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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000019.1:2417194..2419643+ Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_209058-T1 ID=ASPNIDRAFT_209058-T1|Name=ASPNIDRAFT_209058-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2450bp|location=Sequence derived from alignment at ACJE01000019.1:2417194..2419643+ (Aspergillus niger ATCC 1015)
CCAGACCCTTTCCTTTCCTTTCCTTCCTTCTTTTCTCATCACATCTTGCT
TGAGTGGAAATCCGTCCCTCATCATCCTTCACAATGGCCAACTCTCCCCA
CGGTGGTGTCCTCAAGGACCTTCTCGCCCGCGATGCTCCCCGCCACGACC
AGCTGGCTGCTGAGGCGGAGATTCTCCCTGCCCTCACTCTCACTGAGCGC
CAGCTCTGCGATCTGGAGCTCATCATGAACGGTGGTTTCAGTCCTCTGGA
GGGTATGTTGTCAATATTCCACTTCCTCTATCCTGGTTGCCCGCGACTAC
CCGTCCGCTTGCAACCGCCGCGGGGTGAAATCGTCAGTCTTGGCTAACTC
CGGGCGCAGGCTTCATGAACCAGAAGGACTTCGACGGGTATGCTACGATC
CCGAAATCCCCACCAATTTTACGCCAGCGGTCCTCGACTAGATACTCGAT
ATGCAGAGAGAGGAACTGTTTAACGGGCGAACTTATTGAGAAACAATTAG
CTGACACCGATTTTCGTTCAGTGTTTGCGAGAACTGCCGTCTTGCCGATG
GCAACGTTTTCTCCATGCCCATCACCCTCGACGCCTCCCAGAAGACCATC
AGCGAGCTCAAGCTCCAGGCCGGCTCTCGTCTCACCCTGCGCGATTTCCG
TGATGACCGCAACCTGGCCATCCTGACCATCGACGACATCTACCGCGCCG
ACAAGTGAGTGGAGCCCTTCTTTACTCTTTCCCTTGTGAATTTTTCCGCA
CGAATGGGAATCGCGGGATCTCGGCGATCGCTATATCTCTGACTTGAACG
GGACGTTCTTGAAACGAGAGATTGGCATCGCCGACCTTGATTTGCCACGG
GCGGAGTTCACTAGCCGTCGGGGATTTTGCAGATAGTGGGTCTCGATGAC
GCGGATGGGCTAACAGTGCGCTTTTCACTCCTAATTTAGGCAAAAGGAAG
CCAAGCTGGTCTTTGGCGGAGACCCGGAACACCCTGCCATCAAGTACCTG
AACAACACTGTCCAGGAGTTCTACATTGGTGGAAAGATCGAGGCTGTTAA
CAAGCTCAACCACTACGACTATGTCGCTCTTCGCTGTATGTCATTGCCCG
TGCGCAATCCTTGCGATCGCATCCCGATTCATGTACTGACCGCGCGGGCC
TCCTAATTAGACACTCCCGCGGAATTGCGTGTCCACTTCGACAAGCTCGG
CTGGTCCCGAGTTGTCGCTTTCCAGACTAGGTACGTGTGGCCGACACTAG
CTATAGTACAGCTGTTATGATGCGCGCGACCTTACGACTAACGGCGTTCC
AGAAACCCCATGCACAGAGCTCACCGTGAGCTGACCGTCCGTGCTGCGCG
CGCCCGTCAGGCCAATGTCCTGATCCACCCCGTCGTTGGTCTCACCAAGC
CCGGTGACATTGACCACTTCACCCGTGTCCGTGCCTACCAGGCCCTCCTG
CCCCGCTACCCCAACGGAATGGCTGTCTTGGGTCTCCTGGGTCTGGCTAT
GCGTATGGGTGGTCCTCGTGAGGCCATCTGGCACGCTATCATCCGTAAGA
ACCACGGTGCCACTCACTTCATCGTCGGCCGTGACCACGCCGGTCCCGGT
AAGAACTCCAAGGGTGAGGAGTTCTACGGTCCTTACGATGCTCAGCACGC
CGTTGAGAAGTACAAGGACGAGCTCGGCATTGAGGTCGTCGAGTTCCAGC
AGGTCACCTACCTGCCCGACACCGACGAGTACCGCCCGAAGGACGAGGTC
CCCGCTGGTGTCAAGACCCTCGACATCTCCGGTACCGAGCTCCGCAAGCG
CCTCCGCACCGGTGCTCACATTCCTGAGTGGTTCTCCTACCCCGAGGTCG
TCAAGATCCTGCGTGAATCCAACCCCCCTCGTGCTTCCCAGGGTTTCACC
ATCTTCCTTACTGGTTACATGAACTCCGGCAAGGACGCCATTGCTCGTGC
CCTGCAGGTCACCCTGAACCAGCAGGGTGGACGCTCCGTCACTCTGTTGC
TTGGTGACACCGTCCGCCACGAGCTCTCCTCCGAGCTGGGCTTCAGCCGT
GAGGACCGCCACACCAACATCCAGCGCATTGCCTTCGTGGCCGGTGAGCT
CACCCGTGCCGGTGCTGCCGTCATCGCTGCCCCCATTGCTCCCTACGAGG
AGTCCCGCAAGGCTGCCCGTGAGGCCGTCGCTGGCTCCGGCGGCAACTTC
TTCCTTGTTCACGTTGCTACTCCTCTGGAGCACTGCGAGAAGACCGACAA
GCGCGGCATCTACGCCAAGGCCCGCCGTGGCGAGATCAAGGGCTTCACTG
GTGTTGATGATCCTTATGAGGCTCCTGCTAACGCCGATCTCACTGTGGAT
GTCTCCAAGCAGAGCGTCCGCAGCATTGTCCACGAGATCATCCTCATGCT
CGAGAGCGAGGGCTACTTTGACCGCAACTAGATTAGCGTAGGCGCTTGGG
back to topCoding sequence (CDS) from alignment at ACJE01000019.1:2417194..2419643+ >ASPNIDRAFT_209058-T1 ID=ASPNIDRAFT_209058-T1|Name=ASPNIDRAFT_209058-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=10350bp|location=Sequence derived from alignment at ACJE01000019.1:2417194..2419643+ (Aspergillus niger ATCC 1015)
ATGGCCAACTCTCCCCACGGTGGTGTCCTCAAGGACCTTCTCGCCCGCGA
TGCTCCCCGCCACGACCAGCTGGCTGCTGAGGCGGAGATTCTCCCTGCCC
TCACTCTCACTGAGCGCCAGCTCTGCGATCTGGAGCTCATCATGAACGGT
GGTTTCAGTCCTCTGGAGGGCTTCATGAACCAGAAGGACTTCGACGGTGT
TTGCGAGAACTGCCGTCTTGCCGATGGCAACGTTTTCTCCATGCCCATCA
CCCTCGACGCCTCCCAGAAGACCATCAGCGAGCTCAAGCTCCAGGCCGGC
TCTCGTCTCACCCTGCGCGATTTCCGTGATGACCGCAACCTGGCCATCCT
GACCATCGACGACATCTACCGCGCCGACAAGCAAAAGGAAGCCAAGCTGG
TCTTTGGCGGAGACCCGGAACACCCTGCCATCAAGTACCTGAACAACACT
GTCCAGGAGTTCTACATTGGTGGAAAGATCGAGGCTGTTAACAAGCTCAA
CCACTACGACTATGTCGCTCTTCGCTACACTCCCGCGGAATTGCGTGTCC
ACTTCGACAAGCTCGGCTGGTCCCGAGTTGTCGCTTTCCAGACTAGAAAC
CCCATGCACAGAGCTCACCGTGAGCTGACCGTCCGTGCTGCGCGCGCCCG
TCAGGCCAATGTCCTGATCCACCCCGTCGTTGGTCTCACCAAGCCCGGTG
ACATTGACCACTTCACCCGTGTCCGTGCCTACCAGGCCCTCCTGCCCCGC
TACCCCAACGGAATGGCTGTCTTGGGTCTCCTGGGTCTGGCTATGCGTAT
GGGTGGTCCTCGTGAGGCCATCTGGCACGCTATCATCCGTAAGAACCACG
GTGCCACTCACTTCATCGTCGGCCGTGACCACGCCGGTCCCGGTAAGAAC
TCCAAGGGTGAGGAGTTCTACGGTCCTTACGATGCTCAGCACGCCGTTGA
GAAGTACAAGGACGAGCTCGGCATTGAGGTCGTCGAGTTCCAGCAGGTCA
CCTACCTGCCCGACACCGACGAGTACCGCCCGAAGGACGAGGTCCCCGCT
GGTGTCAAGACCCTCGACATCTCCGGTACCGAGCTCCGCAAGCGCCTCCG
CACCGGTGCTCACATTCCTGAGTGGTTCTCCTACCCCGAGGTCGTCAAGA
TCCTGCGTGAATCCAACCCCCCTCGTGCTTCCCAGGGTTTCACCATCTTC
CTTACTGGTTACATGAACTCCGGCAAGGACGCCATTGCTCGTGCCCTGCA
GGTCACCCTGAACCAGCAGGGTGGACGCTCCGTCACTCTGTTGCTTGGTG
ACACCGTCCGCCACGAGCTCTCCTCCGAGCTGGGCTTCAGCCGTGAGGAC
CGCCACACCAACATCCAGCGCATTGCCTTCGTGGCCGGTGAGCTCACCCG
TGCCGGTGCTGCCGTCATCGCTGCCCCCATTGCTCCCTACGAGGAGTCCC
GCAAGGCTGCCCGTGAGGCCGTCGCTGGCTCCGGCGGCAACTTCTTCCTT
GTTCACGTTGCTACTCCTCTGGAGCACTGCGAGAAGACCGACAAGCGCGG
CATCTACGCCAAGGCCCGCCGTGGCGAGATCAAGGGCTTCACTGGTGTTG
ATGATCCTTATGAGGCTCCTGCTAACGCCGATCTCACTGTGGATGTCTCC
AAGCAGAGCGTCCGCAGCATTGTCCACGAGATCATCCTCATGCTCGAGAG
CGAGGGCTACTTTGACCGCAACTAGATGGCCAACTCTCCCCACGGTGGTG
TCCTCAAGGACCTTCTCGCCCGCGATGCTCCCCGCCACGACCAGCTGGCT
GCTGAGGCGGAGATTCTCCCTGCCCTCACTCTCACTGAGCGCCAGCTCTG
CGATCTGGAGCTCATCATGAACGGTGGTTTCAGTCCTCTGGAGGGCTTCA
TGAACCAGAAGGACTTCGACGGTGTTTGCGAGAACTGCCGTCTTGCCGAT
GGCAACGTTTTCTCCATGCCCATCACCCTCGACGCCTCCCAGAAGACCAT
CAGCGAGCTCAAGCTCCAGGCCGGCTCTCGTCTCACCCTGCGCGATTTCC
GTGATGACCGCAACCTGGCCATCCTGACCATCGACGACATCTACCGCGCC
GACAAGCAAAAGGAAGCCAAGCTGGTCTTTGGCGGAGACCCGGAACACCC
TGCCATCAAGTACCTGAACAACACTGTCCAGGAGTTCTACATTGGTGGAA
AGATCGAGGCTGTTAACAAGCTCAACCACTACGACTATGTCGCTCTTCGC
TACACTCCCGCGGAATTGCGTGTCCACTTCGACAAGCTCGGCTGGTCCCG
AGTTGTCGCTTTCCAGACTAGAAACCCCATGCACAGAGCTCACCGTGAGC
TGACCGTCCGTGCTGCGCGCGCCCGTCAGGCCAATGTCCTGATCCACCCC
GTCGTTGGTCTCACCAAGCCCGGTGACATTGACCACTTCACCCGTGTCCG
TGCCTACCAGGCCCTCCTGCCCCGCTACCCCAACGGAATGGCTGTCTTGG
GTCTCCTGGGTCTGGCTATGCGTATGGGTGGTCCTCGTGAGGCCATCTGG
CACGCTATCATCCGTAAGAACCACGGTGCCACTCACTTCATCGTCGGCCG
TGACCACGCCGGTCCCGGTAAGAACTCCAAGGGTGAGGAGTTCTACGGTC
CTTACGATGCTCAGCACGCCGTTGAGAAGTACAAGGACGAGCTCGGCATT
GAGGTCGTCGAGTTCCAGCAGGTCACCTACCTGCCCGACACCGACGAGTA
CCGCCCGAAGGACGAGGTCCCCGCTGGTGTCAAGACCCTCGACATCTCCG
GTACCGAGCTCCGCAAGCGCCTCCGCACCGGTGCTCACATTCCTGAGTGG
TTCTCCTACCCCGAGGTCGTCAAGATCCTGCGTGAATCCAACCCCCCTCG
TGCTTCCCAGGGTTTCACCATCTTCCTTACTGGTTACATGAACTCCGGCA
AGGACGCCATTGCTCGTGCCCTGCAGGTCACCCTGAACCAGCAGGGTGGA
CGCTCCGTCACTCTGTTGCTTGGTGACACCGTCCGCCACGAGCTCTCCTC
CGAGCTGGGCTTCAGCCGTGAGGACCGCCACACCAACATCCAGCGCATTG
CCTTCGTGGCCGGTGAGCTCACCCGTGCCGGTGCTGCCGTCATCGCTGCC
CCCATTGCTCCCTACGAGGAGTCCCGCAAGGCTGCCCGTGAGGCCGTCGC
TGGCTCCGGCGGCAACTTCTTCCTTGTTCACGTTGCTACTCCTCTGGAGC
ACTGCGAGAAGACCGACAAGCGCGGCATCTACGCCAAGGCCCGCCGTGGC
GAGATCAAGGGCTTCACTGGTGTTGATGATCCTTATGAGGCTCCTGCTAA
CGCCGATCTCACTGTGGATGTCTCCAAGCAGAGCGTCCGCAGCATTGTCC
ACGAGATCATCCTCATGCTCGAGAGCGAGGGCTACTTTGACCGCAACTAG
ATGGCCAACTCTCCCCACGGTGGTGTCCTCAAGGACCTTCTCGCCCGCGA
TGCTCCCCGCCACGACCAGCTGGCTGCTGAGGCGGAGATTCTCCCTGCCC
TCACTCTCACTGAGCGCCAGCTCTGCGATCTGGAGCTCATCATGAACGGT
GGTTTCAGTCCTCTGGAGGGCTTCATGAACCAGAAGGACTTCGACGGTGT
TTGCGAGAACTGCCGTCTTGCCGATGGCAACGTTTTCTCCATGCCCATCA
CCCTCGACGCCTCCCAGAAGACCATCAGCGAGCTCAAGCTCCAGGCCGGC
TCTCGTCTCACCCTGCGCGATTTCCGTGATGACCGCAACCTGGCCATCCT
GACCATCGACGACATCTACCGCGCCGACAAGCAAAAGGAAGCCAAGCTGG
TCTTTGGCGGAGACCCGGAACACCCTGCCATCAAGTACCTGAACAACACT
GTCCAGGAGTTCTACATTGGTGGAAAGATCGAGGCTGTTAACAAGCTCAA
CCACTACGACTATGTCGCTCTTCGCTACACTCCCGCGGAATTGCGTGTCC
ACTTCGACAAGCTCGGCTGGTCCCGAGTTGTCGCTTTCCAGACTAGAAAC
CCCATGCACAGAGCTCACCGTGAGCTGACCGTCCGTGCTGCGCGCGCCCG
TCAGGCCAATGTCCTGATCCACCCCGTCGTTGGTCTCACCAAGCCCGGTG
ACATTGACCACTTCACCCGTGTCCGTGCCTACCAGGCCCTCCTGCCCCGC
TACCCCAACGGAATGGCTGTCTTGGGTCTCCTGGGTCTGGCTATGCGTAT
GGGTGGTCCTCGTGAGGCCATCTGGCACGCTATCATCCGTAAGAACCACG
GTGCCACTCACTTCATCGTCGGCCGTGACCACGCCGGTCCCGGTAAGAAC
TCCAAGGGTGAGGAGTTCTACGGTCCTTACGATGCTCAGCACGCCGTTGA
GAAGTACAAGGACGAGCTCGGCATTGAGGTCGTCGAGTTCCAGCAGGTCA
CCTACCTGCCCGACACCGACGAGTACCGCCCGAAGGACGAGGTCCCCGCT
GGTGTCAAGACCCTCGACATCTCCGGTACCGAGCTCCGCAAGCGCCTCCG
CACCGGTGCTCACATTCCTGAGTGGTTCTCCTACCCCGAGGTCGTCAAGA
TCCTGCGTGAATCCAACCCCCCTCGTGCTTCCCAGGGTTTCACCATCTTC
CTTACTGGTTACATGAACTCCGGCAAGGACGCCATTGCTCGTGCCCTGCA
GGTCACCCTGAACCAGCAGGGTGGACGCTCCGTCACTCTGTTGCTTGGTG
ACACCGTCCGCCACGAGCTCTCCTCCGAGCTGGGCTTCAGCCGTGAGGAC
CGCCACACCAACATCCAGCGCATTGCCTTCGTGGCCGGTGAGCTCACCCG
TGCCGGTGCTGCCGTCATCGCTGCCCCCATTGCTCCCTACGAGGAGTCCC
GCAAGGCTGCCCGTGAGGCCGTCGCTGGCTCCGGCGGCAACTTCTTCCTT
GTTCACGTTGCTACTCCTCTGGAGCACTGCGAGAAGACCGACAAGCGCGG
CATCTACGCCAAGGCCCGCCGTGGCGAGATCAAGGGCTTCACTGGTGTTG
ATGATCCTTATGAGGCTCCTGCTAACGCCGATCTCACTGTGGATGTCTCC
AAGCAGAGCGTCCGCAGCATTGTCCACGAGATCATCCTCATGCTCGAGAG
CGAGGGCTACTTTGACCGCAACTAGATGGCCAACTCTCCCCACGGTGGTG
TCCTCAAGGACCTTCTCGCCCGCGATGCTCCCCGCCACGACCAGCTGGCT
GCTGAGGCGGAGATTCTCCCTGCCCTCACTCTCACTGAGCGCCAGCTCTG
CGATCTGGAGCTCATCATGAACGGTGGTTTCAGTCCTCTGGAGGGCTTCA
TGAACCAGAAGGACTTCGACGGTGTTTGCGAGAACTGCCGTCTTGCCGAT
GGCAACGTTTTCTCCATGCCCATCACCCTCGACGCCTCCCAGAAGACCAT
CAGCGAGCTCAAGCTCCAGGCCGGCTCTCGTCTCACCCTGCGCGATTTCC
GTGATGACCGCAACCTGGCCATCCTGACCATCGACGACATCTACCGCGCC
GACAAGCAAAAGGAAGCCAAGCTGGTCTTTGGCGGAGACCCGGAACACCC
TGCCATCAAGTACCTGAACAACACTGTCCAGGAGTTCTACATTGGTGGAA
AGATCGAGGCTGTTAACAAGCTCAACCACTACGACTATGTCGCTCTTCGC
TACACTCCCGCGGAATTGCGTGTCCACTTCGACAAGCTCGGCTGGTCCCG
AGTTGTCGCTTTCCAGACTAGAAACCCCATGCACAGAGCTCACCGTGAGC
TGACCGTCCGTGCTGCGCGCGCCCGTCAGGCCAATGTCCTGATCCACCCC
GTCGTTGGTCTCACCAAGCCCGGTGACATTGACCACTTCACCCGTGTCCG
TGCCTACCAGGCCCTCCTGCCCCGCTACCCCAACGGAATGGCTGTCTTGG
GTCTCCTGGGTCTGGCTATGCGTATGGGTGGTCCTCGTGAGGCCATCTGG
CACGCTATCATCCGTAAGAACCACGGTGCCACTCACTTCATCGTCGGCCG
TGACCACGCCGGTCCCGGTAAGAACTCCAAGGGTGAGGAGTTCTACGGTC
CTTACGATGCTCAGCACGCCGTTGAGAAGTACAAGGACGAGCTCGGCATT
GAGGTCGTCGAGTTCCAGCAGGTCACCTACCTGCCCGACACCGACGAGTA
CCGCCCGAAGGACGAGGTCCCCGCTGGTGTCAAGACCCTCGACATCTCCG
GTACCGAGCTCCGCAAGCGCCTCCGCACCGGTGCTCACATTCCTGAGTGG
TTCTCCTACCCCGAGGTCGTCAAGATCCTGCGTGAATCCAACCCCCCTCG
TGCTTCCCAGGGTTTCACCATCTTCCTTACTGGTTACATGAACTCCGGCA
AGGACGCCATTGCTCGTGCCCTGCAGGTCACCCTGAACCAGCAGGGTGGA
CGCTCCGTCACTCTGTTGCTTGGTGACACCGTCCGCCACGAGCTCTCCTC
CGAGCTGGGCTTCAGCCGTGAGGACCGCCACACCAACATCCAGCGCATTG
CCTTCGTGGCCGGTGAGCTCACCCGTGCCGGTGCTGCCGTCATCGCTGCC
CCCATTGCTCCCTACGAGGAGTCCCGCAAGGCTGCCCGTGAGGCCGTCGC
TGGCTCCGGCGGCAACTTCTTCCTTGTTCACGTTGCTACTCCTCTGGAGC
ACTGCGAGAAGACCGACAAGCGCGGCATCTACGCCAAGGCCCGCCGTGGC
GAGATCAAGGGCTTCACTGGTGTTGATGATCCTTATGAGGCTCCTGCTAA
CGCCGATCTCACTGTGGATGTCTCCAAGCAGAGCGTCCGCAGCATTGTCC
ACGAGATCATCCTCATGCTCGAGAGCGAGGGCTACTTTGACCGCAACTAG
ATGGCCAACTCTCCCCACGGTGGTGTCCTCAAGGACCTTCTCGCCCGCGA
TGCTCCCCGCCACGACCAGCTGGCTGCTGAGGCGGAGATTCTCCCTGCCC
TCACTCTCACTGAGCGCCAGCTCTGCGATCTGGAGCTCATCATGAACGGT
GGTTTCAGTCCTCTGGAGGGCTTCATGAACCAGAAGGACTTCGACGGTGT
TTGCGAGAACTGCCGTCTTGCCGATGGCAACGTTTTCTCCATGCCCATCA
CCCTCGACGCCTCCCAGAAGACCATCAGCGAGCTCAAGCTCCAGGCCGGC
TCTCGTCTCACCCTGCGCGATTTCCGTGATGACCGCAACCTGGCCATCCT
GACCATCGACGACATCTACCGCGCCGACAAGCAAAAGGAAGCCAAGCTGG
TCTTTGGCGGAGACCCGGAACACCCTGCCATCAAGTACCTGAACAACACT
GTCCAGGAGTTCTACATTGGTGGAAAGATCGAGGCTGTTAACAAGCTCAA
CCACTACGACTATGTCGCTCTTCGCTACACTCCCGCGGAATTGCGTGTCC
ACTTCGACAAGCTCGGCTGGTCCCGAGTTGTCGCTTTCCAGACTAGAAAC
CCCATGCACAGAGCTCACCGTGAGCTGACCGTCCGTGCTGCGCGCGCCCG
TCAGGCCAATGTCCTGATCCACCCCGTCGTTGGTCTCACCAAGCCCGGTG
ACATTGACCACTTCACCCGTGTCCGTGCCTACCAGGCCCTCCTGCCCCGC
TACCCCAACGGAATGGCTGTCTTGGGTCTCCTGGGTCTGGCTATGCGTAT
GGGTGGTCCTCGTGAGGCCATCTGGCACGCTATCATCCGTAAGAACCACG
GTGCCACTCACTTCATCGTCGGCCGTGACCACGCCGGTCCCGGTAAGAAC
TCCAAGGGTGAGGAGTTCTACGGTCCTTACGATGCTCAGCACGCCGTTGA
GAAGTACAAGGACGAGCTCGGCATTGAGGTCGTCGAGTTCCAGCAGGTCA
CCTACCTGCCCGACACCGACGAGTACCGCCCGAAGGACGAGGTCCCCGCT
GGTGTCAAGACCCTCGACATCTCCGGTACCGAGCTCCGCAAGCGCCTCCG
CACCGGTGCTCACATTCCTGAGTGGTTCTCCTACCCCGAGGTCGTCAAGA
TCCTGCGTGAATCCAACCCCCCTCGTGCTTCCCAGGGTTTCACCATCTTC
CTTACTGGTTACATGAACTCCGGCAAGGACGCCATTGCTCGTGCCCTGCA
GGTCACCCTGAACCAGCAGGGTGGACGCTCCGTCACTCTGTTGCTTGGTG
ACACCGTCCGCCACGAGCTCTCCTCCGAGCTGGGCTTCAGCCGTGAGGAC
CGCCACACCAACATCCAGCGCATTGCCTTCGTGGCCGGTGAGCTCACCCG
TGCCGGTGCTGCCGTCATCGCTGCCCCCATTGCTCCCTACGAGGAGTCCC
GCAAGGCTGCCCGTGAGGCCGTCGCTGGCTCCGGCGGCAACTTCTTCCTT
GTTCACGTTGCTACTCCTCTGGAGCACTGCGAGAAGACCGACAAGCGCGG
CATCTACGCCAAGGCCCGCCGTGGCGAGATCAAGGGCTTCACTGGTGTTG
ATGATCCTTATGAGGCTCCTGCTAACGCCGATCTCACTGTGGATGTCTCC
AAGCAGAGCGTCCGCAGCATTGTCCACGAGATCATCCTCATGCTCGAGAG
CGAGGGCTACTTTGACCGCAACTAGATGGCCAACTCTCCCCACGGTGGTG
TCCTCAAGGACCTTCTCGCCCGCGATGCTCCCCGCCACGACCAGCTGGCT
GCTGAGGCGGAGATTCTCCCTGCCCTCACTCTCACTGAGCGCCAGCTCTG
CGATCTGGAGCTCATCATGAACGGTGGTTTCAGTCCTCTGGAGGGCTTCA
TGAACCAGAAGGACTTCGACGGTGTTTGCGAGAACTGCCGTCTTGCCGAT
GGCAACGTTTTCTCCATGCCCATCACCCTCGACGCCTCCCAGAAGACCAT
CAGCGAGCTCAAGCTCCAGGCCGGCTCTCGTCTCACCCTGCGCGATTTCC
GTGATGACCGCAACCTGGCCATCCTGACCATCGACGACATCTACCGCGCC
GACAAGCAAAAGGAAGCCAAGCTGGTCTTTGGCGGAGACCCGGAACACCC
TGCCATCAAGTACCTGAACAACACTGTCCAGGAGTTCTACATTGGTGGAA
AGATCGAGGCTGTTAACAAGCTCAACCACTACGACTATGTCGCTCTTCGC
TACACTCCCGCGGAATTGCGTGTCCACTTCGACAAGCTCGGCTGGTCCCG
AGTTGTCGCTTTCCAGACTAGAAACCCCATGCACAGAGCTCACCGTGAGC
TGACCGTCCGTGCTGCGCGCGCCCGTCAGGCCAATGTCCTGATCCACCCC
GTCGTTGGTCTCACCAAGCCCGGTGACATTGACCACTTCACCCGTGTCCG
TGCCTACCAGGCCCTCCTGCCCCGCTACCCCAACGGAATGGCTGTCTTGG
GTCTCCTGGGTCTGGCTATGCGTATGGGTGGTCCTCGTGAGGCCATCTGG
CACGCTATCATCCGTAAGAACCACGGTGCCACTCACTTCATCGTCGGCCG
TGACCACGCCGGTCCCGGTAAGAACTCCAAGGGTGAGGAGTTCTACGGTC
CTTACGATGCTCAGCACGCCGTTGAGAAGTACAAGGACGAGCTCGGCATT
GAGGTCGTCGAGTTCCAGCAGGTCACCTACCTGCCCGACACCGACGAGTA
CCGCCCGAAGGACGAGGTCCCCGCTGGTGTCAAGACCCTCGACATCTCCG
GTACCGAGCTCCGCAAGCGCCTCCGCACCGGTGCTCACATTCCTGAGTGG
TTCTCCTACCCCGAGGTCGTCAAGATCCTGCGTGAATCCAACCCCCCTCG
TGCTTCCCAGGGTTTCACCATCTTCCTTACTGGTTACATGAACTCCGGCA
AGGACGCCATTGCTCGTGCCCTGCAGGTCACCCTGAACCAGCAGGGTGGA
CGCTCCGTCACTCTGTTGCTTGGTGACACCGTCCGCCACGAGCTCTCCTC
CGAGCTGGGCTTCAGCCGTGAGGACCGCCACACCAACATCCAGCGCATTG
CCTTCGTGGCCGGTGAGCTCACCCGTGCCGGTGCTGCCGTCATCGCTGCC
CCCATTGCTCCCTACGAGGAGTCCCGCAAGGCTGCCCGTGAGGCCGTCGC
TGGCTCCGGCGGCAACTTCTTCCTTGTTCACGTTGCTACTCCTCTGGAGC
ACTGCGAGAAGACCGACAAGCGCGGCATCTACGCCAAGGCCCGCCGTGGC
GAGATCAAGGGCTTCACTGGTGTTGATGATCCTTATGAGGCTCCTGCTAA
CGCCGATCTCACTGTGGATGTCTCCAAGCAGAGCGTCCGCAGCATTGTCC
ACGAGATCATCCTCATGCTCGAGAGCGAGGGCTACTTTGACCGCAACTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0000096 | sulfur amino acid metabolic process |
| GO:0000103 | sulfate assimilation |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004781 | sulfate adenylyltransferase (ATP) activity |
| GO:0005524 | ATP binding |
| GO:0004020 | adenylylsulfate kinase activity |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | antiSMASH:Cluster_10000191.13 |
| DBxref | InterPro:IPR015947 |
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR027535 |
| DBxref | InterPro:IPR024951 |
| DBxref | InterPro:IPR025980 |
| DBxref | InterPro:IPR002650 |
| DBxref | InterPro:IPR002891 |
| DBxref | InterPro:IPR014729 |
| DBxref | PFAM:PF14306 |
| DBxref | PFAM:PF01747 |
| DBxref | PFAM:PF01583 |
| Product | Sulfate adenylyltransferase |
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 |
|---|
| ACJE01000019.1 | supercontig | ACJE01000019.1:2417194..2419643 + |
|
