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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000282:315147..317370+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_011440-T1 ID=ATCC10864_011440-T1|Name=ATCC10864_011440-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2224bp|location=Sequence derived from alignment at MCQH01000282:315147..317370+ (Aspergillus niger ATCC 10864)
ATGCTCAGGCGCCCAACAGCCCCCACCATCTGGGCCCGTCGTCCCTGGGT
CTGCACCCAATGTCAAGCCCGGTATTCCTCCGTCGCGCCGGGCTCGAATC
TCCGCGCTGGCAATAACAACAATACCATCAACAAGAAAACTAAATTGCCT
GACTCGCCGGCGAGGACTCGATTCGCACCGTCTCCGACCGGCTACCTTCA
TTTGGGATCTCTGCGGACGGCTTTGTTCAATTACCTTTTGGCGAAGCGCA
CGGGAGGACAGTTCTTGCTGCGCATTGAGGATACGGATCAGGTGCGGTGA
TTAGCTGGTTAAACAGCTTTGAATAGACTTTGGGAGGAGGTAGGAGCTAA
TCGGGGAATATGCTACAGAAACGTACAATTCCGGATGCTGAGCAGCGGCT
TTATGATGATCTTCGGTGGGCTGGATTGCACTGGGATGAAGGTGCGGAAG
ACAATCTGTGCGGAAAGGAGCTGAGCTGGTTAGATGACTGACGGATGGTT
GTTCTTACAGGTCCGGTTGTCGGTGGTCCGTACGGTCCTTACAGACAGGT
ATGATTGAGGAGACAGTGTTCCCTGTGCATCGGAGCCATTTACTGAGAGA
AGCTTTAGTCCGAACGAACCGCCATCTACCGCTCCCACGCGCAGGAACTG
ATCGAGAACGGCCACGCCTACCGCTGCTTCTGCTCCGCCGATCGATTGGA
CGCTTTCGCCAGGCATCGCAGCCAAGTTGGACTGCCGGCCGGTTACGATA
GGAAATGCGGGGAGGTCTCTGCGGAGGAGTCGGAAGAGAGGGCGGCCAAG
GGTGAAGCGCATGTCGTTCGACTGAAGGTGGAAGGATACCCTATGTTCAA
CGATCTGGTGTACGGCAAGACGGGCCAGAACCGCTCGCCGAACAAGTTGG
ATTTGATCGAGCGTGTCTATGACGATCCCATTCTGATCAAGTCCGACGGA
CACCCGACCTATCATCTGGCGAACGTGGTGGATGATCATCTCATGAAGAT
CACCCATGTCATTCGAGGAACGGTAAGCTGCGGAAGATATATAGAAGAAG
ATGCGCAAGCTTACGCTCTACCCAGGAATGGATGCCCTCGACCCCCATGC
ACGTCGCGCTTTACAACGCCTTCAAGTGGACGCCTCCGCAGTTCGGCCAC
GTACCTCTCCTCGTGGACAAGTCGGGACAGAAGCTCAGCAAACGCAATGC
GGATATCGACCTCAGCTTCTTCAAGGACACCCAGGGCGTTTTCGCTGCAA
CCCTCGTGAACTTTGCCGCTCTCCTGGGCTGGTCGCACACCCAGAAGTCG
GATATCTTCAACCTTGAAGAGCTGGAGCAACTCGTATGTCCCTCTATCTC
CTCCTTCACTCGCTCACTCAATCCCACTAACACAAGCAACACAGTTTAAC
CTCAAAATCACCCGCGGCAACACCGTCGTGGCTTTTGAAAAGCTCTGGTT
CCTCCAGAAAGCGCACGCCCAACGCTTCGCTTCCACCGACGGACCCGAAT
TCACCGAGATGGTGACCAAGGTATCAGAAGAAGTCGAGAAGACCTACCCA
GCCGCGCAACTGTACATACACCCACTCCCTTACCCTACAAACACATACTC
AAACAAACCAACTAACCACTCACTCACAGCAACCCCCTCCTCCAATCCCG
TTCCCTACAAACATACATCGCCCCCCTCCTCCGCGCCGACGCCAAATCCT
ACACCAACGCCGCAGACTTCACAACCCGCAACTCGACCTTCTTCACCCAA
TCCCTCAACCGATCCCCTTACACCCCCTCATCTACGACCAACACAATCCC
TTTGACATCCCTCCACACCGCAAGCCTAGCACTCACCCTCGTCCCCCCGG
CACACTGGACCCTCGAAACCCACCGCGCAAACATAACCGCCTACGACGGC
ACCACCCCCGACGACTCCTCTCCCACTGACACCCTCACGCCCGAAGAATC
CACCAAAGCGCAGAAGGCAGCTGACAAAGCCTTCAAGAAGGAACTATACC
ACTACCTCCGCTGGGCATTGTCGGCTGGTGCACCGGGTCCTGGTATCCCA
GAGACCATGGCTATTTTGGGTAGAGAGGAGACGGTGAGGAGAGTACAGGA
GGCGAAGGAGTTGACGGCGCATTTGGTGCCGGGGCCGACGAGACGGGTTA
AGCAGGGAGTGGAGAGTTTGGGTGAGGATCGGTCTTGGATGGGGTCGTTG
GCTCCTTCTTCTGGGTCTTCTTAG back to topCoding sequence (CDS) from alignment at MCQH01000282:315147..317370+ >ATCC10864_011440-T1 ID=ATCC10864_011440-T1|Name=ATCC10864_011440-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=12852bp|location=Sequence derived from alignment at MCQH01000282:315147..317370+ (Aspergillus niger ATCC 10864)
ATGCTCAGGCGCCCAACAGCCCCCACCATCTGGGCCCGTCGTCCCTGGGT
CTGCACCCAATGTCAAGCCCGGTATTCCTCCGTCGCGCCGGGCTCGAATC
TCCGCGCTGGCAATAACAACAATACCATCAACAAGAAAACTAAATTGCCT
GACTCGCCGGCGAGGACTCGATTCGCACCGTCTCCGACCGGCTACCTTCA
TTTGGGATCTCTGCGGACGGCTTTGTTCAATTACCTTTTGGCGAAGCGCA
CGGGAGGACAGTTCTTGCTGCGCATTGAGGATACGGATCAGAAACGTACA
ATTCCGGATGCTGAGCAGCGGCTTTATGATGATCTTCGGTGGGCTGGATT
GCACTGGGATGAAGGTCCGGTTGTCGGTGGTCCGTACGGTCCTTACAGAC
AGTCCGAACGAACCGCCATCTACCGCTCCCACGCGCAGGAACTGATCGAG
AACGGCCACGCCTACCGCTGCTTCTGCTCCGCCGATCGATTGGACGCTTT
CGCCAGGCATCGCAGCCAAGTTGGACTGCCGGCCGGTTACGATAGGAAAT
GCGGGGAGGTCTCTGCGGAGGAGTCGGAAGAGAGGGCGGCCAAGGGTGAA
GCGCATGTCGTTCGACTGAAGGTGGAAGGATACCCTATGTTCAACGATCT
GGTGTACGGCAAGACGGGCCAGAACCGCTCGCCGAACAAGTTGGATTTGA
TCGAGCGTGTCTATGACGATCCCATTCTGATCAAGTCCGACGGACACCCG
ACCTATCATCTGGCGAACGTGGTGGATGATCATCTCATGAAGATCACCCA
TGTCATTCGAGGAACGGAATGGATGCCCTCGACCCCCATGCACGTCGCGC
TTTACAACGCCTTCAAGTGGACGCCTCCGCAGTTCGGCCACGTACCTCTC
CTCGTGGACAAGTCGGGACAGAAGCTCAGCAAACGCAATGCGGATATCGA
CCTCAGCTTCTTCAAGGACACCCAGGGCGTTTTCGCTGCAACCCTCGTGA
ACTTTGCCGCTCTCCTGGGCTGGTCGCACACCCAGAAGTCGGATATCTTC
AACCTTGAAGAGCTGGAGCAACTCTTTAACCTCAAAATCACCCGCGGCAA
CACCGTCGTGGCTTTTGAAAAGCTCTGGTTCCTCCAGAAAGCGCACGCCC
AACGCTTCGCTTCCACCGACGGACCCGAATTCACCGAGATGGTGACCAAG
GTATCAGAAGAAGTCGAGAAGACCTACCCAGCCGCGCAACTCAACCCCCT
CCTCCAATCCCGTTCCCTACAAACATACATCGCCCCCCTCCTCCGCGCCG
ACGCCAAATCCTACACCAACGCCGCAGACTTCACAACCCGCAACTCGACC
TTCTTCACCCAATCCCTCAACCGATCCCCTTACACCCCCTCATCTACGAC
CAACACAATCCCTTTGACATCCCTCCACACCGCAAGCCTAGCACTCACCC
TCGTCCCCCCGGCACACTGGACCCTCGAAACCCACCGCGCAAACATAACC
GCCTACGACGGCACCACCCCCGACGACTCCTCTCCCACTGACACCCTCAC
GCCCGAAGAATCCACCAAAGCGCAGAAGGCAGCTGACAAAGCCTTCAAGA
AGGAACTATACCACTACCTCCGCTGGGCATTGTCGGCTGGTGCACCGGGT
CCTGGTATCCCAGAGACCATGGCTATTTTGGGTAGAGAGGAGACGGTGAG
GAGAGTACAGGAGGCGAAGGAGTTGACGGCGCATTTGGTGCCGGGGCCGA
CGAGACGGGTTAAGCAGGGAGTGGAGAGTTTGGGTGAGGATCGGTCTTGG
ATGGGGTCGTTGGCTCCTTCTTCTGGGTCTTCTTAGATGCTCAGGCGCCC
AACAGCCCCCACCATCTGGGCCCGTCGTCCCTGGGTCTGCACCCAATGTC
AAGCCCGGTATTCCTCCGTCGCGCCGGGCTCGAATCTCCGCGCTGGCAAT
AACAACAATACCATCAACAAGAAAACTAAATTGCCTGACTCGCCGGCGAG
GACTCGATTCGCACCGTCTCCGACCGGCTACCTTCATTTGGGATCTCTGC
GGACGGCTTTGTTCAATTACCTTTTGGCGAAGCGCACGGGAGGACAGTTC
TTGCTGCGCATTGAGGATACGGATCAGAAACGTACAATTCCGGATGCTGA
GCAGCGGCTTTATGATGATCTTCGGTGGGCTGGATTGCACTGGGATGAAG
GTCCGGTTGTCGGTGGTCCGTACGGTCCTTACAGACAGTCCGAACGAACC
GCCATCTACCGCTCCCACGCGCAGGAACTGATCGAGAACGGCCACGCCTA
CCGCTGCTTCTGCTCCGCCGATCGATTGGACGCTTTCGCCAGGCATCGCA
GCCAAGTTGGACTGCCGGCCGGTTACGATAGGAAATGCGGGGAGGTCTCT
GCGGAGGAGTCGGAAGAGAGGGCGGCCAAGGGTGAAGCGCATGTCGTTCG
ACTGAAGGTGGAAGGATACCCTATGTTCAACGATCTGGTGTACGGCAAGA
CGGGCCAGAACCGCTCGCCGAACAAGTTGGATTTGATCGAGCGTGTCTAT
GACGATCCCATTCTGATCAAGTCCGACGGACACCCGACCTATCATCTGGC
GAACGTGGTGGATGATCATCTCATGAAGATCACCCATGTCATTCGAGGAA
CGGAATGGATGCCCTCGACCCCCATGCACGTCGCGCTTTACAACGCCTTC
AAGTGGACGCCTCCGCAGTTCGGCCACGTACCTCTCCTCGTGGACAAGTC
GGGACAGAAGCTCAGCAAACGCAATGCGGATATCGACCTCAGCTTCTTCA
AGGACACCCAGGGCGTTTTCGCTGCAACCCTCGTGAACTTTGCCGCTCTC
CTGGGCTGGTCGCACACCCAGAAGTCGGATATCTTCAACCTTGAAGAGCT
GGAGCAACTCTTTAACCTCAAAATCACCCGCGGCAACACCGTCGTGGCTT
TTGAAAAGCTCTGGTTCCTCCAGAAAGCGCACGCCCAACGCTTCGCTTCC
ACCGACGGACCCGAATTCACCGAGATGGTGACCAAGGTATCAGAAGAAGT
CGAGAAGACCTACCCAGCCGCGCAACTCAACCCCCTCCTCCAATCCCGTT
CCCTACAAACATACATCGCCCCCCTCCTCCGCGCCGACGCCAAATCCTAC
ACCAACGCCGCAGACTTCACAACCCGCAACTCGACCTTCTTCACCCAATC
CCTCAACCGATCCCCTTACACCCCCTCATCTACGACCAACACAATCCCTT
TGACATCCCTCCACACCGCAAGCCTAGCACTCACCCTCGTCCCCCCGGCA
CACTGGACCCTCGAAACCCACCGCGCAAACATAACCGCCTACGACGGCAC
CACCCCCGACGACTCCTCTCCCACTGACACCCTCACGCCCGAAGAATCCA
CCAAAGCGCAGAAGGCAGCTGACAAAGCCTTCAAGAAGGAACTATACCAC
TACCTCCGCTGGGCATTGTCGGCTGGTGCACCGGGTCCTGGTATCCCAGA
GACCATGGCTATTTTGGGTAGAGAGGAGACGGTGAGGAGAGTACAGGAGG
CGAAGGAGTTGACGGCGCATTTGGTGCCGGGGCCGACGAGACGGGTTAAG
CAGGGAGTGGAGAGTTTGGGTGAGGATCGGTCTTGGATGGGGTCGTTGGC
TCCTTCTTCTGGGTCTTCTTAGATGCTCAGGCGCCCAACAGCCCCCACCA
TCTGGGCCCGTCGTCCCTGGGTCTGCACCCAATGTCAAGCCCGGTATTCC
TCCGTCGCGCCGGGCTCGAATCTCCGCGCTGGCAATAACAACAATACCAT
CAACAAGAAAACTAAATTGCCTGACTCGCCGGCGAGGACTCGATTCGCAC
CGTCTCCGACCGGCTACCTTCATTTGGGATCTCTGCGGACGGCTTTGTTC
AATTACCTTTTGGCGAAGCGCACGGGAGGACAGTTCTTGCTGCGCATTGA
GGATACGGATCAGAAACGTACAATTCCGGATGCTGAGCAGCGGCTTTATG
ATGATCTTCGGTGGGCTGGATTGCACTGGGATGAAGGTCCGGTTGTCGGT
GGTCCGTACGGTCCTTACAGACAGTCCGAACGAACCGCCATCTACCGCTC
CCACGCGCAGGAACTGATCGAGAACGGCCACGCCTACCGCTGCTTCTGCT
CCGCCGATCGATTGGACGCTTTCGCCAGGCATCGCAGCCAAGTTGGACTG
CCGGCCGGTTACGATAGGAAATGCGGGGAGGTCTCTGCGGAGGAGTCGGA
AGAGAGGGCGGCCAAGGGTGAAGCGCATGTCGTTCGACTGAAGGTGGAAG
GATACCCTATGTTCAACGATCTGGTGTACGGCAAGACGGGCCAGAACCGC
TCGCCGAACAAGTTGGATTTGATCGAGCGTGTCTATGACGATCCCATTCT
GATCAAGTCCGACGGACACCCGACCTATCATCTGGCGAACGTGGTGGATG
ATCATCTCATGAAGATCACCCATGTCATTCGAGGAACGGAATGGATGCCC
TCGACCCCCATGCACGTCGCGCTTTACAACGCCTTCAAGTGGACGCCTCC
GCAGTTCGGCCACGTACCTCTCCTCGTGGACAAGTCGGGACAGAAGCTCA
GCAAACGCAATGCGGATATCGACCTCAGCTTCTTCAAGGACACCCAGGGC
GTTTTCGCTGCAACCCTCGTGAACTTTGCCGCTCTCCTGGGCTGGTCGCA
CACCCAGAAGTCGGATATCTTCAACCTTGAAGAGCTGGAGCAACTCTTTA
ACCTCAAAATCACCCGCGGCAACACCGTCGTGGCTTTTGAAAAGCTCTGG
TTCCTCCAGAAAGCGCACGCCCAACGCTTCGCTTCCACCGACGGACCCGA
ATTCACCGAGATGGTGACCAAGGTATCAGAAGAAGTCGAGAAGACCTACC
CAGCCGCGCAACTCAACCCCCTCCTCCAATCCCGTTCCCTACAAACATAC
ATCGCCCCCCTCCTCCGCGCCGACGCCAAATCCTACACCAACGCCGCAGA
CTTCACAACCCGCAACTCGACCTTCTTCACCCAATCCCTCAACCGATCCC
CTTACACCCCCTCATCTACGACCAACACAATCCCTTTGACATCCCTCCAC
ACCGCAAGCCTAGCACTCACCCTCGTCCCCCCGGCACACTGGACCCTCGA
AACCCACCGCGCAAACATAACCGCCTACGACGGCACCACCCCCGACGACT
CCTCTCCCACTGACACCCTCACGCCCGAAGAATCCACCAAAGCGCAGAAG
GCAGCTGACAAAGCCTTCAAGAAGGAACTATACCACTACCTCCGCTGGGC
ATTGTCGGCTGGTGCACCGGGTCCTGGTATCCCAGAGACCATGGCTATTT
TGGGTAGAGAGGAGACGGTGAGGAGAGTACAGGAGGCGAAGGAGTTGACG
GCGCATTTGGTGCCGGGGCCGACGAGACGGGTTAAGCAGGGAGTGGAGAG
TTTGGGTGAGGATCGGTCTTGGATGGGGTCGTTGGCTCCTTCTTCTGGGT
CTTCTTAGATGCTCAGGCGCCCAACAGCCCCCACCATCTGGGCCCGTCGT
CCCTGGGTCTGCACCCAATGTCAAGCCCGGTATTCCTCCGTCGCGCCGGG
CTCGAATCTCCGCGCTGGCAATAACAACAATACCATCAACAAGAAAACTA
AATTGCCTGACTCGCCGGCGAGGACTCGATTCGCACCGTCTCCGACCGGC
TACCTTCATTTGGGATCTCTGCGGACGGCTTTGTTCAATTACCTTTTGGC
GAAGCGCACGGGAGGACAGTTCTTGCTGCGCATTGAGGATACGGATCAGA
AACGTACAATTCCGGATGCTGAGCAGCGGCTTTATGATGATCTTCGGTGG
GCTGGATTGCACTGGGATGAAGGTCCGGTTGTCGGTGGTCCGTACGGTCC
TTACAGACAGTCCGAACGAACCGCCATCTACCGCTCCCACGCGCAGGAAC
TGATCGAGAACGGCCACGCCTACCGCTGCTTCTGCTCCGCCGATCGATTG
GACGCTTTCGCCAGGCATCGCAGCCAAGTTGGACTGCCGGCCGGTTACGA
TAGGAAATGCGGGGAGGTCTCTGCGGAGGAGTCGGAAGAGAGGGCGGCCA
AGGGTGAAGCGCATGTCGTTCGACTGAAGGTGGAAGGATACCCTATGTTC
AACGATCTGGTGTACGGCAAGACGGGCCAGAACCGCTCGCCGAACAAGTT
GGATTTGATCGAGCGTGTCTATGACGATCCCATTCTGATCAAGTCCGACG
GACACCCGACCTATCATCTGGCGAACGTGGTGGATGATCATCTCATGAAG
ATCACCCATGTCATTCGAGGAACGGAATGGATGCCCTCGACCCCCATGCA
CGTCGCGCTTTACAACGCCTTCAAGTGGACGCCTCCGCAGTTCGGCCACG
TACCTCTCCTCGTGGACAAGTCGGGACAGAAGCTCAGCAAACGCAATGCG
GATATCGACCTCAGCTTCTTCAAGGACACCCAGGGCGTTTTCGCTGCAAC
CCTCGTGAACTTTGCCGCTCTCCTGGGCTGGTCGCACACCCAGAAGTCGG
ATATCTTCAACCTTGAAGAGCTGGAGCAACTCTTTAACCTCAAAATCACC
CGCGGCAACACCGTCGTGGCTTTTGAAAAGCTCTGGTTCCTCCAGAAAGC
GCACGCCCAACGCTTCGCTTCCACCGACGGACCCGAATTCACCGAGATGG
TGACCAAGGTATCAGAAGAAGTCGAGAAGACCTACCCAGCCGCGCAACTC
AACCCCCTCCTCCAATCCCGTTCCCTACAAACATACATCGCCCCCCTCCT
CCGCGCCGACGCCAAATCCTACACCAACGCCGCAGACTTCACAACCCGCA
ACTCGACCTTCTTCACCCAATCCCTCAACCGATCCCCTTACACCCCCTCA
TCTACGACCAACACAATCCCTTTGACATCCCTCCACACCGCAAGCCTAGC
ACTCACCCTCGTCCCCCCGGCACACTGGACCCTCGAAACCCACCGCGCAA
ACATAACCGCCTACGACGGCACCACCCCCGACGACTCCTCTCCCACTGAC
ACCCTCACGCCCGAAGAATCCACCAAAGCGCAGAAGGCAGCTGACAAAGC
CTTCAAGAAGGAACTATACCACTACCTCCGCTGGGCATTGTCGGCTGGTG
CACCGGGTCCTGGTATCCCAGAGACCATGGCTATTTTGGGTAGAGAGGAG
ACGGTGAGGAGAGTACAGGAGGCGAAGGAGTTGACGGCGCATTTGGTGCC
GGGGCCGACGAGACGGGTTAAGCAGGGAGTGGAGAGTTTGGGTGAGGATC
GGTCTTGGATGGGGTCGTTGGCTCCTTCTTCTGGGTCTTCTTAGATGCTC
AGGCGCCCAACAGCCCCCACCATCTGGGCCCGTCGTCCCTGGGTCTGCAC
CCAATGTCAAGCCCGGTATTCCTCCGTCGCGCCGGGCTCGAATCTCCGCG
CTGGCAATAACAACAATACCATCAACAAGAAAACTAAATTGCCTGACTCG
CCGGCGAGGACTCGATTCGCACCGTCTCCGACCGGCTACCTTCATTTGGG
ATCTCTGCGGACGGCTTTGTTCAATTACCTTTTGGCGAAGCGCACGGGAG
GACAGTTCTTGCTGCGCATTGAGGATACGGATCAGAAACGTACAATTCCG
GATGCTGAGCAGCGGCTTTATGATGATCTTCGGTGGGCTGGATTGCACTG
GGATGAAGGTCCGGTTGTCGGTGGTCCGTACGGTCCTTACAGACAGTCCG
AACGAACCGCCATCTACCGCTCCCACGCGCAGGAACTGATCGAGAACGGC
CACGCCTACCGCTGCTTCTGCTCCGCCGATCGATTGGACGCTTTCGCCAG
GCATCGCAGCCAAGTTGGACTGCCGGCCGGTTACGATAGGAAATGCGGGG
AGGTCTCTGCGGAGGAGTCGGAAGAGAGGGCGGCCAAGGGTGAAGCGCAT
GTCGTTCGACTGAAGGTGGAAGGATACCCTATGTTCAACGATCTGGTGTA
CGGCAAGACGGGCCAGAACCGCTCGCCGAACAAGTTGGATTTGATCGAGC
GTGTCTATGACGATCCCATTCTGATCAAGTCCGACGGACACCCGACCTAT
CATCTGGCGAACGTGGTGGATGATCATCTCATGAAGATCACCCATGTCAT
TCGAGGAACGGAATGGATGCCCTCGACCCCCATGCACGTCGCGCTTTACA
ACGCCTTCAAGTGGACGCCTCCGCAGTTCGGCCACGTACCTCTCCTCGTG
GACAAGTCGGGACAGAAGCTCAGCAAACGCAATGCGGATATCGACCTCAG
CTTCTTCAAGGACACCCAGGGCGTTTTCGCTGCAACCCTCGTGAACTTTG
CCGCTCTCCTGGGCTGGTCGCACACCCAGAAGTCGGATATCTTCAACCTT
GAAGAGCTGGAGCAACTCTTTAACCTCAAAATCACCCGCGGCAACACCGT
CGTGGCTTTTGAAAAGCTCTGGTTCCTCCAGAAAGCGCACGCCCAACGCT
TCGCTTCCACCGACGGACCCGAATTCACCGAGATGGTGACCAAGGTATCA
GAAGAAGTCGAGAAGACCTACCCAGCCGCGCAACTCAACCCCCTCCTCCA
ATCCCGTTCCCTACAAACATACATCGCCCCCCTCCTCCGCGCCGACGCCA
AATCCTACACCAACGCCGCAGACTTCACAACCCGCAACTCGACCTTCTTC
ACCCAATCCCTCAACCGATCCCCTTACACCCCCTCATCTACGACCAACAC
AATCCCTTTGACATCCCTCCACACCGCAAGCCTAGCACTCACCCTCGTCC
CCCCGGCACACTGGACCCTCGAAACCCACCGCGCAAACATAACCGCCTAC
GACGGCACCACCCCCGACGACTCCTCTCCCACTGACACCCTCACGCCCGA
AGAATCCACCAAAGCGCAGAAGGCAGCTGACAAAGCCTTCAAGAAGGAAC
TATACCACTACCTCCGCTGGGCATTGTCGGCTGGTGCACCGGGTCCTGGT
ATCCCAGAGACCATGGCTATTTTGGGTAGAGAGGAGACGGTGAGGAGAGT
ACAGGAGGCGAAGGAGTTGACGGCGCATTTGGTGCCGGGGCCGACGAGAC
GGGTTAAGCAGGGAGTGGAGAGTTTGGGTGAGGATCGGTCTTGGATGGGG
TCGTTGGCTCCTTCTTCTGGGTCTTCTTAGATGCTCAGGCGCCCAACAGC
CCCCACCATCTGGGCCCGTCGTCCCTGGGTCTGCACCCAATGTCAAGCCC
GGTATTCCTCCGTCGCGCCGGGCTCGAATCTCCGCGCTGGCAATAACAAC
AATACCATCAACAAGAAAACTAAATTGCCTGACTCGCCGGCGAGGACTCG
ATTCGCACCGTCTCCGACCGGCTACCTTCATTTGGGATCTCTGCGGACGG
CTTTGTTCAATTACCTTTTGGCGAAGCGCACGGGAGGACAGTTCTTGCTG
CGCATTGAGGATACGGATCAGAAACGTACAATTCCGGATGCTGAGCAGCG
GCTTTATGATGATCTTCGGTGGGCTGGATTGCACTGGGATGAAGGTCCGG
TTGTCGGTGGTCCGTACGGTCCTTACAGACAGTCCGAACGAACCGCCATC
TACCGCTCCCACGCGCAGGAACTGATCGAGAACGGCCACGCCTACCGCTG
CTTCTGCTCCGCCGATCGATTGGACGCTTTCGCCAGGCATCGCAGCCAAG
TTGGACTGCCGGCCGGTTACGATAGGAAATGCGGGGAGGTCTCTGCGGAG
GAGTCGGAAGAGAGGGCGGCCAAGGGTGAAGCGCATGTCGTTCGACTGAA
GGTGGAAGGATACCCTATGTTCAACGATCTGGTGTACGGCAAGACGGGCC
AGAACCGCTCGCCGAACAAGTTGGATTTGATCGAGCGTGTCTATGACGAT
CCCATTCTGATCAAGTCCGACGGACACCCGACCTATCATCTGGCGAACGT
GGTGGATGATCATCTCATGAAGATCACCCATGTCATTCGAGGAACGGAAT
GGATGCCCTCGACCCCCATGCACGTCGCGCTTTACAACGCCTTCAAGTGG
ACGCCTCCGCAGTTCGGCCACGTACCTCTCCTCGTGGACAAGTCGGGACA
GAAGCTCAGCAAACGCAATGCGGATATCGACCTCAGCTTCTTCAAGGACA
CCCAGGGCGTTTTCGCTGCAACCCTCGTGAACTTTGCCGCTCTCCTGGGC
TGGTCGCACACCCAGAAGTCGGATATCTTCAACCTTGAAGAGCTGGAGCA
ACTCTTTAACCTCAAAATCACCCGCGGCAACACCGTCGTGGCTTTTGAAA
AGCTCTGGTTCCTCCAGAAAGCGCACGCCCAACGCTTCGCTTCCACCGAC
GGACCCGAATTCACCGAGATGGTGACCAAGGTATCAGAAGAAGTCGAGAA
GACCTACCCAGCCGCGCAACTCAACCCCCTCCTCCAATCCCGTTCCCTAC
AAACATACATCGCCCCCCTCCTCCGCGCCGACGCCAAATCCTACACCAAC
GCCGCAGACTTCACAACCCGCAACTCGACCTTCTTCACCCAATCCCTCAA
CCGATCCCCTTACACCCCCTCATCTACGACCAACACAATCCCTTTGACAT
CCCTCCACACCGCAAGCCTAGCACTCACCCTCGTCCCCCCGGCACACTGG
ACCCTCGAAACCCACCGCGCAAACATAACCGCCTACGACGGCACCACCCC
CGACGACTCCTCTCCCACTGACACCCTCACGCCCGAAGAATCCACCAAAG
CGCAGAAGGCAGCTGACAAAGCCTTCAAGAAGGAACTATACCACTACCTC
CGCTGGGCATTGTCGGCTGGTGCACCGGGTCCTGGTATCCCAGAGACCAT
GGCTATTTTGGGTAGAGAGGAGACGGTGAGGAGAGTACAGGAGGCGAAGG
AGTTGACGGCGCATTTGGTGCCGGGGCCGACGAGACGGGTTAAGCAGGGA
GTGGAGAGTTTGGGTGAGGATCGGTCTTGGATGGGGTCGTTGGCTCCTTC
TTCTGGGTCTTCTTAGATGCTCAGGCGCCCAACAGCCCCCACCATCTGGG
CCCGTCGTCCCTGGGTCTGCACCCAATGTCAAGCCCGGTATTCCTCCGTC
GCGCCGGGCTCGAATCTCCGCGCTGGCAATAACAACAATACCATCAACAA
GAAAACTAAATTGCCTGACTCGCCGGCGAGGACTCGATTCGCACCGTCTC
CGACCGGCTACCTTCATTTGGGATCTCTGCGGACGGCTTTGTTCAATTAC
CTTTTGGCGAAGCGCACGGGAGGACAGTTCTTGCTGCGCATTGAGGATAC
GGATCAGAAACGTACAATTCCGGATGCTGAGCAGCGGCTTTATGATGATC
TTCGGTGGGCTGGATTGCACTGGGATGAAGGTCCGGTTGTCGGTGGTCCG
TACGGTCCTTACAGACAGTCCGAACGAACCGCCATCTACCGCTCCCACGC
GCAGGAACTGATCGAGAACGGCCACGCCTACCGCTGCTTCTGCTCCGCCG
ATCGATTGGACGCTTTCGCCAGGCATCGCAGCCAAGTTGGACTGCCGGCC
GGTTACGATAGGAAATGCGGGGAGGTCTCTGCGGAGGAGTCGGAAGAGAG
GGCGGCCAAGGGTGAAGCGCATGTCGTTCGACTGAAGGTGGAAGGATACC
CTATGTTCAACGATCTGGTGTACGGCAAGACGGGCCAGAACCGCTCGCCG
AACAAGTTGGATTTGATCGAGCGTGTCTATGACGATCCCATTCTGATCAA
GTCCGACGGACACCCGACCTATCATCTGGCGAACGTGGTGGATGATCATC
TCATGAAGATCACCCATGTCATTCGAGGAACGGAATGGATGCCCTCGACC
CCCATGCACGTCGCGCTTTACAACGCCTTCAAGTGGACGCCTCCGCAGTT
CGGCCACGTACCTCTCCTCGTGGACAAGTCGGGACAGAAGCTCAGCAAAC
GCAATGCGGATATCGACCTCAGCTTCTTCAAGGACACCCAGGGCGTTTTC
GCTGCAACCCTCGTGAACTTTGCCGCTCTCCTGGGCTGGTCGCACACCCA
GAAGTCGGATATCTTCAACCTTGAAGAGCTGGAGCAACTCTTTAACCTCA
AAATCACCCGCGGCAACACCGTCGTGGCTTTTGAAAAGCTCTGGTTCCTC
CAGAAAGCGCACGCCCAACGCTTCGCTTCCACCGACGGACCCGAATTCAC
CGAGATGGTGACCAAGGTATCAGAAGAAGTCGAGAAGACCTACCCAGCCG
CGCAACTCAACCCCCTCCTCCAATCCCGTTCCCTACAAACATACATCGCC
CCCCTCCTCCGCGCCGACGCCAAATCCTACACCAACGCCGCAGACTTCAC
AACCCGCAACTCGACCTTCTTCACCCAATCCCTCAACCGATCCCCTTACA
CCCCCTCATCTACGACCAACACAATCCCTTTGACATCCCTCCACACCGCA
AGCCTAGCACTCACCCTCGTCCCCCCGGCACACTGGACCCTCGAAACCCA
CCGCGCAAACATAACCGCCTACGACGGCACCACCCCCGACGACTCCTCTC
CCACTGACACCCTCACGCCCGAAGAATCCACCAAAGCGCAGAAGGCAGCT
GACAAAGCCTTCAAGAAGGAACTATACCACTACCTCCGCTGGGCATTGTC
GGCTGGTGCACCGGGTCCTGGTATCCCAGAGACCATGGCTATTTTGGGTA
GAGAGGAGACGGTGAGGAGAGTACAGGAGGCGAAGGAGTTGACGGCGCAT
TTGGTGCCGGGGCCGACGAGACGGGTTAAGCAGGGAGTGGAGAGTTTGGG
TGAGGATCGGTCTTGGATGGGGTCGTTGGCTCCTTCTTCTGGGTCTTCTT
AG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006424 | glutamyl-tRNA aminoacylation |
| GO:0043039 | tRNA aminoacylation |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0008270 | zinc ion binding |
| GO:0000049 | tRNA binding |
| GO:0000166 | nucleotide binding |
| GO:0004812 | aminoacyl-tRNA ligase activity |
| GO:0004818 | glutamate-tRNA ligase activity |
| GO:0005524 | ATP 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:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| InterPro | IPR008925 |
| InterPro | IPR033910 |
| InterPro | IPR014729 |
| InterPro | IPR020058 |
| InterPro | IPR004527 |
| InterPro | IPR000924 |
| PFAM | PF00749 |
| InterPro | IPR020751 |
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09260XH5 |
| 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 |
|---|
| MCQH01000282 | supercontig | MCQH01000282:315147..317370 + |
|
