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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000001.1:322777..325215- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_189003-T1 ID=ASPNIDRAFT_189003-T1|Name=ASPNIDRAFT_189003-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2439bp|location=Sequence derived from alignment at ACJE01000001.1:322777..325215- (Aspergillus niger ATCC 1015)
ATGGCAAGCAAATACGCATTGAAGACCAAAAACTGTCTGGGTGACAAATG
TCACAGCAATTCTACGGGCCCATCCTATATCAAAAAGACTGACACAGAGG
GCTGGCATCTGGTGGCCACCCAAGAACTGGGACGCTTGAAATGGGTTTAT
ATGAACGACAAGGAGGAGCGCAAGGCTCATCCCCAAGATGATACCACCAA
GTTCTTTCTGGATATTCCCATAGTATGTCTCACGCAGCTAGCTCCCTTGG
GGTGGTCGGGACTGCTAATTTGAATATGATCCAATTCAGGGCAAGCCTAA
CTCAGGACCTGCAAAAACAGCCTCCGAGGCCATCCACAAGGGCACCCAAT
TCCACATCAAAACGCAGGTGCGTGACCTGGGATGCTGGGCCGCCGACCTG
AGCTGTATCTTTTTTGTGACCCCAATGCTGGTCATGGCCTGGTATATTAC
TGGTGCTCAGATCGATGAAGCGTACGTGATTGAATTGATCCGCTTTATGT
TCAACTGTCAAAACCCCGACAATGGTGGCTGGGCGACATACCTGGAGGAG
GACCCTTCGCCGATGGGGACTACATTGGTCTATATTGCACTGCGACTCAT
GGGGGTCCCGGCTGACGATGAGCATCTCCGCAAAGCCCGGGAATTCTATC
TCAGCCACGGGGGCGCACTCTACCAGCCAGCCTGGGCCAAGTTCTGGCTT
GCTATGCTGGGACTGTATGACTGGGCGGGTACTGACCCTTACCCGGTTGA
GATGTGGTGAGTTCGTTGTTTCCTAATCTCTTTGCGGGTCAAGGAATAGA
TGGTATTGACTGAATGTCAGGCTCCTGCCCGAATGGTTTCCACTTAGCCC
ATGGAATTGGTTTGTAATTCCACGCCAAGTTTACCTGCCAATGTGTTACC
TCTCATCTCGAAGATTTACATTGCCAACCAATGATCTGTTAGATGAGATT
CGGGCGGAGCTTTTTCCACAAGAATTCTCCTCCATTAATTTCGCCGCATA
TGAAGGAGTAGTGCGCCCGTCCAAGCGGCATCAAGCAAAGAGTTGGATTC
TGCACATTCTGAATTGGATCCTTACCAATGTGTGGGACCCGTGGCTCTGC
CCCAGTTCATTGAAAAGAAAGGCAGAAGAACGAGCGTGGGACATCCTGCA
AAACATGAACAACGCTAGTAACTCGACTGGAATCATCAGTATGGACGCTT
GGCTGAACATGATTGCTGTCTACTGCGGTGAGGGGCCTAGCTCTCCCACT
CTAAGGCGCATGCAGGAAGCAAGCCTAGAATATCTCTGGATGGGTTCGTC
GGGAATGCAGTCCATGAGTATCCATGGGGGCCACGCGTGGGACACGTCCT
TGGCGCTGCAGACGCTTGTGTATACAGGGCTTGCCGATGACCGTGATTTC
CGAAATAACACCGTGCAAGCATATGAATACTTGATACAGCAGCAGCTCGT
AGATGACTGGGATAATGCTAATATCTGTCATCGTCCTAGTCGTCTCGGAG
CCTGGTCGTTTACGACCCGTTACCATGGCAGTCCGTGCTCTGATTGCACA
GCCGAGTCACTGAAAGCCATCTTGATGGTCGAGAGTCTATTGGGTTTACG
ACAAATGAAGGAAGCTAACCTCCGTTTGGCAGTGGATAATCTTCTGATGA
TCCAGAATGCCAGCGGGGGCTATAGCAGCTTCGAGCCCATAGCCGCGGGC
AACTGGCTGGAGTACTTCAATGGGACGGAGATGTTTGGACAAGTAATGAC
AGAACATGACTACGTTGAGTGCACGTCCTCCTGTATCACAGCACTGGCAC
TTTTTAGGGCTCGAAATGGCGAGTATCGTCGCAACGAGGTGGATCGAGCC
ATTGACAGGGGGGTAAAATTCGTCGAGACAAGTCAGCGAGATGACGGGAG
CTGGATTGCTTCTTGGGGAATTACGTTTACATATGGTGCTTTCTTTGCTA
TGGAAGCCTTGCACTATGGAGGCCGAACATATGAGAACTCCTCTGTGGTC
AGAGCAGGATGTCGGTTTTTGATGGACATGCGGGAGTCTGACGGAGGATG
GGGAGAGACATTGGAGGTAAGTACATTACAACTGCTGCGGTCGCGGAGCT
AACAGATGCCGTTTAGTCTCGTATGATCGGAAAATATGTACACGCACCTA
GATCACACACCGTCCAGACTGCATGGTCCTGCCTCGCGTTGATGTATGCC
AGATATCCCGATCCGAAGCCTATAAAACAAGGAATTTGTCTTATTATCAG
CCGACAGAAGCCGAATGGAAAATGGGAACAAGAGTACCCCGTCGGTAGTG
GCATGCTCACATGGTAAGTTTGCTAGAATTGCCTGTTAATATGAGTTTCA
TACTGACCAGCAGCAGTCATATCCAATATCATAACTACATATACTCTTTT
CCAATCCGGGCTTTGGCAATGTATGAGAGGCTGTATGGT back to topCoding sequence (CDS) from alignment at ACJE01000001.1:322777..325215- >ASPNIDRAFT_189003-T1 ID=ASPNIDRAFT_189003-T1|Name=ASPNIDRAFT_189003-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=10770bp|location=Sequence derived from alignment at ACJE01000001.1:322777..325215- (Aspergillus niger ATCC 1015)
TCATATCCAATATCATAACTACATATACTCTTTTCCAATCCGGGCTTTGG
CAATGTATGAGAGGCTGTATGGTACTGCATGGTCCTGCCTCGCGTTGATG
TATGCCAGATATCCCGATCCGAAGCCTATAAAACAAGGAATTTGTCTTAT
TATCAGCCGACAGAAGCCGAATGGAAAATGGGAACAAGAGTACCCCGTCG
GTAGTGGCATGCTCACATGGCTCCTGCCCGAATGGTTTCCACTTAGCCCA
TGGAATTGGTTTGTAATTCCACGCCAAGTTTACCTGCCAATGTGTTACCT
CTCATCTCGAAGATTTACATTGCCAACCAATGATCTGTTAGATGAGATTC
GGGCGGAGCTTTTTCCACAAGAATTCTCCTCCATTAATTTCGCCGCATAT
GAAGGAGTAGTGCGCCCGTCCAAGCGGCATCAAGCAAAGAGTTGGATTCT
GCACATTCTGAATTGGATCCTTACCAATGTGTGGGACCCGTGGCTCTGCC
CCAGTTCATTGAAAAGAAAGGCAGAAGAACGAGCGTGGGACATCCTGCAA
AACATGAACAACGCTAGTAACTCGACTGGAATCATCAGTATGGACGCTTG
GCTGAACATGATTGCTGTCTACTGCGGTGAGGGGCCTAGCTCTCCCACTC
TAAGGCGCATGCAGGAAGCAAGCCTAGAATATCTCTGGATGGGTTCGTCG
GGAATGCAGTCCATGAGTATCCATGGGGGCCACGCGTGGGACACGTCCTT
GGCGCTGCAGACGCTTGTGTATACAGGGCTTGCCGATGACCGTGATTTCC
GAAATAACACCGTGCAAGCATATGAATACTTGATACAGCAGCAGCTCGTA
GATGACTGGGATAATGCTAATATCTGTCATCGTCCTAGTCGTCTCGGAGC
CTGGTCGTTTACGACCCGTTACCATGGCAGTCCGTGCTCTGATTGCACAG
CCGAGTCACTGAAAGCCATCTTGATGGTCGAGAGTCTATTGGGTTTACGA
CAAATGAAGGAAGCTAACCTCCGTTTGGCAGTGGATAATCTTCTGATGAT
CCAGAATGCCAGCGGGGGCTATAGCAGCTTCGAGCCCATAGCCGCGGGCA
ACTGGCTGGAGTACTTCAATGGGACGGAGATGTTTGGACAAGTAATGACA
GAACATGACTACGTTGAGTGCACGTCCTCCTGTATCACAGCACTGGCACT
TTTTAGGGCTCGAAATGGCGAGTATCGTCGCAACGAGGTGGATCGAGCCA
TTGACAGGGGGGTAAAATTCGTCGAGACAAGTCAGCGAGATGACGGGAGC
TGGATTGCTTCTTGGGGAATTACGTTTACATATGGTGCTTTCTTTGCTAT
GGAAGCCTTGCACTATGGAGGCCGAACATATGAGAACTCCTCTGTGGTCA
GAGCAGGATGTCGGTTTTTGATGGACATGCGGGAGTCTGACGGAGGATGG
GGAGAGACATTGGAGGGCAAGCCTAACTCAGGACCTGCAAAAACAGCCTC
CGAGGCCATCCACAAGGGCACCCAATTCCACATCAAAACGCAGGTGCGTG
ACCTGGGATGCTGGGCCGCCGACCTGAGCTGTATCTTTTTTGTGACCCCA
ATGCTGGTCATGGCCTGGTATATTACTGGTGCTCAGATCGATGAAGCGTA
CGTGATTGAATTGATCCGCTTTATGTTCAACTGTCAAAACCCCGACAATG
GTGGCTGGGCGACATACCTGGAGGAGGACCCTTCGCCGATGGGGACTACA
TTGGTCTATATTGCACTGCGACTCATGGGGGTCCCGGCTGACGATGAGCA
TCTCCGCAAAGCCCGGGAATTCTATCTCAGCCACGGGGGCGCACTCTACC
AGCCAGCCTGGGCCAAGTTCTGGCTTGCTATGCTGGGACTGTATGACTGG
GCGGGTACTGACCCTTACCCGGTTGAGATGTGATGGCAAGCAAATACGCA
TTGAAGACCAAAAACTGTCTGGGTGACAAATGTCACAGCAATTCTACGGG
CCCATCCTATATCAAAAAGACTGACACAGAGGGCTGGCATCTGGTGGCCA
CCCAAGAACTGGGACGCTTGAAATGGGTTTATATGAACGACAAGGAGGAG
CGCAAGGCTCATCCCCAAGATGATACCACCAAGTTCTTTCTGGATATTCC
CATATCATATCCAATATCATAACTACATATACTCTTTTCCAATCCGGGCT
TTGGCAATGTATGAGAGGCTGTATGGTACTGCATGGTCCTGCCTCGCGTT
GATGTATGCCAGATATCCCGATCCGAAGCCTATAAAACAAGGAATTTGTC
TTATTATCAGCCGACAGAAGCCGAATGGAAAATGGGAACAAGAGTACCCC
GTCGGTAGTGGCATGCTCACATGGCTCCTGCCCGAATGGTTTCCACTTAG
CCCATGGAATTGGTTTGTAATTCCACGCCAAGTTTACCTGCCAATGTGTT
ACCTCTCATCTCGAAGATTTACATTGCCAACCAATGATCTGTTAGATGAG
ATTCGGGCGGAGCTTTTTCCACAAGAATTCTCCTCCATTAATTTCGCCGC
ATATGAAGGAGTAGTGCGCCCGTCCAAGCGGCATCAAGCAAAGAGTTGGA
TTCTGCACATTCTGAATTGGATCCTTACCAATGTGTGGGACCCGTGGCTC
TGCCCCAGTTCATTGAAAAGAAAGGCAGAAGAACGAGCGTGGGACATCCT
GCAAAACATGAACAACGCTAGTAACTCGACTGGAATCATCAGTATGGACG
CTTGGCTGAACATGATTGCTGTCTACTGCGGTGAGGGGCCTAGCTCTCCC
ACTCTAAGGCGCATGCAGGAAGCAAGCCTAGAATATCTCTGGATGGGTTC
GTCGGGAATGCAGTCCATGAGTATCCATGGGGGCCACGCGTGGGACACGT
CCTTGGCGCTGCAGACGCTTGTGTATACAGGGCTTGCCGATGACCGTGAT
TTCCGAAATAACACCGTGCAAGCATATGAATACTTGATACAGCAGCAGCT
CGTAGATGACTGGGATAATGCTAATATCTGTCATCGTCCTAGTCGTCTCG
GAGCCTGGTCGTTTACGACCCGTTACCATGGCAGTCCGTGCTCTGATTGC
ACAGCCGAGTCACTGAAAGCCATCTTGATGGTCGAGAGTCTATTGGGTTT
ACGACAAATGAAGGAAGCTAACCTCCGTTTGGCAGTGGATAATCTTCTGA
TGATCCAGAATGCCAGCGGGGGCTATAGCAGCTTCGAGCCCATAGCCGCG
GGCAACTGGCTGGAGTACTTCAATGGGACGGAGATGTTTGGACAAGTAAT
GACAGAACATGACTACGTTGAGTGCACGTCCTCCTGTATCACAGCACTGG
CACTTTTTAGGGCTCGAAATGGCGAGTATCGTCGCAACGAGGTGGATCGA
GCCATTGACAGGGGGGTAAAATTCGTCGAGACAAGTCAGCGAGATGACGG
GAGCTGGATTGCTTCTTGGGGAATTACGTTTACATATGGTGCTTTCTTTG
CTATGGAAGCCTTGCACTATGGAGGCCGAACATATGAGAACTCCTCTGTG
GTCAGAGCAGGATGTCGGTTTTTGATGGACATGCGGGAGTCTGACGGAGG
ATGGGGAGAGACATTGGAGGGCAAGCCTAACTCAGGACCTGCAAAAACAG
CCTCCGAGGCCATCCACAAGGGCACCCAATTCCACATCAAAACGCAGGTG
CGTGACCTGGGATGCTGGGCCGCCGACCTGAGCTGTATCTTTTTTGTGAC
CCCAATGCTGGTCATGGCCTGGTATATTACTGGTGCTCAGATCGATGAAG
CGTACGTGATTGAATTGATCCGCTTTATGTTCAACTGTCAAAACCCCGAC
AATGGTGGCTGGGCGACATACCTGGAGGAGGACCCTTCGCCGATGGGGAC
TACATTGGTCTATATTGCACTGCGACTCATGGGGGTCCCGGCTGACGATG
AGCATCTCCGCAAAGCCCGGGAATTCTATCTCAGCCACGGGGGCGCACTC
TACCAGCCAGCCTGGGCCAAGTTCTGGCTTGCTATGCTGGGACTGTATGA
CTGGGCGGGTACTGACCCTTACCCGGTTGAGATGTGATGGCAAGCAAATA
CGCATTGAAGACCAAAAACTGTCTGGGTGACAAATGTCACAGCAATTCTA
CGGGCCCATCCTATATCAAAAAGACTGACACAGAGGGCTGGCATCTGGTG
GCCACCCAAGAACTGGGACGCTTGAAATGGGTTTATATGAACGACAAGGA
GGAGCGCAAGGCTCATCCCCAAGATGATACCACCAAGTTCTTTCTGGATA
TTCCCATATCATATCCAATATCATAACTACATATACTCTTTTCCAATCCG
GGCTTTGGCAATGTATGAGAGGCTGTATGGTACTGCATGGTCCTGCCTCG
CGTTGATGTATGCCAGATATCCCGATCCGAAGCCTATAAAACAAGGAATT
TGTCTTATTATCAGCCGACAGAAGCCGAATGGAAAATGGGAACAAGAGTA
CCCCGTCGGTAGTGGCATGCTCACATGGCTCCTGCCCGAATGGTTTCCAC
TTAGCCCATGGAATTGGTTTGTAATTCCACGCCAAGTTTACCTGCCAATG
TGTTACCTCTCATCTCGAAGATTTACATTGCCAACCAATGATCTGTTAGA
TGAGATTCGGGCGGAGCTTTTTCCACAAGAATTCTCCTCCATTAATTTCG
CCGCATATGAAGGAGTAGTGCGCCCGTCCAAGCGGCATCAAGCAAAGAGT
TGGATTCTGCACATTCTGAATTGGATCCTTACCAATGTGTGGGACCCGTG
GCTCTGCCCCAGTTCATTGAAAAGAAAGGCAGAAGAACGAGCGTGGGACA
TCCTGCAAAACATGAACAACGCTAGTAACTCGACTGGAATCATCAGTATG
GACGCTTGGCTGAACATGATTGCTGTCTACTGCGGTGAGGGGCCTAGCTC
TCCCACTCTAAGGCGCATGCAGGAAGCAAGCCTAGAATATCTCTGGATGG
GTTCGTCGGGAATGCAGTCCATGAGTATCCATGGGGGCCACGCGTGGGAC
ACGTCCTTGGCGCTGCAGACGCTTGTGTATACAGGGCTTGCCGATGACCG
TGATTTCCGAAATAACACCGTGCAAGCATATGAATACTTGATACAGCAGC
AGCTCGTAGATGACTGGGATAATGCTAATATCTGTCATCGTCCTAGTCGT
CTCGGAGCCTGGTCGTTTACGACCCGTTACCATGGCAGTCCGTGCTCTGA
TTGCACAGCCGAGTCACTGAAAGCCATCTTGATGGTCGAGAGTCTATTGG
GTTTACGACAAATGAAGGAAGCTAACCTCCGTTTGGCAGTGGATAATCTT
CTGATGATCCAGAATGCCAGCGGGGGCTATAGCAGCTTCGAGCCCATAGC
CGCGGGCAACTGGCTGGAGTACTTCAATGGGACGGAGATGTTTGGACAAG
TAATGACAGAACATGACTACGTTGAGTGCACGTCCTCCTGTATCACAGCA
CTGGCACTTTTTAGGGCTCGAAATGGCGAGTATCGTCGCAACGAGGTGGA
TCGAGCCATTGACAGGGGGGTAAAATTCGTCGAGACAAGTCAGCGAGATG
ACGGGAGCTGGATTGCTTCTTGGGGAATTACGTTTACATATGGTGCTTTC
TTTGCTATGGAAGCCTTGCACTATGGAGGCCGAACATATGAGAACTCCTC
TGTGGTCAGAGCAGGATGTCGGTTTTTGATGGACATGCGGGAGTCTGACG
GAGGATGGGGAGAGACATTGGAGGGCAAGCCTAACTCAGGACCTGCAAAA
ACAGCCTCCGAGGCCATCCACAAGGGCACCCAATTCCACATCAAAACGCA
GGTGCGTGACCTGGGATGCTGGGCCGCCGACCTGAGCTGTATCTTTTTTG
TGACCCCAATGCTGGTCATGGCCTGGTATATTACTGGTGCTCAGATCGAT
GAAGCGTACGTGATTGAATTGATCCGCTTTATGTTCAACTGTCAAAACCC
CGACAATGGTGGCTGGGCGACATACCTGGAGGAGGACCCTTCGCCGATGG
GGACTACATTGGTCTATATTGCACTGCGACTCATGGGGGTCCCGGCTGAC
GATGAGCATCTCCGCAAAGCCCGGGAATTCTATCTCAGCCACGGGGGCGC
ACTCTACCAGCCAGCCTGGGCCAAGTTCTGGCTTGCTATGCTGGGACTGT
ATGACTGGGCGGGTACTGACCCTTACCCGGTTGAGATGTGATGGCAAGCA
AATACGCATTGAAGACCAAAAACTGTCTGGGTGACAAATGTCACAGCAAT
TCTACGGGCCCATCCTATATCAAAAAGACTGACACAGAGGGCTGGCATCT
GGTGGCCACCCAAGAACTGGGACGCTTGAAATGGGTTTATATGAACGACA
AGGAGGAGCGCAAGGCTCATCCCCAAGATGATACCACCAAGTTCTTTCTG
GATATTCCCATATCATATCCAATATCATAACTACATATACTCTTTTCCAA
TCCGGGCTTTGGCAATGTATGAGAGGCTGTATGGTACTGCATGGTCCTGC
CTCGCGTTGATGTATGCCAGATATCCCGATCCGAAGCCTATAAAACAAGG
AATTTGTCTTATTATCAGCCGACAGAAGCCGAATGGAAAATGGGAACAAG
AGTACCCCGTCGGTAGTGGCATGCTCACATGGCTCCTGCCCGAATGGTTT
CCACTTAGCCCATGGAATTGGTTTGTAATTCCACGCCAAGTTTACCTGCC
AATGTGTTACCTCTCATCTCGAAGATTTACATTGCCAACCAATGATCTGT
TAGATGAGATTCGGGCGGAGCTTTTTCCACAAGAATTCTCCTCCATTAAT
TTCGCCGCATATGAAGGAGTAGTGCGCCCGTCCAAGCGGCATCAAGCAAA
GAGTTGGATTCTGCACATTCTGAATTGGATCCTTACCAATGTGTGGGACC
CGTGGCTCTGCCCCAGTTCATTGAAAAGAAAGGCAGAAGAACGAGCGTGG
GACATCCTGCAAAACATGAACAACGCTAGTAACTCGACTGGAATCATCAG
TATGGACGCTTGGCTGAACATGATTGCTGTCTACTGCGGTGAGGGGCCTA
GCTCTCCCACTCTAAGGCGCATGCAGGAAGCAAGCCTAGAATATCTCTGG
ATGGGTTCGTCGGGAATGCAGTCCATGAGTATCCATGGGGGCCACGCGTG
GGACACGTCCTTGGCGCTGCAGACGCTTGTGTATACAGGGCTTGCCGATG
ACCGTGATTTCCGAAATAACACCGTGCAAGCATATGAATACTTGATACAG
CAGCAGCTCGTAGATGACTGGGATAATGCTAATATCTGTCATCGTCCTAG
TCGTCTCGGAGCCTGGTCGTTTACGACCCGTTACCATGGCAGTCCGTGCT
CTGATTGCACAGCCGAGTCACTGAAAGCCATCTTGATGGTCGAGAGTCTA
TTGGGTTTACGACAAATGAAGGAAGCTAACCTCCGTTTGGCAGTGGATAA
TCTTCTGATGATCCAGAATGCCAGCGGGGGCTATAGCAGCTTCGAGCCCA
TAGCCGCGGGCAACTGGCTGGAGTACTTCAATGGGACGGAGATGTTTGGA
CAAGTAATGACAGAACATGACTACGTTGAGTGCACGTCCTCCTGTATCAC
AGCACTGGCACTTTTTAGGGCTCGAAATGGCGAGTATCGTCGCAACGAGG
TGGATCGAGCCATTGACAGGGGGGTAAAATTCGTCGAGACAAGTCAGCGA
GATGACGGGAGCTGGATTGCTTCTTGGGGAATTACGTTTACATATGGTGC
TTTCTTTGCTATGGAAGCCTTGCACTATGGAGGCCGAACATATGAGAACT
CCTCTGTGGTCAGAGCAGGATGTCGGTTTTTGATGGACATGCGGGAGTCT
GACGGAGGATGGGGAGAGACATTGGAGGGCAAGCCTAACTCAGGACCTGC
AAAAACAGCCTCCGAGGCCATCCACAAGGGCACCCAATTCCACATCAAAA
CGCAGGTGCGTGACCTGGGATGCTGGGCCGCCGACCTGAGCTGTATCTTT
TTTGTGACCCCAATGCTGGTCATGGCCTGGTATATTACTGGTGCTCAGAT
CGATGAAGCGTACGTGATTGAATTGATCCGCTTTATGTTCAACTGTCAAA
ACCCCGACAATGGTGGCTGGGCGACATACCTGGAGGAGGACCCTTCGCCG
ATGGGGACTACATTGGTCTATATTGCACTGCGACTCATGGGGGTCCCGGC
TGACGATGAGCATCTCCGCAAAGCCCGGGAATTCTATCTCAGCCACGGGG
GCGCACTCTACCAGCCAGCCTGGGCCAAGTTCTGGCTTGCTATGCTGGGA
CTGTATGACTGGGCGGGTACTGACCCTTACCCGGTTGAGATGTGATGGCA
AGCAAATACGCATTGAAGACCAAAAACTGTCTGGGTGACAAATGTCACAG
CAATTCTACGGGCCCATCCTATATCAAAAAGACTGACACAGAGGGCTGGC
ATCTGGTGGCCACCCAAGAACTGGGACGCTTGAAATGGGTTTATATGAAC
GACAAGGAGGAGCGCAAGGCTCATCCCCAAGATGATACCACCAAGTTCTT
TCTGGATATTCCCATATCATATCCAATATCATAACTACATATACTCTTTT
CCAATCCGGGCTTTGGCAATGTATGAGAGGCTGTATGGTACTGCATGGTC
CTGCCTCGCGTTGATGTATGCCAGATATCCCGATCCGAAGCCTATAAAAC
AAGGAATTTGTCTTATTATCAGCCGACAGAAGCCGAATGGAAAATGGGAA
CAAGAGTACCCCGTCGGTAGTGGCATGCTCACATGGCTCCTGCCCGAATG
GTTTCCACTTAGCCCATGGAATTGGTTTGTAATTCCACGCCAAGTTTACC
TGCCAATGTGTTACCTCTCATCTCGAAGATTTACATTGCCAACCAATGAT
CTGTTAGATGAGATTCGGGCGGAGCTTTTTCCACAAGAATTCTCCTCCAT
TAATTTCGCCGCATATGAAGGAGTAGTGCGCCCGTCCAAGCGGCATCAAG
CAAAGAGTTGGATTCTGCACATTCTGAATTGGATCCTTACCAATGTGTGG
GACCCGTGGCTCTGCCCCAGTTCATTGAAAAGAAAGGCAGAAGAACGAGC
GTGGGACATCCTGCAAAACATGAACAACGCTAGTAACTCGACTGGAATCA
TCAGTATGGACGCTTGGCTGAACATGATTGCTGTCTACTGCGGTGAGGGG
CCTAGCTCTCCCACTCTAAGGCGCATGCAGGAAGCAAGCCTAGAATATCT
CTGGATGGGTTCGTCGGGAATGCAGTCCATGAGTATCCATGGGGGCCACG
CGTGGGACACGTCCTTGGCGCTGCAGACGCTTGTGTATACAGGGCTTGCC
GATGACCGTGATTTCCGAAATAACACCGTGCAAGCATATGAATACTTGAT
ACAGCAGCAGCTCGTAGATGACTGGGATAATGCTAATATCTGTCATCGTC
CTAGTCGTCTCGGAGCCTGGTCGTTTACGACCCGTTACCATGGCAGTCCG
TGCTCTGATTGCACAGCCGAGTCACTGAAAGCCATCTTGATGGTCGAGAG
TCTATTGGGTTTACGACAAATGAAGGAAGCTAACCTCCGTTTGGCAGTGG
ATAATCTTCTGATGATCCAGAATGCCAGCGGGGGCTATAGCAGCTTCGAG
CCCATAGCCGCGGGCAACTGGCTGGAGTACTTCAATGGGACGGAGATGTT
TGGACAAGTAATGACAGAACATGACTACGTTGAGTGCACGTCCTCCTGTA
TCACAGCACTGGCACTTTTTAGGGCTCGAAATGGCGAGTATCGTCGCAAC
GAGGTGGATCGAGCCATTGACAGGGGGGTAAAATTCGTCGAGACAAGTCA
GCGAGATGACGGGAGCTGGATTGCTTCTTGGGGAATTACGTTTACATATG
GTGCTTTCTTTGCTATGGAAGCCTTGCACTATGGAGGCCGAACATATGAG
AACTCCTCTGTGGTCAGAGCAGGATGTCGGTTTTTGATGGACATGCGGGA
GTCTGACGGAGGATGGGGAGAGACATTGGAGGGCAAGCCTAACTCAGGAC
CTGCAAAAACAGCCTCCGAGGCCATCCACAAGGGCACCCAATTCCACATC
AAAACGCAGGTGCGTGACCTGGGATGCTGGGCCGCCGACCTGAGCTGTAT
CTTTTTTGTGACCCCAATGCTGGTCATGGCCTGGTATATTACTGGTGCTC
AGATCGATGAAGCGTACGTGATTGAATTGATCCGCTTTATGTTCAACTGT
CAAAACCCCGACAATGGTGGCTGGGCGACATACCTGGAGGAGGACCCTTC
GCCGATGGGGACTACATTGGTCTATATTGCACTGCGACTCATGGGGGTCC
CGGCTGACGATGAGCATCTCCGCAAAGCCCGGGAATTCTATCTCAGCCAC
GGGGGCGCACTCTACCAGCCAGCCTGGGCCAAGTTCTGGCTTGCTATGCT
GGGACTGTATGACTGGGCGGGTACTGACCCTTACCCGGTTGAGATGTGAT
GGCAAGCAAATACGCATTGAAGACCAAAAACTGTCTGGGTGACAAATGTC
ACAGCAATTCTACGGGCCCATCCTATATCAAAAAGACTGACACAGAGGGC
TGGCATCTGGTGGCCACCCAAGAACTGGGACGCTTGAAATGGGTTTATAT
GAACGACAAGGAGGAGCGCAAGGCTCATCCCCAAGATGATACCACCAAGT
TCTTTCTGGATATTCCCATA 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:0042300 | beta-amyrin synthase activity |
| GO:0016866 | intramolecular transferase activity |
| GO:0000250 | lanosterol synthase activity |
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 |
|---|
| Note | antiSMASH:Cluster_10000011.2 |
| DBxref | InterPro:IPR008930 |
| DBxref | InterPro:IPR032697 |
| DBxref | InterPro:IPR018333 |
| DBxref | InterPro:IPR032696 |
| DBxref | PFAM:PF13249 |
| DBxref | PFAM:PF13243 |
| DBxref | PFAM:PF00432 |
| 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 | ACJE01000001.1:322777..325215 - |
|
