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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch7:4117356..4121493+ Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >KJC3_010695-T1 ID=KJC3_010695-T1|Name=KJC3_010695-T1|organism=Aspergillus niger KJC3|type=mRNA|length=4138bp|location=Sequence derived from alignment at ch7:4117356..4121493+ (Aspergillus niger KJC3)
GAAAGAACAATATTTCGCATAATCGATCGTAGCAATACATGAATTGGATG
GCTGAGATTCACGACAGCCTCTGCGTACAGAGAACCAGCAAATTTTTCCT
AGGATGCACAAGAATATAGAGACAAATAAATTCCTGTAAAAGCTCCCGTT
TCCCATAACGCCGTAAGAAGACAGTACTACCAGGCAAGACAGAGACTGTC
TACCGTCCTCGGAAGCCTCCACCACGAGGTCCTCCTCTGCCACCACCCCT
CGAGAAACCACCGCCGAAACCACCACCGCCACCACCACGGAAGCCACCAC
CGCGGGGGCCACCGCGTCCTCTGGGAGCGCCGCCGCGACCACCACGCATG
GGGCCACCACGGCCACCACCACGGCCACCGCGCATGGGACCGCCTCGGGC
ACCACCACCAGCTCTCTTGGGCTTGGCAGCACCTGTATTCTGGTTAGGAT
CAAGCACATTGGATTGTTGCGCGAAGCGAGTGAAATCATACCGGGAGCGG
GCTTGGGCTTGGGAAGGAACCTAGTTTTGCAAAGTTAGACAAGTTTCCAT
CATGATCAAGAACAACTCGCAACATACTTCTCCAAGGGAAGGAGCTTGTC
GCCACCAATGTAGACCTTGTCACCAGGCTTGAAGGAGGTCGCGACAATTC
CTTCCTGGGGCTTGATGGTGAAGTAGACCTGGTTGATAGGGCCCAGGACT
TCATCGACCTTGCCGATAGGGGTCTATTAAAGAATTGCGTTAGCGCATCG
CGAGTTTGCGGAGAGTAGCTAGGTCGAGCATACCTTGTTCTCGAGGTAGA
TGGGGGCGTTGAAGTAAGGAATCTTGGGGTTGATCGATTCGCAAACCATC
TCGCCTTCGCAAGAATGCATGACAGTTCCCATCTCTAGTTATTCCGCGTT
AGTCCCAATCACTCCAGTCGCATTTTGGCGTATAATTACCCAGAACTTGG
GCAGGGGGACCGAGAGGTTGCTGGAAACCTCCGCGACCTATCCGACAAAA
TTTTCGTTAGCTCATACCCAGCGTTGCGATCAACCTCTTATGTTGCTAGA
GCTCACCTCCACGGCCACCGAAACCGCCACGGCCTCCACGGAAAGACATC
TTTAATTGCTGTTGTTGCGGTCGACCTGGATCTCGGAGTCCGGAGAAGTT
TTCAAATGGTGGGAAGCTCGAAACGGTAAAGTGTCGCTAGCCGCAAGGGC
AGTTTTCTGTCACGTGCTTCACCGCCTTCGGGCCCTCACTGTCGATTTGC
GTTTCATGATCGTCCGATTCCGTAGATATAGTGAGTCAGACATCGTTGCT
GGCCCTTCCCCTCTTCTCAGGTCTAAAACTCCCAGGTCGTTCTTCAGACG
TTTCTGGATACAAAATGTCTTCTGAAGGCGCAAAGGACCTTCCCGTCCGG
CCGGCGGCCGACGCCAAACCTGCTGGTGAGCCACTGCCTGCCCCGCCATA
ACGCTCTCAAAACCCCTCTTTTAACCTTCGAATGCGCCAGGTGACGGTCT
CCCCGATTTCATTGTCGAACGTAACAACTTCTTCGAGGAACTCTGGCAGC
AATATCTCGAGGAACTCAAGAACAAGCCCCACCCCGAAATCAAGGTCACG
ATTGAGCTTGGCGACGGAAACTCCATCGATGTCACCGCAAACGCCTGGGA
GACCACCCCCGCACAGCTTCTGAAGAACGTGCCCAAAGAGTTGAGCGCCA
ATGTTGTCCTCGCGAGGGTTGGAAAGGAACTGTGGGATCTGAGCCGTCCG
CTCGAGGGAGAATGCACCGTTTCTTATGTTCCCTTCGATCACCCCGAGGG
TAGGGAAGTTTTCTGGCACTCTAGCGCCCACTGTCTGGGTGAGGCTTGTG
AATGCGAATATGGATGTCTTCTGTCCCACGGTCCTCCTACCCCCCAGGGT
TTCTTCTATGACATGGCCATGCCAGACAAGTAAGTGTGGGTGAGATAATG
CCAAAGAACTATACTGATAGTGAAACAGCCGCGTCGTCAGGGAGACCGAT
TGGCCGTCATTGGACCGCCACGCCAACCGCATCTTCAAGGAAAAGCAGAG
TTTCGATAGACTGGAGGTTACGAAGGAGAACCTCAAGAAGATGTTCGCCT
ACAGCAAGTACAAGCTGCACTACATTGACAAGCTCGTCACCGGAGAGAAG
AGCACTGTCTACCGGTGTGGTTCCCTGGTCGACCTGTGCAGAGGTCCCCA
TATCCAGAGCACCGGCAAGGTCAAGACCTTCAAGATCATGCAGGTGTGTA
TAATCATGAGTCTATGCCTCGAAGATGTATGACTGACACTTCAAAGAACT
CTTCCGCCTACTTCCTCGGTGACCAATCCAACGACTCTCTGCAGCGTATC
CGCGGTGTTGCTTTCCCCGATAAGAAGCAGATGCAAGAGCACCTGAAGTT
CTTGGAGGAGGCCGAGAAGCGCAACCACGTTAAGCTGGGCAAGGAGCAAG
AGCTGTTCTTCTTCGACGAGGTTTCTCCAGGATGCCCCTTCCTTCTGCCC
AACGGTACCAAGATCTTCAACGCCCTCCAATCCCTTTTGCGCTCGGAGTA
CCGCAAGCGCGGCTACCAGGAGGTTCAGACTCCCAACATGTATGATGTCG
GCATCTGGAAGACGTCTGGCCACTGGGCCCACTACAAGGATGACATGTTC
AAGCTTGACGTTGAGAAGAGGGAGTGGGCTCTCAAGCCTATGAACTGCCC
CGGTCACTTTGTGCTCTTCGGCCACCGTGAGAGAAGTTACAGAGAGCTTC
CCCTGAGAATCGCGGACTTTGGTGTCCTGCACAGAAATGAGGCGTCCGGA
GCCCTGAGCGGTCTCACCCGTGTTCGCAAGTTCCAGCAGGATGACACTCA
CATTTTCTGTACTCAAGACCAGGTGAGTACTGACGATTGGAATTGCATTG
TGACAAGTATTTCAAAGTTAACACTGTGAAGATCACTTCTGAAATCGAGG
GTCTGTTCGACTTCCTGCAGGCTATCTATGGCCTGTTTGGTTTCACCTTC
AAGCTGAAGCTCTCCACCCGGCCCGAGAAGTACCTGGGTGAGCTCGAGAC
CTGGAACTACGCAGAGGAGCAGCTCAAGGCGGCCATGACTAAGTTCAAGG
GCAATGACTGGACCATCGATGAGGGTGATGGTGCCTTCTACGGTCCTAAG
ATCGATATTACCATCGCTGATGCACTCAAGCGAGAGTTCCAGTGCGCGAC
TATCCAGCTCGATTACCAGGCTCCTATCAACTTCAAGCTTGAGTACATGA
GCAATGAGAAGGCTTCTGCTGATGCCGCTAAGGAGGGTGAGGCCAAGCCC
AACGAGCCTGGTCCTGGCCGTGCCCGCCCGGTTGTCATCCACCGTGCTAT
CATCGGCAGTTTCGAGCGTTTCCTTGGAATTTTGATTGAGCACTTCGGTG
GCAAGTGGCCTTTCTGGATCAGCCCTCGTCAGATTCTGATTGTGCCCGTC
ATGCCTGCTGTCAACGACTACGTCGAGGAGTTGCAGACGATTCTCCGCGG
CGATAAGCTGAACGTGGACATCGACCTCAGCGGCAACACCATGCAGAAGA
AGATCCGTACTGGACAGCTTCAGCAATATAACTTCATCTTCGGTAAGTTG
ACATTTGAATCTCTATTGTCTTAGAACCCGCGCTGATAGTATTGAATAGT
TGTTGGTGCTTCCGAAAAGGAGAGCCGCACGGTTAACATCCGCAATCGTG
ATGACCCTGCCACCCAAAAACAGGGCGTGATGATTCCTCTCGACGAGGTC
CGCGAGAAGCTCCGGTCTCTGAGGAAGGAGCGGAGACTGGTCAACGCTCT
TTAAACGGAACATGCTTTTTCTTGCATCTGATCGTTTGCATCGCGGGTTC
TGAATTACGTGCTACGAGATCTACGTGTCAATATACCATGACTTAGATAC
TAGATCGCATAAGAAGCGATGTGGGCATTGATGAGAGATTAGACCAGAAG
ACTAAGACGGAGCCAGCGCGTGATGAGGACGTGGTGCTGTGTTTCTTCTA
CGGTGATTTAGTATCTATATAGCCTTCGGGGTAAAAAGTTCACGTGTATG
GCGGCAGAGGATATTGTTTAGAATTGCAAGGGCGTTAGAGCTAGCTGTTG
ATTGTTAATCGAGCCTCATTCATGATATTATTTCAAGC back to topCoding sequence (CDS) from alignment at ch7:4117356..4121493+ >KJC3_010695-T1 ID=KJC3_010695-T1|Name=KJC3_010695-T1|organism=Aspergillus niger KJC3|type=CDS|length=12942bp|location=Sequence derived from alignment at ch7:4117356..4121493+ (Aspergillus niger KJC3)
ATGTCTTCTGAAGGCGCAAAGGACCTTCCCGTCCGGCCGGCGGCCGACGC
CAAACCTGCTGGTGACGGTCTCCCCGATTTCATTGTCGAACGTAACAACT
TCTTCGAGGAACTCTGGCAGCAATATCTCGAGGAACTCAAGAACAAGCCC
CACCCCGAAATCAAGGTCACGATTGAGCTTGGCGACGGAAACTCCATCGA
TGTCACCGCAAACGCCTGGGAGACCACCCCCGCACAGCTTCTGAAGAACG
TGCCCAAAGAGTTGAGCGCCAATGTTGTCCTCGCGAGGGTTGGAAAGGAA
CTGTGGGATCTGAGCCGTCCGCTCGAGGGAGAATGCACCGTTTCTTATGT
TCCCTTCGATCACCCCGAGGGTAGGGAAGTTTTCTGGCACTCTAGCGCCC
ACTGTCTGGGTGAGGCTTGTGAATGCGAATATGGATGTCTTCTGTCCCAC
GGTCCTCCTACCCCCCAGGGTTTCTTCTATGACATGGCCATGCCAGACAA
CCGCGTCGTCAGGGAGACCGATTGGCCGTCATTGGACCGCCACGCCAACC
GCATCTTCAAGGAAAAGCAGAGTTTCGATAGACTGGAGGTTACGAAGGAG
AACCTCAAGAAGATGTTCGCCTACAGCAAGTACAAGCTGCACTACATTGA
CAAGCTCGTCACCGGAGAGAAGAGCACTGTCTACCGGTGTGGTTCCCTGG
TCGACCTGTGCAGAGGTCCCCATATCCAGAGCACCGGCAAGGTCAAGACC
TTCAAGATCATGCAGAACTCTTCCGCCTACTTCCTCGGTGACCAATCCAA
CGACTCTCTGCAGCGTATCCGCGGTGTTGCTTTCCCCGATAAGAAGCAGA
TGCAAGAGCACCTGAAGTTCTTGGAGGAGGCCGAGAAGCGCAACCACGTT
AAGCTGGGCAAGGAGCAAGAGCTGTTCTTCTTCGACGAGGTTTCTCCAGG
ATGCCCCTTCCTTCTGCCCAACGGTACCAAGATCTTCAACGCCCTCCAAT
CCCTTTTGCGCTCGGAGTACCGCAAGCGCGGCTACCAGGAGGTTCAGACT
CCCAACATGTATGATGTCGGCATCTGGAAGACGTCTGGCCACTGGGCCCA
CTACAAGGATGACATGTTCAAGCTTGACGTTGAGAAGAGGGAGTGGGCTC
TCAAGCCTATGAACTGCCCCGGTCACTTTGTGCTCTTCGGCCACCGTGAG
AGAAGTTACAGAGAGCTTCCCCTGAGAATCGCGGACTTTGGTGTCCTGCA
CAGAAATGAGGCGTCCGGAGCCCTGAGCGGTCTCACCCGTGTTCGCAAGT
TCCAGCAGGATGACACTCACATTTTCTGTACTCAAGACCAGATCACTTCT
GAAATCGAGGGTCTGTTCGACTTCCTGCAGGCTATCTATGGCCTGTTTGG
TTTCACCTTCAAGCTGAAGCTCTCCACCCGGCCCGAGAAGTACCTGGGTG
AGCTCGAGACCTGGAACTACGCAGAGGAGCAGCTCAAGGCGGCCATGACT
AAGTTCAAGGGCAATGACTGGACCATCGATGAGGGTGATGGTGCCTTCTA
CGGTCCTAAGATCGATATTACCATCGCTGATGCACTCAAGCGAGAGTTCC
AGTGCGCGACTATCCAGCTCGATTACCAGGCTCCTATCAACTTCAAGCTT
GAGTACATGAGCAATGAGAAGGCTTCTGCTGATGCCGCTAAGGAGGGTGA
GGCCAAGCCCAACGAGCCTGGTCCTGGCCGTGCCCGCCCGGTTGTCATCC
ACCGTGCTATCATCGGCAGTTTCGAGCGTTTCCTTGGAATTTTGATTGAG
CACTTCGGTGGCAAGTGGCCTTTCTGGATCAGCCCTCGTCAGATTCTGAT
TGTGCCCGTCATGCCTGCTGTCAACGACTACGTCGAGGAGTTGCAGACGA
TTCTCCGCGGCGATAAGCTGAACGTGGACATCGACCTCAGCGGCAACACC
ATGCAGAAGAAGATCCGTACTGGACAGCTTCAGCAATATAACTTCATCTT
CGTTGTTGGTGCTTCCGAAAAGGAGAGCCGCACGGTTAACATCCGCAATC
GTGATGACCCTGCCACCCAAAAACAGGGCGTGATGATTCCTCTCGACGAG
GTCCGCGAGAAGCTCCGGTCTCTGAGGAAGGAGCGGAGACTGGTCAACGC
TCTTTAAATGTCTTCTGAAGGCGCAAAGGACCTTCCCGTCCGGCCGGCGG
CCGACGCCAAACCTGCTGGTGACGGTCTCCCCGATTTCATTGTCGAACGT
AACAACTTCTTCGAGGAACTCTGGCAGCAATATCTCGAGGAACTCAAGAA
CAAGCCCCACCCCGAAATCAAGGTCACGATTGAGCTTGGCGACGGAAACT
CCATCGATGTCACCGCAAACGCCTGGGAGACCACCCCCGCACAGCTTCTG
AAGAACGTGCCCAAAGAGTTGAGCGCCAATGTTGTCCTCGCGAGGGTTGG
AAAGGAACTGTGGGATCTGAGCCGTCCGCTCGAGGGAGAATGCACCGTTT
CTTATGTTCCCTTCGATCACCCCGAGGGTAGGGAAGTTTTCTGGCACTCT
AGCGCCCACTGTCTGGGTGAGGCTTGTGAATGCGAATATGGATGTCTTCT
GTCCCACGGTCCTCCTACCCCCCAGGGTTTCTTCTATGACATGGCCATGC
CAGACAACCGCGTCGTCAGGGAGACCGATTGGCCGTCATTGGACCGCCAC
GCCAACCGCATCTTCAAGGAAAAGCAGAGTTTCGATAGACTGGAGGTTAC
GAAGGAGAACCTCAAGAAGATGTTCGCCTACAGCAAGTACAAGCTGCACT
ACATTGACAAGCTCGTCACCGGAGAGAAGAGCACTGTCTACCGGTGTGGT
TCCCTGGTCGACCTGTGCAGAGGTCCCCATATCCAGAGCACCGGCAAGGT
CAAGACCTTCAAGATCATGCAGAACTCTTCCGCCTACTTCCTCGGTGACC
AATCCAACGACTCTCTGCAGCGTATCCGCGGTGTTGCTTTCCCCGATAAG
AAGCAGATGCAAGAGCACCTGAAGTTCTTGGAGGAGGCCGAGAAGCGCAA
CCACGTTAAGCTGGGCAAGGAGCAAGAGCTGTTCTTCTTCGACGAGGTTT
CTCCAGGATGCCCCTTCCTTCTGCCCAACGGTACCAAGATCTTCAACGCC
CTCCAATCCCTTTTGCGCTCGGAGTACCGCAAGCGCGGCTACCAGGAGGT
TCAGACTCCCAACATGTATGATGTCGGCATCTGGAAGACGTCTGGCCACT
GGGCCCACTACAAGGATGACATGTTCAAGCTTGACGTTGAGAAGAGGGAG
TGGGCTCTCAAGCCTATGAACTGCCCCGGTCACTTTGTGCTCTTCGGCCA
CCGTGAGAGAAGTTACAGAGAGCTTCCCCTGAGAATCGCGGACTTTGGTG
TCCTGCACAGAAATGAGGCGTCCGGAGCCCTGAGCGGTCTCACCCGTGTT
CGCAAGTTCCAGCAGGATGACACTCACATTTTCTGTACTCAAGACCAGAT
CACTTCTGAAATCGAGGGTCTGTTCGACTTCCTGCAGGCTATCTATGGCC
TGTTTGGTTTCACCTTCAAGCTGAAGCTCTCCACCCGGCCCGAGAAGTAC
CTGGGTGAGCTCGAGACCTGGAACTACGCAGAGGAGCAGCTCAAGGCGGC
CATGACTAAGTTCAAGGGCAATGACTGGACCATCGATGAGGGTGATGGTG
CCTTCTACGGTCCTAAGATCGATATTACCATCGCTGATGCACTCAAGCGA
GAGTTCCAGTGCGCGACTATCCAGCTCGATTACCAGGCTCCTATCAACTT
CAAGCTTGAGTACATGAGCAATGAGAAGGCTTCTGCTGATGCCGCTAAGG
AGGGTGAGGCCAAGCCCAACGAGCCTGGTCCTGGCCGTGCCCGCCCGGTT
GTCATCCACCGTGCTATCATCGGCAGTTTCGAGCGTTTCCTTGGAATTTT
GATTGAGCACTTCGGTGGCAAGTGGCCTTTCTGGATCAGCCCTCGTCAGA
TTCTGATTGTGCCCGTCATGCCTGCTGTCAACGACTACGTCGAGGAGTTG
CAGACGATTCTCCGCGGCGATAAGCTGAACGTGGACATCGACCTCAGCGG
CAACACCATGCAGAAGAAGATCCGTACTGGACAGCTTCAGCAATATAACT
TCATCTTCGTTGTTGGTGCTTCCGAAAAGGAGAGCCGCACGGTTAACATC
CGCAATCGTGATGACCCTGCCACCCAAAAACAGGGCGTGATGATTCCTCT
CGACGAGGTCCGCGAGAAGCTCCGGTCTCTGAGGAAGGAGCGGAGACTGG
TCAACGCTCTTTAAATGTCTTCTGAAGGCGCAAAGGACCTTCCCGTCCGG
CCGGCGGCCGACGCCAAACCTGCTGGTGACGGTCTCCCCGATTTCATTGT
CGAACGTAACAACTTCTTCGAGGAACTCTGGCAGCAATATCTCGAGGAAC
TCAAGAACAAGCCCCACCCCGAAATCAAGGTCACGATTGAGCTTGGCGAC
GGAAACTCCATCGATGTCACCGCAAACGCCTGGGAGACCACCCCCGCACA
GCTTCTGAAGAACGTGCCCAAAGAGTTGAGCGCCAATGTTGTCCTCGCGA
GGGTTGGAAAGGAACTGTGGGATCTGAGCCGTCCGCTCGAGGGAGAATGC
ACCGTTTCTTATGTTCCCTTCGATCACCCCGAGGGTAGGGAAGTTTTCTG
GCACTCTAGCGCCCACTGTCTGGGTGAGGCTTGTGAATGCGAATATGGAT
GTCTTCTGTCCCACGGTCCTCCTACCCCCCAGGGTTTCTTCTATGACATG
GCCATGCCAGACAACCGCGTCGTCAGGGAGACCGATTGGCCGTCATTGGA
CCGCCACGCCAACCGCATCTTCAAGGAAAAGCAGAGTTTCGATAGACTGG
AGGTTACGAAGGAGAACCTCAAGAAGATGTTCGCCTACAGCAAGTACAAG
CTGCACTACATTGACAAGCTCGTCACCGGAGAGAAGAGCACTGTCTACCG
GTGTGGTTCCCTGGTCGACCTGTGCAGAGGTCCCCATATCCAGAGCACCG
GCAAGGTCAAGACCTTCAAGATCATGCAGAACTCTTCCGCCTACTTCCTC
GGTGACCAATCCAACGACTCTCTGCAGCGTATCCGCGGTGTTGCTTTCCC
CGATAAGAAGCAGATGCAAGAGCACCTGAAGTTCTTGGAGGAGGCCGAGA
AGCGCAACCACGTTAAGCTGGGCAAGGAGCAAGAGCTGTTCTTCTTCGAC
GAGGTTTCTCCAGGATGCCCCTTCCTTCTGCCCAACGGTACCAAGATCTT
CAACGCCCTCCAATCCCTTTTGCGCTCGGAGTACCGCAAGCGCGGCTACC
AGGAGGTTCAGACTCCCAACATGTATGATGTCGGCATCTGGAAGACGTCT
GGCCACTGGGCCCACTACAAGGATGACATGTTCAAGCTTGACGTTGAGAA
GAGGGAGTGGGCTCTCAAGCCTATGAACTGCCCCGGTCACTTTGTGCTCT
TCGGCCACCGTGAGAGAAGTTACAGAGAGCTTCCCCTGAGAATCGCGGAC
TTTGGTGTCCTGCACAGAAATGAGGCGTCCGGAGCCCTGAGCGGTCTCAC
CCGTGTTCGCAAGTTCCAGCAGGATGACACTCACATTTTCTGTACTCAAG
ACCAGATCACTTCTGAAATCGAGGGTCTGTTCGACTTCCTGCAGGCTATC
TATGGCCTGTTTGGTTTCACCTTCAAGCTGAAGCTCTCCACCCGGCCCGA
GAAGTACCTGGGTGAGCTCGAGACCTGGAACTACGCAGAGGAGCAGCTCA
AGGCGGCCATGACTAAGTTCAAGGGCAATGACTGGACCATCGATGAGGGT
GATGGTGCCTTCTACGGTCCTAAGATCGATATTACCATCGCTGATGCACT
CAAGCGAGAGTTCCAGTGCGCGACTATCCAGCTCGATTACCAGGCTCCTA
TCAACTTCAAGCTTGAGTACATGAGCAATGAGAAGGCTTCTGCTGATGCC
GCTAAGGAGGGTGAGGCCAAGCCCAACGAGCCTGGTCCTGGCCGTGCCCG
CCCGGTTGTCATCCACCGTGCTATCATCGGCAGTTTCGAGCGTTTCCTTG
GAATTTTGATTGAGCACTTCGGTGGCAAGTGGCCTTTCTGGATCAGCCCT
CGTCAGATTCTGATTGTGCCCGTCATGCCTGCTGTCAACGACTACGTCGA
GGAGTTGCAGACGATTCTCCGCGGCGATAAGCTGAACGTGGACATCGACC
TCAGCGGCAACACCATGCAGAAGAAGATCCGTACTGGACAGCTTCAGCAA
TATAACTTCATCTTCGTTGTTGGTGCTTCCGAAAAGGAGAGCCGCACGGT
TAACATCCGCAATCGTGATGACCCTGCCACCCAAAAACAGGGCGTGATGA
TTCCTCTCGACGAGGTCCGCGAGAAGCTCCGGTCTCTGAGGAAGGAGCGG
AGACTGGTCAACGCTCTTTAAATGTCTTCTGAAGGCGCAAAGGACCTTCC
CGTCCGGCCGGCGGCCGACGCCAAACCTGCTGGTGACGGTCTCCCCGATT
TCATTGTCGAACGTAACAACTTCTTCGAGGAACTCTGGCAGCAATATCTC
GAGGAACTCAAGAACAAGCCCCACCCCGAAATCAAGGTCACGATTGAGCT
TGGCGACGGAAACTCCATCGATGTCACCGCAAACGCCTGGGAGACCACCC
CCGCACAGCTTCTGAAGAACGTGCCCAAAGAGTTGAGCGCCAATGTTGTC
CTCGCGAGGGTTGGAAAGGAACTGTGGGATCTGAGCCGTCCGCTCGAGGG
AGAATGCACCGTTTCTTATGTTCCCTTCGATCACCCCGAGGGTAGGGAAG
TTTTCTGGCACTCTAGCGCCCACTGTCTGGGTGAGGCTTGTGAATGCGAA
TATGGATGTCTTCTGTCCCACGGTCCTCCTACCCCCCAGGGTTTCTTCTA
TGACATGGCCATGCCAGACAACCGCGTCGTCAGGGAGACCGATTGGCCGT
CATTGGACCGCCACGCCAACCGCATCTTCAAGGAAAAGCAGAGTTTCGAT
AGACTGGAGGTTACGAAGGAGAACCTCAAGAAGATGTTCGCCTACAGCAA
GTACAAGCTGCACTACATTGACAAGCTCGTCACCGGAGAGAAGAGCACTG
TCTACCGGTGTGGTTCCCTGGTCGACCTGTGCAGAGGTCCCCATATCCAG
AGCACCGGCAAGGTCAAGACCTTCAAGATCATGCAGAACTCTTCCGCCTA
CTTCCTCGGTGACCAATCCAACGACTCTCTGCAGCGTATCCGCGGTGTTG
CTTTCCCCGATAAGAAGCAGATGCAAGAGCACCTGAAGTTCTTGGAGGAG
GCCGAGAAGCGCAACCACGTTAAGCTGGGCAAGGAGCAAGAGCTGTTCTT
CTTCGACGAGGTTTCTCCAGGATGCCCCTTCCTTCTGCCCAACGGTACCA
AGATCTTCAACGCCCTCCAATCCCTTTTGCGCTCGGAGTACCGCAAGCGC
GGCTACCAGGAGGTTCAGACTCCCAACATGTATGATGTCGGCATCTGGAA
GACGTCTGGCCACTGGGCCCACTACAAGGATGACATGTTCAAGCTTGACG
TTGAGAAGAGGGAGTGGGCTCTCAAGCCTATGAACTGCCCCGGTCACTTT
GTGCTCTTCGGCCACCGTGAGAGAAGTTACAGAGAGCTTCCCCTGAGAAT
CGCGGACTTTGGTGTCCTGCACAGAAATGAGGCGTCCGGAGCCCTGAGCG
GTCTCACCCGTGTTCGCAAGTTCCAGCAGGATGACACTCACATTTTCTGT
ACTCAAGACCAGATCACTTCTGAAATCGAGGGTCTGTTCGACTTCCTGCA
GGCTATCTATGGCCTGTTTGGTTTCACCTTCAAGCTGAAGCTCTCCACCC
GGCCCGAGAAGTACCTGGGTGAGCTCGAGACCTGGAACTACGCAGAGGAG
CAGCTCAAGGCGGCCATGACTAAGTTCAAGGGCAATGACTGGACCATCGA
TGAGGGTGATGGTGCCTTCTACGGTCCTAAGATCGATATTACCATCGCTG
ATGCACTCAAGCGAGAGTTCCAGTGCGCGACTATCCAGCTCGATTACCAG
GCTCCTATCAACTTCAAGCTTGAGTACATGAGCAATGAGAAGGCTTCTGC
TGATGCCGCTAAGGAGGGTGAGGCCAAGCCCAACGAGCCTGGTCCTGGCC
GTGCCCGCCCGGTTGTCATCCACCGTGCTATCATCGGCAGTTTCGAGCGT
TTCCTTGGAATTTTGATTGAGCACTTCGGTGGCAAGTGGCCTTTCTGGAT
CAGCCCTCGTCAGATTCTGATTGTGCCCGTCATGCCTGCTGTCAACGACT
ACGTCGAGGAGTTGCAGACGATTCTCCGCGGCGATAAGCTGAACGTGGAC
ATCGACCTCAGCGGCAACACCATGCAGAAGAAGATCCGTACTGGACAGCT
TCAGCAATATAACTTCATCTTCGTTGTTGGTGCTTCCGAAAAGGAGAGCC
GCACGGTTAACATCCGCAATCGTGATGACCCTGCCACCCAAAAACAGGGC
GTGATGATTCCTCTCGACGAGGTCCGCGAGAAGCTCCGGTCTCTGAGGAA
GGAGCGGAGACTGGTCAACGCTCTTTAAATGTCTTCTGAAGGCGCAAAGG
ACCTTCCCGTCCGGCCGGCGGCCGACGCCAAACCTGCTGGTGACGGTCTC
CCCGATTTCATTGTCGAACGTAACAACTTCTTCGAGGAACTCTGGCAGCA
ATATCTCGAGGAACTCAAGAACAAGCCCCACCCCGAAATCAAGGTCACGA
TTGAGCTTGGCGACGGAAACTCCATCGATGTCACCGCAAACGCCTGGGAG
ACCACCCCCGCACAGCTTCTGAAGAACGTGCCCAAAGAGTTGAGCGCCAA
TGTTGTCCTCGCGAGGGTTGGAAAGGAACTGTGGGATCTGAGCCGTCCGC
TCGAGGGAGAATGCACCGTTTCTTATGTTCCCTTCGATCACCCCGAGGGT
AGGGAAGTTTTCTGGCACTCTAGCGCCCACTGTCTGGGTGAGGCTTGTGA
ATGCGAATATGGATGTCTTCTGTCCCACGGTCCTCCTACCCCCCAGGGTT
TCTTCTATGACATGGCCATGCCAGACAACCGCGTCGTCAGGGAGACCGAT
TGGCCGTCATTGGACCGCCACGCCAACCGCATCTTCAAGGAAAAGCAGAG
TTTCGATAGACTGGAGGTTACGAAGGAGAACCTCAAGAAGATGTTCGCCT
ACAGCAAGTACAAGCTGCACTACATTGACAAGCTCGTCACCGGAGAGAAG
AGCACTGTCTACCGGTGTGGTTCCCTGGTCGACCTGTGCAGAGGTCCCCA
TATCCAGAGCACCGGCAAGGTCAAGACCTTCAAGATCATGCAGAACTCTT
CCGCCTACTTCCTCGGTGACCAATCCAACGACTCTCTGCAGCGTATCCGC
GGTGTTGCTTTCCCCGATAAGAAGCAGATGCAAGAGCACCTGAAGTTCTT
GGAGGAGGCCGAGAAGCGCAACCACGTTAAGCTGGGCAAGGAGCAAGAGC
TGTTCTTCTTCGACGAGGTTTCTCCAGGATGCCCCTTCCTTCTGCCCAAC
GGTACCAAGATCTTCAACGCCCTCCAATCCCTTTTGCGCTCGGAGTACCG
CAAGCGCGGCTACCAGGAGGTTCAGACTCCCAACATGTATGATGTCGGCA
TCTGGAAGACGTCTGGCCACTGGGCCCACTACAAGGATGACATGTTCAAG
CTTGACGTTGAGAAGAGGGAGTGGGCTCTCAAGCCTATGAACTGCCCCGG
TCACTTTGTGCTCTTCGGCCACCGTGAGAGAAGTTACAGAGAGCTTCCCC
TGAGAATCGCGGACTTTGGTGTCCTGCACAGAAATGAGGCGTCCGGAGCC
CTGAGCGGTCTCACCCGTGTTCGCAAGTTCCAGCAGGATGACACTCACAT
TTTCTGTACTCAAGACCAGATCACTTCTGAAATCGAGGGTCTGTTCGACT
TCCTGCAGGCTATCTATGGCCTGTTTGGTTTCACCTTCAAGCTGAAGCTC
TCCACCCGGCCCGAGAAGTACCTGGGTGAGCTCGAGACCTGGAACTACGC
AGAGGAGCAGCTCAAGGCGGCCATGACTAAGTTCAAGGGCAATGACTGGA
CCATCGATGAGGGTGATGGTGCCTTCTACGGTCCTAAGATCGATATTACC
ATCGCTGATGCACTCAAGCGAGAGTTCCAGTGCGCGACTATCCAGCTCGA
TTACCAGGCTCCTATCAACTTCAAGCTTGAGTACATGAGCAATGAGAAGG
CTTCTGCTGATGCCGCTAAGGAGGGTGAGGCCAAGCCCAACGAGCCTGGT
CCTGGCCGTGCCCGCCCGGTTGTCATCCACCGTGCTATCATCGGCAGTTT
CGAGCGTTTCCTTGGAATTTTGATTGAGCACTTCGGTGGCAAGTGGCCTT
TCTGGATCAGCCCTCGTCAGATTCTGATTGTGCCCGTCATGCCTGCTGTC
AACGACTACGTCGAGGAGTTGCAGACGATTCTCCGCGGCGATAAGCTGAA
CGTGGACATCGACCTCAGCGGCAACACCATGCAGAAGAAGATCCGTACTG
GACAGCTTCAGCAATATAACTTCATCTTCGTTGTTGGTGCTTCCGAAAAG
GAGAGCCGCACGGTTAACATCCGCAATCGTGATGACCCTGCCACCCAAAA
ACAGGGCGTGATGATTCCTCTCGACGAGGTCCGCGAGAAGCTCCGGTCTC
TGAGGAAGGAGCGGAGACTGGTCAACGCTCTTTAAATGTCTTCTGAAGGC
GCAAAGGACCTTCCCGTCCGGCCGGCGGCCGACGCCAAACCTGCTGGTGA
CGGTCTCCCCGATTTCATTGTCGAACGTAACAACTTCTTCGAGGAACTCT
GGCAGCAATATCTCGAGGAACTCAAGAACAAGCCCCACCCCGAAATCAAG
GTCACGATTGAGCTTGGCGACGGAAACTCCATCGATGTCACCGCAAACGC
CTGGGAGACCACCCCCGCACAGCTTCTGAAGAACGTGCCCAAAGAGTTGA
GCGCCAATGTTGTCCTCGCGAGGGTTGGAAAGGAACTGTGGGATCTGAGC
CGTCCGCTCGAGGGAGAATGCACCGTTTCTTATGTTCCCTTCGATCACCC
CGAGGGTAGGGAAGTTTTCTGGCACTCTAGCGCCCACTGTCTGGGTGAGG
CTTGTGAATGCGAATATGGATGTCTTCTGTCCCACGGTCCTCCTACCCCC
CAGGGTTTCTTCTATGACATGGCCATGCCAGACAACCGCGTCGTCAGGGA
GACCGATTGGCCGTCATTGGACCGCCACGCCAACCGCATCTTCAAGGAAA
AGCAGAGTTTCGATAGACTGGAGGTTACGAAGGAGAACCTCAAGAAGATG
TTCGCCTACAGCAAGTACAAGCTGCACTACATTGACAAGCTCGTCACCGG
AGAGAAGAGCACTGTCTACCGGTGTGGTTCCCTGGTCGACCTGTGCAGAG
GTCCCCATATCCAGAGCACCGGCAAGGTCAAGACCTTCAAGATCATGCAG
AACTCTTCCGCCTACTTCCTCGGTGACCAATCCAACGACTCTCTGCAGCG
TATCCGCGGTGTTGCTTTCCCCGATAAGAAGCAGATGCAAGAGCACCTGA
AGTTCTTGGAGGAGGCCGAGAAGCGCAACCACGTTAAGCTGGGCAAGGAG
CAAGAGCTGTTCTTCTTCGACGAGGTTTCTCCAGGATGCCCCTTCCTTCT
GCCCAACGGTACCAAGATCTTCAACGCCCTCCAATCCCTTTTGCGCTCGG
AGTACCGCAAGCGCGGCTACCAGGAGGTTCAGACTCCCAACATGTATGAT
GTCGGCATCTGGAAGACGTCTGGCCACTGGGCCCACTACAAGGATGACAT
GTTCAAGCTTGACGTTGAGAAGAGGGAGTGGGCTCTCAAGCCTATGAACT
GCCCCGGTCACTTTGTGCTCTTCGGCCACCGTGAGAGAAGTTACAGAGAG
CTTCCCCTGAGAATCGCGGACTTTGGTGTCCTGCACAGAAATGAGGCGTC
CGGAGCCCTGAGCGGTCTCACCCGTGTTCGCAAGTTCCAGCAGGATGACA
CTCACATTTTCTGTACTCAAGACCAGATCACTTCTGAAATCGAGGGTCTG
TTCGACTTCCTGCAGGCTATCTATGGCCTGTTTGGTTTCACCTTCAAGCT
GAAGCTCTCCACCCGGCCCGAGAAGTACCTGGGTGAGCTCGAGACCTGGA
ACTACGCAGAGGAGCAGCTCAAGGCGGCCATGACTAAGTTCAAGGGCAAT
GACTGGACCATCGATGAGGGTGATGGTGCCTTCTACGGTCCTAAGATCGA
TATTACCATCGCTGATGCACTCAAGCGAGAGTTCCAGTGCGCGACTATCC
AGCTCGATTACCAGGCTCCTATCAACTTCAAGCTTGAGTACATGAGCAAT
GAGAAGGCTTCTGCTGATGCCGCTAAGGAGGGTGAGGCCAAGCCCAACGA
GCCTGGTCCTGGCCGTGCCCGCCCGGTTGTCATCCACCGTGCTATCATCG
GCAGTTTCGAGCGTTTCCTTGGAATTTTGATTGAGCACTTCGGTGGCAAG
TGGCCTTTCTGGATCAGCCCTCGTCAGATTCTGATTGTGCCCGTCATGCC
TGCTGTCAACGACTACGTCGAGGAGTTGCAGACGATTCTCCGCGGCGATA
AGCTGAACGTGGACATCGACCTCAGCGGCAACACCATGCAGAAGAAGATC
CGTACTGGACAGCTTCAGCAATATAACTTCATCTTCGTTGTTGGTGCTTC
CGAAAAGGAGAGCCGCACGGTTAACATCCGCAATCGTGATGACCCTGCCA
CCCAAAAACAGGGCGTGATGATTCCTCTCGACGAGGTCCGCGAGAAGCTC
CGGTCTCTGAGGAAGGAGCGGAGACTGGTCAACGCTCTTTAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005737 | cytoplasm |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0000166 | nucleotide binding |
| GO:0004812 | aminoacyl-tRNA ligase activity |
| GO:0005524 | ATP binding |
| GO:0004829 | threonine-tRNA ligase activity |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006418 | tRNA aminoacylation for protein translation |
| GO:0043039 | tRNA aminoacylation |
| GO:0006435 | threonyl-tRNA aminoacylation |
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_010695-T1.utr5p1 | KJC3_010695-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_010695-T1.utr3p1 | KJC3_010695-T1.utr3p1 | Aspergillus niger KJC3 | three_prime_UTR |
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR012676 |
| DBxref | InterPro:IPR018163 |
| DBxref | InterPro:IPR033728 |
| DBxref | InterPro:IPR006195 |
| DBxref | InterPro:IPR004154 |
| DBxref | InterPro:IPR012675 |
| DBxref | InterPro:IPR002314 |
| DBxref | InterPro:IPR036621 |
| DBxref | InterPro:IPR012947 |
| DBxref | InterPro:IPR002320 |
| DBxref | PFAM:PF07973 |
| DBxref | PFAM:PF00587 |
| DBxref | PFAM:PF03129 |
| 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 | ch7:4117356..4121493 + |
|
