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Sequences
The following sequences are available for this feature:
mRNA from alignment at An14:686470..688621+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CBS51388_008786-T1 ID=CBS51388_008786-T1|Name=CBS51388_008786-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=2152bp|location=Sequence derived from alignment at An14:686470..688621+ (Aspergillus niger CBS 513.88)
ATGCCTTCATCCTCGAGTACAGCCCGTGCAAGCACTTCTTGCCGTCGCTG
CCACCGACGGAAGAAGCGCTGCGACCGTACACTTCCACAATGTGAGACCT
GTATCCATGCCCAGGTAGAATGCAGCTTTCTTGATGATGACAGACAAGTC
GGAACATATCCAATCGCGTAAGTTTGGTGGCAGTAACATGAGTTCATCCA
CTAATTCCAGGGTTTGAAGCTACGTCCAAGGGCTCGAATGTCGCGTCAAG
GAGCTAGAAAAGCAACTTTCCGCAGCCCTAGCATCAACACCATACCCTAC
CCTCCAACTTGATCAGGATTTCGACCAGCCAGTAATCAACTTCGCGACAC
CTCCGGACACGGACGCTAGCGACACCTTCCCCATAGCGACTCCTCCATCT
CAGAGCCGATCGGACTTTCTGGTCGATGAGCTCAAGCGACTGTCCCTAGA
AGCAGCAGCAGAGCGACATCTTGGTTCCTCTTCAGGGCTATCCTTCGCCA
AGTTAACCCAGGCAGTCCTTCGACGGCTATCCCCCGACAAAGCCGAGTTT
GTATTCGATGATACCCCAGACGAGTCGCCAGAGCAATACGGTGAACCTTT
CTCAGACCCTCTACTCGATGCTTCAACTTCCCTCTGGGAACTGAACAACT
CGTTCTCCTCACCATGCCTCTTCAACCAACTTCCACTGTCACACGTCATG
GAAGACGAGACAACGCTGGCCGATCTGCAATTACCCGACAGAGCACATAT
CGAATACTTAATGGAGTTCTACTTCGCACATTCCCACACACTGTACCCTA
TCATCCGCCAGACCGAGTTCACCTCCGTCATATGGCGAGTATACAACAAT
CCACAAGACCCTCTGGCAGGGTCTCCACTTTGGATGTTTCGCATCTGGAT
GGTTCTGGCCATTGGCTCGACGACACACTGTTCCGTAACCCTGGGAGATG
AATCCGAGTCTGTGCTGTACTACAATAAGGCAATGGGGTATTTCGAGGAT
GCGCTTGGACTAGGCGATATGGTATGTCCACTTCCGATTAGGTAGACTGG
AACAACTGACTAACGACTCAGGCCGCACTAGAGGTCATGATGCTGCAAGT
CTCTTACTCATTCTTCAACCAAGTCGGACCAAGTACGTACACCCTGATTC
CGATATATCCTCTACTAATTAAATAAAAGACACATTCTTCCTCGTCGGCG
TTGCCGCCCGCATGGCCATCGGTATAGGCCTACACAGCTCCTCAAGCTAC
GCCAGCCTCCCATCTGACGTGATCGAATACCGCAAGCGGATTTTCTTCTC
TTTGTACATGATGGACAGGTACCTCTCCCCTAAACCCACACCCTATCCTT
TATCCACTCTAATAAGTATCAACAGAGTAGTGTCCATAGCCCTAGGCCGC
CCCTTCGCCATCCACGACGCCGACATTGACGTCGAGGTAGCCCCTCTCCC
CAAGGTTCATCTCCTATAAACCAATCTAATACACAACTACAGCCCTTCAC
CGACACCACCACAACAGACGACCTAAACCACACAACCAACCTCTCCATCC
CACTACACATCCTCTCCCTCCGCCGCATCGCCAGCGAAATCACCACAGCC
CTCCACTCCCCAACGAACACGCACAACTCAGACCGCCAGACAACCCTCCA
AACTCTACACAAGAAGCTCCTCCACTGGCGACGCACCATGCCCTTCCCAC
TCCCACCAACCCCATCCCCAATCCCACATCTAACCAGCGCCTGGTTCGAT
CTGAACTACTACACGCACATGACGATGCTGTACCGGCCATCTCCTCTCTT
CCCGTCTCTCGACGAACAGAAAGTGAAGATGTTAGCGACAGCTGCGGCAA
TGGCTATTCGGCAGGCGATGAATCTGCATCGGCAGGGGCGGTTCGCGTAT
AATTGGTTGAATCTTTTAGGGGTGTTTCAGAGTGCGGTGGCGTTGATGTA
TGCTACGCTGGCGAGGCCGGATGAGTTGGGGGTTGTGGTTCGGGAGAGTA
AAGTGGTGGAGGATTTGGGGCTGGTGTTGGAGTTGTTGAGGGTTTTTGGG
AGGAAGTTTGGGGTTGCGGGGAGGTTGGAGAGGATTGTAGGGGTAGTGGT
GGGGAGGTTGGGGGAGTTTTATGATGGGGGTAGGGTTGGTGTGATGGTAT
GA back to topCoding sequence (CDS) from alignment at An14:686470..688621+ >CBS51388_008786-T1 ID=CBS51388_008786-T1|Name=CBS51388_008786-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=11340bp|location=Sequence derived from alignment at An14:686470..688621+ (Aspergillus niger CBS 513.88)
ATGCCTTCATCCTCGAGTACAGCCCGTGCAAGCACTTCTTGCCGTCGCTG
CCACCGACGGAAGAAGCGCTGCGACCGTACACTTCCACAATGTGAGACCT
GTATCCATGCCCAGGTAGAATGCAGCTTTCTTGATGATGACAGACAAGTC
GGAACATATCCAATCGCCTACGTCCAAGGGCTCGAATGTCGCGTCAAGGA
GCTAGAAAAGCAACTTTCCGCAGCCCTAGCATCAACACCATACCCTACCC
TCCAACTTGATCAGGATTTCGACCAGCCAGTAATCAACTTCGCGACACCT
CCGGACACGGACGCTAGCGACACCTTCCCCATAGCGACTCCTCCATCTCA
GAGCCGATCGGACTTTCTGGTCGATGAGCTCAAGCGACTGTCCCTAGAAG
CAGCAGCAGAGCGACATCTTGGTTCCTCTTCAGGGCTATCCTTCGCCAAG
TTAACCCAGGCAGTCCTTCGACGGCTATCCCCCGACAAAGCCGAGTTTGT
ATTCGATGATACCCCAGACGAGTCGCCAGAGCAATACGGTGAACCTTTCT
CAGACCCTCTACTCGATGCTTCAACTTCCCTCTGGGAACTGAACAACTCG
TTCTCCTCACCATGCCTCTTCAACCAACTTCCACTGTCACACGTCATGGA
AGACGAGACAACGCTGGCCGATCTGCAATTACCCGACAGAGCACATATCG
AATACTTAATGGAGTTCTACTTCGCACATTCCCACACACTGTACCCTATC
ATCCGCCAGACCGAGTTCACCTCCGTCATATGGCGAGTATACAACAATCC
ACAAGACCCTCTGGCAGGGTCTCCACTTTGGATGTTTCGCATCTGGATGG
TTCTGGCCATTGGCTCGACGACACACTGTTCCGTAACCCTGGGAGATGAA
TCCGAGTCTGTGCTGTACTACAATAAGGCAATGGGGTATTTCGAGGATGC
GCTTGGACTAGGCGATATGGCCGCACTAGAGGTCATGATGCTGCAAGTCT
CTTACTCATTCTTCAACCAAGTCGGACCAAACACATTCTTCCTCGTCGGC
GTTGCCGCCCGCATGGCCATCGGTATAGGCCTACACAGCTCCTCAAGCTA
CGCCAGCCTCCCATCTGACGTGATCGAATACCGCAAGCGGATTTTCTTCT
CTTTGTACATGATGGACAGAGTAGTGTCCATAGCCCTAGGCCGCCCCTTC
GCCATCCACGACGCCGACATTGACGTCGAGCCCTTCACCGACACCACCAC
AACAGACGACCTAAACCACACAACCAACCTCTCCATCCCACTACACATCC
TCTCCCTCCGCCGCATCGCCAGCGAAATCACCACAGCCCTCCACTCCCCA
ACGAACACGCACAACTCAGACCGCCAGACAACCCTCCAAACTCTACACAA
GAAGCTCCTCCACTGGCGACGCACCATGCCCTTCCCACTCCCACCAACCC
CATCCCCAATCCCACATCTAACCAGCGCCTGGTTCGATCTGAACTACTAC
ACGCACATGACGATGCTGTACCGGCCATCTCCTCTCTTCCCGTCTCTCGA
CGAACAGAAAGTGAAGATGTTAGCGACAGCTGCGGCAATGGCTATTCGGC
AGGCGATGAATCTGCATCGGCAGGGGCGGTTCGCGTATAATTGGTTGAAT
CTTTTAGGGGTGTTTCAGAGTGCGGTGGCGTTGATGTATGCTACGCTGGC
GAGGCCGGATGAGTTGGGGGTTGTGGTTCGGGAGAGTAAAGTGGTGGAGG
ATTTGGGGCTGGTGTTGGAGTTGTTGAGGGTTTTTGGGAGGAAGTTTGGG
GTTGCGGGGAGGTTGGAGAGGATTGTAGGGGTAGTGGTGGGGAGGTTGGG
GGAGTTTTATGATGGGGGTAGGGTTGGTGTGATGGTATGAATGCCTTCAT
CCTCGAGTACAGCCCGTGCAAGCACTTCTTGCCGTCGCTGCCACCGACGG
AAGAAGCGCTGCGACCGTACACTTCCACAATGTGAGACCTGTATCCATGC
CCAGGTAGAATGCAGCTTTCTTGATGATGACAGACAAGTCGGAACATATC
CAATCGCCTACGTCCAAGGGCTCGAATGTCGCGTCAAGGAGCTAGAAAAG
CAACTTTCCGCAGCCCTAGCATCAACACCATACCCTACCCTCCAACTTGA
TCAGGATTTCGACCAGCCAGTAATCAACTTCGCGACACCTCCGGACACGG
ACGCTAGCGACACCTTCCCCATAGCGACTCCTCCATCTCAGAGCCGATCG
GACTTTCTGGTCGATGAGCTCAAGCGACTGTCCCTAGAAGCAGCAGCAGA
GCGACATCTTGGTTCCTCTTCAGGGCTATCCTTCGCCAAGTTAACCCAGG
CAGTCCTTCGACGGCTATCCCCCGACAAAGCCGAGTTTGTATTCGATGAT
ACCCCAGACGAGTCGCCAGAGCAATACGGTGAACCTTTCTCAGACCCTCT
ACTCGATGCTTCAACTTCCCTCTGGGAACTGAACAACTCGTTCTCCTCAC
CATGCCTCTTCAACCAACTTCCACTGTCACACGTCATGGAAGACGAGACA
ACGCTGGCCGATCTGCAATTACCCGACAGAGCACATATCGAATACTTAAT
GGAGTTCTACTTCGCACATTCCCACACACTGTACCCTATCATCCGCCAGA
CCGAGTTCACCTCCGTCATATGGCGAGTATACAACAATCCACAAGACCCT
CTGGCAGGGTCTCCACTTTGGATGTTTCGCATCTGGATGGTTCTGGCCAT
TGGCTCGACGACACACTGTTCCGTAACCCTGGGAGATGAATCCGAGTCTG
TGCTGTACTACAATAAGGCAATGGGGTATTTCGAGGATGCGCTTGGACTA
GGCGATATGGCCGCACTAGAGGTCATGATGCTGCAAGTCTCTTACTCATT
CTTCAACCAAGTCGGACCAAACACATTCTTCCTCGTCGGCGTTGCCGCCC
GCATGGCCATCGGTATAGGCCTACACAGCTCCTCAAGCTACGCCAGCCTC
CCATCTGACGTGATCGAATACCGCAAGCGGATTTTCTTCTCTTTGTACAT
GATGGACAGAGTAGTGTCCATAGCCCTAGGCCGCCCCTTCGCCATCCACG
ACGCCGACATTGACGTCGAGCCCTTCACCGACACCACCACAACAGACGAC
CTAAACCACACAACCAACCTCTCCATCCCACTACACATCCTCTCCCTCCG
CCGCATCGCCAGCGAAATCACCACAGCCCTCCACTCCCCAACGAACACGC
ACAACTCAGACCGCCAGACAACCCTCCAAACTCTACACAAGAAGCTCCTC
CACTGGCGACGCACCATGCCCTTCCCACTCCCACCAACCCCATCCCCAAT
CCCACATCTAACCAGCGCCTGGTTCGATCTGAACTACTACACGCACATGA
CGATGCTGTACCGGCCATCTCCTCTCTTCCCGTCTCTCGACGAACAGAAA
GTGAAGATGTTAGCGACAGCTGCGGCAATGGCTATTCGGCAGGCGATGAA
TCTGCATCGGCAGGGGCGGTTCGCGTATAATTGGTTGAATCTTTTAGGGG
TGTTTCAGAGTGCGGTGGCGTTGATGTATGCTACGCTGGCGAGGCCGGAT
GAGTTGGGGGTTGTGGTTCGGGAGAGTAAAGTGGTGGAGGATTTGGGGCT
GGTGTTGGAGTTGTTGAGGGTTTTTGGGAGGAAGTTTGGGGTTGCGGGGA
GGTTGGAGAGGATTGTAGGGGTAGTGGTGGGGAGGTTGGGGGAGTTTTAT
GATGGGGGTAGGGTTGGTGTGATGGTATGAATGCCTTCATCCTCGAGTAC
AGCCCGTGCAAGCACTTCTTGCCGTCGCTGCCACCGACGGAAGAAGCGCT
GCGACCGTACACTTCCACAATGTGAGACCTGTATCCATGCCCAGGTAGAA
TGCAGCTTTCTTGATGATGACAGACAAGTCGGAACATATCCAATCGCCTA
CGTCCAAGGGCTCGAATGTCGCGTCAAGGAGCTAGAAAAGCAACTTTCCG
CAGCCCTAGCATCAACACCATACCCTACCCTCCAACTTGATCAGGATTTC
GACCAGCCAGTAATCAACTTCGCGACACCTCCGGACACGGACGCTAGCGA
CACCTTCCCCATAGCGACTCCTCCATCTCAGAGCCGATCGGACTTTCTGG
TCGATGAGCTCAAGCGACTGTCCCTAGAAGCAGCAGCAGAGCGACATCTT
GGTTCCTCTTCAGGGCTATCCTTCGCCAAGTTAACCCAGGCAGTCCTTCG
ACGGCTATCCCCCGACAAAGCCGAGTTTGTATTCGATGATACCCCAGACG
AGTCGCCAGAGCAATACGGTGAACCTTTCTCAGACCCTCTACTCGATGCT
TCAACTTCCCTCTGGGAACTGAACAACTCGTTCTCCTCACCATGCCTCTT
CAACCAACTTCCACTGTCACACGTCATGGAAGACGAGACAACGCTGGCCG
ATCTGCAATTACCCGACAGAGCACATATCGAATACTTAATGGAGTTCTAC
TTCGCACATTCCCACACACTGTACCCTATCATCCGCCAGACCGAGTTCAC
CTCCGTCATATGGCGAGTATACAACAATCCACAAGACCCTCTGGCAGGGT
CTCCACTTTGGATGTTTCGCATCTGGATGGTTCTGGCCATTGGCTCGACG
ACACACTGTTCCGTAACCCTGGGAGATGAATCCGAGTCTGTGCTGTACTA
CAATAAGGCAATGGGGTATTTCGAGGATGCGCTTGGACTAGGCGATATGG
CCGCACTAGAGGTCATGATGCTGCAAGTCTCTTACTCATTCTTCAACCAA
GTCGGACCAAACACATTCTTCCTCGTCGGCGTTGCCGCCCGCATGGCCAT
CGGTATAGGCCTACACAGCTCCTCAAGCTACGCCAGCCTCCCATCTGACG
TGATCGAATACCGCAAGCGGATTTTCTTCTCTTTGTACATGATGGACAGA
GTAGTGTCCATAGCCCTAGGCCGCCCCTTCGCCATCCACGACGCCGACAT
TGACGTCGAGCCCTTCACCGACACCACCACAACAGACGACCTAAACCACA
CAACCAACCTCTCCATCCCACTACACATCCTCTCCCTCCGCCGCATCGCC
AGCGAAATCACCACAGCCCTCCACTCCCCAACGAACACGCACAACTCAGA
CCGCCAGACAACCCTCCAAACTCTACACAAGAAGCTCCTCCACTGGCGAC
GCACCATGCCCTTCCCACTCCCACCAACCCCATCCCCAATCCCACATCTA
ACCAGCGCCTGGTTCGATCTGAACTACTACACGCACATGACGATGCTGTA
CCGGCCATCTCCTCTCTTCCCGTCTCTCGACGAACAGAAAGTGAAGATGT
TAGCGACAGCTGCGGCAATGGCTATTCGGCAGGCGATGAATCTGCATCGG
CAGGGGCGGTTCGCGTATAATTGGTTGAATCTTTTAGGGGTGTTTCAGAG
TGCGGTGGCGTTGATGTATGCTACGCTGGCGAGGCCGGATGAGTTGGGGG
TTGTGGTTCGGGAGAGTAAAGTGGTGGAGGATTTGGGGCTGGTGTTGGAG
TTGTTGAGGGTTTTTGGGAGGAAGTTTGGGGTTGCGGGGAGGTTGGAGAG
GATTGTAGGGGTAGTGGTGGGGAGGTTGGGGGAGTTTTATGATGGGGGTA
GGGTTGGTGTGATGGTATGAATGCCTTCATCCTCGAGTACAGCCCGTGCA
AGCACTTCTTGCCGTCGCTGCCACCGACGGAAGAAGCGCTGCGACCGTAC
ACTTCCACAATGTGAGACCTGTATCCATGCCCAGGTAGAATGCAGCTTTC
TTGATGATGACAGACAAGTCGGAACATATCCAATCGCCTACGTCCAAGGG
CTCGAATGTCGCGTCAAGGAGCTAGAAAAGCAACTTTCCGCAGCCCTAGC
ATCAACACCATACCCTACCCTCCAACTTGATCAGGATTTCGACCAGCCAG
TAATCAACTTCGCGACACCTCCGGACACGGACGCTAGCGACACCTTCCCC
ATAGCGACTCCTCCATCTCAGAGCCGATCGGACTTTCTGGTCGATGAGCT
CAAGCGACTGTCCCTAGAAGCAGCAGCAGAGCGACATCTTGGTTCCTCTT
CAGGGCTATCCTTCGCCAAGTTAACCCAGGCAGTCCTTCGACGGCTATCC
CCCGACAAAGCCGAGTTTGTATTCGATGATACCCCAGACGAGTCGCCAGA
GCAATACGGTGAACCTTTCTCAGACCCTCTACTCGATGCTTCAACTTCCC
TCTGGGAACTGAACAACTCGTTCTCCTCACCATGCCTCTTCAACCAACTT
CCACTGTCACACGTCATGGAAGACGAGACAACGCTGGCCGATCTGCAATT
ACCCGACAGAGCACATATCGAATACTTAATGGAGTTCTACTTCGCACATT
CCCACACACTGTACCCTATCATCCGCCAGACCGAGTTCACCTCCGTCATA
TGGCGAGTATACAACAATCCACAAGACCCTCTGGCAGGGTCTCCACTTTG
GATGTTTCGCATCTGGATGGTTCTGGCCATTGGCTCGACGACACACTGTT
CCGTAACCCTGGGAGATGAATCCGAGTCTGTGCTGTACTACAATAAGGCA
ATGGGGTATTTCGAGGATGCGCTTGGACTAGGCGATATGGCCGCACTAGA
GGTCATGATGCTGCAAGTCTCTTACTCATTCTTCAACCAAGTCGGACCAA
ACACATTCTTCCTCGTCGGCGTTGCCGCCCGCATGGCCATCGGTATAGGC
CTACACAGCTCCTCAAGCTACGCCAGCCTCCCATCTGACGTGATCGAATA
CCGCAAGCGGATTTTCTTCTCTTTGTACATGATGGACAGAGTAGTGTCCA
TAGCCCTAGGCCGCCCCTTCGCCATCCACGACGCCGACATTGACGTCGAG
CCCTTCACCGACACCACCACAACAGACGACCTAAACCACACAACCAACCT
CTCCATCCCACTACACATCCTCTCCCTCCGCCGCATCGCCAGCGAAATCA
CCACAGCCCTCCACTCCCCAACGAACACGCACAACTCAGACCGCCAGACA
ACCCTCCAAACTCTACACAAGAAGCTCCTCCACTGGCGACGCACCATGCC
CTTCCCACTCCCACCAACCCCATCCCCAATCCCACATCTAACCAGCGCCT
GGTTCGATCTGAACTACTACACGCACATGACGATGCTGTACCGGCCATCT
CCTCTCTTCCCGTCTCTCGACGAACAGAAAGTGAAGATGTTAGCGACAGC
TGCGGCAATGGCTATTCGGCAGGCGATGAATCTGCATCGGCAGGGGCGGT
TCGCGTATAATTGGTTGAATCTTTTAGGGGTGTTTCAGAGTGCGGTGGCG
TTGATGTATGCTACGCTGGCGAGGCCGGATGAGTTGGGGGTTGTGGTTCG
GGAGAGTAAAGTGGTGGAGGATTTGGGGCTGGTGTTGGAGTTGTTGAGGG
TTTTTGGGAGGAAGTTTGGGGTTGCGGGGAGGTTGGAGAGGATTGTAGGG
GTAGTGGTGGGGAGGTTGGGGGAGTTTTATGATGGGGGTAGGGTTGGTGT
GATGGTATGAATGCCTTCATCCTCGAGTACAGCCCGTGCAAGCACTTCTT
GCCGTCGCTGCCACCGACGGAAGAAGCGCTGCGACCGTACACTTCCACAA
TGTGAGACCTGTATCCATGCCCAGGTAGAATGCAGCTTTCTTGATGATGA
CAGACAAGTCGGAACATATCCAATCGCCTACGTCCAAGGGCTCGAATGTC
GCGTCAAGGAGCTAGAAAAGCAACTTTCCGCAGCCCTAGCATCAACACCA
TACCCTACCCTCCAACTTGATCAGGATTTCGACCAGCCAGTAATCAACTT
CGCGACACCTCCGGACACGGACGCTAGCGACACCTTCCCCATAGCGACTC
CTCCATCTCAGAGCCGATCGGACTTTCTGGTCGATGAGCTCAAGCGACTG
TCCCTAGAAGCAGCAGCAGAGCGACATCTTGGTTCCTCTTCAGGGCTATC
CTTCGCCAAGTTAACCCAGGCAGTCCTTCGACGGCTATCCCCCGACAAAG
CCGAGTTTGTATTCGATGATACCCCAGACGAGTCGCCAGAGCAATACGGT
GAACCTTTCTCAGACCCTCTACTCGATGCTTCAACTTCCCTCTGGGAACT
GAACAACTCGTTCTCCTCACCATGCCTCTTCAACCAACTTCCACTGTCAC
ACGTCATGGAAGACGAGACAACGCTGGCCGATCTGCAATTACCCGACAGA
GCACATATCGAATACTTAATGGAGTTCTACTTCGCACATTCCCACACACT
GTACCCTATCATCCGCCAGACCGAGTTCACCTCCGTCATATGGCGAGTAT
ACAACAATCCACAAGACCCTCTGGCAGGGTCTCCACTTTGGATGTTTCGC
ATCTGGATGGTTCTGGCCATTGGCTCGACGACACACTGTTCCGTAACCCT
GGGAGATGAATCCGAGTCTGTGCTGTACTACAATAAGGCAATGGGGTATT
TCGAGGATGCGCTTGGACTAGGCGATATGGCCGCACTAGAGGTCATGATG
CTGCAAGTCTCTTACTCATTCTTCAACCAAGTCGGACCAAACACATTCTT
CCTCGTCGGCGTTGCCGCCCGCATGGCCATCGGTATAGGCCTACACAGCT
CCTCAAGCTACGCCAGCCTCCCATCTGACGTGATCGAATACCGCAAGCGG
ATTTTCTTCTCTTTGTACATGATGGACAGAGTAGTGTCCATAGCCCTAGG
CCGCCCCTTCGCCATCCACGACGCCGACATTGACGTCGAGCCCTTCACCG
ACACCACCACAACAGACGACCTAAACCACACAACCAACCTCTCCATCCCA
CTACACATCCTCTCCCTCCGCCGCATCGCCAGCGAAATCACCACAGCCCT
CCACTCCCCAACGAACACGCACAACTCAGACCGCCAGACAACCCTCCAAA
CTCTACACAAGAAGCTCCTCCACTGGCGACGCACCATGCCCTTCCCACTC
CCACCAACCCCATCCCCAATCCCACATCTAACCAGCGCCTGGTTCGATCT
GAACTACTACACGCACATGACGATGCTGTACCGGCCATCTCCTCTCTTCC
CGTCTCTCGACGAACAGAAAGTGAAGATGTTAGCGACAGCTGCGGCAATG
GCTATTCGGCAGGCGATGAATCTGCATCGGCAGGGGCGGTTCGCGTATAA
TTGGTTGAATCTTTTAGGGGTGTTTCAGAGTGCGGTGGCGTTGATGTATG
CTACGCTGGCGAGGCCGGATGAGTTGGGGGTTGTGGTTCGGGAGAGTAAA
GTGGTGGAGGATTTGGGGCTGGTGTTGGAGTTGTTGAGGGTTTTTGGGAG
GAAGTTTGGGGTTGCGGGGAGGTTGGAGAGGATTGTAGGGGTAGTGGTGG
GGAGGTTGGGGGAGTTTTATGATGGGGGTAGGGTTGGTGTGATGGTATGA
ATGCCTTCATCCTCGAGTACAGCCCGTGCAAGCACTTCTTGCCGTCGCTG
CCACCGACGGAAGAAGCGCTGCGACCGTACACTTCCACAATGTGAGACCT
GTATCCATGCCCAGGTAGAATGCAGCTTTCTTGATGATGACAGACAAGTC
GGAACATATCCAATCGCCTACGTCCAAGGGCTCGAATGTCGCGTCAAGGA
GCTAGAAAAGCAACTTTCCGCAGCCCTAGCATCAACACCATACCCTACCC
TCCAACTTGATCAGGATTTCGACCAGCCAGTAATCAACTTCGCGACACCT
CCGGACACGGACGCTAGCGACACCTTCCCCATAGCGACTCCTCCATCTCA
GAGCCGATCGGACTTTCTGGTCGATGAGCTCAAGCGACTGTCCCTAGAAG
CAGCAGCAGAGCGACATCTTGGTTCCTCTTCAGGGCTATCCTTCGCCAAG
TTAACCCAGGCAGTCCTTCGACGGCTATCCCCCGACAAAGCCGAGTTTGT
ATTCGATGATACCCCAGACGAGTCGCCAGAGCAATACGGTGAACCTTTCT
CAGACCCTCTACTCGATGCTTCAACTTCCCTCTGGGAACTGAACAACTCG
TTCTCCTCACCATGCCTCTTCAACCAACTTCCACTGTCACACGTCATGGA
AGACGAGACAACGCTGGCCGATCTGCAATTACCCGACAGAGCACATATCG
AATACTTAATGGAGTTCTACTTCGCACATTCCCACACACTGTACCCTATC
ATCCGCCAGACCGAGTTCACCTCCGTCATATGGCGAGTATACAACAATCC
ACAAGACCCTCTGGCAGGGTCTCCACTTTGGATGTTTCGCATCTGGATGG
TTCTGGCCATTGGCTCGACGACACACTGTTCCGTAACCCTGGGAGATGAA
TCCGAGTCTGTGCTGTACTACAATAAGGCAATGGGGTATTTCGAGGATGC
GCTTGGACTAGGCGATATGGCCGCACTAGAGGTCATGATGCTGCAAGTCT
CTTACTCATTCTTCAACCAAGTCGGACCAAACACATTCTTCCTCGTCGGC
GTTGCCGCCCGCATGGCCATCGGTATAGGCCTACACAGCTCCTCAAGCTA
CGCCAGCCTCCCATCTGACGTGATCGAATACCGCAAGCGGATTTTCTTCT
CTTTGTACATGATGGACAGAGTAGTGTCCATAGCCCTAGGCCGCCCCTTC
GCCATCCACGACGCCGACATTGACGTCGAGCCCTTCACCGACACCACCAC
AACAGACGACCTAAACCACACAACCAACCTCTCCATCCCACTACACATCC
TCTCCCTCCGCCGCATCGCCAGCGAAATCACCACAGCCCTCCACTCCCCA
ACGAACACGCACAACTCAGACCGCCAGACAACCCTCCAAACTCTACACAA
GAAGCTCCTCCACTGGCGACGCACCATGCCCTTCCCACTCCCACCAACCC
CATCCCCAATCCCACATCTAACCAGCGCCTGGTTCGATCTGAACTACTAC
ACGCACATGACGATGCTGTACCGGCCATCTCCTCTCTTCCCGTCTCTCGA
CGAACAGAAAGTGAAGATGTTAGCGACAGCTGCGGCAATGGCTATTCGGC
AGGCGATGAATCTGCATCGGCAGGGGCGGTTCGCGTATAATTGGTTGAAT
CTTTTAGGGGTGTTTCAGAGTGCGGTGGCGTTGATGTATGCTACGCTGGC
GAGGCCGGATGAGTTGGGGGTTGTGGTTCGGGAGAGTAAAGTGGTGGAGG
ATTTGGGGCTGGTGTTGGAGTTGTTGAGGGTTTTTGGGAGGAAGTTTGGG
GTTGCGGGGAGGTTGGAGAGGATTGTAGGGGTAGTGGTGGGGAGGTTGGG
GGAGTTTTATGATGGGGGTAGGGTTGGTGTGATGGTATGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005634 | nucleus |
| GO:0042025 | host cell nucleus |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006351 | transcription, DNA-templated |
| GO:0006355 | regulation of transcription, DNA-templated |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003677 | DNA binding |
| GO:0000981 | DNA-binding transcription factor activity, RNA polymerase II-specific |
| GO:0008270 | zinc ion binding |
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:IPR036864 |
| DBxref | InterPro:IPR007219 |
| DBxref | InterPro:IPR001138 |
| DBxref | PFAM:PF00172 |
| 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 | An14:686470..688621 + |
|
