCAGCAAATACTATCCGAATT
ACCGGGCCGCAGAGATCAAGTCCGCCAAGGAAAAGGCCGTTCAGTACATC
AAGCGGGTGCAGCGCGCCGATGGCAGCTGGTACGGGTCCTGGGGCATCTG
CTTCACGTACGCGGCGATGTTTGCCCTGGAGAGTTTGGCCAGCATCGGAG
AGACGTACGAGACGAGCGCGGACTCCCGACGCGGATGCGAGTTCCTCATC
TCGAAGCAAAAGGAGGACGGCGGCTGGGGCGAGTCGTACCTCAGCAGCGA
GAAGCACGTCTATGTGCAGCACGAGAAATCGCAGGTCGTGCAGACGGCAT
GGGCCAGTCTGGCATTGATGGAGGCCGGGTATCCGCATAAGGAGCCGCTG
CGGAAAGCAATGCAGCTGCTGATGTCGCGGCAGCAGGCCAATGGAGAGTG
GTTGCAGGAGTCGATTGAGGGAGTGTTTAACCAATCTTGCATGATTTCGT
ATCCCAACTATAAGCTGTACTGGCCGATCCGGGCGTTGGGATTGTATGCG
CGCAAGTTTGGCAATGAGGAGTTGGCACAACGCAACACCTCCATCCAAAC
ACCACCACACTCCAACCCACCACCTCAAAACCTCAAAATGAACGCCGCCT
CCCTCGGCGACACCGCCCTCCAACAGTCCGACCCCCACACCGCAACAATC
CACTACACGACCGCCCTCCTCACGCACCCCCGCTCGCCCAGCTACTTCAT
CAAACGCTCAACAGCCTTCTCACGCCTAAAGCCCACACCGAACCTCTCCG
CCGCCCTCCGCGATGCCGAATCCGCCGTTCTTCTCGCCCGCGAGCGGGGG
AAACGCGAGCTGATCGTCGAGGCGCAGATGCGGAGAGCCATCGTTTTGTT
TCTCATGGGGAGATACGTTGCTGCGGAGGGGGTGGTAGGCGTGGTGGAGG
GTATGATTGGATTGGATAAGGACGGTAATGGTGGGGAAGATAAGGAGGAG
AAGGTGAGGAAGGCGATGGGGGGTGGTGCTGGGAAGGGTATTGAGGCGGA
GGTGAGGATTTGGGGGGCGAAGATTAGGGCGAAGGTCAACGGTTTGGGCG
AGCAGAGTGGTGAGCGTGGGGAGAAGGTGGAGGAGGTTCCGGTGGGGGTT
AAAGTGCCGGGGGAGAAGGAGTTGAGGGGACAGTTGGAGGAGTTGAGGGG
AGGGAAGGTTGGTGAGGGTATTGGTGGTGAAGAGAAGCAGAGTCAGAAGG
TTGAGGATAAGGTGGAGGAGAAGGGGAGAGCTGAGGTCAAGGAGACTCAG
CAGCAGCAACAACAGCAGCAGCAGCAGGTCAAGGTCCGTCATGAATGGTA
CCAGTCCGGTGAGACGGTTGTTGTGACGCTTTACGTGAAAGGCGTGCCCA
AGGATAAAGTGGCTATTGAGCTGAAAGAGGACTCGACATCCATCCAATTC
CCCCTCCCCTCCGGCGCCGAATACGACTTCACTCTCGACCCGCTCTTCGC
TCCCATCGACCCCTCCACCTCTAAAGTCTCCGTCTTCTCCACAAAGATCG
AAATCTCCCTGCGCAAGAAAACTCCCGGCCAGAAATGGAGCGCCCTGGAA
TCTACCACCGGACCTGTCATCTCTACTCCCCAGCCCACGGTTACACCCAC
CACTACCACCACACAAGCCCAAGCCCCATCATACCCCACCTCCTCCCGCC
ACGGCGCCAAAGACTGGGACAAGCTCGCCTCCAGCCTAACCCAGAAACCG
AAAAAGGACAAGACCAAGAGCAGCTCAAAGCCCAAGGATGAACAAGGAGA
AGGAGAAGAAGACGATGGAGAAGCATCCGACGCCGAATCCATCAACTCCG
ACTTCGGAGGCGGTGATGCCGTCGATGGCTTCTTCAAGAAACTCTATGCC
AATGCGGACCCGGATACCCGCCGCGCTATGGTGAAGAGTTACGTGGAGAG
TCAGGGGACGTCGCTGAGTACGAATTGGGATGAGGTTGGGCAGGGGCCGG
TTAAGGTTAGGCCGCCTAGTGAGTGAATGGATTGGGAGTGTGTGAATCCG
GTGCCGCCGGAGATTTGGTACTGGGTGATTTGTGGATGGGATACTGATTC
GACCAGGCTACTTCCTGACTGGGTGCCGTTTGCGCCCTGGCGCTGGTGGA
TTCATATTCGCCAGGTATTTCTGCCCATGTCGTATCTGTGGTCTAAGAGG
TTCTCGCATCCCTTGGACCCTCTCACCAAGCAGCTGCGGCAGGAGCTGTA
TACCCAGCCGTATGACTCGATTGACTTTGCGGCGCATCGCAACTCAATTC
ACAAGGCAGACAATTACTACCCCAAGACTTGGCTGCTGAATACCTTGAAC
TCTCTGCTCGTCAACATCTGGAACCCCTACCTTCGTGTCCCTGCCATTGT
GCGTCGCGCGGAGGAGTGGACGTGGGAGTTGGTCCGCATGGAGGACGAGA
ATACCGACTACGCTGGCCTGGGGCCTGTGAGCAACCCGTTCAACATGATT
GTGTGCTACGAACATGACGGTCCGGACAGCTACTCGGTCCGTCGCCATCG
CGAACGGCTGCACGACTACATGTGGATGAAGGACGAGGGCATGCTGATGA
ACGGCACCAACGGCGTCCAGGTATGGGATACGGCCTTTATCACGCAGAGT
ATCGTGGTGGCCGGGTTCGGCGATGACCCGAAATGGCGGCCCATGCTCAC
CAAGGCACTGGAGTTCCTGGAAGACCATCAGCTGCGCGAGAACGTGCCGG
ACCAGGAGAAGTGCTACCGCCAGCACCGCAAGGGCGCATGGCCATTCAGC
AACAAGACGCAGGGATACACGGTCAGCGACTGCACCGCCGAGGGACTGCG
CTCGACCATCCAGCTGCAGGAGATGCACAACTTCCCGAAACTGATCTCGG
AGGAGCGATTGAAGGACAGCGTCGACTGCCTGCTCCTGATGCAGAACCCC
ACTGGTGGGTTCACCGAGTACGAAACCACGCGGGCATCCGAGAAAGTCGA
GTGGCTCAACGCAGCCGAGGTATTCGGCGGAATCATGATCGGATACGACT
ATCCCGAGTGCACGACCGCGTCCGTCACCGCGCTCTCCCTCTTCAGCAAA
TACTATCCGAATTACCGGGCCGCAGAGATCAAGTCCGCCAAGGAAAAGGC
CGTTCAGTACATCAAGCGGGTGCAGCGCGCCGATGGCAGCTGGTACGGGT
CCTGGGGCATCTGCTTCACGTACGCGGCGATGTTTGCCCTGGAGAGTTTG
GCCAGCATCGGAGAGACGTACGAGACGAGCGCGGACTCCCGACGCGGATG
CGAGTTCCTCATCTCGAAGCAAAAGGAGGACGGCGGCTGGGGCGAGTCGT
ACCTCAGCAGCGAGAAGCACGTCTATGTGCAGCACGAGAAATCGCAGGTC
GTGCAGACGGCATGGGCCAGTCTGGCATTGATGGAGGCCGGGTATCCGCA
TAAGGAGCCGCTGCGGAAAGCAATGCAGCTGCTGATGTCGCGGCAGCAGG
CCAATGGAGAGTGGTTGCAGGAGTCGATTGAGGGAGTGTTTAACCAATCT
TGCATGATTTCGTATCCCAACTATAAGCTGTACTGGCCGATCCGGGCGTT
GGGATTGTATGCGCGCAAGTTTGGCAATGAGGAGTTGGCACAACGCAACA
CCTCCATCCAAACACCACCACACTCCAACCCACCACCTCAAAACCTCAAA
ATGAACGCCGCCTCCCTCGGCGACACCGCCCTCCAACAGTCCGACCCCCA
CACCGCAACAATCCACTACACGACCGCCCTCCTCACGCACCCCCGCTCGC
CCAGCTACTTCATCAAACGCTCAACAGCCTTCTCACGCCTAAAGCCCACA
CCGAACCTCTCCGCCGCCCTCCGCGATGCCGAATCCGCCGTTCTTCTCGC
CCGCGAGCGGGGGAAACGCGAGCTGATCGTCGAGGCGCAGATGCGGAGAG
CCATCGTTTTGTTTCTCATGGGGAGATACGTTGCTGCGGAGGGGGTGGTA
GGCGTGGTGGAGGGTATGATTGGATTGGATAAGGACGGTAATGGTGGGGA
AGATAAGGAGGAGAAGGTGAGGAAGGCGATGGGGGGTGGTGCTGGGAAGG
GTATTGAGGCGGAGGTGAGGATTTGGGGGGCGAAGATTAGGGCGAAGGTC
AACGGTTTGGGCGAGCAGAGTGGTGAGCGTGGGGAGAAGGTGGAGGAGGT
TCCGGTGGGGGTTAAAGTGCCGGGGGAGAAGGAGTTGAGGGGACAGTTGG
AGGAGTTGAGGGGAGGGAAGGTTGGTGAGGGTATTGGTGGTGAAGAGAAG
CAGAGTCAGAAGGTTGAGGATAAGGTGGAGGAGAAGGGGAGAGCTGAGGT
CAAGGAGACTCAGCAGCAGCAACAACAGCAGCAGCAGCAGGTCAAGGTCC
GTCATGAATGGTACCAGTCCGGTGAGACGGTTGTTGTGACGCTTTACGTG
AAAGGCGTGCCCAAGGATAAAGTGGCTATTGAGCTGAAAGAGGACTCGAC
ATCCATCCAATTCCCCCTCCCCTCCGGCGCCGAATACGACTTCACTCTCG
ACCCGCTCTTCGCTCCCATCGACCCCTCCACCTCTAAAGTCTCCGTCTTC
TCCACAAAGATCGAAATCTCCCTGCGCAAGAAAACTCCCGGCCAGAAATG
GAGCGCCCTGGAATCTACCACCGGACCTGTCATCTCTACTCCCCAGCCCA
CGGTTACACCCACCACTACCACCACACAAGCCCAAGCCCCATCATACCCC
ACCTCCTCCCGCCACGGCGCCAAAGACTGGGACAAGCTCGCCTCCAGCCT
AACCCAGAAACCGAAAAAGGACAAGACCAAGAGCAGCTCAAAGCCCAAGG
ATGAACAAGGAGAAGGAGAAGAAGACGATGGAGAAGCATCCGACGCCGAA
TCCATCAACTCCGACTTCGGAGGCGGTGATGCCGTCGATGGCTTCTTCAA
GAAACTCTATGCCAATGCGGACCCGGATACCCGCCGCGCTATGGTGAAGA
GTTACGTGGAGAGTCAGGGGACGTCGCTGAGTACGAATTGGGATGAGGTT
GGGCAGGGGCCGGTTAAGGTTAGGCCGCCTAGTGAGTGAATGGATTGGGA
GTGTGTGAATCCGGTGCCGCCGGAGATTTGGTACTGGGTGATTTGTGGAT
GGGATACTGATTCGACCAGGCTACTTCCTGACTGGGTGCCGTTTGCGCCC
TGGCGCTGGTGGATTCATATTCGCCAGGTATTTCTGCCCATGTCGTATCT
GTGGTCTAAGAGGTTCTCGCATCCCTTGGACCCTCTCACCAAGCAGCTGC
GGCAGGAGCTGTATACCCAGCCGTATGACTCGATTGACTTTGCGGCGCAT
CGCAACTCAATTCACAAGGCAGACAATTACTACCCCAAGACTTGGCTGCT
GAATACCTTGAACTCTCTGCTCGTCAACATCTGGAACCCCTACCTTCGTG
TCCCTGCCATTGTGCGTCGCGCGGAGGAGTGGACGTGGGAGTTGGTCCGC
ATGGAGGACGAGAATACCGACTACGCTGGCCTGGGGCCTGTGAGCAACCC
GTTCAACATGATTGTGTGCTACGAACATGACGGTCCGGACAGCTACTCGG
TCCGTCGCCATCGCGAACGGCTGCACGACTACATGTGGATGAAGGACGAG
GGCATGCTGATGAACGGCACCAACGGCGTCCAGGTATGGGATACGGCCTT
TATCACGCAGAGTATCGTGGTGGCCGGGTTCGGCGATGACCCGAAATGGC
GGCCCATGCTCACCAAGGCACTGGAGTTCCTGGAAGACCATCAGCTGCGC
GAGAACGTGCCGGACCAGGAGAAGTGCTACCGCCAGCACCGCAAGGGCGC
ATGGCCATTCAGCAACAAGACGCAGGGATACACGGTCAGCGACTGCACCG
CCGAGGGACTGCGCTCGACCATCCAGCTGCAGGAGATGCACAACTTCCCG
AAACTGATCTCGGAGGAGCGATTGAAGGACAGCGTCGACTGCCTGCTCCT
GATGCAGAACCCCACTGGTGGGTTCACCGAGTACGAAACCACGCGGGCAT
CCGAGAAAGTCGAGTGGCTCAACGCAGCCGAGGTATTCGGCGGAATCATG
ATCGGATACGACTATCCCGAGTGCACGACCGCGTCCGTCACCGCGCTCTC
CCTCTTCAGCAAATACTATCCGAATTACCGGGCCGCAGAGATCAAGTCCG
CCAAGGAAAAGGCCGTTCAGTACATCAAGCGGGTGCAGCGCGCCGATGGC
AGCTGGTACGGGTCCTGGGGCATCTGCTTCACGTACGCGGCGATGTTTGC
CCTGGAGAGTTTGGCCAGCATCGGAGAGACGTACGAGACGAGCGCGGACT
CCCGACGCGGATGCGAGTTCCTCATCTCGAAGCAAAAGGAGGACGGCGGC
TGGGGCGAGTCGTACCTCAGCAGCGAGAAGCACGTCTATGTGCAGCACGA
GAAATCGCAGGTCGTGCAGACGGCATGGGCCAGTCTGGCATTGATGGAGG
CCGGGTATCCGCATAAGGAGCCGCTGCGGAAAGCAATGCAGCTGCTGATG
TCGCGGCAGCAGGCCAATGGAGAGTGGTTGCAGGAGTCGATTGAGGGAGT
GTTTAACCAATCTTGCATGATTTCGTATCCCAACTATAAGCTGTACTGGC
CGATCCGGGCGTTGGGATTGTATGCGCGCAAGTTTGGCAATGAGGAGTTG
GCACAACGCAACACCTCCATCCAAACACCACCACACTCCAACCCACCACC
TCAAAACCTCAAAATGAACGCCGCCTCCCTCGGCGACACCGCCCTCCAAC
AGTCCGACCCCCACACCGCAACAATCCACTACACGACCGCCCTCCTCACG
CACCCCCGCTCGCCCAGCTACTTCATCAAACGCTCAACAGCCTTCTCACG
CCTAAAGCCCACACCGAACCTCTCCGCCGCCCTCCGCGATGCCGAATCCG
CCGTTCTTCTCGCCCGCGAGCGGGGGAAACGCGAGCTGATCGTCGAGGCG
CAGATGCGGAGAGCCATCGTTTTGTTTCTCATGGGGAGATACGTTGCTGC
GGAGGGGGTGGTAGGCGTGGTGGAGGGTATGATTGGATTGGATAAGGACG
GTAATGGTGGGGAAGATAAGGAGGAGAAGGTGAGGAAGGCGATGGGGGGT
GGTGCTGGGAAGGGTATTGAGGCGGAGGTGAGGATTTGGGGGGCGAAGAT
TAGGGCGAAGGTCAACGGTTTGGGCGAGCAGAGTGGTGAGCGTGGGGAGA
AGGTGGAGGAGGTTCCGGTGGGGGTTAAAGTGCCGGGGGAGAAGGAGTTG
AGGGGACAGTTGGAGGAGTTGAGGGGAGGGAAGGTTGGTGAGGGTATTGG
TGGTGAAGAGAAGCAGAGTCAGAAGGTTGAGGATAAGGTGGAGGAGAAGG
GGAGAGCTGAGGTCAAGGAGACTCAGCAGCAGCAACAACAGCAGCAGCAG
CAGGTCAAGGTCCGTCATGAATGGTACCAGTCCGGTGAGACGGTTGTTGT
GACGCTTTACGTGAAAGGCGTGCCCAAGGATAAAGTGGCTATTGAGCTGA
AAGAGGACTCGACATCCATCCAATTCCCCCTCCCCTCCGGCGCCGAATAC
GACTTCACTCTCGACCCGCTCTTCGCTCCCATCGACCCCTCCACCTCTAA
AGTCTCCGTCTTCTCCACAAAGATCGAAATCTCCCTGCGCAAGAAAACTC
CCGGCCAGAAATGGAGCGCCCTGGAATCTACCACCGGACCTGTCATCTCT
ACTCCCCAGCCCACGGTTACACCCACCACTACCACCACACAAGCCCAAGC
CCCATCATACCCCACCTCCTCCCGCCACGGCGCCAAAGACTGGGACAAGC
TCGCCTCCAGCCTAACCCAGAAACCGAAAAAGGACAAGACCAAGAGCAGC
TCAAAGCCCAAGGATGAACAAGGAGAAGGAGAAGAAGACGATGGAGAAGC
ATCCGACGCCGAATCCATCAACTCCGACTTCGGAGGCGGTGATGCCGTCG
ATGGCTTCTTCAAGAAACTCTATGCCAATGCGGACCCGGATACCCGCCGC
GCTATGGTGAAGAGTTACGTGGAGAGTCAGGGGACGTCGCTGAGTACGAA
TTGGGATGAGGTTGGGCAGGGGCCGGTTAAGGTTAGGCCGCCTAGTGAGT
GAATGGATTGGGAGTGTGTGAATCCGGTGCCGCCGGAGATTTGGTACTGG
GTGATTTGTGGATGGGATACTGATTCGACCAGGCTACTTCCTGACTGGGT
GCCGTTTGCGCCCTGGCGCTGGTGGATTCATATTCGCCAGGTATTTCTGC
CCATGTCGTATCTGTGGTCTAAGAGGTTCTCGCATCCCTTGGACCCTCTC
ACCAAGCAGCTGCGGCAGGAGCTGTATACCCAGCCGTATGACTCGATTGA
CTTTGCGGCGCATCGCAACTCAATTCACAAGGCAGACAATTACTACCCCA
AGACTTGGCTGCTGAATACCTTGAACTCTCTGCTCGTCAACATCTGGAAC
CCCTACCTTCGTGTCCCTGCCATTGTGCGTCGCGCGGAGGAGTGGACGTG
GGAGTTGGTCCGCATGGAGGACGAGAATACCGACTACGCTGGCCTGGGGC
CTGTGAGCAACCCGTTCAACATGATTGTGTGCTACGAACATGACGGTCCG
GACAGCTACTCGGTCCGTCGCCATCGCGAACGGCTGCACGACTACATGTG
GATGAAGGACGAGGGCATGCTGATGAACGGCACCAACGGCGTCCAGGTAT
GGGATACGGCCTTTATCACGCAGAGTATCGTGGTGGCCGGGTTCGGCGAT
GACCCGAAATGGCGGCCCATGCTCACCAAGGCACTGGAGTTCCTGGAAGA
CCATCAGCTGCGCGAGAACGTGCCGGACCAGGAGAAGTGCTACCGCCAGC
ACCGCAAGGGCGCATGGCCATTCAGCAACAAGACGCAGGGATACACGGTC
AGCGACTGCACCGCCGAGGGACTGCGCTCGACCATCCAGCTGCAGGAGAT
GCACAACTTCCCGAAACTGATCTCGGAGGAGCGATTGAAGGACAGCGTCG
ACTGCCTGCTCCTGATGCAGAACCCCACTGGTGGGTTCACCGAGTACGAA
ACCACGCGGGCATCCGAGAAAGTCGAGTGGCTCAACGCAGCCGAGGTATT
CGGCGGAATCATGATCGGATACGACTATCCCGAGTGCACGACCGCGTCCG
TCACCGCGCTCTCCCTCTTCAGCAAATACTATCCGAATTACCGGGCCGCA
GAGATCAAGTCCGCCAAGGAAAAGGCCGTTCAGTACATCAAGCGGGTGCA
GCGCGCCGATGGCAGCTGGTACGGGTCCTGGGGCATCTGCTTCACGTACG
CGGCGATGTTTGCCCTGGAGAGTTTGGCCAGCATCGGAGAGACGTACGAG
ACGAGCGCGGACTCCCGACGCGGATGCGAGTTCCTCATCTCGAAGCAAAA
GGAGGACGGCGGCTGGGGCGAGTCGTACCTCAGCAGCGAGAAGCACGTCT
ATGTGCAGCACGAGAAATCGCAGGTCGTGCAGACGGCATGGGCCAGTCTG
GCATTGATGGAGGCCGGGTATCCGCATAAGGAGCCGCTGCGGAAAGCAAT
GCAGCTGCTGATGTCGCGGCAGCAGGCCAATGGAGAGTGGTTGCAGGAGT
CGATTGAGGGAGTGTTTAACCAATCTTGCATGATTTCGTATCCCAACTAT
AAGCTGTACTGGCCGATCCGGGCGTTGGGATTGTATGCGCGCAAGTTTGG
CAATGAGGAGTTGGCACAACGCAACACCTCCATCCAAACACCACCACACT
CCAACCCACCACCTCAAAACCTCAAAATGAACGCCGCCTCCCTCGGCGAC
ACCGCCCTCCAACAGTCCGACCCCCACACCGCAACAATCCACTACACGAC
CGCCCTCCTCACGCACCCCCGCTCGCCCAGCTACTTCATCAAACGCTCAA
CAGCCTTCTCACGCCTAAAGCCCACACCGAACCTCTCCGCCGCCCTCCGC
GATGCCGAATCCGCCGTTCTTCTCGCCCGCGAGCGGGGGAAACGCGAGCT
GATCGTCGAGGCGCAGATGCGGAGAGCCATCGTTTTGTTTCTCATGGGGA
GATACGTTGCTGCGGAGGGGGTGGTAGGCGTGGTGGAGGGTATGATTGGA
TTGGATAAGGACGGTAATGGTGGGGAAGATAAGGAGGAGAAGGTGAGGAA
GGCGATGGGGGGTGGTGCTGGGAAGGGTATTGAGGCGGAGGTGAGGATTT
GGGGGGCGAAGATTAGGGCGAAGGTCAACGGTTTGGGCGAGCAGAGTGGT
GAGCGTGGGGAGAAGGTGGAGGAGGTTCCGGTGGGGGTTAAAGTGCCGGG
GGAGAAGGAGTTGAGGGGACAGTTGGAGGAGTTGAGGGGAGGGAAGGTTG
GTGAGGGTATTGGTGGTGAAGAGAAGCAGAGTCAGAAGGTTGAGGATAAG
GTGGAGGAGAAGGGGAGAGCTGAGGTCAAGGAGACTCAGCAGCAGCAACA
ACAGCAGCAGCAGCAGGTCAAGGTCCGTCATGAATGGTACCAGTCCGGTG
AGACGGTTGTTGTGACGCTTTACGTGAAAGGCGTGCCCAAGGATAAAGTG
GCTATTGAGCTGAAAGAGGACTCGACATCCATCCAATTCCCCCTCCCCTC
CGGCGCCGAATACGACTTCACTCTCGACCCGCTCTTCGCTCCCATCGACC
CCTCCACCTCTAAAGTCTCCGTCTTCTCCACAAAGATCGAAATCTCCCTG
CGCAAGAAAACTCCCGGCCAGAAATGGAGCGCCCTGGAATCTACCACCGG
ACCTGTCATCTCTACTCCCCAGCCCACGGTTACACCCACCACTACCACCA
CACAAGCCCAAGCCCCATCATACCCCACCTCCTCCCGCCACGGCGCCAAA
GACTGGGACAAGCTCGCCTCCAGCCTAACCCAGAAACCGAAAAAGGACAA
GACCAAGAGCAGCTCAAAGCCCAAGGATGAACAAGGAGAAGGAGAAGAAG
ACGATGGAGAAGCATCCGACGCCGAATCCATCAACTCCGACTTCGGAGGC
GGTGATGCCGTCGATGGCTTCTTCAAGAAACTCTATGCCAATGCGGACCC
GGATACCCGCCGCGCTATGGTGAAGAGTTACGTGGAGAGTCAGGGGACGT
CGCTGAGTACGAATTGGGATGAGGTTGGGCAGGGGCCGGTTAAGGTTAGG
CCGCCTAGTGAGTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005811 | lipid droplet |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0016104 | triterpenoid biosynthetic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005515 | protein binding |
| GO:0042300 | beta-amyrin synthase activity |
| GO:0000250 | lanosterol synthase activity |
| GO:0016866 | intramolecular transferase activity |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | antiSMASH:Cluster_10000011.10 |
| Note | BUSCO:EOG09264LH2 |
| DBxref | InterPro:IPR008930 |
| DBxref | InterPro:IPR002365 |
| DBxref | InterPro:IPR007052 |
| DBxref | InterPro:IPR032697 |
| DBxref | InterPro:IPR007699 |
| DBxref | InterPro:IPR008978 |
| DBxref | InterPro:IPR011990 |
| DBxref | InterPro:IPR032696 |
| DBxref | InterPro:IPR018333 |
| DBxref | PFAM:PF13249 |
| DBxref | PFAM:PF13243 |
| DBxref | PFAM:PF05002 |
| DBxref | PFAM:PF00432 |
| DBxref | PFAM:PF04969 |
| 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 |
|---|
| ACJE01000001.1 | supercontig | ACJE01000001.1:1525938..1529480 + |
|
