|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000051:215761..220079+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_002405-T1 ID=ATCC10864_002405-T1|Name=ATCC10864_002405-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=4319bp|location=Sequence derived from alignment at MCQH01000051:215761..220079+ (Aspergillus niger ATCC 10864)
ATGGCGGAGGATCAGGAGAAGATCGCCTACACCCTCGGGGCCCCCGAAGG
CAGAGATGATACCGACAGCACCGCTACCGTCCTCGATGAAGATCCCACCG
TCACCCCTCGCAACCCCGGTGCCAGTCGGGCCGAAGGCTGGGCCTTGATG
TCCCAGGTTAAGCAGCAGAATGAGCGGGACATGCAATCCGGCTTCAAACG
CAAGGAACTCGGTGTCACCTGGAAGAACCTCTCCGTCGAAGTCGTCAGCG
CCGAGGCCGCCGTCAACGAGAATTTCCTGTCCCAATTCAACATCCCTCAG
CACATCAAAGAGTCCAAGAACAAGCCGCCGTTGCGTTCCATCCTCTCCAA
CAGCCATGGCTGTGTCAAGCCCGGAGAGATGCTTTTGGTTCTGGGTCGGC
CCGGCTCCGGTTGCACCACCCTGTTGAAGATGCTGTCCAATCGTCGCCTC
GGTTACAGGTCAATTGAAGGTGATGTTCGCTATGGTTCGTTGACATCGGA
CGAGGCGGCCCAGTACCGCGGCCAGATCGTCATGAACACTGAGGAGGAAA
TCTTCTTCCCCACCTTGACGGTGGGTCAGACGATGGATTTCGCGACTCGT
CTCAAGGTCCCCTTCACTCTGCCGAACGGCGTCGAGTCCCCCGAAGCTTA
CCGCCAAGAAGCCAAGAAGTTCCTCCTCGAATCCATGGGCATCTCGCATA
CGAACGATACCAAGGTGGGCAATGAATACGTACGTGGTGTCTCCGGTGGT
GAGCGGAAGCGTGTCTCCATCATCGAGTGCCTTGCGACTCGTGGTTCCGT
TTTCTGCTGGGATAACAGTACGCGTGGTTTGGATGCCAGCACGGCTCTCG
AATGGACCAAAGCTGTTCGTGCCATGACGGATGTCTTGGGTCTGTCTTCC
ATTGTCACCCTCTACCAGGCGGGAAACGGTATCTACGACCTGTTCGACAA
GGTGCTCGTGTTGGATGAAGGCAAGGAAATCTACTACGGCCCCATGGCCC
AGGCGCGTCCCTTCATGGAGGATCTGGGCTTCGTTTGCCGCGAGGGCTCC
AATGTCGCCGATTACCTTACCGGTGTCACGGTCCCCACCGAACGCATCAT
CAGACCGGGCTACGAGAATCGCTTCCCTCGCAACGCGGACATGATTCTTG
CCGAATACCAGAAGTCGCCTATTTATACGCAGATGACCTCCGAATATGAC
TACCCCGACTCCGACCTGGCACGCCAGCGCACTGCCGATTTCAAGGAATC
CGTCGCGCAAGAGAAGAACAAGAAACTTCCCAAGACAAGTCCCTTGACGG
TTGACTTTGTCGACCAGGTCAAGACCTGCATTGCCCGCCAATACCAAATC
ATCTGGGGTGACAAAGCCACCTTCTTCATCAAGCAGGTCTCTACCTTGGT
GCAAGCGTTGATTGCTGGTTCACTGTTCTACAATGCCCCTAATAACTCGG
GTGGTTTGTTCGTCAAGTCCGGTGCTCTGTTCTTTTCCCTGCTCTATAAC
AGTCTTTTGGCCATGTCCGAAGTCACCGACTCTTTCAGTGGTCGCCCGGT
TCTGATCAAACACAAAAGCTTCGCATACTTCCACCCTGCCGCCTTTTGTA
TCGCTCAGATTACTGCTGATATCCCGGTTCTTTTGTTTCAAGTCAGCGTG
TTCTCCCTCGTGGTCTACTTCATGGTTGGCCTCACCATGTCCGCCAGCGC
TTTCTTCACCTATTGGATCCTTGTTTTCACTGCAACTATGGTGAGTCGAC
GCGAAATACTGCTTGTTGACCAAAATTGTACTGACACGTCGCTTAGGTCA
TGACAGCACTGTTCCGCGCGGTCGGCGCCCTTTTCAGCACGTTCGATGGC
GCCTCCAAGGTCTCTGGTTTCCTCATCTCTGCTCTCATCATGTACACCGG
TTACATGATCAAAAAGCCCCAGATGCACCCTTGGTTCGGCTGGATTTACT
GGATCAACCCTTTAGCCTACGGTTTCGATGCGCTCTTGTCCAACGAGTTT
CACGGCAAGATCATTCCTTGTGTCGGAACGAACCTCATTCCCAGTGGAGA
GGGCTACAATGGAGATGGACATCAATCGTGCGCCGGTGTCGGTGGCGCCA
TCCCCGGAAGCACCTATGTCACCGGTGAACAATACCTGGCTTCCCTGTCT
TACAGCCACTCCCATGTCTGGCGCAACTTTGGTATCCTCTGGGCTTGGTG
GGCGCTCTTTGCTGTTGCCACCATCATCGCGACGTCCCGCTGGAAGTCCC
CCGGTGAGAGCGGCTCCTCCCTTCTCATCCCCCGCGAAAGAGTCGATGCC
CATCGCCAAGTTGCCCGCCCCGACGAGGAATCTCAGGTTGACGAGAAAGC
CAAGAAGCCTCATGGTGACAACTGCCAGAGTGAAAGCGATCTTGACAAGC
AGCTCGTCCGAAACACCTCCGTTTTCACCTGGAAGGATCTCACCTACACG
GTCAAGACCCCTACTGGCGATCGCGTGCTCCTCGATAAGGTATACGGATG
GGTGAAGCCTGGCATGCTGGGTGCCTTGATGGGTTCCTCCGGTGCTGGTA
AAACCACTCTTCTGGACGTGTTGGCTCAGCGTAAGACCGAAGGCACCATC
CACGGCTCCGTCCTTGTCGACGGTCGTCCTCTGCCCGTCTCCTTCCAGCG
CTCTGCCGGTTACTGTGAACAGCTTGACGTCCATGAACCTTTTGCCACTG
TCCGTGAGGCATTGGAATTCTCTGCCCTGCTCCGCCAGCCACGCCATGTG
CCCTCTGAGGAGAAGCTGAAGTACGTTGACACTATTATTGAACTTCTGGA
ACTGCATGATATCGCCGATACCCTCATTGGGCGTGTCGGAAACGGACTGA
GCGTTGAACAACGCAAGCGTGTCACTATCGGTGTCGAGTTGGTCTCGAAG
CCCAGCATCCTCATCTTCCTGGACGAACCCACCTCCGGTCTTGATGGTCA
ATCCGCATACAACACCGTCCGTTTCCTACGTAAGCTCGCCGACGTCGGCC
AAGCTGTTCTCGTTACTATCCACCAGCCCTCCGCGCAGCTCTTTGCTGAA
TTCGACACCCTGCTTCTCCTCGCCAAGGGTGGTAAGATGGTCTACTTCGG
TGATATTGGTGACAACGGCCAAACCGTCAAAAACTACTTCGCTCGCTACG
GCGCCCCCTGTCCCGCAGAGGCCAACCCAGCCGAGCACATGATTGACGTT
GTCTCTGGCGCGCTCTCCCAAGGTCGCGACTGGCACCAAGTTTGGAAGGA
CTCCCCCGAGCACACCAACTCCCTGAAAGAACTTGACTCTATCGTCGATG
AGGCCGCCTCCAAGCCCCCCGGCACCGTCGATGACGGCAACGAATTCGCC
ATGCCCCTCTGGCAGCAAACCCTCATCGTGACCAAGCGCTCCTGCGTCGC
AGTTTACCGCAACACTGACTACGTGAACAACAAGCTGGCTCTCCACGTCG
GCTCGGCCCTCTTCAACGGTTTCTCCTTCTGGATGATTGGTAATCACGTC
GGCGCCCTCCAACTCCGTCTCTTCACCATCTTCAACTTCATTTTCGTCGC
CCCGGGTGTCATCAACCAGCTGCAGCCGCTCTTCCTCGAACGTCGCGACA
TCTACGACGCTCGTGAGAAGAAATCGAAAATGTACTCCTGGATCGCCTTC
GTGACCGGTCTTATCGTCTCCGAAATCCCCTATCTCTGCATCTGCGCTGT
CCTCTACTTCGCCTGCTGGTACTACACCGTGGGCTTCCCATCAGACAGCA
ACAAATCCGGTGCTGTCTTCTTTGTCATGCTGATGTACGAGTTCGTCTAC
ACCGGTATTGGCCAATTCGTCTCCGCCTACGCCCCCAACGCCATCTTCGC
CTCACTCATTAACCCAGTAATCATCGGAACCCTCGCCTCCTTCTGCGGTG
TCTTGGTCCCCTACACCCAGATTCAAGAATTCTGGCGCTACTGGATCTAC
TACCTCGACCCCTTCAACTACCTCATGGGCAGTCTTCTAGTCTTCACCAC
CTTTGACACCCCCGTCCGCTGCAAGGAATCTGAATTTGCCATCTTCGATC
CCCCCAACGGCTCGACCTGTGCCCAGTACCTGCAGGATTACATGATGGGT
GCCGGCGCGCGCATGAACCTCATCAACCCCGACGCCACGACCGATTGCCA
CGTCTGCGAATACAGCCGCGGAAGCGATTACCTGTATACCATCAACCTGA
AGGATTATTACTACGGGTGGAGAGATGCCGCAATCGTCGCTTTGTTCGCT
ATTAGTTCGTATGCCTTGGTGTATGGGCTGATGAAGTTGAGGACCAAGGC
GTCGAAGCAGGCTGAGTAG back to topCoding sequence (CDS) from alignment at MCQH01000051:215761..220079+ >ATCC10864_002405-T1 ID=ATCC10864_002405-T1|Name=ATCC10864_002405-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=8526bp|location=Sequence derived from alignment at MCQH01000051:215761..220079+ (Aspergillus niger ATCC 10864)
ATGGCGGAGGATCAGGAGAAGATCGCCTACACCCTCGGGGCCCCCGAAGG
CAGAGATGATACCGACAGCACCGCTACCGTCCTCGATGAAGATCCCACCG
TCACCCCTCGCAACCCCGGTGCCAGTCGGGCCGAAGGCTGGGCCTTGATG
TCCCAGGTTAAGCAGCAGAATGAGCGGGACATGCAATCCGGCTTCAAACG
CAAGGAACTCGGTGTCACCTGGAAGAACCTCTCCGTCGAAGTCGTCAGCG
CCGAGGCCGCCGTCAACGAGAATTTCCTGTCCCAATTCAACATCCCTCAG
CACATCAAAGAGTCCAAGAACAAGCCGCCGTTGCGTTCCATCCTCTCCAA
CAGCCATGGCTGTGTCAAGCCCGGAGAGATGCTTTTGGTTCTGGGTCGGC
CCGGCTCCGGTTGCACCACCCTGTTGAAGATGCTGTCCAATCGTCGCCTC
GGTTACAGGTCAATTGAAGGTGATGTTCGCTATGGTTCGTTGACATCGGA
CGAGGCGGCCCAGTACCGCGGCCAGATCGTCATGAACACTGAGGAGGAAA
TCTTCTTCCCCACCTTGACGGTGGGTCAGACGATGGATTTCGCGACTCGT
CTCAAGGTCCCCTTCACTCTGCCGAACGGCGTCGAGTCCCCCGAAGCTTA
CCGCCAAGAAGCCAAGAAGTTCCTCCTCGAATCCATGGGCATCTCGCATA
CGAACGATACCAAGGTGGGCAATGAATACGTACGTGGTGTCTCCGGTGGT
GAGCGGAAGCGTGTCTCCATCATCGAGTGCCTTGCGACTCGTGGTTCCGT
TTTCTGCTGGGATAACAGTACGCGTGGTTTGGATGCCAGCACGGCTCTCG
AATGGACCAAAGCTGTTCGTGCCATGACGGATGTCTTGGGTCTGTCTTCC
ATTGTCACCCTCTACCAGGCGGGAAACGGTATCTACGACCTGTTCGACAA
GGTGCTCGTGTTGGATGAAGGCAAGGAAATCTACTACGGCCCCATGGCCC
AGGCGCGTCCCTTCATGGAGGATCTGGGCTTCGTTTGCCGCGAGGGCTCC
AATGTCGCCGATTACCTTACCGGTGTCACGGTCCCCACCGAACGCATCAT
CAGACCGGGCTACGAGAATCGCTTCCCTCGCAACGCGGACATGATTCTTG
CCGAATACCAGAAGTCGCCTATTTATACGCAGATGACCTCCGAATATGAC
TACCCCGACTCCGACCTGGCACGCCAGCGCACTGCCGATTTCAAGGAATC
CGTCGCGCAAGAGAAGAACAAGAAACTTCCCAAGACAAGTCCCTTGACGG
TTGACTTTGTCGACCAGGTCAAGACCTGCATTGCCCGCCAATACCAAATC
ATCTGGGGTGACAAAGCCACCTTCTTCATCAAGCAGGTCTCTACCTTGGT
GCAAGCGTTGATTGCTGGTTCACTGTTCTACAATGCCCCTAATAACTCGG
GTGGTTTGTTCGTCAAGTCCGGTGCTCTGTTCTTTTCCCTGCTCTATAAC
AGTCTTTTGGCCATGTCCGAAGTCACCGACTCTTTCAGTGGTCGCCCGGT
TCTGATCAAACACAAAAGCTTCGCATACTTCCACCCTGCCGCCTTTTGTA
TCGCTCAGATTACTGCTGATATCCCGGTTCTTTTGTTTCAAGTCAGCGTG
TTCTCCCTCGTGGTCTACTTCATGGTTGGCCTCACCATGTCCGCCAGCGC
TTTCTTCACCTATTGGATCCTTGTTTTCACTGCAACTATGGTCATGACAG
CACTGTTCCGCGCGGTCGGCGCCCTTTTCAGCACGTTCGATGGCGCCTCC
AAGGTCTCTGGTTTCCTCATCTCTGCTCTCATCATGTACACCGGTTACAT
GATCAAAAAGCCCCAGATGCACCCTTGGTTCGGCTGGATTTACTGGATCA
ACCCTTTAGCCTACGGTTTCGATGCGCTCTTGTCCAACGAGTTTCACGGC
AAGATCATTCCTTGTGTCGGAACGAACCTCATTCCCAGTGGAGAGGGCTA
CAATGGAGATGGACATCAATCGTGCGCCGGTGTCGGTGGCGCCATCCCCG
GAAGCACCTATGTCACCGGTGAACAATACCTGGCTTCCCTGTCTTACAGC
CACTCCCATGTCTGGCGCAACTTTGGTATCCTCTGGGCTTGGTGGGCGCT
CTTTGCTGTTGCCACCATCATCGCGACGTCCCGCTGGAAGTCCCCCGGTG
AGAGCGGCTCCTCCCTTCTCATCCCCCGCGAAAGAGTCGATGCCCATCGC
CAAGTTGCCCGCCCCGACGAGGAATCTCAGGTTGACGAGAAAGCCAAGAA
GCCTCATGGTGACAACTGCCAGAGTGAAAGCGATCTTGACAAGCAGCTCG
TCCGAAACACCTCCGTTTTCACCTGGAAGGATCTCACCTACACGGTCAAG
ACCCCTACTGGCGATCGCGTGCTCCTCGATAAGGTATACGGATGGGTGAA
GCCTGGCATGCTGGGTGCCTTGATGGGTTCCTCCGGTGCTGGTAAAACCA
CTCTTCTGGACGTGTTGGCTCAGCGTAAGACCGAAGGCACCATCCACGGC
TCCGTCCTTGTCGACGGTCGTCCTCTGCCCGTCTCCTTCCAGCGCTCTGC
CGGTTACTGTGAACAGCTTGACGTCCATGAACCTTTTGCCACTGTCCGTG
AGGCATTGGAATTCTCTGCCCTGCTCCGCCAGCCACGCCATGTGCCCTCT
GAGGAGAAGCTGAAGTACGTTGACACTATTATTGAACTTCTGGAACTGCA
TGATATCGCCGATACCCTCATTGGGCGTGTCGGAAACGGACTGAGCGTTG
AACAACGCAAGCGTGTCACTATCGGTGTCGAGTTGGTCTCGAAGCCCAGC
ATCCTCATCTTCCTGGACGAACCCACCTCCGGTCTTGATGGTCAATCCGC
ATACAACACCGTCCGTTTCCTACGTAAGCTCGCCGACGTCGGCCAAGCTG
TTCTCGTTACTATCCACCAGCCCTCCGCGCAGCTCTTTGCTGAATTCGAC
ACCCTGCTTCTCCTCGCCAAGGGTGGTAAGATGGTCTACTTCGGTGATAT
TGGTGACAACGGCCAAACCGTCAAAAACTACTTCGCTCGCTACGGCGCCC
CCTGTCCCGCAGAGGCCAACCCAGCCGAGCACATGATTGACGTTGTCTCT
GGCGCGCTCTCCCAAGGTCGCGACTGGCACCAAGTTTGGAAGGACTCCCC
CGAGCACACCAACTCCCTGAAAGAACTTGACTCTATCGTCGATGAGGCCG
CCTCCAAGCCCCCCGGCACCGTCGATGACGGCAACGAATTCGCCATGCCC
CTCTGGCAGCAAACCCTCATCGTGACCAAGCGCTCCTGCGTCGCAGTTTA
CCGCAACACTGACTACGTGAACAACAAGCTGGCTCTCCACGTCGGCTCGG
CCCTCTTCAACGGTTTCTCCTTCTGGATGATTGGTAATCACGTCGGCGCC
CTCCAACTCCGTCTCTTCACCATCTTCAACTTCATTTTCGTCGCCCCGGG
TGTCATCAACCAGCTGCAGCCGCTCTTCCTCGAACGTCGCGACATCTACG
ACGCTCGTGAGAAGAAATCGAAAATGTACTCCTGGATCGCCTTCGTGACC
GGTCTTATCGTCTCCGAAATCCCCTATCTCTGCATCTGCGCTGTCCTCTA
CTTCGCCTGCTGGTACTACACCGTGGGCTTCCCATCAGACAGCAACAAAT
CCGGTGCTGTCTTCTTTGTCATGCTGATGTACGAGTTCGTCTACACCGGT
ATTGGCCAATTCGTCTCCGCCTACGCCCCCAACGCCATCTTCGCCTCACT
CATTAACCCAGTAATCATCGGAACCCTCGCCTCCTTCTGCGGTGTCTTGG
TCCCCTACACCCAGATTCAAGAATTCTGGCGCTACTGGATCTACTACCTC
GACCCCTTCAACTACCTCATGGGCAGTCTTCTAGTCTTCACCACCTTTGA
CACCCCCGTCCGCTGCAAGGAATCTGAATTTGCCATCTTCGATCCCCCCA
ACGGCTCGACCTGTGCCCAGTACCTGCAGGATTACATGATGGGTGCCGGC
GCGCGCATGAACCTCATCAACCCCGACGCCACGACCGATTGCCACGTCTG
CGAATACAGCCGCGGAAGCGATTACCTGTATACCATCAACCTGAAGGATT
ATTACTACGGGTGGAGAGATGCCGCAATCGTCGCTTTGTTCGCTATTAGT
TCGTATGCCTTGGTGTATGGGCTGATGAAGTTGAGGACCAAGGCGTCGAA
GCAGGCTGAGTAGATGGCGGAGGATCAGGAGAAGATCGCCTACACCCTCG
GGGCCCCCGAAGGCAGAGATGATACCGACAGCACCGCTACCGTCCTCGAT
GAAGATCCCACCGTCACCCCTCGCAACCCCGGTGCCAGTCGGGCCGAAGG
CTGGGCCTTGATGTCCCAGGTTAAGCAGCAGAATGAGCGGGACATGCAAT
CCGGCTTCAAACGCAAGGAACTCGGTGTCACCTGGAAGAACCTCTCCGTC
GAAGTCGTCAGCGCCGAGGCCGCCGTCAACGAGAATTTCCTGTCCCAATT
CAACATCCCTCAGCACATCAAAGAGTCCAAGAACAAGCCGCCGTTGCGTT
CCATCCTCTCCAACAGCCATGGCTGTGTCAAGCCCGGAGAGATGCTTTTG
GTTCTGGGTCGGCCCGGCTCCGGTTGCACCACCCTGTTGAAGATGCTGTC
CAATCGTCGCCTCGGTTACAGGTCAATTGAAGGTGATGTTCGCTATGGTT
CGTTGACATCGGACGAGGCGGCCCAGTACCGCGGCCAGATCGTCATGAAC
ACTGAGGAGGAAATCTTCTTCCCCACCTTGACGGTGGGTCAGACGATGGA
TTTCGCGACTCGTCTCAAGGTCCCCTTCACTCTGCCGAACGGCGTCGAGT
CCCCCGAAGCTTACCGCCAAGAAGCCAAGAAGTTCCTCCTCGAATCCATG
GGCATCTCGCATACGAACGATACCAAGGTGGGCAATGAATACGTACGTGG
TGTCTCCGGTGGTGAGCGGAAGCGTGTCTCCATCATCGAGTGCCTTGCGA
CTCGTGGTTCCGTTTTCTGCTGGGATAACAGTACGCGTGGTTTGGATGCC
AGCACGGCTCTCGAATGGACCAAAGCTGTTCGTGCCATGACGGATGTCTT
GGGTCTGTCTTCCATTGTCACCCTCTACCAGGCGGGAAACGGTATCTACG
ACCTGTTCGACAAGGTGCTCGTGTTGGATGAAGGCAAGGAAATCTACTAC
GGCCCCATGGCCCAGGCGCGTCCCTTCATGGAGGATCTGGGCTTCGTTTG
CCGCGAGGGCTCCAATGTCGCCGATTACCTTACCGGTGTCACGGTCCCCA
CCGAACGCATCATCAGACCGGGCTACGAGAATCGCTTCCCTCGCAACGCG
GACATGATTCTTGCCGAATACCAGAAGTCGCCTATTTATACGCAGATGAC
CTCCGAATATGACTACCCCGACTCCGACCTGGCACGCCAGCGCACTGCCG
ATTTCAAGGAATCCGTCGCGCAAGAGAAGAACAAGAAACTTCCCAAGACA
AGTCCCTTGACGGTTGACTTTGTCGACCAGGTCAAGACCTGCATTGCCCG
CCAATACCAAATCATCTGGGGTGACAAAGCCACCTTCTTCATCAAGCAGG
TCTCTACCTTGGTGCAAGCGTTGATTGCTGGTTCACTGTTCTACAATGCC
CCTAATAACTCGGGTGGTTTGTTCGTCAAGTCCGGTGCTCTGTTCTTTTC
CCTGCTCTATAACAGTCTTTTGGCCATGTCCGAAGTCACCGACTCTTTCA
GTGGTCGCCCGGTTCTGATCAAACACAAAAGCTTCGCATACTTCCACCCT
GCCGCCTTTTGTATCGCTCAGATTACTGCTGATATCCCGGTTCTTTTGTT
TCAAGTCAGCGTGTTCTCCCTCGTGGTCTACTTCATGGTTGGCCTCACCA
TGTCCGCCAGCGCTTTCTTCACCTATTGGATCCTTGTTTTCACTGCAACT
ATGGTCATGACAGCACTGTTCCGCGCGGTCGGCGCCCTTTTCAGCACGTT
CGATGGCGCCTCCAAGGTCTCTGGTTTCCTCATCTCTGCTCTCATCATGT
ACACCGGTTACATGATCAAAAAGCCCCAGATGCACCCTTGGTTCGGCTGG
ATTTACTGGATCAACCCTTTAGCCTACGGTTTCGATGCGCTCTTGTCCAA
CGAGTTTCACGGCAAGATCATTCCTTGTGTCGGAACGAACCTCATTCCCA
GTGGAGAGGGCTACAATGGAGATGGACATCAATCGTGCGCCGGTGTCGGT
GGCGCCATCCCCGGAAGCACCTATGTCACCGGTGAACAATACCTGGCTTC
CCTGTCTTACAGCCACTCCCATGTCTGGCGCAACTTTGGTATCCTCTGGG
CTTGGTGGGCGCTCTTTGCTGTTGCCACCATCATCGCGACGTCCCGCTGG
AAGTCCCCCGGTGAGAGCGGCTCCTCCCTTCTCATCCCCCGCGAAAGAGT
CGATGCCCATCGCCAAGTTGCCCGCCCCGACGAGGAATCTCAGGTTGACG
AGAAAGCCAAGAAGCCTCATGGTGACAACTGCCAGAGTGAAAGCGATCTT
GACAAGCAGCTCGTCCGAAACACCTCCGTTTTCACCTGGAAGGATCTCAC
CTACACGGTCAAGACCCCTACTGGCGATCGCGTGCTCCTCGATAAGGTAT
ACGGATGGGTGAAGCCTGGCATGCTGGGTGCCTTGATGGGTTCCTCCGGT
GCTGGTAAAACCACTCTTCTGGACGTGTTGGCTCAGCGTAAGACCGAAGG
CACCATCCACGGCTCCGTCCTTGTCGACGGTCGTCCTCTGCCCGTCTCCT
TCCAGCGCTCTGCCGGTTACTGTGAACAGCTTGACGTCCATGAACCTTTT
GCCACTGTCCGTGAGGCATTGGAATTCTCTGCCCTGCTCCGCCAGCCACG
CCATGTGCCCTCTGAGGAGAAGCTGAAGTACGTTGACACTATTATTGAAC
TTCTGGAACTGCATGATATCGCCGATACCCTCATTGGGCGTGTCGGAAAC
GGACTGAGCGTTGAACAACGCAAGCGTGTCACTATCGGTGTCGAGTTGGT
CTCGAAGCCCAGCATCCTCATCTTCCTGGACGAACCCACCTCCGGTCTTG
ATGGTCAATCCGCATACAACACCGTCCGTTTCCTACGTAAGCTCGCCGAC
GTCGGCCAAGCTGTTCTCGTTACTATCCACCAGCCCTCCGCGCAGCTCTT
TGCTGAATTCGACACCCTGCTTCTCCTCGCCAAGGGTGGTAAGATGGTCT
ACTTCGGTGATATTGGTGACAACGGCCAAACCGTCAAAAACTACTTCGCT
CGCTACGGCGCCCCCTGTCCCGCAGAGGCCAACCCAGCCGAGCACATGAT
TGACGTTGTCTCTGGCGCGCTCTCCCAAGGTCGCGACTGGCACCAAGTTT
GGAAGGACTCCCCCGAGCACACCAACTCCCTGAAAGAACTTGACTCTATC
GTCGATGAGGCCGCCTCCAAGCCCCCCGGCACCGTCGATGACGGCAACGA
ATTCGCCATGCCCCTCTGGCAGCAAACCCTCATCGTGACCAAGCGCTCCT
GCGTCGCAGTTTACCGCAACACTGACTACGTGAACAACAAGCTGGCTCTC
CACGTCGGCTCGGCCCTCTTCAACGGTTTCTCCTTCTGGATGATTGGTAA
TCACGTCGGCGCCCTCCAACTCCGTCTCTTCACCATCTTCAACTTCATTT
TCGTCGCCCCGGGTGTCATCAACCAGCTGCAGCCGCTCTTCCTCGAACGT
CGCGACATCTACGACGCTCGTGAGAAGAAATCGAAAATGTACTCCTGGAT
CGCCTTCGTGACCGGTCTTATCGTCTCCGAAATCCCCTATCTCTGCATCT
GCGCTGTCCTCTACTTCGCCTGCTGGTACTACACCGTGGGCTTCCCATCA
GACAGCAACAAATCCGGTGCTGTCTTCTTTGTCATGCTGATGTACGAGTT
CGTCTACACCGGTATTGGCCAATTCGTCTCCGCCTACGCCCCCAACGCCA
TCTTCGCCTCACTCATTAACCCAGTAATCATCGGAACCCTCGCCTCCTTC
TGCGGTGTCTTGGTCCCCTACACCCAGATTCAAGAATTCTGGCGCTACTG
GATCTACTACCTCGACCCCTTCAACTACCTCATGGGCAGTCTTCTAGTCT
TCACCACCTTTGACACCCCCGTCCGCTGCAAGGAATCTGAATTTGCCATC
TTCGATCCCCCCAACGGCTCGACCTGTGCCCAGTACCTGCAGGATTACAT
GATGGGTGCCGGCGCGCGCATGAACCTCATCAACCCCGACGCCACGACCG
ATTGCCACGTCTGCGAATACAGCCGCGGAAGCGATTACCTGTATACCATC
AACCTGAAGGATTATTACTACGGGTGGAGAGATGCCGCAATCGTCGCTTT
GTTCGCTATTAGTTCGTATGCCTTGGTGTATGGGCTGATGAAGTTGAGGA
CCAAGGCGTCGAAGCAGGCTGAGTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0055085 | transmembrane transport |
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0016021 | integral component of membrane |
| GO:0016020 | membrane |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0042626 | ATPase-coupled transmembrane transporter activity |
| GO:0005524 | ATP binding |
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
| Database | Accession |
|---|
| InterPro | IPR043926 |
| InterPro | IPR017871 |
| PFAM | PF01061 |
| InterPro | IPR003439 |
| InterPro | IPR027417 |
| PFAM | PF00005 |
| InterPro | IPR034001 |
| InterPro | IPR034003 |
| InterPro | IPR010929 |
| PFAM | PF06422 |
| InterPro | IPR003593 |
| InterPro | IPR013525 |
Properties
| Property Name | Value |
|---|
| Note | antiSMASH:Cluster_1000051.1 |
| Note | SMCOG1000:ABC transporter ATP-binding protein |
| 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 |
|---|
| MCQH01000051 | supercontig | MCQH01000051:215761..220079 + |
|
