|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at ch7:1044361..1048069+ Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >KJC3_009660-T1 ID=KJC3_009660-T1|Name=KJC3_009660-T1|organism=Aspergillus niger KJC3|type=mRNA|length=3709bp|location=Sequence derived from alignment at ch7:1044361..1048069+ (Aspergillus niger KJC3)
AAAAATGGACGATGTTTATGGTATGTTTATATAGTTATATCTGAAGTCTG
GCGGCAAATTGGGCTCAGTCGCAGTCACCAGAAATCGCAGGCGACAGAAG
CCGCCCCTCCACTTGAGGCTCCTTCGCTCGACTTTCGCGTCTCCGCGTTT
CTCTCTTCTCTTTTTCTTCTTTGCCATCTCTTTCTTCTCGCACAAAGTGT
CGCATCAAACCCGACAGCGGAGCTCCGTTTCCATCAAACGTGGTTTTAGA
TATCTAATGCATCTTATCCAGCATCTCCTGGAGGCTCCTTATTAAGGCTT
AAACACCCCCCCGCCGCCTGAGGCCTCCACGTCGGCTGTCGGTCACCGAC
CGTCCGGTTCTCCGACCTTCGCCCAACTGCAGCCTCCAAGCGAGTCTGGT
GTCTTGCTTTCCACCCCCTCATCTTCTTGTTCTCTCAAATTAAAATGTAA
GCTTGATGTTCATTTCGGTCTCCTTACTATCCCTTCTAGGAATAACGCGG
CCAGGCGATCGGAACTCCTTGCCGGTCGTGATAAAATCCGTTGGCCATGG
CGACCCTCCACCCGTCATCGTGCAACCCAGGCTGACATGCCATAACCCAG
TCCCCGCAACCGATGGAGATCGATCCGCGTCTGCGTGCTGGCAGTGACAG
CTCTCCTGCCGACGGCACCGCAGCCGGTCGTCCATATATCCCTCCCCCGG
CCTCCTCCTCCAGACATCCCGACCCCAATGCCGCCGCTCCCTCCGCTCTT
GCACGCAGCAGCAATTACCCCGAGCCACCGTCCCCTTACTCGCCCGCTGA
CCAGCTGCGATCCGCCGTCTCGTCTGCAAGTGGGCCCGGCTACTACGGCA
GCGCCGCGCACTCCCAGTCGACGCCATCTATCTACCGAAGCGGGCCTGAA
CCTGGCTCTGTGCCCAGCACGTCCTCTCAACTCGACTCCGTCGATCCGAA
CGATCCGTATGCCGAATTACGACGTCCGCGCGCCTGCGAAGCTTGCCGAC
AACTCAAAGTCCGATGCGAGCCCGATCTCAGCCATCCCAATGGGACGTGT
AAACGGTGCGCCAAGGCCGGCAGAAATTGTATCGTGACCCTTCCCACGCG
CAAGCGCCAGAAGAAAACCGACAGTCGCGTGGCGGAGCTGGAGAGAAAGA
TCGATGCCTTGACGGCAAGCTTGCAGGCCTCCCAGGGCCATGAAACCCAC
CCTCTTCCGCCGCCCGCGACTCTTGAGCCGCCACGCGAGGAGCATCCGGG
AAGGCGCTGGCTGCCATCCGCAACGCATGTCTCTGCTAATGGATCGGTAC
CTCTGAAGTCACCATCCAGCACGGCGGGGAGCAAGCGGCAACACGGTGGG
GAGATCAAAGAGACTGCTCCAGTGTCTTCTCGCACTTCGAGCCCATCCGA
CGACCAATCATTGTACAATAAGGCTATTAAACAATGGCGGGCTATGGGAT
ACGGAGCGGAGCCACAACCCAAGGATACGGCCAGCGAGGGCGGGGGCGAT
CTGATTGACAGAGGCCTCGTGAGTGAGACACTGGCTGAGGAGGCATTCAC
CAAATATATAGACTATATGGCCACCCTTATACCTATGGTGGTGTTCCCAC
CGGGCACAACGATGGATGAGGTGCGGCAGAAGAAGCCGGTGCTGTTTCAC
GCTATAGTTGCGGCCGCGATCGGTACTATCCAACCACAGTTGCAGCTGTC
CTTGCTGGATGATTTCTACAAAGTGCTTGCAGAACGAGTCGTGGTGAAAG
GTGAAAAGTCTCTGGATCTAGTCCAGGCGATCTTGGTGTGCTGCAAGTGG
TACACGCCGCCAGACAACTTCGAGGAGGTAAAATTCTATCAGTTGTCCAA
CATTGCTGTCTCACTCGCGATGGATCTGGGTCTCAATCGGAAGGCGATCC
CCAAGTCGAAGCCGTTCGCCCTAGTCAAGGAGCTTATCTCGAAGAAGTCA
TCTGTCGTCCTAGATCTGGATTCACCCGAGGCGAGACGGACTTGGCTTGC
TTGTTATTTCCTCTCTGTGCAGTTCGTATCCCTTCATTAATGATGCCAAA
TCTATCGCTAACACTTCACAGGGTCGCCGTCTCTCTAAGGCGCGTGAATC
TAGTCCGATGGCTGCCATATATGGACGAATGCGTGGAAATACTGGAGAAG
TCACCAGACGCCTTACCATCCGACAAGGCCATGATCCAATGGGCAAAGCT
AGCCCACATCCTCGAAGATATCGCCGTCCAGTTCACTACCGACGACGCCC
CTACCGTATCATCCTTCTCAGACCCGAAATTCCTCTACACGCTCCGAGTC
CTCGAAAGGCAACTCGAACAATGGCGTCGAGAAACTCCACCAGAGCACTA
TTCCCGTATGTTGAATCCTCTACCCCCAATCCTAGGTTAACCACCTACTA
ACCACAACCCCAGCCATCATGAAACAAGCCTATTGTATCCTCAACCTCTT
CCTCCACGAAAATGCCATGCACGTAGAATTCCACCGAGACGATTCCAAAT
CCGCCAACGACGATCTCGCCAGCCCCACCAGCCCAGCTCACATCAACGCC
CTAAGCACCTGCCTCACCTCCATCCACGATGCCATCGACGTCCTCTGCTC
CATCGAGACGAAAGACCTAGTCCTAGCCCCGACCATCGCTCTGGCCCGAA
CGTCCTTCGCCATCGTCGCCCTCATCAAGATCTACTCCATCGTCTCGAGC
CCAGACACCCGCATGGCCCAAGTCATCGACCTCAGCAGCCTGAAGACAGA
GTACTACCTGGACAAAGTCATCCGCCATTACACCAAAGCCGGCGAATCCC
CGGGCGGTCGCACCCCTGCTAAATTCAGCGTCGTCTTGACTCTTCTCCGG
AACTGGTTCATGAAACGCAAAGACCAGGGACCTGTCCTCAAAGACGCGTT
GTCGCTGTTTAAGTGCTCTGATGAAGATAGACTTCAGGTTCGTTTACCCC
ACCACCCTCCAACCCATCCATCCATCCATCCATTCATTATTATCACACCA
CTAACTATAATCCAGCAACCCCCCAAACAAGGCCAAGGCCAAGGCCAAAC
CCCCCTCCACCTCCTCAGCGAAGTCGCCATGGGCGACCCTCAATCCCGCT
GTGCAACCAACAATCCATCCCCGAACCAAACAACAACAGCATCAACAACA
ACAACAACAACCAACAGCAATAGACCCATCTACACGCCCAACACCGCAAC
ACCCTCAACAAGTAGTTACCCCGACCTTCTCACAACCACCCAACCCCAAC
AGTCTACATCATCAGACCTGCCCGTCCCCCCTCACTCTCACCCTCACTCC
CTGAACCCCAGTCCCACCACTGACTCCACCGCCGAACCACCTTCCACATC
TTCAAACTGGGTCCAGTACCCCCCTCAACCTCGCCAATACTACTCTGCAT
TTAGCCCCGGGTACCAAGATGTACAGGGATTCGGGGCTGATCCGGGTAGT
GGGAGTAATGGGAATGGCATGGTGGTGACTCCAGGTGGTGCTGGTGCCAG
TGTTAGTGGAGGAGGGGGAGGAGGGCATCCGATACAGGGATTATTTTTCC
CCGAGTTGGGGGTGCAGATGGGGTTTGATCCCGAGAATCTTTACATGTTG
GGGAATATGCTTGGAGATGAGATTCTCAATTTCCCATTTCAGGCGGATGG
GGGGATGGGGTTTTATTAAGTTGAGGTGGGGTGTATTTCTCTAGGTGATT
GGATATGGG back to topCoding sequence (CDS) from alignment at ch7:1044361..1048069+ >KJC3_009660-T1 ID=KJC3_009660-T1|Name=KJC3_009660-T1|organism=Aspergillus niger KJC3|type=CDS|length=11484bp|location=Sequence derived from alignment at ch7:1044361..1048069+ (Aspergillus niger KJC3)
ATGGAGATCGATCCGCGTCTGCGTGCTGGCAGTGACAGCTCTCCTGCCGA
CGGCACCGCAGCCGGTCGTCCATATATCCCTCCCCCGGCCTCCTCCTCCA
GACATCCCGACCCCAATGCCGCCGCTCCCTCCGCTCTTGCACGCAGCAGC
AATTACCCCGAGCCACCGTCCCCTTACTCGCCCGCTGACCAGCTGCGATC
CGCCGTCTCGTCTGCAAGTGGGCCCGGCTACTACGGCAGCGCCGCGCACT
CCCAGTCGACGCCATCTATCTACCGAAGCGGGCCTGAACCTGGCTCTGTG
CCCAGCACGTCCTCTCAACTCGACTCCGTCGATCCGAACGATCCGTATGC
CGAATTACGACGTCCGCGCGCCTGCGAAGCTTGCCGACAACTCAAAGTCC
GATGCGAGCCCGATCTCAGCCATCCCAATGGGACGTGTAAACGGTGCGCC
AAGGCCGGCAGAAATTGTATCGTGACCCTTCCCACGCGCAAGCGCCAGAA
GAAAACCGACAGTCGCGTGGCGGAGCTGGAGAGAAAGATCGATGCCTTGA
CGGCAAGCTTGCAGGCCTCCCAGGGCCATGAAACCCACCCTCTTCCGCCG
CCCGCGACTCTTGAGCCGCCACGCGAGGAGCATCCGGGAAGGCGCTGGCT
GCCATCCGCAACGCATGTCTCTGCTAATGGATCGGTACCTCTGAAGTCAC
CATCCAGCACGGCGGGGAGCAAGCGGCAACACGGTGGGGAGATCAAAGAG
ACTGCTCCAGTGTCTTCTCGCACTTCGAGCCCATCCGACGACCAATCATT
GTACAATAAGGCTATTAAACAATGGCGGGCTATGGGATACGGAGCGGAGC
CACAACCCAAGGATACGGCCAGCGAGGGCGGGGGCGATCTGATTGACAGA
GGCCTCGTGAGTGAGACACTGGCTGAGGAGGCATTCACCAAATATATAGA
CTATATGGCCACCCTTATACCTATGGTGGTGTTCCCACCGGGCACAACGA
TGGATGAGGTGCGGCAGAAGAAGCCGGTGCTGTTTCACGCTATAGTTGCG
GCCGCGATCGGTACTATCCAACCACAGTTGCAGCTGTCCTTGCTGGATGA
TTTCTACAAAGTGCTTGCAGAACGAGTCGTGGTGAAAGGTGAAAAGTCTC
TGGATCTAGTCCAGGCGATCTTGGTGTGCTGCAAGTGGTACACGCCGCCA
GACAACTTCGAGGAGGTAAAATTCTATCAGTTGTCCAACATTGCTGTCTC
ACTCGCGATGGATCTGGGTCTCAATCGGAAGGCGATCCCCAAGTCGAAGC
CGTTCGCCCTAGTCAAGGAGCTTATCTCGAAGAAGTCATCTGTCGTCCTA
GATCTGGATTCACCCGAGGCGAGACGGACTTGGCTTGCTTGTTATTTCCT
CTCTGTGCAGGTCGCCGTCTCTCTAAGGCGCGTGAATCTAGTCCGATGGC
TGCCATATATGGACGAATGCGTGGAAATACTGGAGAAGTCACCAGACGCC
TTACCATCCGACAAGGCCATGATCCAATGGGCAAAGCTAGCCCACATCCT
CGAAGATATCGCCGTCCAGTTCACTACCGACGACGCCCCTACCGTATCAT
CCTTCTCAGACCCGAAATTCCTCTACACGCTCCGAGTCCTCGAAAGGCAA
CTCGAACAATGGCGTCGAGAAACTCCACCAGAGCACTATTCCCCCATCAT
GAAACAAGCCTATTGTATCCTCAACCTCTTCCTCCACGAAAATGCCATGC
ACGTAGAATTCCACCGAGACGATTCCAAATCCGCCAACGACGATCTCGCC
AGCCCCACCAGCCCAGCTCACATCAACGCCCTAAGCACCTGCCTCACCTC
CATCCACGATGCCATCGACGTCCTCTGCTCCATCGAGACGAAAGACCTAG
TCCTAGCCCCGACCATCGCTCTGGCCCGAACGTCCTTCGCCATCGTCGCC
CTCATCAAGATCTACTCCATCGTCTCGAGCCCAGACACCCGCATGGCCCA
AGTCATCGACCTCAGCAGCCTGAAGACAGAGTACTACCTGGACAAAGTCA
TCCGCCATTACACCAAAGCCGGCGAATCCCCGGGCGGTCGCACCCCTGCT
AAATTCAGCGTCGTCTTGACTCTTCTCCGGAACTGGTTCATGAAACGCAA
AGACCAGGGACCTGTCCTCAAAGACGCGTTGTCGCTGTTTAAGTGCTCTG
ATGAAGATAGACTTCAGCAACCCCCCAAACAAGGCCAAGGCCAAGGCCAA
ACCCCCCTCCACCTCCTCAGCGAAGTCGCCATGGGCGACCCTCAATCCCG
CTGTGCAACCAACAATCCATCCCCGAACCAAACAACAACAGCATCAACAA
CAACAACAACAACCAACAGCAATAGACCCATCTACACGCCCAACACCGCA
ACACCCTCAACAAGTAGTTACCCCGACCTTCTCACAACCACCCAACCCCA
ACAGTCTACATCATCAGACCTGCCCGTCCCCCCTCACTCTCACCCTCACT
CCCTGAACCCCAGTCCCACCACTGACTCCACCGCCGAACCACCTTCCACA
TCTTCAAACTGGGTCCAGTACCCCCCTCAACCTCGCCAATACTACTCTGC
ATTTAGCCCCGGGTACCAAGATGTACAGGGATTCGGGGCTGATCCGGGTA
GTGGGAGTAATGGGAATGGCATGGTGGTGACTCCAGGTGGTGCTGGTGCC
AGTGTTAGTGGAGGAGGGGGAGGAGGGCATCCGATACAGGGATTATTTTT
CCCCGAGTTGGGGGTGCAGATGGGGTTTGATCCCGAGAATCTTTACATGT
TGGGGAATATGCTTGGAGATGAGATTCTCAATTTCCCATTTCAGGCGGAT
GGGGGGATGGGGTTTTATTAAATGGAGATCGATCCGCGTCTGCGTGCTGG
CAGTGACAGCTCTCCTGCCGACGGCACCGCAGCCGGTCGTCCATATATCC
CTCCCCCGGCCTCCTCCTCCAGACATCCCGACCCCAATGCCGCCGCTCCC
TCCGCTCTTGCACGCAGCAGCAATTACCCCGAGCCACCGTCCCCTTACTC
GCCCGCTGACCAGCTGCGATCCGCCGTCTCGTCTGCAAGTGGGCCCGGCT
ACTACGGCAGCGCCGCGCACTCCCAGTCGACGCCATCTATCTACCGAAGC
GGGCCTGAACCTGGCTCTGTGCCCAGCACGTCCTCTCAACTCGACTCCGT
CGATCCGAACGATCCGTATGCCGAATTACGACGTCCGCGCGCCTGCGAAG
CTTGCCGACAACTCAAAGTCCGATGCGAGCCCGATCTCAGCCATCCCAAT
GGGACGTGTAAACGGTGCGCCAAGGCCGGCAGAAATTGTATCGTGACCCT
TCCCACGCGCAAGCGCCAGAAGAAAACCGACAGTCGCGTGGCGGAGCTGG
AGAGAAAGATCGATGCCTTGACGGCAAGCTTGCAGGCCTCCCAGGGCCAT
GAAACCCACCCTCTTCCGCCGCCCGCGACTCTTGAGCCGCCACGCGAGGA
GCATCCGGGAAGGCGCTGGCTGCCATCCGCAACGCATGTCTCTGCTAATG
GATCGGTACCTCTGAAGTCACCATCCAGCACGGCGGGGAGCAAGCGGCAA
CACGGTGGGGAGATCAAAGAGACTGCTCCAGTGTCTTCTCGCACTTCGAG
CCCATCCGACGACCAATCATTGTACAATAAGGCTATTAAACAATGGCGGG
CTATGGGATACGGAGCGGAGCCACAACCCAAGGATACGGCCAGCGAGGGC
GGGGGCGATCTGATTGACAGAGGCCTCGTGAGTGAGACACTGGCTGAGGA
GGCATTCACCAAATATATAGACTATATGGCCACCCTTATACCTATGGTGG
TGTTCCCACCGGGCACAACGATGGATGAGGTGCGGCAGAAGAAGCCGGTG
CTGTTTCACGCTATAGTTGCGGCCGCGATCGGTACTATCCAACCACAGTT
GCAGCTGTCCTTGCTGGATGATTTCTACAAAGTGCTTGCAGAACGAGTCG
TGGTGAAAGGTGAAAAGTCTCTGGATCTAGTCCAGGCGATCTTGGTGTGC
TGCAAGTGGTACACGCCGCCAGACAACTTCGAGGAGGTAAAATTCTATCA
GTTGTCCAACATTGCTGTCTCACTCGCGATGGATCTGGGTCTCAATCGGA
AGGCGATCCCCAAGTCGAAGCCGTTCGCCCTAGTCAAGGAGCTTATCTCG
AAGAAGTCATCTGTCGTCCTAGATCTGGATTCACCCGAGGCGAGACGGAC
TTGGCTTGCTTGTTATTTCCTCTCTGTGCAGGTCGCCGTCTCTCTAAGGC
GCGTGAATCTAGTCCGATGGCTGCCATATATGGACGAATGCGTGGAAATA
CTGGAGAAGTCACCAGACGCCTTACCATCCGACAAGGCCATGATCCAATG
GGCAAAGCTAGCCCACATCCTCGAAGATATCGCCGTCCAGTTCACTACCG
ACGACGCCCCTACCGTATCATCCTTCTCAGACCCGAAATTCCTCTACACG
CTCCGAGTCCTCGAAAGGCAACTCGAACAATGGCGTCGAGAAACTCCACC
AGAGCACTATTCCCCCATCATGAAACAAGCCTATTGTATCCTCAACCTCT
TCCTCCACGAAAATGCCATGCACGTAGAATTCCACCGAGACGATTCCAAA
TCCGCCAACGACGATCTCGCCAGCCCCACCAGCCCAGCTCACATCAACGC
CCTAAGCACCTGCCTCACCTCCATCCACGATGCCATCGACGTCCTCTGCT
CCATCGAGACGAAAGACCTAGTCCTAGCCCCGACCATCGCTCTGGCCCGA
ACGTCCTTCGCCATCGTCGCCCTCATCAAGATCTACTCCATCGTCTCGAG
CCCAGACACCCGCATGGCCCAAGTCATCGACCTCAGCAGCCTGAAGACAG
AGTACTACCTGGACAAAGTCATCCGCCATTACACCAAAGCCGGCGAATCC
CCGGGCGGTCGCACCCCTGCTAAATTCAGCGTCGTCTTGACTCTTCTCCG
GAACTGGTTCATGAAACGCAAAGACCAGGGACCTGTCCTCAAAGACGCGT
TGTCGCTGTTTAAGTGCTCTGATGAAGATAGACTTCAGCAACCCCCCAAA
CAAGGCCAAGGCCAAGGCCAAACCCCCCTCCACCTCCTCAGCGAAGTCGC
CATGGGCGACCCTCAATCCCGCTGTGCAACCAACAATCCATCCCCGAACC
AAACAACAACAGCATCAACAACAACAACAACAACCAACAGCAATAGACCC
ATCTACACGCCCAACACCGCAACACCCTCAACAAGTAGTTACCCCGACCT
TCTCACAACCACCCAACCCCAACAGTCTACATCATCAGACCTGCCCGTCC
CCCCTCACTCTCACCCTCACTCCCTGAACCCCAGTCCCACCACTGACTCC
ACCGCCGAACCACCTTCCACATCTTCAAACTGGGTCCAGTACCCCCCTCA
ACCTCGCCAATACTACTCTGCATTTAGCCCCGGGTACCAAGATGTACAGG
GATTCGGGGCTGATCCGGGTAGTGGGAGTAATGGGAATGGCATGGTGGTG
ACTCCAGGTGGTGCTGGTGCCAGTGTTAGTGGAGGAGGGGGAGGAGGGCA
TCCGATACAGGGATTATTTTTCCCCGAGTTGGGGGTGCAGATGGGGTTTG
ATCCCGAGAATCTTTACATGTTGGGGAATATGCTTGGAGATGAGATTCTC
AATTTCCCATTTCAGGCGGATGGGGGGATGGGGTTTTATTAAATGGAGAT
CGATCCGCGTCTGCGTGCTGGCAGTGACAGCTCTCCTGCCGACGGCACCG
CAGCCGGTCGTCCATATATCCCTCCCCCGGCCTCCTCCTCCAGACATCCC
GACCCCAATGCCGCCGCTCCCTCCGCTCTTGCACGCAGCAGCAATTACCC
CGAGCCACCGTCCCCTTACTCGCCCGCTGACCAGCTGCGATCCGCCGTCT
CGTCTGCAAGTGGGCCCGGCTACTACGGCAGCGCCGCGCACTCCCAGTCG
ACGCCATCTATCTACCGAAGCGGGCCTGAACCTGGCTCTGTGCCCAGCAC
GTCCTCTCAACTCGACTCCGTCGATCCGAACGATCCGTATGCCGAATTAC
GACGTCCGCGCGCCTGCGAAGCTTGCCGACAACTCAAAGTCCGATGCGAG
CCCGATCTCAGCCATCCCAATGGGACGTGTAAACGGTGCGCCAAGGCCGG
CAGAAATTGTATCGTGACCCTTCCCACGCGCAAGCGCCAGAAGAAAACCG
ACAGTCGCGTGGCGGAGCTGGAGAGAAAGATCGATGCCTTGACGGCAAGC
TTGCAGGCCTCCCAGGGCCATGAAACCCACCCTCTTCCGCCGCCCGCGAC
TCTTGAGCCGCCACGCGAGGAGCATCCGGGAAGGCGCTGGCTGCCATCCG
CAACGCATGTCTCTGCTAATGGATCGGTACCTCTGAAGTCACCATCCAGC
ACGGCGGGGAGCAAGCGGCAACACGGTGGGGAGATCAAAGAGACTGCTCC
AGTGTCTTCTCGCACTTCGAGCCCATCCGACGACCAATCATTGTACAATA
AGGCTATTAAACAATGGCGGGCTATGGGATACGGAGCGGAGCCACAACCC
AAGGATACGGCCAGCGAGGGCGGGGGCGATCTGATTGACAGAGGCCTCGT
GAGTGAGACACTGGCTGAGGAGGCATTCACCAAATATATAGACTATATGG
CCACCCTTATACCTATGGTGGTGTTCCCACCGGGCACAACGATGGATGAG
GTGCGGCAGAAGAAGCCGGTGCTGTTTCACGCTATAGTTGCGGCCGCGAT
CGGTACTATCCAACCACAGTTGCAGCTGTCCTTGCTGGATGATTTCTACA
AAGTGCTTGCAGAACGAGTCGTGGTGAAAGGTGAAAAGTCTCTGGATCTA
GTCCAGGCGATCTTGGTGTGCTGCAAGTGGTACACGCCGCCAGACAACTT
CGAGGAGGTAAAATTCTATCAGTTGTCCAACATTGCTGTCTCACTCGCGA
TGGATCTGGGTCTCAATCGGAAGGCGATCCCCAAGTCGAAGCCGTTCGCC
CTAGTCAAGGAGCTTATCTCGAAGAAGTCATCTGTCGTCCTAGATCTGGA
TTCACCCGAGGCGAGACGGACTTGGCTTGCTTGTTATTTCCTCTCTGTGC
AGGTCGCCGTCTCTCTAAGGCGCGTGAATCTAGTCCGATGGCTGCCATAT
ATGGACGAATGCGTGGAAATACTGGAGAAGTCACCAGACGCCTTACCATC
CGACAAGGCCATGATCCAATGGGCAAAGCTAGCCCACATCCTCGAAGATA
TCGCCGTCCAGTTCACTACCGACGACGCCCCTACCGTATCATCCTTCTCA
GACCCGAAATTCCTCTACACGCTCCGAGTCCTCGAAAGGCAACTCGAACA
ATGGCGTCGAGAAACTCCACCAGAGCACTATTCCCCCATCATGAAACAAG
CCTATTGTATCCTCAACCTCTTCCTCCACGAAAATGCCATGCACGTAGAA
TTCCACCGAGACGATTCCAAATCCGCCAACGACGATCTCGCCAGCCCCAC
CAGCCCAGCTCACATCAACGCCCTAAGCACCTGCCTCACCTCCATCCACG
ATGCCATCGACGTCCTCTGCTCCATCGAGACGAAAGACCTAGTCCTAGCC
CCGACCATCGCTCTGGCCCGAACGTCCTTCGCCATCGTCGCCCTCATCAA
GATCTACTCCATCGTCTCGAGCCCAGACACCCGCATGGCCCAAGTCATCG
ACCTCAGCAGCCTGAAGACAGAGTACTACCTGGACAAAGTCATCCGCCAT
TACACCAAAGCCGGCGAATCCCCGGGCGGTCGCACCCCTGCTAAATTCAG
CGTCGTCTTGACTCTTCTCCGGAACTGGTTCATGAAACGCAAAGACCAGG
GACCTGTCCTCAAAGACGCGTTGTCGCTGTTTAAGTGCTCTGATGAAGAT
AGACTTCAGCAACCCCCCAAACAAGGCCAAGGCCAAGGCCAAACCCCCCT
CCACCTCCTCAGCGAAGTCGCCATGGGCGACCCTCAATCCCGCTGTGCAA
CCAACAATCCATCCCCGAACCAAACAACAACAGCATCAACAACAACAACA
ACAACCAACAGCAATAGACCCATCTACACGCCCAACACCGCAACACCCTC
AACAAGTAGTTACCCCGACCTTCTCACAACCACCCAACCCCAACAGTCTA
CATCATCAGACCTGCCCGTCCCCCCTCACTCTCACCCTCACTCCCTGAAC
CCCAGTCCCACCACTGACTCCACCGCCGAACCACCTTCCACATCTTCAAA
CTGGGTCCAGTACCCCCCTCAACCTCGCCAATACTACTCTGCATTTAGCC
CCGGGTACCAAGATGTACAGGGATTCGGGGCTGATCCGGGTAGTGGGAGT
AATGGGAATGGCATGGTGGTGACTCCAGGTGGTGCTGGTGCCAGTGTTAG
TGGAGGAGGGGGAGGAGGGCATCCGATACAGGGATTATTTTTCCCCGAGT
TGGGGGTGCAGATGGGGTTTGATCCCGAGAATCTTTACATGTTGGGGAAT
ATGCTTGGAGATGAGATTCTCAATTTCCCATTTCAGGCGGATGGGGGGAT
GGGGTTTTATTAAATGGAGATCGATCCGCGTCTGCGTGCTGGCAGTGACA
GCTCTCCTGCCGACGGCACCGCAGCCGGTCGTCCATATATCCCTCCCCCG
GCCTCCTCCTCCAGACATCCCGACCCCAATGCCGCCGCTCCCTCCGCTCT
TGCACGCAGCAGCAATTACCCCGAGCCACCGTCCCCTTACTCGCCCGCTG
ACCAGCTGCGATCCGCCGTCTCGTCTGCAAGTGGGCCCGGCTACTACGGC
AGCGCCGCGCACTCCCAGTCGACGCCATCTATCTACCGAAGCGGGCCTGA
ACCTGGCTCTGTGCCCAGCACGTCCTCTCAACTCGACTCCGTCGATCCGA
ACGATCCGTATGCCGAATTACGACGTCCGCGCGCCTGCGAAGCTTGCCGA
CAACTCAAAGTCCGATGCGAGCCCGATCTCAGCCATCCCAATGGGACGTG
TAAACGGTGCGCCAAGGCCGGCAGAAATTGTATCGTGACCCTTCCCACGC
GCAAGCGCCAGAAGAAAACCGACAGTCGCGTGGCGGAGCTGGAGAGAAAG
ATCGATGCCTTGACGGCAAGCTTGCAGGCCTCCCAGGGCCATGAAACCCA
CCCTCTTCCGCCGCCCGCGACTCTTGAGCCGCCACGCGAGGAGCATCCGG
GAAGGCGCTGGCTGCCATCCGCAACGCATGTCTCTGCTAATGGATCGGTA
CCTCTGAAGTCACCATCCAGCACGGCGGGGAGCAAGCGGCAACACGGTGG
GGAGATCAAAGAGACTGCTCCAGTGTCTTCTCGCACTTCGAGCCCATCCG
ACGACCAATCATTGTACAATAAGGCTATTAAACAATGGCGGGCTATGGGA
TACGGAGCGGAGCCACAACCCAAGGATACGGCCAGCGAGGGCGGGGGCGA
TCTGATTGACAGAGGCCTCGTGAGTGAGACACTGGCTGAGGAGGCATTCA
CCAAATATATAGACTATATGGCCACCCTTATACCTATGGTGGTGTTCCCA
CCGGGCACAACGATGGATGAGGTGCGGCAGAAGAAGCCGGTGCTGTTTCA
CGCTATAGTTGCGGCCGCGATCGGTACTATCCAACCACAGTTGCAGCTGT
CCTTGCTGGATGATTTCTACAAAGTGCTTGCAGAACGAGTCGTGGTGAAA
GGTGAAAAGTCTCTGGATCTAGTCCAGGCGATCTTGGTGTGCTGCAAGTG
GTACACGCCGCCAGACAACTTCGAGGAGGTAAAATTCTATCAGTTGTCCA
ACATTGCTGTCTCACTCGCGATGGATCTGGGTCTCAATCGGAAGGCGATC
CCCAAGTCGAAGCCGTTCGCCCTAGTCAAGGAGCTTATCTCGAAGAAGTC
ATCTGTCGTCCTAGATCTGGATTCACCCGAGGCGAGACGGACTTGGCTTG
CTTGTTATTTCCTCTCTGTGCAGGTCGCCGTCTCTCTAAGGCGCGTGAAT
CTAGTCCGATGGCTGCCATATATGGACGAATGCGTGGAAATACTGGAGAA
GTCACCAGACGCCTTACCATCCGACAAGGCCATGATCCAATGGGCAAAGC
TAGCCCACATCCTCGAAGATATCGCCGTCCAGTTCACTACCGACGACGCC
CCTACCGTATCATCCTTCTCAGACCCGAAATTCCTCTACACGCTCCGAGT
CCTCGAAAGGCAACTCGAACAATGGCGTCGAGAAACTCCACCAGAGCACT
ATTCCCCCATCATGAAACAAGCCTATTGTATCCTCAACCTCTTCCTCCAC
GAAAATGCCATGCACGTAGAATTCCACCGAGACGATTCCAAATCCGCCAA
CGACGATCTCGCCAGCCCCACCAGCCCAGCTCACATCAACGCCCTAAGCA
CCTGCCTCACCTCCATCCACGATGCCATCGACGTCCTCTGCTCCATCGAG
ACGAAAGACCTAGTCCTAGCCCCGACCATCGCTCTGGCCCGAACGTCCTT
CGCCATCGTCGCCCTCATCAAGATCTACTCCATCGTCTCGAGCCCAGACA
CCCGCATGGCCCAAGTCATCGACCTCAGCAGCCTGAAGACAGAGTACTAC
CTGGACAAAGTCATCCGCCATTACACCAAAGCCGGCGAATCCCCGGGCGG
TCGCACCCCTGCTAAATTCAGCGTCGTCTTGACTCTTCTCCGGAACTGGT
TCATGAAACGCAAAGACCAGGGACCTGTCCTCAAAGACGCGTTGTCGCTG
TTTAAGTGCTCTGATGAAGATAGACTTCAGCAACCCCCCAAACAAGGCCA
AGGCCAAGGCCAAACCCCCCTCCACCTCCTCAGCGAAGTCGCCATGGGCG
ACCCTCAATCCCGCTGTGCAACCAACAATCCATCCCCGAACCAAACAACA
ACAGCATCAACAACAACAACAACAACCAACAGCAATAGACCCATCTACAC
GCCCAACACCGCAACACCCTCAACAAGTAGTTACCCCGACCTTCTCACAA
CCACCCAACCCCAACAGTCTACATCATCAGACCTGCCCGTCCCCCCTCAC
TCTCACCCTCACTCCCTGAACCCCAGTCCCACCACTGACTCCACCGCCGA
ACCACCTTCCACATCTTCAAACTGGGTCCAGTACCCCCCTCAACCTCGCC
AATACTACTCTGCATTTAGCCCCGGGTACCAAGATGTACAGGGATTCGGG
GCTGATCCGGGTAGTGGGAGTAATGGGAATGGCATGGTGGTGACTCCAGG
TGGTGCTGGTGCCAGTGTTAGTGGAGGAGGGGGAGGAGGGCATCCGATAC
AGGGATTATTTTTCCCCGAGTTGGGGGTGCAGATGGGGTTTGATCCCGAG
AATCTTTACATGTTGGGGAATATGCTTGGAGATGAGATTCTCAATTTCCC
ATTTCAGGCGGATGGGGGGATGGGGTTTTATTAA 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:0008270 | zinc ion binding |
| GO:0000981 | DNA-binding transcription factor activity, RNA polymerase II-specific |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| KJC3_009660-T1.utr5p1 | KJC3_009660-T1.utr5p1 | Aspergillus niger KJC3 | five_prime_UTR |
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| KJC3_009660-T1.utr3p1 | KJC3_009660-T1.utr3p1 | Aspergillus niger KJC3 | three_prime_UTR |
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR007219 |
| DBxref | InterPro:IPR036864 |
| 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 |
|---|
| ch7 | supercontig | ch7:1044361..1048069 + |
|
