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Sequences
The following sequences are available for this feature:
mRNA from alignment at An14:344579..346964+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CBS51388_008666-T1 ID=CBS51388_008666-T1|Name=CBS51388_008666-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=2386bp|location=Sequence derived from alignment at An14:344579..346964+ (Aspergillus niger CBS 513.88)
ATGCGTGAGATAATCCTAACGCAAAGCAGATACTTTCAGACCCTTCATCT
TCGAATTAGAGAACTGGAAAATGCCTGTTTGATGGCCGGAGTGTCCATCG
ACAGTCCACTGGGCCTTCGGGCCCAACAGGAATCCCATAGCGAGCTCAAC
AGAGGCAATGAAATACCAGTGGAGACGGAAGGCCTTATCATGGCTGCCCC
CACCCCGTTTGGGGAACTTGAGGAGCGAACCACTACCTCCACAGGTTTCA
GGGTTGGCGGACGACCGGACCAACCGGTACTAGCCACACGCAGTGAAAGC
GCAAACAGCCGGTCCAGATTGGCAGTAGAAGAGACTACAGAGTGTTCACC
GGATGTAGGATCTTATGGATCGCCGTTGTTCGCCGATGGAGAAGCCCACG
TCACTGGAATGGGCCAGATCACAGCTCCAGATGCTGAAAGCAGGAAACAA
TCCTCCCGATTTCAATTTTATGGTAGTTCATCCACTGCTTCACTCATGAG
GTTTGCCTGGCAGTCGCTGCCTTCACGGCCAGCAAATTCTTCTGGTGCCG
AGCTTGCTTCTAGCACGCTGCATGATACTTTCACCGAGTATCGGTTCGAC
GATTTTGCCCTTCTACCGCGCACGCTGGCAGACCACCTCGTCCGCTGCTT
TTTCGATCATGTATATACCCTATATCCGTTCTTTCACCGCCCTGCGTTTG
AAGCAGCCTATCGGAATCTCTGGCGTGCTGAGGATGAGCCTAAGATACCT
CTCACAGACTTGAGAATTGGACTGGGTTCCGGCGCAGAATCCAGCCCTAA
ATCAATCGTTTTCCATGCTGCCTTGAATGCTATTTTTGCTCTGGGATGTC
AATTTGTAGATATCGAGGAAGTCGAATCTGTTGCAAATTCCTTCTTCCTT
AGGTGCAAGCGCTTTATTGGACTTGACTTTCTTGATATTAATACCCTTGG
TGTAGTTCAGACTCTGTTGATAACAGCGCTATTCTTGCAGAGCTCTCCCT
ATCCCAGCCGATGTTGGCATTCCGTTGTTGTTGCTTGCAGGGTTGCCCTG
GGTTTAGGACTCCATGAGTCGGATATCCTCACCAGCTTATCGCCCTTGGA
ATCTGATATTCGACGCCGAACGTGGCACGGCTGTGTGATGATGGATGTGT
AAGTCCTGCCAGTATTAGTGGTTACATACTAGGTCGTGCTAATTTCTGCC
ACAGTACTCTGAGCATGACGCATGGCAGACCTACTATGACGACTCATCTA
GCTCCTCTTCCCCCACCAGATGACTCCGAGATGCCCCGACAAGATCCGCC
GGGAGAACCGTCACTGCTGTCGTTTTATATCGAGGCTATTAAACTCTACA
GCATCTTAGACAAGATTTTATCCGATGTATATTGTGCCTGGTGTAGTCGG
ACACGCCAAGATCGACCACAGGCGTCAACCAAGATCTTGGGAGGCCTAGA
CACAATCCTTGAAATTGAAAGAGAACTCACTTTGTTTGAGGCTAGTACTC
CTCCATGCCTTAAGTGGGACCCGGACGCACCGGAATTCAATTCAGACGGT
AAGCTGAACCAGGCAATCGCCCAACAGAGAAATGTTCTCCACGCGAGGTG
CGTTTCTTCTCAATCCGGTTGCTATCTAGGTGGCTATCCCTCACCCACAT
ATGCAGATACTTGCATCTTCACCTCCTCCTCCACCGTCCGATGTTTACTC
AGCTCTACGCAGAAAAAGTACGCAAAAGCGACTTTGTAGGTGGAAATGGC
ATAAGAGAAGAATGGACCGCTCACAGTTCCGCAACCCGGAGCACTCTGTA
CTTCTCCACAGCTAATAAATCCGCCACCGCTTGCGTAATGGCAGCCATTG
ACCTGACGCACCTAGTCCATGAGACGTACCATACAAACGCCACCGATGCA
TGGTGGTACAACGGATTCTGTATGCCGCCCTCGCTTGCCAATTATTATCT
ACCTTCCCACCCGTACTGATAATCTGGGTTTAGATGTGTCAACGGCCGCC
ATAGTGCTCCTCATGTCTTTCTCCTCCCCATCAATGCTCGATTCATGTAC
TATGGATAAAGCCCGAGCTGCCGGAGAGAAGCTACAAGCGTTCTAGAATC
AATGGCAACAGTTAAACGCTCCGCGAACAACACGCTTCAGTTCCTCAAAG
CTTTGTATCGGCAAGCTGTGCCCGCTGATATGCAACAAACAGGCAGTCAG
ACTGCTGGTGCTGCTTCGCTGCATCCAGATAACATGACTCAACATTACAC
CCCGTTTGATCACCCGGATCACGACTTAACGCAAGCTCCATTCTTCAATT
GGGAGGAATACGCCGGAAGTATGGGACAGGGGTTTGATGATTTGGGGTTT
TTGACGAGGCTTGATTTTCCTGATACTTTACCTTGA back to topCoding sequence (CDS) from alignment at An14:344579..346964+ >CBS51388_008666-T1 ID=CBS51388_008666-T1|Name=CBS51388_008666-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=10710bp|location=Sequence derived from alignment at An14:344579..346964+ (Aspergillus niger CBS 513.88)
ATGCGTGAGATAATCCTAACGCAAAGCAGATACTTTCAGACCCTTCATCT
TCGAATTAGAGAACTGGAAAATGCCTGTTTGATGGCCGGAGTGTCCATCG
ACAGTCCACTGGGCCTTCGGGCCCAACAGGAATCCCATAGCGAGCTCAAC
AGAGGCAATGAAATACCAGTGGAGACGGAAGGCCTTATCATGGCTGCCCC
CACCCCGTTTGGGGAACTTGAGGAGCGAACCACTACCTCCACAGGTTTCA
GGGTTGGCGGACGACCGGACCAACCGGTACTAGCCACACGCAGTGAAAGC
GCAAACAGCCGGTCCAGATTGGCAGTAGAAGAGACTACAGAGTGTTCACC
GGATGTAGGATCTTATGGATCGCCGTTGTTCGCCGATGGAGAAGCCCACG
TCACTGGAATGGGCCAGATCACAGCTCCAGATGCTGAAAGCAGGAAACAA
TCCTCCCGATTTCAATTTTATGGTAGTTCATCCACTGCTTCACTCATGAG
GTTTGCCTGGCAGTCGCTGCCTTCACGGCCAGCAAATTCTTCTGGTGCCG
AGCTTGCTTCTAGCACGCTGCATGATACTTTCACCGAGTATCGGTTCGAC
GATTTTGCCCTTCTACCGCGCACGCTGGCAGACCACCTCGTCCGCTGCTT
TTTCGATCATGTATATACCCTATATCCGTTCTTTCACCGCCCTGCGTTTG
AAGCAGCCTATCGGAATCTCTGGCGTGCTGAGGATGAGCCTAAGATACCT
CTCACAGACTTGAGAATTGGACTGGGTTCCGGCGCAGAATCCAGCCCTAA
ATCAATCGTTTTCCATGCTGCCTTGAATGCTATTTTTGCTCTGGGATGTC
AATTTGTAGATATCGAGGAAGTCGAATCTGTTGCAAATTCCTTCTTCCTT
AGGTGCAAGCGCTTTATTGGACTTGACTTTCTTGATATTAATACCCTTGG
TGTAGTTCAGACTCTGTTGATAACAGCGCTATTCTTGCAGAGCTCTCCCT
ATCCCAGCCGATGTTGGCATTCCGTTGTTGTTGCTTGCAGGGTTGCCCTG
GGTTTAGGACTCCATGAGTCGGATATCCTCACCAGCTTATCGCCCTTGGA
ATCTGATATTCGACGCCGAACGTGGCACGGCTGTGTGATGATGGATGTTA
CTCTGAGCATGACGCATGGCAGACCTACTATGACGACTCATCTAGCTCCT
CTTCCCCCACCAGATGACTCCGAGATGCCCCGACAAGATCCGCCGGGAGA
ACCGTCACTGCTGTCGTTTTATATCGAGGCTATTAAACTCTACAGCATCT
TAGACAAGATTTTATCCGATGTATATTGTGCCTGGTGTAGTCGGACACGC
CAAGATCGACCACAGGCGTCAACCAAGATCTTGGGAGGCCTAGACACAAT
CCTTGAAATTGAAAGAGAACTCACTTTGTTTGAGGCTAGTACTCCTCCAT
GCCTTAAGTGGGACCCGGACGCACCGGAATTCAATTCAGACGGTAAGCTG
AACCAGGCAATCGCCCAACAGAGAAATGTTCTCCACGCGAGATACTTGCA
TCTTCACCTCCTCCTCCACCGTCCGATGTTTACTCAGCTCTACGCAGAAA
AAGTACGCAAAAGCGACTTTGTAGGTGGAAATGGCATAAGAGAAGAATGG
ACCGCTCACAGTTCCGCAACCCGGAGCACTCTGTACTTCTCCACAGCTAA
TAAATCCGCCACCGCTTGCGTAATGGCAGCCATTGACCTGACGCACCTAG
TCCATGAGACGTACCATACAAACGCCACCGATGCATGGTGGTACAACGGA
TTCTATGTGTCAACGGCCGCCATAGTGCTCCTCATGTCTTTCTCCTCCCC
ATCAATGCTCGATTCATTTAAACGCTCCGCGAACAACACGCTTCAGTTCC
TCAAAGCTTTGTATCGGCAAGCTGTGCCCGCTGATATGCAACAAACAGGC
AGTCAGACTGCTGGTGCTGCTTCGCTGCATCCAGATAACATGACTCAACA
TTACACCCCGTTTGATCACCCGGATCACGACTTAACGCAAGCTCCATTCT
TCAATTGGGAGGAATACGCCGGAAGTATGGGACAGGGGTTTGATGATTTG
GGGTTTTTGACGAGGCTTGATTTTCCTGATACTTTACCTTGAATGCGTGA
GATAATCCTAACGCAAAGCAGATACTTTCAGACCCTTCATCTTCGAATTA
GAGAACTGGAAAATGCCTGTTTGATGGCCGGAGTGTCCATCGACAGTCCA
CTGGGCCTTCGGGCCCAACAGGAATCCCATAGCGAGCTCAACAGAGGCAA
TGAAATACCAGTGGAGACGGAAGGCCTTATCATGGCTGCCCCCACCCCGT
TTGGGGAACTTGAGGAGCGAACCACTACCTCCACAGGTTTCAGGGTTGGC
GGACGACCGGACCAACCGGTACTAGCCACACGCAGTGAAAGCGCAAACAG
CCGGTCCAGATTGGCAGTAGAAGAGACTACAGAGTGTTCACCGGATGTAG
GATCTTATGGATCGCCGTTGTTCGCCGATGGAGAAGCCCACGTCACTGGA
ATGGGCCAGATCACAGCTCCAGATGCTGAAAGCAGGAAACAATCCTCCCG
ATTTCAATTTTATGGTAGTTCATCCACTGCTTCACTCATGAGGTTTGCCT
GGCAGTCGCTGCCTTCACGGCCAGCAAATTCTTCTGGTGCCGAGCTTGCT
TCTAGCACGCTGCATGATACTTTCACCGAGTATCGGTTCGACGATTTTGC
CCTTCTACCGCGCACGCTGGCAGACCACCTCGTCCGCTGCTTTTTCGATC
ATGTATATACCCTATATCCGTTCTTTCACCGCCCTGCGTTTGAAGCAGCC
TATCGGAATCTCTGGCGTGCTGAGGATGAGCCTAAGATACCTCTCACAGA
CTTGAGAATTGGACTGGGTTCCGGCGCAGAATCCAGCCCTAAATCAATCG
TTTTCCATGCTGCCTTGAATGCTATTTTTGCTCTGGGATGTCAATTTGTA
GATATCGAGGAAGTCGAATCTGTTGCAAATTCCTTCTTCCTTAGGTGCAA
GCGCTTTATTGGACTTGACTTTCTTGATATTAATACCCTTGGTGTAGTTC
AGACTCTGTTGATAACAGCGCTATTCTTGCAGAGCTCTCCCTATCCCAGC
CGATGTTGGCATTCCGTTGTTGTTGCTTGCAGGGTTGCCCTGGGTTTAGG
ACTCCATGAGTCGGATATCCTCACCAGCTTATCGCCCTTGGAATCTGATA
TTCGACGCCGAACGTGGCACGGCTGTGTGATGATGGATGTTACTCTGAGC
ATGACGCATGGCAGACCTACTATGACGACTCATCTAGCTCCTCTTCCCCC
ACCAGATGACTCCGAGATGCCCCGACAAGATCCGCCGGGAGAACCGTCAC
TGCTGTCGTTTTATATCGAGGCTATTAAACTCTACAGCATCTTAGACAAG
ATTTTATCCGATGTATATTGTGCCTGGTGTAGTCGGACACGCCAAGATCG
ACCACAGGCGTCAACCAAGATCTTGGGAGGCCTAGACACAATCCTTGAAA
TTGAAAGAGAACTCACTTTGTTTGAGGCTAGTACTCCTCCATGCCTTAAG
TGGGACCCGGACGCACCGGAATTCAATTCAGACGGTAAGCTGAACCAGGC
AATCGCCCAACAGAGAAATGTTCTCCACGCGAGATACTTGCATCTTCACC
TCCTCCTCCACCGTCCGATGTTTACTCAGCTCTACGCAGAAAAAGTACGC
AAAAGCGACTTTGTAGGTGGAAATGGCATAAGAGAAGAATGGACCGCTCA
CAGTTCCGCAACCCGGAGCACTCTGTACTTCTCCACAGCTAATAAATCCG
CCACCGCTTGCGTAATGGCAGCCATTGACCTGACGCACCTAGTCCATGAG
ACGTACCATACAAACGCCACCGATGCATGGTGGTACAACGGATTCTATGT
GTCAACGGCCGCCATAGTGCTCCTCATGTCTTTCTCCTCCCCATCAATGC
TCGATTCATTTAAACGCTCCGCGAACAACACGCTTCAGTTCCTCAAAGCT
TTGTATCGGCAAGCTGTGCCCGCTGATATGCAACAAACAGGCAGTCAGAC
TGCTGGTGCTGCTTCGCTGCATCCAGATAACATGACTCAACATTACACCC
CGTTTGATCACCCGGATCACGACTTAACGCAAGCTCCATTCTTCAATTGG
GAGGAATACGCCGGAAGTATGGGACAGGGGTTTGATGATTTGGGGTTTTT
GACGAGGCTTGATTTTCCTGATACTTTACCTTGAATGCGTGAGATAATCC
TAACGCAAAGCAGATACTTTCAGACCCTTCATCTTCGAATTAGAGAACTG
GAAAATGCCTGTTTGATGGCCGGAGTGTCCATCGACAGTCCACTGGGCCT
TCGGGCCCAACAGGAATCCCATAGCGAGCTCAACAGAGGCAATGAAATAC
CAGTGGAGACGGAAGGCCTTATCATGGCTGCCCCCACCCCGTTTGGGGAA
CTTGAGGAGCGAACCACTACCTCCACAGGTTTCAGGGTTGGCGGACGACC
GGACCAACCGGTACTAGCCACACGCAGTGAAAGCGCAAACAGCCGGTCCA
GATTGGCAGTAGAAGAGACTACAGAGTGTTCACCGGATGTAGGATCTTAT
GGATCGCCGTTGTTCGCCGATGGAGAAGCCCACGTCACTGGAATGGGCCA
GATCACAGCTCCAGATGCTGAAAGCAGGAAACAATCCTCCCGATTTCAAT
TTTATGGTAGTTCATCCACTGCTTCACTCATGAGGTTTGCCTGGCAGTCG
CTGCCTTCACGGCCAGCAAATTCTTCTGGTGCCGAGCTTGCTTCTAGCAC
GCTGCATGATACTTTCACCGAGTATCGGTTCGACGATTTTGCCCTTCTAC
CGCGCACGCTGGCAGACCACCTCGTCCGCTGCTTTTTCGATCATGTATAT
ACCCTATATCCGTTCTTTCACCGCCCTGCGTTTGAAGCAGCCTATCGGAA
TCTCTGGCGTGCTGAGGATGAGCCTAAGATACCTCTCACAGACTTGAGAA
TTGGACTGGGTTCCGGCGCAGAATCCAGCCCTAAATCAATCGTTTTCCAT
GCTGCCTTGAATGCTATTTTTGCTCTGGGATGTCAATTTGTAGATATCGA
GGAAGTCGAATCTGTTGCAAATTCCTTCTTCCTTAGGTGCAAGCGCTTTA
TTGGACTTGACTTTCTTGATATTAATACCCTTGGTGTAGTTCAGACTCTG
TTGATAACAGCGCTATTCTTGCAGAGCTCTCCCTATCCCAGCCGATGTTG
GCATTCCGTTGTTGTTGCTTGCAGGGTTGCCCTGGGTTTAGGACTCCATG
AGTCGGATATCCTCACCAGCTTATCGCCCTTGGAATCTGATATTCGACGC
CGAACGTGGCACGGCTGTGTGATGATGGATGTTACTCTGAGCATGACGCA
TGGCAGACCTACTATGACGACTCATCTAGCTCCTCTTCCCCCACCAGATG
ACTCCGAGATGCCCCGACAAGATCCGCCGGGAGAACCGTCACTGCTGTCG
TTTTATATCGAGGCTATTAAACTCTACAGCATCTTAGACAAGATTTTATC
CGATGTATATTGTGCCTGGTGTAGTCGGACACGCCAAGATCGACCACAGG
CGTCAACCAAGATCTTGGGAGGCCTAGACACAATCCTTGAAATTGAAAGA
GAACTCACTTTGTTTGAGGCTAGTACTCCTCCATGCCTTAAGTGGGACCC
GGACGCACCGGAATTCAATTCAGACGGTAAGCTGAACCAGGCAATCGCCC
AACAGAGAAATGTTCTCCACGCGAGATACTTGCATCTTCACCTCCTCCTC
CACCGTCCGATGTTTACTCAGCTCTACGCAGAAAAAGTACGCAAAAGCGA
CTTTGTAGGTGGAAATGGCATAAGAGAAGAATGGACCGCTCACAGTTCCG
CAACCCGGAGCACTCTGTACTTCTCCACAGCTAATAAATCCGCCACCGCT
TGCGTAATGGCAGCCATTGACCTGACGCACCTAGTCCATGAGACGTACCA
TACAAACGCCACCGATGCATGGTGGTACAACGGATTCTATGTGTCAACGG
CCGCCATAGTGCTCCTCATGTCTTTCTCCTCCCCATCAATGCTCGATTCA
TTTAAACGCTCCGCGAACAACACGCTTCAGTTCCTCAAAGCTTTGTATCG
GCAAGCTGTGCCCGCTGATATGCAACAAACAGGCAGTCAGACTGCTGGTG
CTGCTTCGCTGCATCCAGATAACATGACTCAACATTACACCCCGTTTGAT
CACCCGGATCACGACTTAACGCAAGCTCCATTCTTCAATTGGGAGGAATA
CGCCGGAAGTATGGGACAGGGGTTTGATGATTTGGGGTTTTTGACGAGGC
TTGATTTTCCTGATACTTTACCTTGAATGCGTGAGATAATCCTAACGCAA
AGCAGATACTTTCAGACCCTTCATCTTCGAATTAGAGAACTGGAAAATGC
CTGTTTGATGGCCGGAGTGTCCATCGACAGTCCACTGGGCCTTCGGGCCC
AACAGGAATCCCATAGCGAGCTCAACAGAGGCAATGAAATACCAGTGGAG
ACGGAAGGCCTTATCATGGCTGCCCCCACCCCGTTTGGGGAACTTGAGGA
GCGAACCACTACCTCCACAGGTTTCAGGGTTGGCGGACGACCGGACCAAC
CGGTACTAGCCACACGCAGTGAAAGCGCAAACAGCCGGTCCAGATTGGCA
GTAGAAGAGACTACAGAGTGTTCACCGGATGTAGGATCTTATGGATCGCC
GTTGTTCGCCGATGGAGAAGCCCACGTCACTGGAATGGGCCAGATCACAG
CTCCAGATGCTGAAAGCAGGAAACAATCCTCCCGATTTCAATTTTATGGT
AGTTCATCCACTGCTTCACTCATGAGGTTTGCCTGGCAGTCGCTGCCTTC
ACGGCCAGCAAATTCTTCTGGTGCCGAGCTTGCTTCTAGCACGCTGCATG
ATACTTTCACCGAGTATCGGTTCGACGATTTTGCCCTTCTACCGCGCACG
CTGGCAGACCACCTCGTCCGCTGCTTTTTCGATCATGTATATACCCTATA
TCCGTTCTTTCACCGCCCTGCGTTTGAAGCAGCCTATCGGAATCTCTGGC
GTGCTGAGGATGAGCCTAAGATACCTCTCACAGACTTGAGAATTGGACTG
GGTTCCGGCGCAGAATCCAGCCCTAAATCAATCGTTTTCCATGCTGCCTT
GAATGCTATTTTTGCTCTGGGATGTCAATTTGTAGATATCGAGGAAGTCG
AATCTGTTGCAAATTCCTTCTTCCTTAGGTGCAAGCGCTTTATTGGACTT
GACTTTCTTGATATTAATACCCTTGGTGTAGTTCAGACTCTGTTGATAAC
AGCGCTATTCTTGCAGAGCTCTCCCTATCCCAGCCGATGTTGGCATTCCG
TTGTTGTTGCTTGCAGGGTTGCCCTGGGTTTAGGACTCCATGAGTCGGAT
ATCCTCACCAGCTTATCGCCCTTGGAATCTGATATTCGACGCCGAACGTG
GCACGGCTGTGTGATGATGGATGTTACTCTGAGCATGACGCATGGCAGAC
CTACTATGACGACTCATCTAGCTCCTCTTCCCCCACCAGATGACTCCGAG
ATGCCCCGACAAGATCCGCCGGGAGAACCGTCACTGCTGTCGTTTTATAT
CGAGGCTATTAAACTCTACAGCATCTTAGACAAGATTTTATCCGATGTAT
ATTGTGCCTGGTGTAGTCGGACACGCCAAGATCGACCACAGGCGTCAACC
AAGATCTTGGGAGGCCTAGACACAATCCTTGAAATTGAAAGAGAACTCAC
TTTGTTTGAGGCTAGTACTCCTCCATGCCTTAAGTGGGACCCGGACGCAC
CGGAATTCAATTCAGACGGTAAGCTGAACCAGGCAATCGCCCAACAGAGA
AATGTTCTCCACGCGAGATACTTGCATCTTCACCTCCTCCTCCACCGTCC
GATGTTTACTCAGCTCTACGCAGAAAAAGTACGCAAAAGCGACTTTGTAG
GTGGAAATGGCATAAGAGAAGAATGGACCGCTCACAGTTCCGCAACCCGG
AGCACTCTGTACTTCTCCACAGCTAATAAATCCGCCACCGCTTGCGTAAT
GGCAGCCATTGACCTGACGCACCTAGTCCATGAGACGTACCATACAAACG
CCACCGATGCATGGTGGTACAACGGATTCTATGTGTCAACGGCCGCCATA
GTGCTCCTCATGTCTTTCTCCTCCCCATCAATGCTCGATTCATTTAAACG
CTCCGCGAACAACACGCTTCAGTTCCTCAAAGCTTTGTATCGGCAAGCTG
TGCCCGCTGATATGCAACAAACAGGCAGTCAGACTGCTGGTGCTGCTTCG
CTGCATCCAGATAACATGACTCAACATTACACCCCGTTTGATCACCCGGA
TCACGACTTAACGCAAGCTCCATTCTTCAATTGGGAGGAATACGCCGGAA
GTATGGGACAGGGGTTTGATGATTTGGGGTTTTTGACGAGGCTTGATTTT
CCTGATACTTTACCTTGAATGCGTGAGATAATCCTAACGCAAAGCAGATA
CTTTCAGACCCTTCATCTTCGAATTAGAGAACTGGAAAATGCCTGTTTGA
TGGCCGGAGTGTCCATCGACAGTCCACTGGGCCTTCGGGCCCAACAGGAA
TCCCATAGCGAGCTCAACAGAGGCAATGAAATACCAGTGGAGACGGAAGG
CCTTATCATGGCTGCCCCCACCCCGTTTGGGGAACTTGAGGAGCGAACCA
CTACCTCCACAGGTTTCAGGGTTGGCGGACGACCGGACCAACCGGTACTA
GCCACACGCAGTGAAAGCGCAAACAGCCGGTCCAGATTGGCAGTAGAAGA
GACTACAGAGTGTTCACCGGATGTAGGATCTTATGGATCGCCGTTGTTCG
CCGATGGAGAAGCCCACGTCACTGGAATGGGCCAGATCACAGCTCCAGAT
GCTGAAAGCAGGAAACAATCCTCCCGATTTCAATTTTATGGTAGTTCATC
CACTGCTTCACTCATGAGGTTTGCCTGGCAGTCGCTGCCTTCACGGCCAG
CAAATTCTTCTGGTGCCGAGCTTGCTTCTAGCACGCTGCATGATACTTTC
ACCGAGTATCGGTTCGACGATTTTGCCCTTCTACCGCGCACGCTGGCAGA
CCACCTCGTCCGCTGCTTTTTCGATCATGTATATACCCTATATCCGTTCT
TTCACCGCCCTGCGTTTGAAGCAGCCTATCGGAATCTCTGGCGTGCTGAG
GATGAGCCTAAGATACCTCTCACAGACTTGAGAATTGGACTGGGTTCCGG
CGCAGAATCCAGCCCTAAATCAATCGTTTTCCATGCTGCCTTGAATGCTA
TTTTTGCTCTGGGATGTCAATTTGTAGATATCGAGGAAGTCGAATCTGTT
GCAAATTCCTTCTTCCTTAGGTGCAAGCGCTTTATTGGACTTGACTTTCT
TGATATTAATACCCTTGGTGTAGTTCAGACTCTGTTGATAACAGCGCTAT
TCTTGCAGAGCTCTCCCTATCCCAGCCGATGTTGGCATTCCGTTGTTGTT
GCTTGCAGGGTTGCCCTGGGTTTAGGACTCCATGAGTCGGATATCCTCAC
CAGCTTATCGCCCTTGGAATCTGATATTCGACGCCGAACGTGGCACGGCT
GTGTGATGATGGATGTTACTCTGAGCATGACGCATGGCAGACCTACTATG
ACGACTCATCTAGCTCCTCTTCCCCCACCAGATGACTCCGAGATGCCCCG
ACAAGATCCGCCGGGAGAACCGTCACTGCTGTCGTTTTATATCGAGGCTA
TTAAACTCTACAGCATCTTAGACAAGATTTTATCCGATGTATATTGTGCC
TGGTGTAGTCGGACACGCCAAGATCGACCACAGGCGTCAACCAAGATCTT
GGGAGGCCTAGACACAATCCTTGAAATTGAAAGAGAACTCACTTTGTTTG
AGGCTAGTACTCCTCCATGCCTTAAGTGGGACCCGGACGCACCGGAATTC
AATTCAGACGGTAAGCTGAACCAGGCAATCGCCCAACAGAGAAATGTTCT
CCACGCGAGATACTTGCATCTTCACCTCCTCCTCCACCGTCCGATGTTTA
CTCAGCTCTACGCAGAAAAAGTACGCAAAAGCGACTTTGTAGGTGGAAAT
GGCATAAGAGAAGAATGGACCGCTCACAGTTCCGCAACCCGGAGCACTCT
GTACTTCTCCACAGCTAATAAATCCGCCACCGCTTGCGTAATGGCAGCCA
TTGACCTGACGCACCTAGTCCATGAGACGTACCATACAAACGCCACCGAT
GCATGGTGGTACAACGGATTCTATGTGTCAACGGCCGCCATAGTGCTCCT
CATGTCTTTCTCCTCCCCATCAATGCTCGATTCATTTAAACGCTCCGCGA
ACAACACGCTTCAGTTCCTCAAAGCTTTGTATCGGCAAGCTGTGCCCGCT
GATATGCAACAAACAGGCAGTCAGACTGCTGGTGCTGCTTCGCTGCATCC
AGATAACATGACTCAACATTACACCCCGTTTGATCACCCGGATCACGACT
TAACGCAAGCTCCATTCTTCAATTGGGAGGAATACGCCGGAAGTATGGGA
CAGGGGTTTGATGATTTGGGGTTTTTGACGAGGCTTGATTTTCCTGATAC
TTTACCTTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005634 | nucleus |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003677 | DNA binding |
| GO:0008270 | zinc ion binding |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006351 | transcription, DNA-templated |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR007219 |
| DBxref | PFAM:PF04082 |
| 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 | An14:344579..346964 + |
|
