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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 + |
|