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Sequences
The following sequences are available for this feature:
mRNA from alignment at An11:893586..898018+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CBS51388_006795-T1 ID=CBS51388_006795-T1|Name=CBS51388_006795-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=4433bp|location=Sequence derived from alignment at An11:893586..898018+ (Aspergillus niger CBS 513.88)
ATGTCCGATCGTCAGAAATACACTGTCGGCTGGATTTGCGCCATCCACAC
TGAAAATGTTGCTGCAACAGTCTTTCTTGATAAAGAGCACGAGAAGCCGG
ACGTACCGCCTAACGACAATAATGCATACACCGTTGGTGAGATTTGGAAA
CACAATGTTGTCATCGCTGTTCTGCCTGCTGGAGAGTACGGAACAGCTTC
TGCTGCATCTGTTGCGAGAGACATGGTGCATGCTTTTCCCAACATCAGAA
TTGGGCTGATGGTGGGTATTGGAGGTGGTGTCCCTACTAAGCGTGATATT
CGTCTAGGGGACGTGGTTGTTAGTTACCCTCAGGATGGGTATAGTGGGGT
GTTTCAATATGATTTCGGCAAGACCCACCAGGATAAAAAGTTTCAGTGTA
CAGGATTCCTGGATCAGCCCCCAGCTGTCCTACGGGCCGCTTTAAGCACG
CTAAGGAGTCGGTACGAGATATATGGGCATCACATAGAAAAAGATATCGA
AGGGGTCTTTGAGAAAGTGCCAAGATTGCGGAAGAACTATAGCCGGCCCG
AGTCAAGCAGTGACAGGCTATTCAACAGCGAAGTTTTGCACGAGGTAGCC
TGTACCACGTGTTGTAGTGAGGACGTGGCAAAATTAAGATGGCGACCAGA
ACGAACCGAAGAAGAAGATAACCCGGCAATACACTATGGTCTCATTGCTT
CTGGAAATCAGTTAATGAAGGATGCTATGATTCGGGATAAGCTAGCTGAA
GAGAAGGGGGTTCTATGTTTTGAAATGGAGGCAGCAGGATTGATGAACCA
TTTCCCGTGCTTGGTGATTCGCGGCATATGCGACTACTCAGATTCTCACA
AGAACAAACAGTGGCAAGGCTATGCAGCGATGGTGGCTGCTGCATATGCC
AAAGACCTTCTCCGTCAAATTCATCCGAATGATGTTGGAAAGGAGCAGAA
GATCACTGATGTTTTACCTGGTAATTCGTAACCCTGCAAATGATACCATC
AAGACATAATAATTCTGGTTTAGGAATTTACGAAGTATTGAAGGACCACC
GTGCCACATCAAACAAGCTGCTGCAGAACTGTGAGGACTTCGCCAGGAAG
AGGTTGTCTAACGAACAACAAAGATGTCGCCAGCTCTTTCGCCTGACAAG
GAGCGATAGAGACATCACATATGAGCAGTATAAGGACCAGGTCAAAGAAA
GAGTTGATGGGACGTGTATGTGGTTTCTCGACCATCCGAACTTCCAGACA
TGGTTAAAAGAAGAGTCGGGGCCTCTGTTGGTCTCAGCGGACCCTGGCTG
CGGGAAGTCAGTGTTGGCGAAGTATTTGGTTGACCACGCCCTGCCACGGT
CGGCAACAATCTGCTACTTCTTCTTCAAAGCTGAAGACCAAAACACTATC
AGACAAGCACTTTGTGCACTGCTTCACCAGCTCTTCTCCCAAAAGCCACA
GTTAACCAAACATGCCATGACCCAGTACCAAAAGAATGGGGATGGATTGA
TTAATTCAACTATATCCCTCTGGAACATCTTTGAGAACGCAACAAAGGAT
CCCCAAGCAGGGCTGGTCATCGCTGTCCTAGACGCCCTTGACGAGTGTCT
AGAGCCAGAACTCCGAAACCTGATTGAAAATGTGAAGAGACAATGCACTG
GTGACCGAATAATAGAGGGCCAGCTAAAGTATTTATTAACATGCCGCCCA
TACGAGAACATAGTTTCCGGATTCCAAGATTTGCGGAATGCATTCCCATA
CATCCACATACCAGGCGAGGATGAGTCGAAGGCCATCAGTCAGGAGGTAA
ATCATGTCATTAGGCACCGGGTTAAAGGACTGTCGCCGCGACTTCCACCC
GAAGCCGTTACCTATCTCGAGAAGAGGTTGCAAGAGGGTACCCACCGCAC
TTATCTCTGGGTGTATTTGGTCTTCGACTATCTGGAGACGCAAAACTACA
AGAGAACATTAACGGCTATCAAAGCTGCTATTGGACAACTTCCAAACAGT
GTTAATGAAGCATATGATAAGATTCTCAGCAAGTCTGGCGATGATGGGAT
CGTTTTGAAAGTCCTAAGCATTATCCTGGCAGCAAGTCGGCCACTAACAG
TCTCAGAAATTAATGTTGCTTTGAATGTCGAGCAAACTCTACAGTCCCTA
CAGGATCTTGACCTAGAGCCTGAAAAGCAGTTCACGACACGCCTCAGATC
CCAGTGCGGCCTGTTCATCTCAATCTACGATAACAAGATTCACTTCCTCC
ATCAAACTGCTCGAGAGTTTCTCATAGCTAAGGCATCAATTGGGGAAGTC
ACCGAGCATGGTCCAAAGTTAAGATGGCAGGAATCCATCACCACTCAAAA
AGCACATTATGTTCTGGCCGAGCTTTGCGTTCTCTACCTAAAACTGTTTA
ACATGAATGACACCGAAGACCCTTATGGCTGCTCTCCGAGTGGTCTGAGC
GAAAGAAAATGCCACCGCACTAATCACACCGCGTTTCTAGATTACTCGGC
CCTTTTCTGGAGCGTCCATTTTCGCGAGGCTGATATTCATGAGAATGAAG
CTATTATTTGGGCCCTCATGGAAATTTGCAATCCGAACACCAAGTGTTAC
CCAGAATGGTTCAACATATACAGCAAATCTACTCGCGGCGTGGTGCCTAG
CCGTCTCCACGGTGTCGTAATGGCGTCGTATTACGGCTTTTGCGGCGTTC
TCAGAAAGCTTCTCGACGAGGGCGCCGACATCAACGAAAGGGACTCGGAA
CATCACATGCCGCTTCTATCATGGGCCATTGAGAATAGGCACGAGGGCGT
CGTTAAGCTGCTGCTCTCTTACAAGACCATAGAGCTGAATGCCGAGGATA
AATACAGCTCAACACCACTTATGCTTGCGGTGGAGAAGGCGCACGAGCCC
ATTGTGAAACTGATGCTTGCTGAAGAACGTGTTGACCTTAACAAGGTGTC
TACAATCGGACAGACACCGCTTTCCTTTGCCATTCAATACGGCCATTTAT
CAATTGTCAAGTTGCTTGTTGCTGAAGAAAGAGTTAACATCAACAAGCAA
TGCATGAGCTACGATGAGGCGGACAATGATGTGCATGGTACACCACTGTC
GATATCCCTCTCCCTGGGCTACGAGAGCATTGCCCTGCAGCTTCTTGGTA
GATCTGACATCGACGTTTCCGGCGAAGTGCACGTAGAAGGCAATGATGGT
GATGAAAGGCGTAAGGGTACAGCGCTTTTCTTTGCGACCGTGATGAAGTC
TGAGATTCTTGTCCGTTTGCTACTTGCCAAAAATGGCATTGAAATCAATG
GTAGAGGATATATCGACGCTGAAGCCGAATATGATGACAGCGGTTACTCA
GGAACACCGTTGTTTGTTGCTGCGGCCAAGAATAATGAGACGATTCTGAG
ACACCTAATCGCCACACACGGAATTGATCTCAATGCCCCAGGCTTTGTCC
GAATTTATGATGAAGAACTTGAGTCGTCGGGCCGTGACGCTATCCATCAA
GGGACGCCTTTGTCGATTGCAGCCTCAAGTGGACACATGACGATTGTGGG
GCTTCTTCTCACCGTGCAAAATGTCGATGTCAACGCCCGATGTTACATCA
AGGATCTAGAGTTGACGAAGCTGCCACAATCCAGGATGACCAATTGTCAT
GATATCCTTGCCCAAGGGACACCGCTGTTCCTTGCGAATGCTCACGGGAC
AGAAGAAGTCGTTAGATTGCTGCTGACCAGGGATGATCTCAACGTCGAGT
GTGAAGGCTGCATGGTGAACTACCCTGGATACTGGGGCGAATGTGGTCTT
GGCCATCTTACCTATGTGGGGAGGTCACTACCTTTTGCAGCTTGGACTGG
AAGGAAGGTAATTGTTGAGATGTTGCTTGCCAAAAATGGTGTTGATGTCA
ACACCCGGGCACACATTAGATTTTGCCCTGACACATATCACAATGAGCAA
GACTTTGAGGTCTATTCGCAAGCCACGTCCTTGCTTTTAGCAGCAGCTAA
AGAATATGAGGATATTGTCATGCTCCTCCTCAATTCTCGAAGGGCAGTGG
TTGACGCCAAAGACGAACATGGCCGGACGCCGCTGATGTGGGCCGCCTGT
AGGTCCAACAGAACCATCTGCAAGCAGCTCATCGAGCATGGTGCTGACAT
TAATGCAAAAGATAATTCTGGCTGCACCCCACTTTTTGATGCAATTAGGA
ATGGAAACCTAGAGATGGTCAAGCTACTATTGGAAAATGGAGCCGACATT
TACGCAGGGAATACTTCCGGGTGTACACCAGTCGTCCATGCTACCAGGTT
GCGGAACTGGGAGATAGTCGGGCTGCTACTCGAGCATGCGGCAAATGATG
ACATGATGAATAATTCCGATTCCACTCCAATCATATGTACTATCAGAGAG
GATGGTGAGGACATGGTCGATCTGGTGCTTTAG back to topCoding sequence (CDS) from alignment at An11:893586..898018+ >CBS51388_006795-T1 ID=CBS51388_006795-T1|Name=CBS51388_006795-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=8760bp|location=Sequence derived from alignment at An11:893586..898018+ (Aspergillus niger CBS 513.88)
ATGTCCGATCGTCAGAAATACACTGTCGGCTGGATTTGCGCCATCCACAC
TGAAAATGTTGCTGCAACAGTCTTTCTTGATAAAGAGCACGAGAAGCCGG
ACGTACCGCCTAACGACAATAATGCATACACCGTTGGTGAGATTTGGAAA
CACAATGTTGTCATCGCTGTTCTGCCTGCTGGAGAGTACGGAACAGCTTC
TGCTGCATCTGTTGCGAGAGACATGGTGCATGCTTTTCCCAACATCAGAA
TTGGGCTGATGGTGGGTATTGGAGGTGGTGTCCCTACTAAGCGTGATATT
CGTCTAGGGGACGTGGTTGTTAGTTACCCTCAGGATGGGTATAGTGGGGT
GTTTCAATATGATTTCGGCAAGACCCACCAGGATAAAAAGTTTCAGTGTA
CAGGATTCCTGGATCAGCCCCCAGCTGTCCTACGGGCCGCTTTAAGCACG
CTAAGGAGTCGGTACGAGATATATGGGCATCACATAGAAAAAGATATCGA
AGGGGTCTTTGAGAAAGTGCCAAGATTGCGGAAGAACTATAGCCGGCCCG
AGTCAAGCAGTGACAGGCTATTCAACAGCGAAGTTTTGCACGAGGTAGCC
TGTACCACGTGTTGTAGTGAGGACGTGGCAAAATTAAGATGGCGACCAGA
ACGAACCGAAGAAGAAGATAACCCGGCAATACACTATGGTCTCATTGCTT
CTGGAAATCAGTTAATGAAGGATGCTATGATTCGGGATAAGCTAGCTGAA
GAGAAGGGGGTTCTATGTTTTGAAATGGAGGCAGCAGGATTGATGAACCA
TTTCCCGTGCTTGGTGATTCGCGGCATATGCGACTACTCAGATTCTCACA
AGAACAAACAGTGGCAAGGCTATGCAGCGATGGTGGCTGCTGCATATGCC
AAAGACCTTCTCCGTCAAATTCATCCGAATGATGTTGGAAAGGAGCAGAA
GATCACTGATGTTTTACCTGGAATTTACGAAGTATTGAAGGACCACCGTG
CCACATCAAACAAGCTGCTGCAGAACTGTGAGGACTTCGCCAGGAAGAGG
TTGTCTAACGAACAACAAAGATGTCGCCAGCTCTTTCGCCTGACAAGGAG
CGATAGAGACATCACATATGAGCAGTATAAGGACCAGGTCAAAGAAAGAG
TTGATGGGACGTGTATGTGGTTTCTCGACCATCCGAACTTCCAGACATGG
TTAAAAGAAGAGTCGGGGCCTCTGTTGGTCTCAGCGGACCCTGGCTGCGG
GAAGTCAGTGTTGGCGAAGTATTTGGTTGACCACGCCCTGCCACGGTCGG
CAACAATCTGCTACTTCTTCTTCAAAGCTGAAGACCAAAACACTATCAGA
CAAGCACTTTGTGCACTGCTTCACCAGCTCTTCTCCCAAAAGCCACAGTT
AACCAAACATGCCATGACCCAGTACCAAAAGAATGGGGATGGATTGATTA
ATTCAACTATATCCCTCTGGAACATCTTTGAGAACGCAACAAAGGATCCC
CAAGCAGGGCTGGTCATCGCTGTCCTAGACGCCCTTGACGAGTGTCTAGA
GCCAGAACTCCGAAACCTGATTGAAAATGTGAAGAGACAATGCACTGGTG
ACCGAATAATAGAGGGCCAGCTAAAGTATTTATTAACATGCCGCCCATAC
GAGAACATAGTTTCCGGATTCCAAGATTTGCGGAATGCATTCCCATACAT
CCACATACCAGGCGAGGATGAGTCGAAGGCCATCAGTCAGGAGGTAAATC
ATGTCATTAGGCACCGGGTTAAAGGACTGTCGCCGCGACTTCCACCCGAA
GCCGTTACCTATCTCGAGAAGAGGTTGCAAGAGGGTACCCACCGCACTTA
TCTCTGGGTGTATTTGGTCTTCGACTATCTGGAGACGCAAAACTACAAGA
GAACATTAACGGCTATCAAAGCTGCTATTGGACAACTTCCAAACAGTGTT
AATGAAGCATATGATAAGATTCTCAGCAAGTCTGGCGATGATGGGATCGT
TTTGAAAGTCCTAAGCATTATCCTGGCAGCAAGTCGGCCACTAACAGTCT
CAGAAATTAATGTTGCTTTGAATGTCGAGCAAACTCTACAGTCCCTACAG
GATCTTGACCTAGAGCCTGAAAAGCAGTTCACGACACGCCTCAGATCCCA
GTGCGGCCTGTTCATCTCAATCTACGATAACAAGATTCACTTCCTCCATC
AAACTGCTCGAGAGTTTCTCATAGCTAAGGCATCAATTGGGGAAGTCACC
GAGCATGGTCCAAAGTTAAGATGGCAGGAATCCATCACCACTCAAAAAGC
ACATTATGTTCTGGCCGAGCTTTGCGTTCTCTACCTAAAACTGTTTAACA
TGAATGACACCGAAGACCCTTATGGCTGCTCTCCGAGTGGTCTGAGCGAA
AGAAAATGCCACCGCACTAATCACACCGCGTTTCTAGATTACTCGGCCCT
TTTCTGGAGCGTCCATTTTCGCGAGGCTGATATTCATGAGAATGAAGCTA
TTATTTGGGCCCTCATGGAAATTTGCAATCCGAACACCAAGTGTTACCCA
GAATGGTTCAACATATACAGCAAATCTACTCGCGGCGTGGTGCCTAGCCG
TCTCCACGGTGTCGTAATGGCGTCGTATTACGGCTTTTGCGGCGTTCTCA
GAAAGCTTCTCGACGAGGGCGCCGACATCAACGAAAGGGACTCGGAACAT
CACATGCCGCTTCTATCATGGGCCATTGAGAATAGGCACGAGGGCGTCGT
TAAGCTGCTGCTCTCTTACAAGACCATAGAGCTGAATGCCGAGGATAAAT
ACAGCTCAACACCACTTATGCTTGCGGTGGAGAAGGCGCACGAGCCCATT
GTGAAACTGATGCTTGCTGAAGAACGTGTTGACCTTAACAAGGTGTCTAC
AATCGGACAGACACCGCTTTCCTTTGCCATTCAATACGGCCATTTATCAA
TTGTCAAGTTGCTTGTTGCTGAAGAAAGAGTTAACATCAACAAGCAATGC
ATGAGCTACGATGAGGCGGACAATGATGTGCATGGTACACCACTGTCGAT
ATCCCTCTCCCTGGGCTACGAGAGCATTGCCCTGCAGCTTCTTGGTAGAT
CTGACATCGACGTTTCCGGCGAAGTGCACGTAGAAGGCAATGATGGTGAT
GAAAGGCGTAAGGGTACAGCGCTTTTCTTTGCGACCGTGATGAAGTCTGA
GATTCTTGTCCGTTTGCTACTTGCCAAAAATGGCATTGAAATCAATGGTA
GAGGATATATCGACGCTGAAGCCGAATATGATGACAGCGGTTACTCAGGA
ACACCGTTGTTTGTTGCTGCGGCCAAGAATAATGAGACGATTCTGAGACA
CCTAATCGCCACACACGGAATTGATCTCAATGCCCCAGGCTTTGTCCGAA
TTTATGATGAAGAACTTGAGTCGTCGGGCCGTGACGCTATCCATCAAGGG
ACGCCTTTGTCGATTGCAGCCTCAAGTGGACACATGACGATTGTGGGGCT
TCTTCTCACCGTGCAAAATGTCGATGTCAACGCCCGATGTTACATCAAGG
ATCTAGAGTTGACGAAGCTGCCACAATCCAGGATGACCAATTGTCATGAT
ATCCTTGCCCAAGGGACACCGCTGTTCCTTGCGAATGCTCACGGGACAGA
AGAAGTCGTTAGATTGCTGCTGACCAGGGATGATCTCAACGTCGAGTGTG
AAGGCTGCATGGTGAACTACCCTGGATACTGGGGCGAATGTGGTCTTGGC
CATCTTACCTATGTGGGGAGGTCACTACCTTTTGCAGCTTGGACTGGAAG
GAAGGTAATTGTTGAGATGTTGCTTGCCAAAAATGGTGTTGATGTCAACA
CCCGGGCACACATTAGATTTTGCCCTGACACATATCACAATGAGCAAGAC
TTTGAGGTCTATTCGCAAGCCACGTCCTTGCTTTTAGCAGCAGCTAAAGA
ATATGAGGATATTGTCATGCTCCTCCTCAATTCTCGAAGGGCAGTGGTTG
ACGCCAAAGACGAACATGGCCGGACGCCGCTGATGTGGGCCGCCTGTAGG
TCCAACAGAACCATCTGCAAGCAGCTCATCGAGCATGGTGCTGACATTAA
TGCAAAAGATAATTCTGGCTGCACCCCACTTTTTGATGCAATTAGGAATG
GAAACCTAGAGATGGTCAAGCTACTATTGGAAAATGGAGCCGACATTTAC
GCAGGGAATACTTCCGGGTGTACACCAGTCGTCCATGCTACCAGGTTGCG
GAACTGGGAGATAGTCGGGCTGCTACTCGAGCATGCGGCAAATGATGACA
TGATGAATAATTCCGATTCCACTCCAATCATATGTACTATCAGAGAGGAT
GGTGAGGACATGGTCGATCTGGTGCTTTAGATGTCCGATCGTCAGAAATA
CACTGTCGGCTGGATTTGCGCCATCCACACTGAAAATGTTGCTGCAACAG
TCTTTCTTGATAAAGAGCACGAGAAGCCGGACGTACCGCCTAACGACAAT
AATGCATACACCGTTGGTGAGATTTGGAAACACAATGTTGTCATCGCTGT
TCTGCCTGCTGGAGAGTACGGAACAGCTTCTGCTGCATCTGTTGCGAGAG
ACATGGTGCATGCTTTTCCCAACATCAGAATTGGGCTGATGGTGGGTATT
GGAGGTGGTGTCCCTACTAAGCGTGATATTCGTCTAGGGGACGTGGTTGT
TAGTTACCCTCAGGATGGGTATAGTGGGGTGTTTCAATATGATTTCGGCA
AGACCCACCAGGATAAAAAGTTTCAGTGTACAGGATTCCTGGATCAGCCC
CCAGCTGTCCTACGGGCCGCTTTAAGCACGCTAAGGAGTCGGTACGAGAT
ATATGGGCATCACATAGAAAAAGATATCGAAGGGGTCTTTGAGAAAGTGC
CAAGATTGCGGAAGAACTATAGCCGGCCCGAGTCAAGCAGTGACAGGCTA
TTCAACAGCGAAGTTTTGCACGAGGTAGCCTGTACCACGTGTTGTAGTGA
GGACGTGGCAAAATTAAGATGGCGACCAGAACGAACCGAAGAAGAAGATA
ACCCGGCAATACACTATGGTCTCATTGCTTCTGGAAATCAGTTAATGAAG
GATGCTATGATTCGGGATAAGCTAGCTGAAGAGAAGGGGGTTCTATGTTT
TGAAATGGAGGCAGCAGGATTGATGAACCATTTCCCGTGCTTGGTGATTC
GCGGCATATGCGACTACTCAGATTCTCACAAGAACAAACAGTGGCAAGGC
TATGCAGCGATGGTGGCTGCTGCATATGCCAAAGACCTTCTCCGTCAAAT
TCATCCGAATGATGTTGGAAAGGAGCAGAAGATCACTGATGTTTTACCTG
GAATTTACGAAGTATTGAAGGACCACCGTGCCACATCAAACAAGCTGCTG
CAGAACTGTGAGGACTTCGCCAGGAAGAGGTTGTCTAACGAACAACAAAG
ATGTCGCCAGCTCTTTCGCCTGACAAGGAGCGATAGAGACATCACATATG
AGCAGTATAAGGACCAGGTCAAAGAAAGAGTTGATGGGACGTGTATGTGG
TTTCTCGACCATCCGAACTTCCAGACATGGTTAAAAGAAGAGTCGGGGCC
TCTGTTGGTCTCAGCGGACCCTGGCTGCGGGAAGTCAGTGTTGGCGAAGT
ATTTGGTTGACCACGCCCTGCCACGGTCGGCAACAATCTGCTACTTCTTC
TTCAAAGCTGAAGACCAAAACACTATCAGACAAGCACTTTGTGCACTGCT
TCACCAGCTCTTCTCCCAAAAGCCACAGTTAACCAAACATGCCATGACCC
AGTACCAAAAGAATGGGGATGGATTGATTAATTCAACTATATCCCTCTGG
AACATCTTTGAGAACGCAACAAAGGATCCCCAAGCAGGGCTGGTCATCGC
TGTCCTAGACGCCCTTGACGAGTGTCTAGAGCCAGAACTCCGAAACCTGA
TTGAAAATGTGAAGAGACAATGCACTGGTGACCGAATAATAGAGGGCCAG
CTAAAGTATTTATTAACATGCCGCCCATACGAGAACATAGTTTCCGGATT
CCAAGATTTGCGGAATGCATTCCCATACATCCACATACCAGGCGAGGATG
AGTCGAAGGCCATCAGTCAGGAGGTAAATCATGTCATTAGGCACCGGGTT
AAAGGACTGTCGCCGCGACTTCCACCCGAAGCCGTTACCTATCTCGAGAA
GAGGTTGCAAGAGGGTACCCACCGCACTTATCTCTGGGTGTATTTGGTCT
TCGACTATCTGGAGACGCAAAACTACAAGAGAACATTAACGGCTATCAAA
GCTGCTATTGGACAACTTCCAAACAGTGTTAATGAAGCATATGATAAGAT
TCTCAGCAAGTCTGGCGATGATGGGATCGTTTTGAAAGTCCTAAGCATTA
TCCTGGCAGCAAGTCGGCCACTAACAGTCTCAGAAATTAATGTTGCTTTG
AATGTCGAGCAAACTCTACAGTCCCTACAGGATCTTGACCTAGAGCCTGA
AAAGCAGTTCACGACACGCCTCAGATCCCAGTGCGGCCTGTTCATCTCAA
TCTACGATAACAAGATTCACTTCCTCCATCAAACTGCTCGAGAGTTTCTC
ATAGCTAAGGCATCAATTGGGGAAGTCACCGAGCATGGTCCAAAGTTAAG
ATGGCAGGAATCCATCACCACTCAAAAAGCACATTATGTTCTGGCCGAGC
TTTGCGTTCTCTACCTAAAACTGTTTAACATGAATGACACCGAAGACCCT
TATGGCTGCTCTCCGAGTGGTCTGAGCGAAAGAAAATGCCACCGCACTAA
TCACACCGCGTTTCTAGATTACTCGGCCCTTTTCTGGAGCGTCCATTTTC
GCGAGGCTGATATTCATGAGAATGAAGCTATTATTTGGGCCCTCATGGAA
ATTTGCAATCCGAACACCAAGTGTTACCCAGAATGGTTCAACATATACAG
CAAATCTACTCGCGGCGTGGTGCCTAGCCGTCTCCACGGTGTCGTAATGG
CGTCGTATTACGGCTTTTGCGGCGTTCTCAGAAAGCTTCTCGACGAGGGC
GCCGACATCAACGAAAGGGACTCGGAACATCACATGCCGCTTCTATCATG
GGCCATTGAGAATAGGCACGAGGGCGTCGTTAAGCTGCTGCTCTCTTACA
AGACCATAGAGCTGAATGCCGAGGATAAATACAGCTCAACACCACTTATG
CTTGCGGTGGAGAAGGCGCACGAGCCCATTGTGAAACTGATGCTTGCTGA
AGAACGTGTTGACCTTAACAAGGTGTCTACAATCGGACAGACACCGCTTT
CCTTTGCCATTCAATACGGCCATTTATCAATTGTCAAGTTGCTTGTTGCT
GAAGAAAGAGTTAACATCAACAAGCAATGCATGAGCTACGATGAGGCGGA
CAATGATGTGCATGGTACACCACTGTCGATATCCCTCTCCCTGGGCTACG
AGAGCATTGCCCTGCAGCTTCTTGGTAGATCTGACATCGACGTTTCCGGC
GAAGTGCACGTAGAAGGCAATGATGGTGATGAAAGGCGTAAGGGTACAGC
GCTTTTCTTTGCGACCGTGATGAAGTCTGAGATTCTTGTCCGTTTGCTAC
TTGCCAAAAATGGCATTGAAATCAATGGTAGAGGATATATCGACGCTGAA
GCCGAATATGATGACAGCGGTTACTCAGGAACACCGTTGTTTGTTGCTGC
GGCCAAGAATAATGAGACGATTCTGAGACACCTAATCGCCACACACGGAA
TTGATCTCAATGCCCCAGGCTTTGTCCGAATTTATGATGAAGAACTTGAG
TCGTCGGGCCGTGACGCTATCCATCAAGGGACGCCTTTGTCGATTGCAGC
CTCAAGTGGACACATGACGATTGTGGGGCTTCTTCTCACCGTGCAAAATG
TCGATGTCAACGCCCGATGTTACATCAAGGATCTAGAGTTGACGAAGCTG
CCACAATCCAGGATGACCAATTGTCATGATATCCTTGCCCAAGGGACACC
GCTGTTCCTTGCGAATGCTCACGGGACAGAAGAAGTCGTTAGATTGCTGC
TGACCAGGGATGATCTCAACGTCGAGTGTGAAGGCTGCATGGTGAACTAC
CCTGGATACTGGGGCGAATGTGGTCTTGGCCATCTTACCTATGTGGGGAG
GTCACTACCTTTTGCAGCTTGGACTGGAAGGAAGGTAATTGTTGAGATGT
TGCTTGCCAAAAATGGTGTTGATGTCAACACCCGGGCACACATTAGATTT
TGCCCTGACACATATCACAATGAGCAAGACTTTGAGGTCTATTCGCAAGC
CACGTCCTTGCTTTTAGCAGCAGCTAAAGAATATGAGGATATTGTCATGC
TCCTCCTCAATTCTCGAAGGGCAGTGGTTGACGCCAAAGACGAACATGGC
CGGACGCCGCTGATGTGGGCCGCCTGTAGGTCCAACAGAACCATCTGCAA
GCAGCTCATCGAGCATGGTGCTGACATTAATGCAAAAGATAATTCTGGCT
GCACCCCACTTTTTGATGCAATTAGGAATGGAAACCTAGAGATGGTCAAG
CTACTATTGGAAAATGGAGCCGACATTTACGCAGGGAATACTTCCGGGTG
TACACCAGTCGTCCATGCTACCAGGTTGCGGAACTGGGAGATAGTCGGGC
TGCTACTCGAGCATGCGGCAAATGATGACATGATGAATAATTCCGATTCC
ACTCCAATCATATGTACTATCAGAGAGGATGGTGAGGACATGGTCGATCT
GGTGCTTTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0009116 | nucleoside metabolic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003824 | catalytic activity |
| GO:0005515 | protein 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:
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR035994 |
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR020683 |
| DBxref | InterPro:IPR000845 |
| DBxref | InterPro:IPR036770 |
| DBxref | InterPro:IPR002110 |
| DBxref | PFAM:PF01048 |
| DBxref | PFAM:PF13857 |
| DBxref | PFAM:PF13637 |
| DBxref | PFAM:PF13606 |
| DBxref | PFAM:PF12796 |
| DBxref | PFAM:PF00023 |
| 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 |
|---|
| An11 | supercontig | An11:893586..898018 + |
|
