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Sequences
The following sequences are available for this feature:
mRNA from alignment at An14:890124..894528+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CBS51388_008861-T1 ID=CBS51388_008861-T1|Name=CBS51388_008861-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=4405bp|location=Sequence derived from alignment at An14:890124..894528+ (Aspergillus niger CBS 513.88)
ATGAATCCTCCTGAGTTTCCGGAAGACGAGAAGTCTTCCGACTTACCAAT
CCCAGAACGGAAGAGCCTCGACACACTGAATGTCCCCCATATCAATGTTC
GAGAAGCTCCAAGCGCAGAAACCTTGATCGTTCCCCATGCAGTCAACGCC
TCTGCTCCTGGGAAGGATGCAGAATGGAGCATGACCCCGCAGGTAATCCG
GAGCCAGGAACGTGAGGCTGCGGCAGGATTCAAAAAGCGGGAGCTAGGTG
TGACCTGGAAGAATCTCGGCGTGGATGTCCTTGCAGCAGAAGCGGCGGTC
AATGAGAACCTATTCTCCCAATTCAACTTACCACAACGAATCCGCGACTT
TACCCGAAAGCCACCCCTGAAATCTATATTGACGGAAAGCCACGGCTGTG
TCAAGCCAGGGGAGATGCTCCTAGTCTTGGGACGCCCGGGTTCAGGATGT
ACCACTCTTCTCAATTTACTCTCCAATCGCCGCCATGGCTACCACACCAT
CAAGGGTGACGTGAGCTTTGGAAATATGTCCCATGAAGAAGCAGCTCAAT
ATCGCAGCCATATCGTGATGAATACGGAAGAAGAGCTATTCTATCCACGG
TTGACCGTAGGTCAGACAATGGACTTTGCTACTCGGCTCAAAGTTCCTTC
TCATCTTCCCGACGGTGCCGCATCCGTGAAAGAATATACTGCTGAGACAA
AGCAATTTTTGATGGAATCTATGGGGATTTCACATACCGCTGACACGAAG
GTAGGGAACGAGTTTGTGCGGGGTGTGTCGGGAGGAGAACGAAAGCGAGT
CTCTATTATTGAATGCCTGGCAACAAGGGGCTCTGTCTTTTGCTGGGACA
ACAGTACCCGCGGTCTCGATGCCAGTACTGCATTGGAGTGGGCTAAGGCT
TTGCGAGCGATGACTAACGTCCTCGGTCTCTCGACAATTGTGACCCTTTA
TCAAGCGGGGAATGGGATATATAATCTCTTTGATAAGGTTTTGGTTCTGG
ATGAGGGAAAACAGATATTCTATGGCCCAGCGGCTGCAGCAAAACCATTC
ATGGAGAACCTGGGGTTCGTCTATACAGATGGTGCCAATGTTGGTAAGTA
TTCTCAAATCACATGCTGCTACTGAGGGTTGACCGATATTGACGCTTCCC
AGGTGATTTTTTAACAGGCGTGACCGTGCCTACTGAGCGAAGGATAAGAC
CTGGGTATGAAAACAGGTTTCCCCGGAATGCCGATTCTATTATGGTAGAG
TATAAGGCGTCAGCTATCTACAGCCACATGACAGCGGAATACGACTATCC
CACAAGCGCGATCGCTCAGGAGCGGACGGAGGCATTCAAGGAGTCTGTTG
CCTTCGAAAAGACCACACACCAGCCAAAGAAGAGTCCGTTTACCACAGGA
TTTGGGACTCAAGTCCTCGCATGTACACGGCGTCAGTACCAGATTCTGTG
GGGTGAAAAGTCCACATTCTTAATTAAGCAAATCCTGTCTCTGGTGATGG
CCTTGATTGCAGGATCCTGCTTTTACAACGCCCCGCAGACATCTGCTGGG
CTTTTCACAAAAGGTGGAGCGGTCTTTTTCTCCCTGCTCTACAATACGAT
CGTCGCTATGTCTGAGGTTACCGAGTCCTTCAAAGGGCGGCCTGTGCTCA
TCAAGCATAAGGCATTTGCTTTCTACCATCCGGCTGCTTTCTGCTTGGCA
CAGATAACAGCTGACTTCCCGGTGCTGCTATTCCAGTGCACGATCTTTTC
GGTTGTATTGTATTGGATGGTTGGGCTCAAAGCAACAGCAGCGGCGTTTT
TCACTTTTTGGATCATCCTATTCACCACGACTTTGGTGAGTTCTTCCAAA
CCCAGTAATAGCTCTCAACTAACGTCGTTTAGTGTGTTACGGCGCTATTT
CGATGCATTGGTGCAGGGTTCAGTACCTTCGAAGCTGCATCGAAGATTTC
GGGAACCGCTATTAAGGGAATCGTCATGTATGCTGGCTACATGATCCCTA
AGCCAAAGGTCAAAAACTGGTTCCTTGAGCTCTACTATACCAACCCCATG
GCTTATGCCTTTCAAGCTGCGCTGTCGAATGAGTTTCACGGCCAACATAT
TCCTTGTGTTGGAAAGAACATTGTCCCTAACGGCCCTGGATATGAGGATG
TCGACTCAGCCAACAAAGCCTGTACTGGTGTAGGCGGTGCTCTTCCCGGT
GCAGACTACGTGACCGGTGACCAGTATCTTTCATCGCTTCATTACAAGCA
TTCCCAGCTTTGGAGGAACTTCGGAGTTGTGTGGGCGTGGTGGGGCTTTT
TCGCCGTGCTCACCATTATTTGCACCACATATTGGAAAGCTGGTGCCGGG
GGGAGTGCTTCACTGTTGATCCCTCGTGAAAATCTAAAGCAGCACCAGAA
AAGCATCGACGAAGAGTCTCAGGTCAAGGAAAAGGAGCAAGCCAAGGCTG
CCACTAGCGACACGACTGCAGAGGTGGATGGCAACCTTTCCCGCAATACT
GCCGTCTTTACCTGGAAGAACCTCAAATATACCGTCAAAACACCTTCCGG
CGACCGGGTCTTGTTGGATAATATCCACGGTTGGGTTAAACCAGGCATGC
TTGGGGCTCTCATGGGCTCTTCAGGAGCAGGCAAGACGACCTTACTTGAT
GTTCTTGCACAGCGAAAGACAGAGGGCACCATTACTGGGTCTATCATGGT
TGATGGCCGGCCGTTGCCTGTGTCATTTCAAAGAATGGCTGGGTACTGCG
AGCAATTAGATGTCCATGAACCGTTTGCTACGGTTCGGGAAGCTCTAGAG
TTCTCTGCATTATTACGCCAGCCACGAACAACCCCTAAAGAAGAGAAACT
TAAGTATGTTGAGACTATCATTGACCTGCTTGAGCTTCATGATCTGGCAG
ACACTCTTATTGGCACAGTTGGCAATGGCCTTAGTGTGGAGCAAAGAAAA
CGAGTCACCATTGGCGTGGAGCTTGTGTCCAAACCAAGCATCTTGATCTT
CTTGGATGAGCCTACCTCTGGGTTGGATGGACAGTCTGCTTATAATACAG
TGCGGTTCCTCCGCAAGTTAGCTGACGTTGGACAAGCTGTCTTGGTGACT
ATCCATCAACCTTCTGCCCAGTTATTTGCGCAGTTTGACACTCTTCTGCT
TCTCGCACGCGGCGGTAAAACTGTGTACTTTGGTGATATCGGCGAAAATG
GACAAACGATCAAGAATTATTTCGGCAAATATGGCGCGCAATGCCCCATC
GAGGCTAACCCAGCCGAGTTCATGATCGACGTGGTCACTGGAGGCATCGA
GAGCGTTAAAGACAAAGACTGGCACCATGTTTGGCTTGAGTCGCCTGAAC
ATCAGCAGATGATCACCGAGCTTGATCATTTGATATCCGAGGCTGCCTCG
AAGCCCTCTGGTGTTAACGACGATGGATGCGAGTTTTCGATGCCACTCTG
GGAACAAACGAAGATCGTTACCCACAGAATGAACGTGGCTCTTTTCCGGA
ACACCAACTACGTCAACAACAAATTCTCCCTGCATATCATCTCTGCCTTG
CTCAATGGTTTCTCATTTTGGAGGGTCGGTCCAAGCGTGACAGCCCTGCA
ATTGAAGATGTTCACGATTTTCAACTTTGTTTTCGTTGCACCAGGTGTTA
TCAATCAGCTCCAACCATTGTTCATCCAGCGACGCGATATCTACGATGCA
CGAGAGAAAAAGTCGAAGATGTATTCTTGGATCTCTTTTGTCATTGGTCT
GATTGTGTCCGAGTTCCCATACCTCTGTGTATGCGCAGTTTTGTATTTCC
TTTGCTGGTACTACTGCGTACGCCTGCCTCATGACTCCAACAAGGCGGGT
GCTACCTTCTTCATCATGCTCATTTACGAGTTCATCTACACGGGTATTGG
CCAGTTCATCGCAGCCTACGCGCCCAATCCAACCTTCGCAGCTCTCGTGA
ACCCCATGATCATCAGTGTTTTGGTGCTCTTCTGCGGTATCTTCGTTCCG
TACACGCAACTCAACGTGTTCTGGAAATACTGGCTCTACTACCTCAACCC
GTTCAACTATGTCGTGTCCGGCATGCTCACCTTCGATATGTGGGATGCCA
AGGTCACCTGCAACGAGGACGAGTTTGCACTGTTCAACCCTACCAATGGC
ACCTGCGCTGAATACCTGAAGGACTACATCGCGGGTCAGGGCTGGCGTGT
CAATTTGACCAACCCGGATGCTACCTCGACGTGCCGGGTGTGTGAGTACC
GTCGTGGAAGCGACTTCTTGACTACACTCAACATCAACCACTACTATTAC
GGGTGGCGGAATGCTGGTATCACTGTCATCTTTGCGATTAGTGGGTATGC
GTTGGTGTTCGCATTGATGAAGCTTCGGACAAAGGCTTCGAAGAAGGCGG
AGTAG back to topCoding sequence (CDS) from alignment at An14:890124..894528+ >CBS51388_008861-T1 ID=CBS51388_008861-T1|Name=CBS51388_008861-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=12852bp|location=Sequence derived from alignment at An14:890124..894528+ (Aspergillus niger CBS 513.88)
ATGAATCCTCCTGAGTTTCCGGAAGACGAGAAGTCTTCCGACTTACCAAT
CCCAGAACGGAAGAGCCTCGACACACTGAATGTCCCCCATATCAATGTTC
GAGAAGCTCCAAGCGCAGAAACCTTGATCGTTCCCCATGCAGTCAACGCC
TCTGCTCCTGGGAAGGATGCAGAATGGAGCATGACCCCGCAGGTAATCCG
GAGCCAGGAACGTGAGGCTGCGGCAGGATTCAAAAAGCGGGAGCTAGGTG
TGACCTGGAAGAATCTCGGCGTGGATGTCCTTGCAGCAGAAGCGGCGGTC
AATGAGAACCTATTCTCCCAATTCAACTTACCACAACGAATCCGCGACTT
TACCCGAAAGCCACCCCTGAAATCTATATTGACGGAAAGCCACGGCTGTG
TCAAGCCAGGGGAGATGCTCCTAGTCTTGGGACGCCCGGGTTCAGGATGT
ACCACTCTTCTCAATTTACTCTCCAATCGCCGCCATGGCTACCACACCAT
CAAGGGTGACGTGAGCTTTGGAAATATGTCCCATGAAGAAGCAGCTCAAT
ATCGCAGCCATATCGTGATGAATACGGAAGAAGAGCTATTCTATCCACGG
TTGACCGTAGGTCAGACAATGGACTTTGCTACTCGGCTCAAAGTTCCTTC
TCATCTTCCCGACGGTGCCGCATCCGTGAAAGAATATACTGCTGAGACAA
AGCAATTTTTGATGGAATCTATGGGGATTTCACATACCGCTGACACGAAG
GTAGGGAACGAGTTTGTGCGGGGTGTGTCGGGAGGAGAACGAAAGCGAGT
CTCTATTATTGAATGCCTGGCAACAAGGGGCTCTGTCTTTTGCTGGGACA
ACAGTACCCGCGGTCTCGATGCCAGTACTGCATTGGAGTGGGCTAAGGCT
TTGCGAGCGATGACTAACGTCCTCGGTCTCTCGACAATTGTGACCCTTTA
TCAAGCGGGGAATGGGATATATAATCTCTTTGATAAGGTTTTGGTTCTGG
ATGAGGGAAAACAGATATTCTATGGCCCAGCGGCTGCAGCAAAACCATTC
ATGGAGAACCTGGGGTTCGTCTATACAGATGGTGCCAATGTTGGCGTGAC
CGTGCCTACTGAGCGAAGGATAAGACCTGGGTATGAAAACAGGTTTCCCC
GGAATGCCGATTCTATTATGGTAGAGTATAAGGCGTCAGCTATCTACAGC
CACATGACAGCGGAATACGACTATCCCACAAGCGCGATCGCTCAGGAGCG
GACGGAGGCATTCAAGGAGTCTGTTGCCTTCGAAAAGACCACACACCAGC
CAAAGAAGAGTCCGTTTACCACAGGATTTGGGACTCAAGTCCTCGCATGT
ACACGGCGTCAGTACCAGATTCTGTGGGGTGAAAAGTCCACATTCTTAAT
TAAGCAAATCCTGTCTCTGGTGATGGCCTTGATTGCAGGATCCTGCTTTT
ACAACGCCCCGCAGACATCTGCTGGGCTTTTCACAAAAGGTGGAGCGGTC
TTTTTCTCCCTGCTCTACAATACGATCGTCGCTATGTCTGAGGTTACCGA
GTCCTTCAAAGGGCGGCCTGTGCTCATCAAGCATAAGGCATTTGCTTTCT
ACCATCCGGCTGCTTTCTGCTTGGCACAGATAACAGCTGACTTCCCGGTG
CTGCTATTCCAGTGCACGATCTTTTCGGTTGTATTGTATTGGATGGTTGG
GCTCAAAGCAACAGCAGCGGCGTTTTTCACTTTTTGGATCATCCTATTCA
CCACGACTTTGTGTGTTACGGCGCTATTTCGATGCATTGGTGCAGGGTTC
AGTACCTTCGAAGCTGCATCGAAGATTTCGGGAACCGCTATTAAGGGAAT
CGTCATGTATGCTGGCTACATGATCCCTAAGCCAAAGGTCAAAAACTGGT
TCCTTGAGCTCTACTATACCAACCCCATGGCTTATGCCTTTCAAGCTGCG
CTGTCGAATGAGTTTCACGGCCAACATATTCCTTGTGTTGGAAAGAACAT
TGTCCCTAACGGCCCTGGATATGAGGATGTCGACTCAGCCAACAAAGCCT
GTACTGGTGTAGGCGGTGCTCTTCCCGGTGCAGACTACGTGACCGGTGAC
CAGTATCTTTCATCGCTTCATTACAAGCATTCCCAGCTTTGGAGGAACTT
CGGAGTTGTGTGGGCGTGGTGGGGCTTTTTCGCCGTGCTCACCATTATTT
GCACCACATATTGGAAAGCTGGTGCCGGGGGGAGTGCTTCACTGTTGATC
CCTCGTGAAAATCTAAAGCAGCACCAGAAAAGCATCGACGAAGAGTCTCA
GGTCAAGGAAAAGGAGCAAGCCAAGGCTGCCACTAGCGACACGACTGCAG
AGGTGGATGGCAACCTTTCCCGCAATACTGCCGTCTTTACCTGGAAGAAC
CTCAAATATACCGTCAAAACACCTTCCGGCGACCGGGTCTTGTTGGATAA
TATCCACGGTTGGGTTAAACCAGGCATGCTTGGGGCTCTCATGGGCTCTT
CAGGAGCAGGCAAGACGACCTTACTTGATGTTCTTGCACAGCGAAAGACA
GAGGGCACCATTACTGGGTCTATCATGGTTGATGGCCGGCCGTTGCCTGT
GTCATTTCAAAGAATGGCTGGGTACTGCGAGCAATTAGATGTCCATGAAC
CGTTTGCTACGGTTCGGGAAGCTCTAGAGTTCTCTGCATTATTACGCCAG
CCACGAACAACCCCTAAAGAAGAGAAACTTAAGTATGTTGAGACTATCAT
TGACCTGCTTGAGCTTCATGATCTGGCAGACACTCTTATTGGCACAGTTG
GCAATGGCCTTAGTGTGGAGCAAAGAAAACGAGTCACCATTGGCGTGGAG
CTTGTGTCCAAACCAAGCATCTTGATCTTCTTGGATGAGCCTACCTCTGG
GTTGGATGGACAGTCTGCTTATAATACAGTGCGGTTCCTCCGCAAGTTAG
CTGACGTTGGACAAGCTGTCTTGGTGACTATCCATCAACCTTCTGCCCAG
TTATTTGCGCAGTTTGACACTCTTCTGCTTCTCGCACGCGGCGGTAAAAC
TGTGTACTTTGGTGATATCGGCGAAAATGGACAAACGATCAAGAATTATT
TCGGCAAATATGGCGCGCAATGCCCCATCGAGGCTAACCCAGCCGAGTTC
ATGATCGACGTGGTCACTGGAGGCATCGAGAGCGTTAAAGACAAAGACTG
GCACCATGTTTGGCTTGAGTCGCCTGAACATCAGCAGATGATCACCGAGC
TTGATCATTTGATATCCGAGGCTGCCTCGAAGCCCTCTGGTGTTAACGAC
GATGGATGCGAGTTTTCGATGCCACTCTGGGAACAAACGAAGATCGTTAC
CCACAGAATGAACGTGGCTCTTTTCCGGAACACCAACTACGTCAACAACA
AATTCTCCCTGCATATCATCTCTGCCTTGCTCAATGGTTTCTCATTTTGG
AGGGTCGGTCCAAGCGTGACAGCCCTGCAATTGAAGATGTTCACGATTTT
CAACTTTGTTTTCGTTGCACCAGGTGTTATCAATCAGCTCCAACCATTGT
TCATCCAGCGACGCGATATCTACGATGCACGAGAGAAAAAGTCGAAGATG
TATTCTTGGATCTCTTTTGTCATTGGTCTGATTGTGTCCGAGTTCCCATA
CCTCTGTGTATGCGCAGTTTTGTATTTCCTTTGCTGGTACTACTGCGTAC
GCCTGCCTCATGACTCCAACAAGGCGGGTGCTACCTTCTTCATCATGCTC
ATTTACGAGTTCATCTACACGGGTATTGGCCAGTTCATCGCAGCCTACGC
GCCCAATCCAACCTTCGCAGCTCTCGTGAACCCCATGATCATCAGTGTTT
TGGTGCTCTTCTGCGGTATCTTCGTTCCGTACACGCAACTCAACGTGTTC
TGGAAATACTGGCTCTACTACCTCAACCCGTTCAACTATGTCGTGTCCGG
CATGCTCACCTTCGATATGTGGGATGCCAAGGTCACCTGCAACGAGGACG
AGTTTGCACTGTTCAACCCTACCAATGGCACCTGCGCTGAATACCTGAAG
GACTACATCGCGGGTCAGGGCTGGCGTGTCAATTTGACCAACCCGGATGC
TACCTCGACGTGCCGGGTGTGTGAGTACCGTCGTGGAAGCGACTTCTTGA
CTACACTCAACATCAACCACTACTATTACGGGTGGCGGAATGCTGGTATC
ACTGTCATCTTTGCGATTAGTGGGTATGCGTTGGTGTTCGCATTGATGAA
GCTTCGGACAAAGGCTTCGAAGAAGGCGGAGTAGATGAATCCTCCTGAGT
TTCCGGAAGACGAGAAGTCTTCCGACTTACCAATCCCAGAACGGAAGAGC
CTCGACACACTGAATGTCCCCCATATCAATGTTCGAGAAGCTCCAAGCGC
AGAAACCTTGATCGTTCCCCATGCAGTCAACGCCTCTGCTCCTGGGAAGG
ATGCAGAATGGAGCATGACCCCGCAGGTAATCCGGAGCCAGGAACGTGAG
GCTGCGGCAGGATTCAAAAAGCGGGAGCTAGGTGTGACCTGGAAGAATCT
CGGCGTGGATGTCCTTGCAGCAGAAGCGGCGGTCAATGAGAACCTATTCT
CCCAATTCAACTTACCACAACGAATCCGCGACTTTACCCGAAAGCCACCC
CTGAAATCTATATTGACGGAAAGCCACGGCTGTGTCAAGCCAGGGGAGAT
GCTCCTAGTCTTGGGACGCCCGGGTTCAGGATGTACCACTCTTCTCAATT
TACTCTCCAATCGCCGCCATGGCTACCACACCATCAAGGGTGACGTGAGC
TTTGGAAATATGTCCCATGAAGAAGCAGCTCAATATCGCAGCCATATCGT
GATGAATACGGAAGAAGAGCTATTCTATCCACGGTTGACCGTAGGTCAGA
CAATGGACTTTGCTACTCGGCTCAAAGTTCCTTCTCATCTTCCCGACGGT
GCCGCATCCGTGAAAGAATATACTGCTGAGACAAAGCAATTTTTGATGGA
ATCTATGGGGATTTCACATACCGCTGACACGAAGGTAGGGAACGAGTTTG
TGCGGGGTGTGTCGGGAGGAGAACGAAAGCGAGTCTCTATTATTGAATGC
CTGGCAACAAGGGGCTCTGTCTTTTGCTGGGACAACAGTACCCGCGGTCT
CGATGCCAGTACTGCATTGGAGTGGGCTAAGGCTTTGCGAGCGATGACTA
ACGTCCTCGGTCTCTCGACAATTGTGACCCTTTATCAAGCGGGGAATGGG
ATATATAATCTCTTTGATAAGGTTTTGGTTCTGGATGAGGGAAAACAGAT
ATTCTATGGCCCAGCGGCTGCAGCAAAACCATTCATGGAGAACCTGGGGT
TCGTCTATACAGATGGTGCCAATGTTGGCGTGACCGTGCCTACTGAGCGA
AGGATAAGACCTGGGTATGAAAACAGGTTTCCCCGGAATGCCGATTCTAT
TATGGTAGAGTATAAGGCGTCAGCTATCTACAGCCACATGACAGCGGAAT
ACGACTATCCCACAAGCGCGATCGCTCAGGAGCGGACGGAGGCATTCAAG
GAGTCTGTTGCCTTCGAAAAGACCACACACCAGCCAAAGAAGAGTCCGTT
TACCACAGGATTTGGGACTCAAGTCCTCGCATGTACACGGCGTCAGTACC
AGATTCTGTGGGGTGAAAAGTCCACATTCTTAATTAAGCAAATCCTGTCT
CTGGTGATGGCCTTGATTGCAGGATCCTGCTTTTACAACGCCCCGCAGAC
ATCTGCTGGGCTTTTCACAAAAGGTGGAGCGGTCTTTTTCTCCCTGCTCT
ACAATACGATCGTCGCTATGTCTGAGGTTACCGAGTCCTTCAAAGGGCGG
CCTGTGCTCATCAAGCATAAGGCATTTGCTTTCTACCATCCGGCTGCTTT
CTGCTTGGCACAGATAACAGCTGACTTCCCGGTGCTGCTATTCCAGTGCA
CGATCTTTTCGGTTGTATTGTATTGGATGGTTGGGCTCAAAGCAACAGCA
GCGGCGTTTTTCACTTTTTGGATCATCCTATTCACCACGACTTTGTGTGT
TACGGCGCTATTTCGATGCATTGGTGCAGGGTTCAGTACCTTCGAAGCTG
CATCGAAGATTTCGGGAACCGCTATTAAGGGAATCGTCATGTATGCTGGC
TACATGATCCCTAAGCCAAAGGTCAAAAACTGGTTCCTTGAGCTCTACTA
TACCAACCCCATGGCTTATGCCTTTCAAGCTGCGCTGTCGAATGAGTTTC
ACGGCCAACATATTCCTTGTGTTGGAAAGAACATTGTCCCTAACGGCCCT
GGATATGAGGATGTCGACTCAGCCAACAAAGCCTGTACTGGTGTAGGCGG
TGCTCTTCCCGGTGCAGACTACGTGACCGGTGACCAGTATCTTTCATCGC
TTCATTACAAGCATTCCCAGCTTTGGAGGAACTTCGGAGTTGTGTGGGCG
TGGTGGGGCTTTTTCGCCGTGCTCACCATTATTTGCACCACATATTGGAA
AGCTGGTGCCGGGGGGAGTGCTTCACTGTTGATCCCTCGTGAAAATCTAA
AGCAGCACCAGAAAAGCATCGACGAAGAGTCTCAGGTCAAGGAAAAGGAG
CAAGCCAAGGCTGCCACTAGCGACACGACTGCAGAGGTGGATGGCAACCT
TTCCCGCAATACTGCCGTCTTTACCTGGAAGAACCTCAAATATACCGTCA
AAACACCTTCCGGCGACCGGGTCTTGTTGGATAATATCCACGGTTGGGTT
AAACCAGGCATGCTTGGGGCTCTCATGGGCTCTTCAGGAGCAGGCAAGAC
GACCTTACTTGATGTTCTTGCACAGCGAAAGACAGAGGGCACCATTACTG
GGTCTATCATGGTTGATGGCCGGCCGTTGCCTGTGTCATTTCAAAGAATG
GCTGGGTACTGCGAGCAATTAGATGTCCATGAACCGTTTGCTACGGTTCG
GGAAGCTCTAGAGTTCTCTGCATTATTACGCCAGCCACGAACAACCCCTA
AAGAAGAGAAACTTAAGTATGTTGAGACTATCATTGACCTGCTTGAGCTT
CATGATCTGGCAGACACTCTTATTGGCACAGTTGGCAATGGCCTTAGTGT
GGAGCAAAGAAAACGAGTCACCATTGGCGTGGAGCTTGTGTCCAAACCAA
GCATCTTGATCTTCTTGGATGAGCCTACCTCTGGGTTGGATGGACAGTCT
GCTTATAATACAGTGCGGTTCCTCCGCAAGTTAGCTGACGTTGGACAAGC
TGTCTTGGTGACTATCCATCAACCTTCTGCCCAGTTATTTGCGCAGTTTG
ACACTCTTCTGCTTCTCGCACGCGGCGGTAAAACTGTGTACTTTGGTGAT
ATCGGCGAAAATGGACAAACGATCAAGAATTATTTCGGCAAATATGGCGC
GCAATGCCCCATCGAGGCTAACCCAGCCGAGTTCATGATCGACGTGGTCA
CTGGAGGCATCGAGAGCGTTAAAGACAAAGACTGGCACCATGTTTGGCTT
GAGTCGCCTGAACATCAGCAGATGATCACCGAGCTTGATCATTTGATATC
CGAGGCTGCCTCGAAGCCCTCTGGTGTTAACGACGATGGATGCGAGTTTT
CGATGCCACTCTGGGAACAAACGAAGATCGTTACCCACAGAATGAACGTG
GCTCTTTTCCGGAACACCAACTACGTCAACAACAAATTCTCCCTGCATAT
CATCTCTGCCTTGCTCAATGGTTTCTCATTTTGGAGGGTCGGTCCAAGCG
TGACAGCCCTGCAATTGAAGATGTTCACGATTTTCAACTTTGTTTTCGTT
GCACCAGGTGTTATCAATCAGCTCCAACCATTGTTCATCCAGCGACGCGA
TATCTACGATGCACGAGAGAAAAAGTCGAAGATGTATTCTTGGATCTCTT
TTGTCATTGGTCTGATTGTGTCCGAGTTCCCATACCTCTGTGTATGCGCA
GTTTTGTATTTCCTTTGCTGGTACTACTGCGTACGCCTGCCTCATGACTC
CAACAAGGCGGGTGCTACCTTCTTCATCATGCTCATTTACGAGTTCATCT
ACACGGGTATTGGCCAGTTCATCGCAGCCTACGCGCCCAATCCAACCTTC
GCAGCTCTCGTGAACCCCATGATCATCAGTGTTTTGGTGCTCTTCTGCGG
TATCTTCGTTCCGTACACGCAACTCAACGTGTTCTGGAAATACTGGCTCT
ACTACCTCAACCCGTTCAACTATGTCGTGTCCGGCATGCTCACCTTCGAT
ATGTGGGATGCCAAGGTCACCTGCAACGAGGACGAGTTTGCACTGTTCAA
CCCTACCAATGGCACCTGCGCTGAATACCTGAAGGACTACATCGCGGGTC
AGGGCTGGCGTGTCAATTTGACCAACCCGGATGCTACCTCGACGTGCCGG
GTGTGTGAGTACCGTCGTGGAAGCGACTTCTTGACTACACTCAACATCAA
CCACTACTATTACGGGTGGCGGAATGCTGGTATCACTGTCATCTTTGCGA
TTAGTGGGTATGCGTTGGTGTTCGCATTGATGAAGCTTCGGACAAAGGCT
TCGAAGAAGGCGGAGTAGATGAATCCTCCTGAGTTTCCGGAAGACGAGAA
GTCTTCCGACTTACCAATCCCAGAACGGAAGAGCCTCGACACACTGAATG
TCCCCCATATCAATGTTCGAGAAGCTCCAAGCGCAGAAACCTTGATCGTT
CCCCATGCAGTCAACGCCTCTGCTCCTGGGAAGGATGCAGAATGGAGCAT
GACCCCGCAGGTAATCCGGAGCCAGGAACGTGAGGCTGCGGCAGGATTCA
AAAAGCGGGAGCTAGGTGTGACCTGGAAGAATCTCGGCGTGGATGTCCTT
GCAGCAGAAGCGGCGGTCAATGAGAACCTATTCTCCCAATTCAACTTACC
ACAACGAATCCGCGACTTTACCCGAAAGCCACCCCTGAAATCTATATTGA
CGGAAAGCCACGGCTGTGTCAAGCCAGGGGAGATGCTCCTAGTCTTGGGA
CGCCCGGGTTCAGGATGTACCACTCTTCTCAATTTACTCTCCAATCGCCG
CCATGGCTACCACACCATCAAGGGTGACGTGAGCTTTGGAAATATGTCCC
ATGAAGAAGCAGCTCAATATCGCAGCCATATCGTGATGAATACGGAAGAA
GAGCTATTCTATCCACGGTTGACCGTAGGTCAGACAATGGACTTTGCTAC
TCGGCTCAAAGTTCCTTCTCATCTTCCCGACGGTGCCGCATCCGTGAAAG
AATATACTGCTGAGACAAAGCAATTTTTGATGGAATCTATGGGGATTTCA
CATACCGCTGACACGAAGGTAGGGAACGAGTTTGTGCGGGGTGTGTCGGG
AGGAGAACGAAAGCGAGTCTCTATTATTGAATGCCTGGCAACAAGGGGCT
CTGTCTTTTGCTGGGACAACAGTACCCGCGGTCTCGATGCCAGTACTGCA
TTGGAGTGGGCTAAGGCTTTGCGAGCGATGACTAACGTCCTCGGTCTCTC
GACAATTGTGACCCTTTATCAAGCGGGGAATGGGATATATAATCTCTTTG
ATAAGGTTTTGGTTCTGGATGAGGGAAAACAGATATTCTATGGCCCAGCG
GCTGCAGCAAAACCATTCATGGAGAACCTGGGGTTCGTCTATACAGATGG
TGCCAATGTTGGCGTGACCGTGCCTACTGAGCGAAGGATAAGACCTGGGT
ATGAAAACAGGTTTCCCCGGAATGCCGATTCTATTATGGTAGAGTATAAG
GCGTCAGCTATCTACAGCCACATGACAGCGGAATACGACTATCCCACAAG
CGCGATCGCTCAGGAGCGGACGGAGGCATTCAAGGAGTCTGTTGCCTTCG
AAAAGACCACACACCAGCCAAAGAAGAGTCCGTTTACCACAGGATTTGGG
ACTCAAGTCCTCGCATGTACACGGCGTCAGTACCAGATTCTGTGGGGTGA
AAAGTCCACATTCTTAATTAAGCAAATCCTGTCTCTGGTGATGGCCTTGA
TTGCAGGATCCTGCTTTTACAACGCCCCGCAGACATCTGCTGGGCTTTTC
ACAAAAGGTGGAGCGGTCTTTTTCTCCCTGCTCTACAATACGATCGTCGC
TATGTCTGAGGTTACCGAGTCCTTCAAAGGGCGGCCTGTGCTCATCAAGC
ATAAGGCATTTGCTTTCTACCATCCGGCTGCTTTCTGCTTGGCACAGATA
ACAGCTGACTTCCCGGTGCTGCTATTCCAGTGCACGATCTTTTCGGTTGT
ATTGTATTGGATGGTTGGGCTCAAAGCAACAGCAGCGGCGTTTTTCACTT
TTTGGATCATCCTATTCACCACGACTTTGTGTGTTACGGCGCTATTTCGA
TGCATTGGTGCAGGGTTCAGTACCTTCGAAGCTGCATCGAAGATTTCGGG
AACCGCTATTAAGGGAATCGTCATGTATGCTGGCTACATGATCCCTAAGC
CAAAGGTCAAAAACTGGTTCCTTGAGCTCTACTATACCAACCCCATGGCT
TATGCCTTTCAAGCTGCGCTGTCGAATGAGTTTCACGGCCAACATATTCC
TTGTGTTGGAAAGAACATTGTCCCTAACGGCCCTGGATATGAGGATGTCG
ACTCAGCCAACAAAGCCTGTACTGGTGTAGGCGGTGCTCTTCCCGGTGCA
GACTACGTGACCGGTGACCAGTATCTTTCATCGCTTCATTACAAGCATTC
CCAGCTTTGGAGGAACTTCGGAGTTGTGTGGGCGTGGTGGGGCTTTTTCG
CCGTGCTCACCATTATTTGCACCACATATTGGAAAGCTGGTGCCGGGGGG
AGTGCTTCACTGTTGATCCCTCGTGAAAATCTAAAGCAGCACCAGAAAAG
CATCGACGAAGAGTCTCAGGTCAAGGAAAAGGAGCAAGCCAAGGCTGCCA
CTAGCGACACGACTGCAGAGGTGGATGGCAACCTTTCCCGCAATACTGCC
GTCTTTACCTGGAAGAACCTCAAATATACCGTCAAAACACCTTCCGGCGA
CCGGGTCTTGTTGGATAATATCCACGGTTGGGTTAAACCAGGCATGCTTG
GGGCTCTCATGGGCTCTTCAGGAGCAGGCAAGACGACCTTACTTGATGTT
CTTGCACAGCGAAAGACAGAGGGCACCATTACTGGGTCTATCATGGTTGA
TGGCCGGCCGTTGCCTGTGTCATTTCAAAGAATGGCTGGGTACTGCGAGC
AATTAGATGTCCATGAACCGTTTGCTACGGTTCGGGAAGCTCTAGAGTTC
TCTGCATTATTACGCCAGCCACGAACAACCCCTAAAGAAGAGAAACTTAA
GTATGTTGAGACTATCATTGACCTGCTTGAGCTTCATGATCTGGCAGACA
CTCTTATTGGCACAGTTGGCAATGGCCTTAGTGTGGAGCAAAGAAAACGA
GTCACCATTGGCGTGGAGCTTGTGTCCAAACCAAGCATCTTGATCTTCTT
GGATGAGCCTACCTCTGGGTTGGATGGACAGTCTGCTTATAATACAGTGC
GGTTCCTCCGCAAGTTAGCTGACGTTGGACAAGCTGTCTTGGTGACTATC
CATCAACCTTCTGCCCAGTTATTTGCGCAGTTTGACACTCTTCTGCTTCT
CGCACGCGGCGGTAAAACTGTGTACTTTGGTGATATCGGCGAAAATGGAC
AAACGATCAAGAATTATTTCGGCAAATATGGCGCGCAATGCCCCATCGAG
GCTAACCCAGCCGAGTTCATGATCGACGTGGTCACTGGAGGCATCGAGAG
CGTTAAAGACAAAGACTGGCACCATGTTTGGCTTGAGTCGCCTGAACATC
AGCAGATGATCACCGAGCTTGATCATTTGATATCCGAGGCTGCCTCGAAG
CCCTCTGGTGTTAACGACGATGGATGCGAGTTTTCGATGCCACTCTGGGA
ACAAACGAAGATCGTTACCCACAGAATGAACGTGGCTCTTTTCCGGAACA
CCAACTACGTCAACAACAAATTCTCCCTGCATATCATCTCTGCCTTGCTC
AATGGTTTCTCATTTTGGAGGGTCGGTCCAAGCGTGACAGCCCTGCAATT
GAAGATGTTCACGATTTTCAACTTTGTTTTCGTTGCACCAGGTGTTATCA
ATCAGCTCCAACCATTGTTCATCCAGCGACGCGATATCTACGATGCACGA
GAGAAAAAGTCGAAGATGTATTCTTGGATCTCTTTTGTCATTGGTCTGAT
TGTGTCCGAGTTCCCATACCTCTGTGTATGCGCAGTTTTGTATTTCCTTT
GCTGGTACTACTGCGTACGCCTGCCTCATGACTCCAACAAGGCGGGTGCT
ACCTTCTTCATCATGCTCATTTACGAGTTCATCTACACGGGTATTGGCCA
GTTCATCGCAGCCTACGCGCCCAATCCAACCTTCGCAGCTCTCGTGAACC
CCATGATCATCAGTGTTTTGGTGCTCTTCTGCGGTATCTTCGTTCCGTAC
ACGCAACTCAACGTGTTCTGGAAATACTGGCTCTACTACCTCAACCCGTT
CAACTATGTCGTGTCCGGCATGCTCACCTTCGATATGTGGGATGCCAAGG
TCACCTGCAACGAGGACGAGTTTGCACTGTTCAACCCTACCAATGGCACC
TGCGCTGAATACCTGAAGGACTACATCGCGGGTCAGGGCTGGCGTGTCAA
TTTGACCAACCCGGATGCTACCTCGACGTGCCGGGTGTGTGAGTACCGTC
GTGGAAGCGACTTCTTGACTACACTCAACATCAACCACTACTATTACGGG
TGGCGGAATGCTGGTATCACTGTCATCTTTGCGATTAGTGGGTATGCGTT
GGTGTTCGCATTGATGAAGCTTCGGACAAAGGCTTCGAAGAAGGCGGAGT
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0016021 | integral component of membrane |
| GO:0016020 | membrane |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0055085 | transmembrane transport |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0042626 | ATPase-coupled transmembrane transporter activity |
| GO:0005524 | ATP binding |
| GO:0016887 | ATPase activity |
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:
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR034003 |
| DBxref | InterPro:IPR034001 |
| DBxref | InterPro:IPR017871 |
| DBxref | InterPro:IPR010929 |
| DBxref | InterPro:IPR013525 |
| DBxref | InterPro:IPR003439 |
| DBxref | InterPro:IPR003593 |
| DBxref | PFAM:PF06422 |
| DBxref | PFAM:PF00005 |
| DBxref | PFAM:PF01061 |
| 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 |
|---|
| An14 | supercontig | An14:890124..894528 + |
|
