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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000069:21269..24078+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_003830-T1 ID=ATCC10864_003830-T1|Name=ATCC10864_003830-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2810bp|location=Sequence derived from alignment at MCQH01000069:21269..24078+ (Aspergillus niger ATCC 10864)
ATGTTTGTCTACAAGAGAGGTGAGTGCGAGTTGCATACATTCCCCTGTTC
TGGATGGAATGAACGCCCGTCGATTGAGCAGAATGGACCTTGCCACCCCT
GCAACTGTCAGTGCTGACTTTGAATCTAGACGGACGCAAAGAACGCGTGC
AGTTCGACAAGATCACTGCCCGTGTGTCAAGGCTCTGTTACGGCCTTGAC
CCCGAGCATGTCGATGCTGCTGCTATCACCCAGAAGGTCATCTCTGGTGT
CTACCAGGGTGTCACCACCGTTGAACTCGATAACCTGGTAGGTTTGCAGC
ACTTACGATAGACAGAGCAAGTGCTGATGTGTCGACCTAGGCTGCTGAAA
CCGCTGCGTACATGACTGTCACACATCCCGACTACGCCATCCTCGCTGCC
CGTATCGCCGTTTCCAACCTCCACAAGCAGACCAAGAAGCAGTTCTCGTT
GGTCATTTCAGATCTCTACCACTATGTCAACCCCAAGAACAACCAACCTG
CGCCAATGATATCAAAGGAGACATACGAAATAATCATGAAACACGCCGAT
GAGCTTAACTCGGCTATTGTATACGACCGTGATTTCAACTACAACTTCTT
CGGCTTCAAGACCCTGGAGCGGTCATACCTGTTGCGGATCAACGGAAAGG
TGGCTGAGCGTCCCCAGCACCTGCTGATGCGTGTTGCCGTTGGTATCCAC
GGTAGTGACATCGAGAAGGCCATCGAGACCTACCACTTGATGTCCCAGAA
GTACTTCACTCACGCCTCCCCGACTCTGTTCAACGCTGGTACTCCCCAGC
CTCAGCTTGCCTCTTGCTTCCTCGTCGACATGAAGGAGGACAGCATTGAC
GGTATCTACGACACTTTGAAGACTTGCGCTATGATCTCCAAGACCGCCGG
TGGTATTGGTCTGAACGTGCACCGCATCCGCTCTACCGGATCTTACATTG
GTGGCACCAACGGTACCTCCAACGGTCTTGTTCCCATGCTTCGGGTTTTC
AACAACACTGCCAGATACGTTGACCAGGGTGGCAACAAGCGTCCCGGTGC
TTTTGCCATCTACCTTGAGCCCTGGCACTCGGATGTCTTCGAGTTCCTGG
ACCTCCGTAAGAACCACGGTAAGGAGGAGGTCAGAGCCCGCGATCTGTTC
TATGCCCTGTGGACTCCGGATCTGTTCATGAAGCGTGTTGAGGCGAACGG
CGACTGGACTCTGTTCTGCCCCAACGAAGCCCCTGGCTTGGCTGATGTCT
ACGGTGACGAGTTCGACGCCCTCTACGAGAAGTAAGTTTGTTGGTTCGTG
TATTCTCAACTCATGCTAATAGTATTGTAGGTACGAGAAGGAAGGCCGTG
GCCGTCGTACCATCAAGGCTCAGAAGCTCTGGTACGCTATTCTGGAGGCT
CAGACCGAGACTGGTAACCCCTTCATGCTGTACAAGGATGCTTGCAACAA
GAAGAGCAACCAGAAGAACCTCGGAACCATCCGTAGCTCCAACCTCTGCA
CTGAGATCATTGAGTACAGTGCTCCGGATGAGGTTGCTGTCTGCAACCTT
GCCTCTCTTGCCCTTCCTACTTTCGTCGATGCTGCTCGCGGCGAGTATGA
CTTTGGCAAGCTCCACGAGGTCGTCCAGGTCTTGGTCCGTAACTTGAACA
AGATCATCGACATCAACTACTACCCCGTCCCGGAGGCCAAGAAGTCCAAC
TTCCGTCACCGTCCCATTGCGCTGGGTGTCAACGGTCTGGCTGATGCTTT
CCTCGCTCTCCGCCTGCCCTTCGACTCGGCCGAGGCCAGACAGCTGAACA
TCCAGATCTTCGAGACCATCTATCACGCTGGTTTGACCGCCTCGTCCGAT
CTCGCCAAGGAGTTCGGAACTTACGAGACCTACGAGGGATCTCCTGTCTC
CCAGGGTATCCTTCAGTACGACATGTGGGACCGCACTCCCACTGACCTCT
GGGACTGGGCTGCTCTCAAGGCCAAGATCGCCCAGACTGGTGTCCGCAAC
AGCTTGCTGGTCGCCCCCATGCCCACTGCCAGTACCAGTCAGATCTTGGG
CTTCAACGAGTGCTTCGAGCCTTACACCTCCAACATCTACTCCCGCCGTG
TCTTGGCTGGTGAGTTCCAGGTGGTCAACCCCTGGCTGCTGAAGGACCTG
GTCGATCTCGGCCTGTGGTCGGACAACATGAAGAACCGCATCATTGCCGA
GGGTGGTTCCGTCCAGAACATCCCCAACATCCCCAGTGACATCAAGGCGC
TGTACAAGACGGTGTGGGAGATCTCCCAGCGGACGATCCTGCAGATGGCA
GCGGACCGTGGTGCGTTCATTGACCAGTCTCAGTCCCTCAACATCCACCT
GAAGGAGCCCACCATGGGCAAGATCACCAGCATGCACTTTGCCGGCTGGA
AGATGGGTCTGAAGACGGGTATGTACTACCTGCGCACGATGGCCGCCTCT
GCGCCCATCCAGTTCACCGTCGACCAGGAGCAGCTCAAGGTCGAGGATAC
CAATGTGGCCCGCACCAATGCCGCCTACAAGAAGCGGGCTGTTGGCGCGG
CCTCCAGCACCTACTCTGCTGTTCCCCGCGGCCAGGCTCCGGTCAACGGA
CACAGCGAGAACGGAGTCAACGGAATCAACGGCTCCAACAACGGCAGCCC
TCGGGCTCTTGCTGCGGATGCCTCCTCCACTCAGGAGAACGGCCCCCAGG
AGGAGGACAGCCAGCAGGAGAGCGAAGAGCGGGAGAACGACATCTACTCG
CAGCAGGTGCTCCAGTGCAGCATTGAGAACAAGGAGGCGTGCATTATGTG
CCAGGGTTAG back to topCoding sequence (CDS) from alignment at MCQH01000069:21269..24078+ >ATCC10864_003830-T1 ID=ATCC10864_003830-T1|Name=ATCC10864_003830-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=10392bp|location=Sequence derived from alignment at MCQH01000069:21269..24078+ (Aspergillus niger ATCC 10864)
ATGTTTGTCTACAAGAGAGACGGACGCAAAGAACGCGTGCAGTTCGACAA
GATCACTGCCCGTGTGTCAAGGCTCTGTTACGGCCTTGACCCCGAGCATG
TCGATGCTGCTGCTATCACCCAGAAGGTCATCTCTGGTGTCTACCAGGGT
GTCACCACCGTTGAACTCGATAACCTGGCTGCTGAAACCGCTGCGTACAT
GACTGTCACACATCCCGACTACGCCATCCTCGCTGCCCGTATCGCCGTTT
CCAACCTCCACAAGCAGACCAAGAAGCAGTTCTCGTTGGTCATTTCAGAT
CTCTACCACTATGTCAACCCCAAGAACAACCAACCTGCGCCAATGATATC
AAAGGAGACATACGAAATAATCATGAAACACGCCGATGAGCTTAACTCGG
CTATTGTATACGACCGTGATTTCAACTACAACTTCTTCGGCTTCAAGACC
CTGGAGCGGTCATACCTGTTGCGGATCAACGGAAAGGTGGCTGAGCGTCC
CCAGCACCTGCTGATGCGTGTTGCCGTTGGTATCCACGGTAGTGACATCG
AGAAGGCCATCGAGACCTACCACTTGATGTCCCAGAAGTACTTCACTCAC
GCCTCCCCGACTCTGTTCAACGCTGGTACTCCCCAGCCTCAGCTTGCCTC
TTGCTTCCTCGTCGACATGAAGGAGGACAGCATTGACGGTATCTACGACA
CTTTGAAGACTTGCGCTATGATCTCCAAGACCGCCGGTGGTATTGGTCTG
AACGTGCACCGCATCCGCTCTACCGGATCTTACATTGGTGGCACCAACGG
TACCTCCAACGGTCTTGTTCCCATGCTTCGGGTTTTCAACAACACTGCCA
GATACGTTGACCAGGGTGGCAACAAGCGTCCCGGTGCTTTTGCCATCTAC
CTTGAGCCCTGGCACTCGGATGTCTTCGAGTTCCTGGACCTCCGTAAGAA
CCACGGTAAGGAGGAGGTCAGAGCCCGCGATCTGTTCTATGCCCTGTGGA
CTCCGGATCTGTTCATGAAGCGTGTTGAGGCGAACGGCGACTGGACTCTG
TTCTGCCCCAACGAAGCCCCTGGCTTGGCTGATGTCTACGGTGACGAGTT
CGACGCCCTCTACGAGAAGTACGAGAAGGAAGGCCGTGGCCGTCGTACCA
TCAAGGCTCAGAAGCTCTGGTACGCTATTCTGGAGGCTCAGACCGAGACT
GGTAACCCCTTCATGCTGTACAAGGATGCTTGCAACAAGAAGAGCAACCA
GAAGAACCTCGGAACCATCCGTAGCTCCAACCTCTGCACTGAGATCATTG
AGTACAGTGCTCCGGATGAGGTTGCTGTCTGCAACCTTGCCTCTCTTGCC
CTTCCTACTTTCGTCGATGCTGCTCGCGGCGAGTATGACTTTGGCAAGCT
CCACGAGGTCGTCCAGGTCTTGGTCCGTAACTTGAACAAGATCATCGACA
TCAACTACTACCCCGTCCCGGAGGCCAAGAAGTCCAACTTCCGTCACCGT
CCCATTGCGCTGGGTGTCAACGGTCTGGCTGATGCTTTCCTCGCTCTCCG
CCTGCCCTTCGACTCGGCCGAGGCCAGACAGCTGAACATCCAGATCTTCG
AGACCATCTATCACGCTGGTTTGACCGCCTCGTCCGATCTCGCCAAGGAG
TTCGGAACTTACGAGACCTACGAGGGATCTCCTGTCTCCCAGGGTATCCT
TCAGTACGACATGTGGGACCGCACTCCCACTGACCTCTGGGACTGGGCTG
CTCTCAAGGCCAAGATCGCCCAGACTGGTGTCCGCAACAGCTTGCTGGTC
GCCCCCATGCCCACTGCCAGTACCAGTCAGATCTTGGGCTTCAACGAGTG
CTTCGAGCCTTACACCTCCAACATCTACTCCCGCCGTGTCTTGGCTGGTG
AGTTCCAGGTGGTCAACCCCTGGCTGCTGAAGGACCTGGTCGATCTCGGC
CTGTGGTCGGACAACATGAAGAACCGCATCATTGCCGAGGGTGGTTCCGT
CCAGAACATCCCCAACATCCCCAGTGACATCAAGGCGCTGTACAAGACGG
TGTGGGAGATCTCCCAGCGGACGATCCTGCAGATGGCAGCGGACCGTGGT
GCGTTCATTGACCAGTCTCAGTCCCTCAACATCCACCTGAAGGAGCCCAC
CATGGGCAAGATCACCAGCATGCACTTTGCCGGCTGGAAGATGGGTCTGA
AGACGGGTATGTACTACCTGCGCACGATGGCCGCCTCTGCGCCCATCCAG
TTCACCGTCGACCAGGAGCAGCTCAAGGTCGAGGATACCAATGTGGCCCG
CACCAATGCCGCCTACAAGAAGCGGGCTGTTGGCGCGGCCTCCAGCACCT
ACTCTGCTGTTCCCCGCGGCCAGGCTCCGGTCAACGGACACAGCGAGAAC
GGAGTCAACGGAATCAACGGCTCCAACAACGGCAGCCCTCGGGCTCTTGC
TGCGGATGCCTCCTCCACTCAGGAGAACGGCCCCCAGGAGGAGGACAGCC
AGCAGGAGAGCGAAGAGCGGGAGAACGACATCTACTCGCAGCAGGTGCTC
CAGTGCAGCATTGAGAACAAGGAGGCGTGCATTATGTGCCAGGGTTAGAT
GTTTGTCTACAAGAGAGACGGACGCAAAGAACGCGTGCAGTTCGACAAGA
TCACTGCCCGTGTGTCAAGGCTCTGTTACGGCCTTGACCCCGAGCATGTC
GATGCTGCTGCTATCACCCAGAAGGTCATCTCTGGTGTCTACCAGGGTGT
CACCACCGTTGAACTCGATAACCTGGCTGCTGAAACCGCTGCGTACATGA
CTGTCACACATCCCGACTACGCCATCCTCGCTGCCCGTATCGCCGTTTCC
AACCTCCACAAGCAGACCAAGAAGCAGTTCTCGTTGGTCATTTCAGATCT
CTACCACTATGTCAACCCCAAGAACAACCAACCTGCGCCAATGATATCAA
AGGAGACATACGAAATAATCATGAAACACGCCGATGAGCTTAACTCGGCT
ATTGTATACGACCGTGATTTCAACTACAACTTCTTCGGCTTCAAGACCCT
GGAGCGGTCATACCTGTTGCGGATCAACGGAAAGGTGGCTGAGCGTCCCC
AGCACCTGCTGATGCGTGTTGCCGTTGGTATCCACGGTAGTGACATCGAG
AAGGCCATCGAGACCTACCACTTGATGTCCCAGAAGTACTTCACTCACGC
CTCCCCGACTCTGTTCAACGCTGGTACTCCCCAGCCTCAGCTTGCCTCTT
GCTTCCTCGTCGACATGAAGGAGGACAGCATTGACGGTATCTACGACACT
TTGAAGACTTGCGCTATGATCTCCAAGACCGCCGGTGGTATTGGTCTGAA
CGTGCACCGCATCCGCTCTACCGGATCTTACATTGGTGGCACCAACGGTA
CCTCCAACGGTCTTGTTCCCATGCTTCGGGTTTTCAACAACACTGCCAGA
TACGTTGACCAGGGTGGCAACAAGCGTCCCGGTGCTTTTGCCATCTACCT
TGAGCCCTGGCACTCGGATGTCTTCGAGTTCCTGGACCTCCGTAAGAACC
ACGGTAAGGAGGAGGTCAGAGCCCGCGATCTGTTCTATGCCCTGTGGACT
CCGGATCTGTTCATGAAGCGTGTTGAGGCGAACGGCGACTGGACTCTGTT
CTGCCCCAACGAAGCCCCTGGCTTGGCTGATGTCTACGGTGACGAGTTCG
ACGCCCTCTACGAGAAGTACGAGAAGGAAGGCCGTGGCCGTCGTACCATC
AAGGCTCAGAAGCTCTGGTACGCTATTCTGGAGGCTCAGACCGAGACTGG
TAACCCCTTCATGCTGTACAAGGATGCTTGCAACAAGAAGAGCAACCAGA
AGAACCTCGGAACCATCCGTAGCTCCAACCTCTGCACTGAGATCATTGAG
TACAGTGCTCCGGATGAGGTTGCTGTCTGCAACCTTGCCTCTCTTGCCCT
TCCTACTTTCGTCGATGCTGCTCGCGGCGAGTATGACTTTGGCAAGCTCC
ACGAGGTCGTCCAGGTCTTGGTCCGTAACTTGAACAAGATCATCGACATC
AACTACTACCCCGTCCCGGAGGCCAAGAAGTCCAACTTCCGTCACCGTCC
CATTGCGCTGGGTGTCAACGGTCTGGCTGATGCTTTCCTCGCTCTCCGCC
TGCCCTTCGACTCGGCCGAGGCCAGACAGCTGAACATCCAGATCTTCGAG
ACCATCTATCACGCTGGTTTGACCGCCTCGTCCGATCTCGCCAAGGAGTT
CGGAACTTACGAGACCTACGAGGGATCTCCTGTCTCCCAGGGTATCCTTC
AGTACGACATGTGGGACCGCACTCCCACTGACCTCTGGGACTGGGCTGCT
CTCAAGGCCAAGATCGCCCAGACTGGTGTCCGCAACAGCTTGCTGGTCGC
CCCCATGCCCACTGCCAGTACCAGTCAGATCTTGGGCTTCAACGAGTGCT
TCGAGCCTTACACCTCCAACATCTACTCCCGCCGTGTCTTGGCTGGTGAG
TTCCAGGTGGTCAACCCCTGGCTGCTGAAGGACCTGGTCGATCTCGGCCT
GTGGTCGGACAACATGAAGAACCGCATCATTGCCGAGGGTGGTTCCGTCC
AGAACATCCCCAACATCCCCAGTGACATCAAGGCGCTGTACAAGACGGTG
TGGGAGATCTCCCAGCGGACGATCCTGCAGATGGCAGCGGACCGTGGTGC
GTTCATTGACCAGTCTCAGTCCCTCAACATCCACCTGAAGGAGCCCACCA
TGGGCAAGATCACCAGCATGCACTTTGCCGGCTGGAAGATGGGTCTGAAG
ACGGGTATGTACTACCTGCGCACGATGGCCGCCTCTGCGCCCATCCAGTT
CACCGTCGACCAGGAGCAGCTCAAGGTCGAGGATACCAATGTGGCCCGCA
CCAATGCCGCCTACAAGAAGCGGGCTGTTGGCGCGGCCTCCAGCACCTAC
TCTGCTGTTCCCCGCGGCCAGGCTCCGGTCAACGGACACAGCGAGAACGG
AGTCAACGGAATCAACGGCTCCAACAACGGCAGCCCTCGGGCTCTTGCTG
CGGATGCCTCCTCCACTCAGGAGAACGGCCCCCAGGAGGAGGACAGCCAG
CAGGAGAGCGAAGAGCGGGAGAACGACATCTACTCGCAGCAGGTGCTCCA
GTGCAGCATTGAGAACAAGGAGGCGTGCATTATGTGCCAGGGTTAGATGT
TTGTCTACAAGAGAGACGGACGCAAAGAACGCGTGCAGTTCGACAAGATC
ACTGCCCGTGTGTCAAGGCTCTGTTACGGCCTTGACCCCGAGCATGTCGA
TGCTGCTGCTATCACCCAGAAGGTCATCTCTGGTGTCTACCAGGGTGTCA
CCACCGTTGAACTCGATAACCTGGCTGCTGAAACCGCTGCGTACATGACT
GTCACACATCCCGACTACGCCATCCTCGCTGCCCGTATCGCCGTTTCCAA
CCTCCACAAGCAGACCAAGAAGCAGTTCTCGTTGGTCATTTCAGATCTCT
ACCACTATGTCAACCCCAAGAACAACCAACCTGCGCCAATGATATCAAAG
GAGACATACGAAATAATCATGAAACACGCCGATGAGCTTAACTCGGCTAT
TGTATACGACCGTGATTTCAACTACAACTTCTTCGGCTTCAAGACCCTGG
AGCGGTCATACCTGTTGCGGATCAACGGAAAGGTGGCTGAGCGTCCCCAG
CACCTGCTGATGCGTGTTGCCGTTGGTATCCACGGTAGTGACATCGAGAA
GGCCATCGAGACCTACCACTTGATGTCCCAGAAGTACTTCACTCACGCCT
CCCCGACTCTGTTCAACGCTGGTACTCCCCAGCCTCAGCTTGCCTCTTGC
TTCCTCGTCGACATGAAGGAGGACAGCATTGACGGTATCTACGACACTTT
GAAGACTTGCGCTATGATCTCCAAGACCGCCGGTGGTATTGGTCTGAACG
TGCACCGCATCCGCTCTACCGGATCTTACATTGGTGGCACCAACGGTACC
TCCAACGGTCTTGTTCCCATGCTTCGGGTTTTCAACAACACTGCCAGATA
CGTTGACCAGGGTGGCAACAAGCGTCCCGGTGCTTTTGCCATCTACCTTG
AGCCCTGGCACTCGGATGTCTTCGAGTTCCTGGACCTCCGTAAGAACCAC
GGTAAGGAGGAGGTCAGAGCCCGCGATCTGTTCTATGCCCTGTGGACTCC
GGATCTGTTCATGAAGCGTGTTGAGGCGAACGGCGACTGGACTCTGTTCT
GCCCCAACGAAGCCCCTGGCTTGGCTGATGTCTACGGTGACGAGTTCGAC
GCCCTCTACGAGAAGTACGAGAAGGAAGGCCGTGGCCGTCGTACCATCAA
GGCTCAGAAGCTCTGGTACGCTATTCTGGAGGCTCAGACCGAGACTGGTA
ACCCCTTCATGCTGTACAAGGATGCTTGCAACAAGAAGAGCAACCAGAAG
AACCTCGGAACCATCCGTAGCTCCAACCTCTGCACTGAGATCATTGAGTA
CAGTGCTCCGGATGAGGTTGCTGTCTGCAACCTTGCCTCTCTTGCCCTTC
CTACTTTCGTCGATGCTGCTCGCGGCGAGTATGACTTTGGCAAGCTCCAC
GAGGTCGTCCAGGTCTTGGTCCGTAACTTGAACAAGATCATCGACATCAA
CTACTACCCCGTCCCGGAGGCCAAGAAGTCCAACTTCCGTCACCGTCCCA
TTGCGCTGGGTGTCAACGGTCTGGCTGATGCTTTCCTCGCTCTCCGCCTG
CCCTTCGACTCGGCCGAGGCCAGACAGCTGAACATCCAGATCTTCGAGAC
CATCTATCACGCTGGTTTGACCGCCTCGTCCGATCTCGCCAAGGAGTTCG
GAACTTACGAGACCTACGAGGGATCTCCTGTCTCCCAGGGTATCCTTCAG
TACGACATGTGGGACCGCACTCCCACTGACCTCTGGGACTGGGCTGCTCT
CAAGGCCAAGATCGCCCAGACTGGTGTCCGCAACAGCTTGCTGGTCGCCC
CCATGCCCACTGCCAGTACCAGTCAGATCTTGGGCTTCAACGAGTGCTTC
GAGCCTTACACCTCCAACATCTACTCCCGCCGTGTCTTGGCTGGTGAGTT
CCAGGTGGTCAACCCCTGGCTGCTGAAGGACCTGGTCGATCTCGGCCTGT
GGTCGGACAACATGAAGAACCGCATCATTGCCGAGGGTGGTTCCGTCCAG
AACATCCCCAACATCCCCAGTGACATCAAGGCGCTGTACAAGACGGTGTG
GGAGATCTCCCAGCGGACGATCCTGCAGATGGCAGCGGACCGTGGTGCGT
TCATTGACCAGTCTCAGTCCCTCAACATCCACCTGAAGGAGCCCACCATG
GGCAAGATCACCAGCATGCACTTTGCCGGCTGGAAGATGGGTCTGAAGAC
GGGTATGTACTACCTGCGCACGATGGCCGCCTCTGCGCCCATCCAGTTCA
CCGTCGACCAGGAGCAGCTCAAGGTCGAGGATACCAATGTGGCCCGCACC
AATGCCGCCTACAAGAAGCGGGCTGTTGGCGCGGCCTCCAGCACCTACTC
TGCTGTTCCCCGCGGCCAGGCTCCGGTCAACGGACACAGCGAGAACGGAG
TCAACGGAATCAACGGCTCCAACAACGGCAGCCCTCGGGCTCTTGCTGCG
GATGCCTCCTCCACTCAGGAGAACGGCCCCCAGGAGGAGGACAGCCAGCA
GGAGAGCGAAGAGCGGGAGAACGACATCTACTCGCAGCAGGTGCTCCAGT
GCAGCATTGAGAACAAGGAGGCGTGCATTATGTGCCAGGGTTAGATGTTT
GTCTACAAGAGAGACGGACGCAAAGAACGCGTGCAGTTCGACAAGATCAC
TGCCCGTGTGTCAAGGCTCTGTTACGGCCTTGACCCCGAGCATGTCGATG
CTGCTGCTATCACCCAGAAGGTCATCTCTGGTGTCTACCAGGGTGTCACC
ACCGTTGAACTCGATAACCTGGCTGCTGAAACCGCTGCGTACATGACTGT
CACACATCCCGACTACGCCATCCTCGCTGCCCGTATCGCCGTTTCCAACC
TCCACAAGCAGACCAAGAAGCAGTTCTCGTTGGTCATTTCAGATCTCTAC
CACTATGTCAACCCCAAGAACAACCAACCTGCGCCAATGATATCAAAGGA
GACATACGAAATAATCATGAAACACGCCGATGAGCTTAACTCGGCTATTG
TATACGACCGTGATTTCAACTACAACTTCTTCGGCTTCAAGACCCTGGAG
CGGTCATACCTGTTGCGGATCAACGGAAAGGTGGCTGAGCGTCCCCAGCA
CCTGCTGATGCGTGTTGCCGTTGGTATCCACGGTAGTGACATCGAGAAGG
CCATCGAGACCTACCACTTGATGTCCCAGAAGTACTTCACTCACGCCTCC
CCGACTCTGTTCAACGCTGGTACTCCCCAGCCTCAGCTTGCCTCTTGCTT
CCTCGTCGACATGAAGGAGGACAGCATTGACGGTATCTACGACACTTTGA
AGACTTGCGCTATGATCTCCAAGACCGCCGGTGGTATTGGTCTGAACGTG
CACCGCATCCGCTCTACCGGATCTTACATTGGTGGCACCAACGGTACCTC
CAACGGTCTTGTTCCCATGCTTCGGGTTTTCAACAACACTGCCAGATACG
TTGACCAGGGTGGCAACAAGCGTCCCGGTGCTTTTGCCATCTACCTTGAG
CCCTGGCACTCGGATGTCTTCGAGTTCCTGGACCTCCGTAAGAACCACGG
TAAGGAGGAGGTCAGAGCCCGCGATCTGTTCTATGCCCTGTGGACTCCGG
ATCTGTTCATGAAGCGTGTTGAGGCGAACGGCGACTGGACTCTGTTCTGC
CCCAACGAAGCCCCTGGCTTGGCTGATGTCTACGGTGACGAGTTCGACGC
CCTCTACGAGAAGTACGAGAAGGAAGGCCGTGGCCGTCGTACCATCAAGG
CTCAGAAGCTCTGGTACGCTATTCTGGAGGCTCAGACCGAGACTGGTAAC
CCCTTCATGCTGTACAAGGATGCTTGCAACAAGAAGAGCAACCAGAAGAA
CCTCGGAACCATCCGTAGCTCCAACCTCTGCACTGAGATCATTGAGTACA
GTGCTCCGGATGAGGTTGCTGTCTGCAACCTTGCCTCTCTTGCCCTTCCT
ACTTTCGTCGATGCTGCTCGCGGCGAGTATGACTTTGGCAAGCTCCACGA
GGTCGTCCAGGTCTTGGTCCGTAACTTGAACAAGATCATCGACATCAACT
ACTACCCCGTCCCGGAGGCCAAGAAGTCCAACTTCCGTCACCGTCCCATT
GCGCTGGGTGTCAACGGTCTGGCTGATGCTTTCCTCGCTCTCCGCCTGCC
CTTCGACTCGGCCGAGGCCAGACAGCTGAACATCCAGATCTTCGAGACCA
TCTATCACGCTGGTTTGACCGCCTCGTCCGATCTCGCCAAGGAGTTCGGA
ACTTACGAGACCTACGAGGGATCTCCTGTCTCCCAGGGTATCCTTCAGTA
CGACATGTGGGACCGCACTCCCACTGACCTCTGGGACTGGGCTGCTCTCA
AGGCCAAGATCGCCCAGACTGGTGTCCGCAACAGCTTGCTGGTCGCCCCC
ATGCCCACTGCCAGTACCAGTCAGATCTTGGGCTTCAACGAGTGCTTCGA
GCCTTACACCTCCAACATCTACTCCCGCCGTGTCTTGGCTGGTGAGTTCC
AGGTGGTCAACCCCTGGCTGCTGAAGGACCTGGTCGATCTCGGCCTGTGG
TCGGACAACATGAAGAACCGCATCATTGCCGAGGGTGGTTCCGTCCAGAA
CATCCCCAACATCCCCAGTGACATCAAGGCGCTGTACAAGACGGTGTGGG
AGATCTCCCAGCGGACGATCCTGCAGATGGCAGCGGACCGTGGTGCGTTC
ATTGACCAGTCTCAGTCCCTCAACATCCACCTGAAGGAGCCCACCATGGG
CAAGATCACCAGCATGCACTTTGCCGGCTGGAAGATGGGTCTGAAGACGG
GTATGTACTACCTGCGCACGATGGCCGCCTCTGCGCCCATCCAGTTCACC
GTCGACCAGGAGCAGCTCAAGGTCGAGGATACCAATGTGGCCCGCACCAA
TGCCGCCTACAAGAAGCGGGCTGTTGGCGCGGCCTCCAGCACCTACTCTG
CTGTTCCCCGCGGCCAGGCTCCGGTCAACGGACACAGCGAGAACGGAGTC
AACGGAATCAACGGCTCCAACAACGGCAGCCCTCGGGCTCTTGCTGCGGA
TGCCTCCTCCACTCAGGAGAACGGCCCCCAGGAGGAGGACAGCCAGCAGG
AGAGCGAAGAGCGGGAGAACGACATCTACTCGCAGCAGGTGCTCCAGTGC
AGCATTGAGAACAAGGAGGCGTGCATTATGTGCCAGGGTTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005524 | ATP binding |
| GO:0004748 | ribonucleoside-diphosphate reductase activity, thioredoxin disulfide as acceptor |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006260 | DNA replication |
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
Properties
| Property Name | Value |
|---|
| Note | antiSMASH:Cluster_1000069.1 |
| Product | ribonucleotide-diphosphate reductase subunit rnr1 |
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 |
|---|
| MCQH01000069 | supercontig | MCQH01000069:21269..24078 + |
|
