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Sequences
The following sequences are available for this feature:
mRNA from alignment at An06:458401..462122+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CBS51388_004100-T1 ID=CBS51388_004100-T1|Name=CBS51388_004100-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=3722bp|location=Sequence derived from alignment at An06:458401..462122+ (Aspergillus niger CBS 513.88)
ATGGCAGCCGCCGCCGCCGCTGCGTCTGCAGCTGCGCTCGAGCAGGGCAC
GAAAAACACCATGAAACTCGAGAATGTCTGCCTCACATGCCCCTCTTTGT
CTCCTCAGAAAACCCCATATGACCTGGACTAAGCTGACCATTCATTGCCC
GCATAGACCGAGAAGAGAGATACCCTCATCGCCCTCGAGAAGAAGTACCA
GGCCCAATGGAAGGCAAACAAGGTCTTTGAGGTCGATGCCCCCTCCGAGA
CGGAGGTGCCTTTCGGCAGCATGTCCGCCGCTGAGCTCCGTGAGAAGCAC
CCCAAGTTCTTCGGAACCATGGCCTACCCCTACATGAACGGTACCCTCCA
CGCCGGTCACAGTTTCACTGCTAGCAAGGTCGAATTCATGACCGGTGTTG
CTCGTATGGAGGGCAAGAGGGCCCTTTTCCCCCTCGGATTCCACTGCACT
GGCATGCCCATCAAGGCCTGTGCCGACAAGCTTCGGGATGAAGTTGCCAA
GTTCGGCAAGAACTTCGAAGGCTACAGTGAAGAGTCTGAGGAGCAGGATA
AGGCTGCGGTTGCCGCTCCCACCCAGGAGGTTAAGGCTGAGCAGGAGAAG
TTCTCCGGAAAGAAGAGCAAGGCCGCCGCCAAGACCGTTAAGATGAAGTA
CCAGTTCCAGATCATGTTGGCTATTGGTATTCCCATTGAGGAGATCCACA
AGTTCGCCGATGCCGCTCACTGGCTCCAGCACTTCCCCCCTCTCGCCATT
CGTGATCTCGACAGCCTGGGTGCCCGTGTTGACTGGCGCAGACAGTTCGT
CACCACTGACGCTAACCCCTACTATGACGCCTTTGTGCGCTGGCAGATGA
ACCGCCTTCACGAGTTGGGCAAGATCCAGTACGGCAACCGTTACACCATC
TACTCTCCTAAGGACGGACAGCCTTGCATGGACCACGACCGCACTGAGGG
TGAGGGTATCGGTCCCCAGGAATACACCGCTATGAAGCTCAAGGTCAAAG
AGTGGGCCCCTGAGATCGCCGAACTGGTCAAGGGCAAGATTGAGGACGAC
GCTAATGTCTACTTCGTCCCCGCCACTCTGCGTCCGGAGACCATGTACGG
ACAGACCTGCTGCTTCCTTGGCCCCAAGATCACCTATGGTCTCTACAAGG
TCAAGGAGAAGGAATACTTCGTTGTCACCAAGAGGGCTGCCTGGAACATG
GCCTTCCAGGGCTACTTCTCCGATGGCGAGAAATTCCTTAAGTCCCAGGA
CCAACTGCCCCTTGTCGTTGAGGCTCCTGGAACCGCCTTTGTTGGTACTC
TCGTCAACGCTCCTCTCTCTTTCCACACTGAAGGTGTGCGCATCCTTCCC
ATGGAGGGAGTCTCCGCCAGCAAGGGTACCGGTGTCGTCACTTCCGTGCC
CTCGGATTCCCCCGATGATTACGCCACTCTGATGGATCTCGCGAAGAAGC
CGGAGTACTATGGTATCAAGAAGGAGTGGGCTGAGCTGGAGATCTTCCCT
CTCATTGAGACTCCCACGTACGGAAACCTCACTGCTCCCGCCCTGGTCAA
GCAGCTTAAGATCAACTCTCCCAAGGACGTTAACCAGCTTGCACAGGCCA
AGGAGCTGGCCTATGGTGAAGCTTTCTACAAGGGTACCATGATTGTTGGT
GAGTACAAGGGTCAGCCCGTGAGCGCTGTCAAGGAGAAGATCCGTAAGTC
TCTCTACGAGAGCGGAGATGCCTTCCCCTTCGCCGACCCCATGGGCAAGG
TCGTCAGTCGCAGTGGCGATGACTGTGTCGTTGCCTACCTCGGCCAGTGG
TTCCTGAACTACGGTGAGAACGATGCTGAGTGGCAGAAGACCACCCTGAA
CCACGTTGTGAACACCCTGAACACCTACTCGAGCGAAACCAAGAACGGTT
TCGAGAAGAACCTGTCTTGGCTCAACCGCTGGGCTTGCGCCAGAACCTAC
GGTCTGGGTTCGAAGCTGCCCTGGGACAAGCAGTTCCTTGTTGAGAGTTT
GAGTGACAGTACCGTCTACATGGCATACTACACCATCGCCCACTACCTGC
ACGGCGACCGCTACGGTAAGGAGCCTGGTTCCCTGAACGTGAAGGCCGAG
CAGATGATCGACGAAGTCTGGGACTACATCTTCACCAGACGTGAGCTTAG
CGATGAGCTTGTTTCCAAGAGCGGTATCAGCAAGGAGGCTCTGCAGAAGA
TGCGCAGAGAGTTCGAGTACTGGTACCCTCTGGACGTCCGTGTCTCCGGA
AAGGATCTCATCCAGAACCACTTGACCTTTTTCCTGTACATCCACGTCGC
CCTCTTCCCTCCTGAGTACTGGCCTCGCGGTGTCCGTGCTAACGGACACT
TGCTGCTCAACGGTGAGAAGATGAGCAAGAGTACGGGTAACTTCCTTACC
CTGAAGGATGCTGTCGACAAGTTCGGTGCCGATGCTACCCGTATTGCCTT
TGCCGATGCTGGTGATGGTATTGAGGACGCCAACTTCGAGGAGACCGTCG
CTAACAGCAACATCCTTCGTCTCCACACTCTCAAGGACTGGATGGAGGAA
GTTGTCAAGGACGAGACCCTGCGTACCGGTCCGGCCGATGCCTTCTGGGA
CAAGCTCTTTGACAACGAGCTCAACGGCCTTGTCCGTGAGACTAAGAAGC
ACTACCAGGAGTAAGTCACTTTGCTATCCCCGATAATCCTGCAACCACTC
GTCCACATGATGTTCGCATATTCTACGTATTTGCTACTTCAGAGCCTTTC
ACGGCCATGAGACAAACATCACCACATGCCTGATGGACAACTTATTAAAC
AATACCGTTTTGCTGCATTTGGCTTCTACTTGGAATTTTACGAGAAGCTA
ACTGTACTTTTAGCACCAACTTCAAGCTCGCCCTGAAGTCTGGTCTGTAC
GACCTGGTCAGCGCCCGTGACTTCTACCGTGAAGCCACCACCACTGCCGG
CATCGGCATGCACCGTGACGTCGTCCTCCGCTACATCGAGCTGCAGGCAC
TGATGATGGCCGTCATTGCTCCTCACTGGTCCGAGCACATCTGGCTCGAG
ATTCTGAAGAAGGTTCGTACCTACCCCCACAACACCACTTCATCCCACCA
CTACTAACGCCCCATCCAGCCCTCAACCATCCACCACGCCCGCTTCCCCG
AGGTCCCCGAGCTCTCCCTCGAGCTGTCCGCAGCCCTTGACTACGCCCGC
TCGACCACCTCCAGCATCACCTCCGCGGAGGCCAACTTCGTGAAGAAGCT
CTCCAAGGGCAAGCAGACTGCCTTCGACCCCCGCAAGCCCAAGAAGCTCA
GCATCTATGCGGCCAAGAAGTTCCCCGTCTGGCAGGAGAAGTACATCGAC
CTTGTGCGCGAAGCTTTCGACGCTGTCAGCATCTCCTTCAACGACAAGGA
GCTGAACGCCAAGGTCGGCAAGCTCGGCGAGATGAAGAAGGCCATGCCCT
TCGTCCAGAGACTCAAGAAGCGTCTCGTTGTCGACAAGGAAGTCCCCGAG
ACTGTCTTCGACCGTAAGCTGCCTTTCGATGAATTCGCTGTCCTCAGCGA
GATGGTTCCTGCTATTAAGCGCGTTACTGGCGCCAAGGAGTTGGAGATTG
TTGCTGTTGATGAGGGTGGTAAGACTGGTGAGGTTGTGGGTACTGGTGAG
AAGAGGGAGGGATTGCAGGCTGAGAATGCCGTTCCCGGTCAACCTTCTTT
CAACTTTGCCAATATTGAGTAG back to topCoding sequence (CDS) from alignment at An06:458401..462122+ >CBS51388_004100-T1 ID=CBS51388_004100-T1|Name=CBS51388_004100-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=13524bp|location=Sequence derived from alignment at An06:458401..462122+ (Aspergillus niger CBS 513.88)
ATGGCAGCCGCCGCCGCCGCTGCGTCTGCAGCTGCGCTCGAGCAGGGCAC
GAAAAACACCATGAAACTCGAGAATACCGAGAAGAGAGATACCCTCATCG
CCCTCGAGAAGAAGTACCAGGCCCAATGGAAGGCAAACAAGGTCTTTGAG
GTCGATGCCCCCTCCGAGACGGAGGTGCCTTTCGGCAGCATGTCCGCCGC
TGAGCTCCGTGAGAAGCACCCCAAGTTCTTCGGAACCATGGCCTACCCCT
ACATGAACGGTACCCTCCACGCCGGTCACAGTTTCACTGCTAGCAAGGTC
GAATTCATGACCGGTGTTGCTCGTATGGAGGGCAAGAGGGCCCTTTTCCC
CCTCGGATTCCACTGCACTGGCATGCCCATCAAGGCCTGTGCCGACAAGC
TTCGGGATGAAGTTGCCAAGTTCGGCAAGAACTTCGAAGGCTACAGTGAA
GAGTCTGAGGAGCAGGATAAGGCTGCGGTTGCCGCTCCCACCCAGGAGGT
TAAGGCTGAGCAGGAGAAGTTCTCCGGAAAGAAGAGCAAGGCCGCCGCCA
AGACCGTTAAGATGAAGTACCAGTTCCAGATCATGTTGGCTATTGGTATT
CCCATTGAGGAGATCCACAAGTTCGCCGATGCCGCTCACTGGCTCCAGCA
CTTCCCCCCTCTCGCCATTCGTGATCTCGACAGCCTGGGTGCCCGTGTTG
ACTGGCGCAGACAGTTCGTCACCACTGACGCTAACCCCTACTATGACGCC
TTTGTGCGCTGGCAGATGAACCGCCTTCACGAGTTGGGCAAGATCCAGTA
CGGCAACCGTTACACCATCTACTCTCCTAAGGACGGACAGCCTTGCATGG
ACCACGACCGCACTGAGGGTGAGGGTATCGGTCCCCAGGAATACACCGCT
ATGAAGCTCAAGGTCAAAGAGTGGGCCCCTGAGATCGCCGAACTGGTCAA
GGGCAAGATTGAGGACGACGCTAATGTCTACTTCGTCCCCGCCACTCTGC
GTCCGGAGACCATGTACGGACAGACCTGCTGCTTCCTTGGCCCCAAGATC
ACCTATGGTCTCTACAAGGTCAAGGAGAAGGAATACTTCGTTGTCACCAA
GAGGGCTGCCTGGAACATGGCCTTCCAGGGCTACTTCTCCGATGGCGAGA
AATTCCTTAAGTCCCAGGACCAACTGCCCCTTGTCGTTGAGGCTCCTGGA
ACCGCCTTTGTTGGTACTCTCGTCAACGCTCCTCTCTCTTTCCACACTGA
AGGTGTGCGCATCCTTCCCATGGAGGGAGTCTCCGCCAGCAAGGGTACCG
GTGTCGTCACTTCCGTGCCCTCGGATTCCCCCGATGATTACGCCACTCTG
ATGGATCTCGCGAAGAAGCCGGAGTACTATGGTATCAAGAAGGAGTGGGC
TGAGCTGGAGATCTTCCCTCTCATTGAGACTCCCACGTACGGAAACCTCA
CTGCTCCCGCCCTGGTCAAGCAGCTTAAGATCAACTCTCCCAAGGACGTT
AACCAGCTTGCACAGGCCAAGGAGCTGGCCTATGGTGAAGCTTTCTACAA
GGGTACCATGATTGTTGGTGAGTACAAGGGTCAGCCCGTGAGCGCTGTCA
AGGAGAAGATCCGTAAGTCTCTCTACGAGAGCGGAGATGCCTTCCCCTTC
GCCGACCCCATGGGCAAGGTCGTCAGTCGCAGTGGCGATGACTGTGTCGT
TGCCTACCTCGGCCAGTGGTTCCTGAACTACGGTGAGAACGATGCTGAGT
GGCAGAAGACCACCCTGAACCACGTTGTGAACACCCTGAACACCTACTCG
AGCGAAACCAAGAACGGTTTCGAGAAGAACCTGTCTTGGCTCAACCGCTG
GGCTTGCGCCAGAACCTACGGTCTGGGTTCGAAGCTGCCCTGGGACAAGC
AGTTCCTTGTTGAGAGTTTGAGTGACAGTACCGTCTACATGGCATACTAC
ACCATCGCCCACTACCTGCACGGCGACCGCTACGGTAAGGAGCCTGGTTC
CCTGAACGTGAAGGCCGAGCAGATGATCGACGAAGTCTGGGACTACATCT
TCACCAGACGTGAGCTTAGCGATGAGCTTGTTTCCAAGAGCGGTATCAGC
AAGGAGGCTCTGCAGAAGATGCGCAGAGAGTTCGAGTACTGGTACCCTCT
GGACGTCCGTGTCTCCGGAAAGGATCTCATCCAGAACCACTTGACCTTTT
TCCTGTACATCCACGTCGCCCTCTTCCCTCCTGAGTACTGGCCTCGCGGT
GTCCGTGCTAACGGACACTTGCTGCTCAACGGTGAGAAGATGAGCAAGAG
TACGGGTAACTTCCTTACCCTGAAGGATGCTGTCGACAAGTTCGGTGCCG
ATGCTACCCGTATTGCCTTTGCCGATGCTGGTGATGGTATTGAGGACGCC
AACTTCGAGGAGACCGTCGCTAACAGCAACATCCTTCGTCTCCACACTCT
CAAGGACTGGATGGAGGAAGTTGTCAAGGACGAGACCCTGCGTACCGGTC
CGGCCGATGCCTTCTGGGACAAGCTCTTTGACAACGAGCTCAACGGCCTT
GTCCGTGAGACTAAGAAGCACTACCAGGACACCAACTTCAAGCTCGCCCT
GAAGTCTGGTCTGTACGACCTGGTCAGCGCCCGTGACTTCTACCGTGAAG
CCACCACCACTGCCGGCATCGGCATGCACCGTGACGTCGTCCTCCGCTAC
ATCGAGCTGCAGGCACTGATGATGGCCGTCATTGCTCCTCACTGGTCCGA
GCACATCTGGCTCGAGATTCTGAAGAAGCCCTCAACCATCCACCACGCCC
GCTTCCCCGAGGTCCCCGAGCTCTCCCTCGAGCTGTCCGCAGCCCTTGAC
TACGCCCGCTCGACCACCTCCAGCATCACCTCCGCGGAGGCCAACTTCGT
GAAGAAGCTCTCCAAGGGCAAGCAGACTGCCTTCGACCCCCGCAAGCCCA
AGAAGCTCAGCATCTATGCGGCCAAGAAGTTCCCCGTCTGGCAGGAGAAG
TACATCGACCTTGTGCGCGAAGCTTTCGACGCTGTCAGCATCTCCTTCAA
CGACAAGGAGCTGAACGCCAAGGTCGGCAAGCTCGGCGAGATGAAGAAGG
CCATGCCCTTCGTCCAGAGACTCAAGAAGCGTCTCGTTGTCGACAAGGAA
GTCCCCGAGACTGTCTTCGACCGTAAGCTGCCTTTCGATGAATTCGCTGT
CCTCAGCGAGATGGTTCCTGCTATTAAGCGCGTTACTGGCGCCAAGGAGT
TGGAGATTGTTGCTGTTGATGAGGGTGGTAAGACTGGTGAGGTTGTGGGT
ACTGGTGAGAAGAGGGAGGGATTGCAGGCTGAGAATGCCGTTCCCGGTCA
ACCTTCTTTCAACTTTGCCAATATTGAGTAGATGGCAGCCGCCGCCGCCG
CTGCGTCTGCAGCTGCGCTCGAGCAGGGCACGAAAAACACCATGAAACTC
GAGAATACCGAGAAGAGAGATACCCTCATCGCCCTCGAGAAGAAGTACCA
GGCCCAATGGAAGGCAAACAAGGTCTTTGAGGTCGATGCCCCCTCCGAGA
CGGAGGTGCCTTTCGGCAGCATGTCCGCCGCTGAGCTCCGTGAGAAGCAC
CCCAAGTTCTTCGGAACCATGGCCTACCCCTACATGAACGGTACCCTCCA
CGCCGGTCACAGTTTCACTGCTAGCAAGGTCGAATTCATGACCGGTGTTG
CTCGTATGGAGGGCAAGAGGGCCCTTTTCCCCCTCGGATTCCACTGCACT
GGCATGCCCATCAAGGCCTGTGCCGACAAGCTTCGGGATGAAGTTGCCAA
GTTCGGCAAGAACTTCGAAGGCTACAGTGAAGAGTCTGAGGAGCAGGATA
AGGCTGCGGTTGCCGCTCCCACCCAGGAGGTTAAGGCTGAGCAGGAGAAG
TTCTCCGGAAAGAAGAGCAAGGCCGCCGCCAAGACCGTTAAGATGAAGTA
CCAGTTCCAGATCATGTTGGCTATTGGTATTCCCATTGAGGAGATCCACA
AGTTCGCCGATGCCGCTCACTGGCTCCAGCACTTCCCCCCTCTCGCCATT
CGTGATCTCGACAGCCTGGGTGCCCGTGTTGACTGGCGCAGACAGTTCGT
CACCACTGACGCTAACCCCTACTATGACGCCTTTGTGCGCTGGCAGATGA
ACCGCCTTCACGAGTTGGGCAAGATCCAGTACGGCAACCGTTACACCATC
TACTCTCCTAAGGACGGACAGCCTTGCATGGACCACGACCGCACTGAGGG
TGAGGGTATCGGTCCCCAGGAATACACCGCTATGAAGCTCAAGGTCAAAG
AGTGGGCCCCTGAGATCGCCGAACTGGTCAAGGGCAAGATTGAGGACGAC
GCTAATGTCTACTTCGTCCCCGCCACTCTGCGTCCGGAGACCATGTACGG
ACAGACCTGCTGCTTCCTTGGCCCCAAGATCACCTATGGTCTCTACAAGG
TCAAGGAGAAGGAATACTTCGTTGTCACCAAGAGGGCTGCCTGGAACATG
GCCTTCCAGGGCTACTTCTCCGATGGCGAGAAATTCCTTAAGTCCCAGGA
CCAACTGCCCCTTGTCGTTGAGGCTCCTGGAACCGCCTTTGTTGGTACTC
TCGTCAACGCTCCTCTCTCTTTCCACACTGAAGGTGTGCGCATCCTTCCC
ATGGAGGGAGTCTCCGCCAGCAAGGGTACCGGTGTCGTCACTTCCGTGCC
CTCGGATTCCCCCGATGATTACGCCACTCTGATGGATCTCGCGAAGAAGC
CGGAGTACTATGGTATCAAGAAGGAGTGGGCTGAGCTGGAGATCTTCCCT
CTCATTGAGACTCCCACGTACGGAAACCTCACTGCTCCCGCCCTGGTCAA
GCAGCTTAAGATCAACTCTCCCAAGGACGTTAACCAGCTTGCACAGGCCA
AGGAGCTGGCCTATGGTGAAGCTTTCTACAAGGGTACCATGATTGTTGGT
GAGTACAAGGGTCAGCCCGTGAGCGCTGTCAAGGAGAAGATCCGTAAGTC
TCTCTACGAGAGCGGAGATGCCTTCCCCTTCGCCGACCCCATGGGCAAGG
TCGTCAGTCGCAGTGGCGATGACTGTGTCGTTGCCTACCTCGGCCAGTGG
TTCCTGAACTACGGTGAGAACGATGCTGAGTGGCAGAAGACCACCCTGAA
CCACGTTGTGAACACCCTGAACACCTACTCGAGCGAAACCAAGAACGGTT
TCGAGAAGAACCTGTCTTGGCTCAACCGCTGGGCTTGCGCCAGAACCTAC
GGTCTGGGTTCGAAGCTGCCCTGGGACAAGCAGTTCCTTGTTGAGAGTTT
GAGTGACAGTACCGTCTACATGGCATACTACACCATCGCCCACTACCTGC
ACGGCGACCGCTACGGTAAGGAGCCTGGTTCCCTGAACGTGAAGGCCGAG
CAGATGATCGACGAAGTCTGGGACTACATCTTCACCAGACGTGAGCTTAG
CGATGAGCTTGTTTCCAAGAGCGGTATCAGCAAGGAGGCTCTGCAGAAGA
TGCGCAGAGAGTTCGAGTACTGGTACCCTCTGGACGTCCGTGTCTCCGGA
AAGGATCTCATCCAGAACCACTTGACCTTTTTCCTGTACATCCACGTCGC
CCTCTTCCCTCCTGAGTACTGGCCTCGCGGTGTCCGTGCTAACGGACACT
TGCTGCTCAACGGTGAGAAGATGAGCAAGAGTACGGGTAACTTCCTTACC
CTGAAGGATGCTGTCGACAAGTTCGGTGCCGATGCTACCCGTATTGCCTT
TGCCGATGCTGGTGATGGTATTGAGGACGCCAACTTCGAGGAGACCGTCG
CTAACAGCAACATCCTTCGTCTCCACACTCTCAAGGACTGGATGGAGGAA
GTTGTCAAGGACGAGACCCTGCGTACCGGTCCGGCCGATGCCTTCTGGGA
CAAGCTCTTTGACAACGAGCTCAACGGCCTTGTCCGTGAGACTAAGAAGC
ACTACCAGGACACCAACTTCAAGCTCGCCCTGAAGTCTGGTCTGTACGAC
CTGGTCAGCGCCCGTGACTTCTACCGTGAAGCCACCACCACTGCCGGCAT
CGGCATGCACCGTGACGTCGTCCTCCGCTACATCGAGCTGCAGGCACTGA
TGATGGCCGTCATTGCTCCTCACTGGTCCGAGCACATCTGGCTCGAGATT
CTGAAGAAGCCCTCAACCATCCACCACGCCCGCTTCCCCGAGGTCCCCGA
GCTCTCCCTCGAGCTGTCCGCAGCCCTTGACTACGCCCGCTCGACCACCT
CCAGCATCACCTCCGCGGAGGCCAACTTCGTGAAGAAGCTCTCCAAGGGC
AAGCAGACTGCCTTCGACCCCCGCAAGCCCAAGAAGCTCAGCATCTATGC
GGCCAAGAAGTTCCCCGTCTGGCAGGAGAAGTACATCGACCTTGTGCGCG
AAGCTTTCGACGCTGTCAGCATCTCCTTCAACGACAAGGAGCTGAACGCC
AAGGTCGGCAAGCTCGGCGAGATGAAGAAGGCCATGCCCTTCGTCCAGAG
ACTCAAGAAGCGTCTCGTTGTCGACAAGGAAGTCCCCGAGACTGTCTTCG
ACCGTAAGCTGCCTTTCGATGAATTCGCTGTCCTCAGCGAGATGGTTCCT
GCTATTAAGCGCGTTACTGGCGCCAAGGAGTTGGAGATTGTTGCTGTTGA
TGAGGGTGGTAAGACTGGTGAGGTTGTGGGTACTGGTGAGAAGAGGGAGG
GATTGCAGGCTGAGAATGCCGTTCCCGGTCAACCTTCTTTCAACTTTGCC
AATATTGAGTAGATGGCAGCCGCCGCCGCCGCTGCGTCTGCAGCTGCGCT
CGAGCAGGGCACGAAAAACACCATGAAACTCGAGAATACCGAGAAGAGAG
ATACCCTCATCGCCCTCGAGAAGAAGTACCAGGCCCAATGGAAGGCAAAC
AAGGTCTTTGAGGTCGATGCCCCCTCCGAGACGGAGGTGCCTTTCGGCAG
CATGTCCGCCGCTGAGCTCCGTGAGAAGCACCCCAAGTTCTTCGGAACCA
TGGCCTACCCCTACATGAACGGTACCCTCCACGCCGGTCACAGTTTCACT
GCTAGCAAGGTCGAATTCATGACCGGTGTTGCTCGTATGGAGGGCAAGAG
GGCCCTTTTCCCCCTCGGATTCCACTGCACTGGCATGCCCATCAAGGCCT
GTGCCGACAAGCTTCGGGATGAAGTTGCCAAGTTCGGCAAGAACTTCGAA
GGCTACAGTGAAGAGTCTGAGGAGCAGGATAAGGCTGCGGTTGCCGCTCC
CACCCAGGAGGTTAAGGCTGAGCAGGAGAAGTTCTCCGGAAAGAAGAGCA
AGGCCGCCGCCAAGACCGTTAAGATGAAGTACCAGTTCCAGATCATGTTG
GCTATTGGTATTCCCATTGAGGAGATCCACAAGTTCGCCGATGCCGCTCA
CTGGCTCCAGCACTTCCCCCCTCTCGCCATTCGTGATCTCGACAGCCTGG
GTGCCCGTGTTGACTGGCGCAGACAGTTCGTCACCACTGACGCTAACCCC
TACTATGACGCCTTTGTGCGCTGGCAGATGAACCGCCTTCACGAGTTGGG
CAAGATCCAGTACGGCAACCGTTACACCATCTACTCTCCTAAGGACGGAC
AGCCTTGCATGGACCACGACCGCACTGAGGGTGAGGGTATCGGTCCCCAG
GAATACACCGCTATGAAGCTCAAGGTCAAAGAGTGGGCCCCTGAGATCGC
CGAACTGGTCAAGGGCAAGATTGAGGACGACGCTAATGTCTACTTCGTCC
CCGCCACTCTGCGTCCGGAGACCATGTACGGACAGACCTGCTGCTTCCTT
GGCCCCAAGATCACCTATGGTCTCTACAAGGTCAAGGAGAAGGAATACTT
CGTTGTCACCAAGAGGGCTGCCTGGAACATGGCCTTCCAGGGCTACTTCT
CCGATGGCGAGAAATTCCTTAAGTCCCAGGACCAACTGCCCCTTGTCGTT
GAGGCTCCTGGAACCGCCTTTGTTGGTACTCTCGTCAACGCTCCTCTCTC
TTTCCACACTGAAGGTGTGCGCATCCTTCCCATGGAGGGAGTCTCCGCCA
GCAAGGGTACCGGTGTCGTCACTTCCGTGCCCTCGGATTCCCCCGATGAT
TACGCCACTCTGATGGATCTCGCGAAGAAGCCGGAGTACTATGGTATCAA
GAAGGAGTGGGCTGAGCTGGAGATCTTCCCTCTCATTGAGACTCCCACGT
ACGGAAACCTCACTGCTCCCGCCCTGGTCAAGCAGCTTAAGATCAACTCT
CCCAAGGACGTTAACCAGCTTGCACAGGCCAAGGAGCTGGCCTATGGTGA
AGCTTTCTACAAGGGTACCATGATTGTTGGTGAGTACAAGGGTCAGCCCG
TGAGCGCTGTCAAGGAGAAGATCCGTAAGTCTCTCTACGAGAGCGGAGAT
GCCTTCCCCTTCGCCGACCCCATGGGCAAGGTCGTCAGTCGCAGTGGCGA
TGACTGTGTCGTTGCCTACCTCGGCCAGTGGTTCCTGAACTACGGTGAGA
ACGATGCTGAGTGGCAGAAGACCACCCTGAACCACGTTGTGAACACCCTG
AACACCTACTCGAGCGAAACCAAGAACGGTTTCGAGAAGAACCTGTCTTG
GCTCAACCGCTGGGCTTGCGCCAGAACCTACGGTCTGGGTTCGAAGCTGC
CCTGGGACAAGCAGTTCCTTGTTGAGAGTTTGAGTGACAGTACCGTCTAC
ATGGCATACTACACCATCGCCCACTACCTGCACGGCGACCGCTACGGTAA
GGAGCCTGGTTCCCTGAACGTGAAGGCCGAGCAGATGATCGACGAAGTCT
GGGACTACATCTTCACCAGACGTGAGCTTAGCGATGAGCTTGTTTCCAAG
AGCGGTATCAGCAAGGAGGCTCTGCAGAAGATGCGCAGAGAGTTCGAGTA
CTGGTACCCTCTGGACGTCCGTGTCTCCGGAAAGGATCTCATCCAGAACC
ACTTGACCTTTTTCCTGTACATCCACGTCGCCCTCTTCCCTCCTGAGTAC
TGGCCTCGCGGTGTCCGTGCTAACGGACACTTGCTGCTCAACGGTGAGAA
GATGAGCAAGAGTACGGGTAACTTCCTTACCCTGAAGGATGCTGTCGACA
AGTTCGGTGCCGATGCTACCCGTATTGCCTTTGCCGATGCTGGTGATGGT
ATTGAGGACGCCAACTTCGAGGAGACCGTCGCTAACAGCAACATCCTTCG
TCTCCACACTCTCAAGGACTGGATGGAGGAAGTTGTCAAGGACGAGACCC
TGCGTACCGGTCCGGCCGATGCCTTCTGGGACAAGCTCTTTGACAACGAG
CTCAACGGCCTTGTCCGTGAGACTAAGAAGCACTACCAGGACACCAACTT
CAAGCTCGCCCTGAAGTCTGGTCTGTACGACCTGGTCAGCGCCCGTGACT
TCTACCGTGAAGCCACCACCACTGCCGGCATCGGCATGCACCGTGACGTC
GTCCTCCGCTACATCGAGCTGCAGGCACTGATGATGGCCGTCATTGCTCC
TCACTGGTCCGAGCACATCTGGCTCGAGATTCTGAAGAAGCCCTCAACCA
TCCACCACGCCCGCTTCCCCGAGGTCCCCGAGCTCTCCCTCGAGCTGTCC
GCAGCCCTTGACTACGCCCGCTCGACCACCTCCAGCATCACCTCCGCGGA
GGCCAACTTCGTGAAGAAGCTCTCCAAGGGCAAGCAGACTGCCTTCGACC
CCCGCAAGCCCAAGAAGCTCAGCATCTATGCGGCCAAGAAGTTCCCCGTC
TGGCAGGAGAAGTACATCGACCTTGTGCGCGAAGCTTTCGACGCTGTCAG
CATCTCCTTCAACGACAAGGAGCTGAACGCCAAGGTCGGCAAGCTCGGCG
AGATGAAGAAGGCCATGCCCTTCGTCCAGAGACTCAAGAAGCGTCTCGTT
GTCGACAAGGAAGTCCCCGAGACTGTCTTCGACCGTAAGCTGCCTTTCGA
TGAATTCGCTGTCCTCAGCGAGATGGTTCCTGCTATTAAGCGCGTTACTG
GCGCCAAGGAGTTGGAGATTGTTGCTGTTGATGAGGGTGGTAAGACTGGT
GAGGTTGTGGGTACTGGTGAGAAGAGGGAGGGATTGCAGGCTGAGAATGC
CGTTCCCGGTCAACCTTCTTTCAACTTTGCCAATATTGAGTAGATGGCAG
CCGCCGCCGCCGCTGCGTCTGCAGCTGCGCTCGAGCAGGGCACGAAAAAC
ACCATGAAACTCGAGAATACCGAGAAGAGAGATACCCTCATCGCCCTCGA
GAAGAAGTACCAGGCCCAATGGAAGGCAAACAAGGTCTTTGAGGTCGATG
CCCCCTCCGAGACGGAGGTGCCTTTCGGCAGCATGTCCGCCGCTGAGCTC
CGTGAGAAGCACCCCAAGTTCTTCGGAACCATGGCCTACCCCTACATGAA
CGGTACCCTCCACGCCGGTCACAGTTTCACTGCTAGCAAGGTCGAATTCA
TGACCGGTGTTGCTCGTATGGAGGGCAAGAGGGCCCTTTTCCCCCTCGGA
TTCCACTGCACTGGCATGCCCATCAAGGCCTGTGCCGACAAGCTTCGGGA
TGAAGTTGCCAAGTTCGGCAAGAACTTCGAAGGCTACAGTGAAGAGTCTG
AGGAGCAGGATAAGGCTGCGGTTGCCGCTCCCACCCAGGAGGTTAAGGCT
GAGCAGGAGAAGTTCTCCGGAAAGAAGAGCAAGGCCGCCGCCAAGACCGT
TAAGATGAAGTACCAGTTCCAGATCATGTTGGCTATTGGTATTCCCATTG
AGGAGATCCACAAGTTCGCCGATGCCGCTCACTGGCTCCAGCACTTCCCC
CCTCTCGCCATTCGTGATCTCGACAGCCTGGGTGCCCGTGTTGACTGGCG
CAGACAGTTCGTCACCACTGACGCTAACCCCTACTATGACGCCTTTGTGC
GCTGGCAGATGAACCGCCTTCACGAGTTGGGCAAGATCCAGTACGGCAAC
CGTTACACCATCTACTCTCCTAAGGACGGACAGCCTTGCATGGACCACGA
CCGCACTGAGGGTGAGGGTATCGGTCCCCAGGAATACACCGCTATGAAGC
TCAAGGTCAAAGAGTGGGCCCCTGAGATCGCCGAACTGGTCAAGGGCAAG
ATTGAGGACGACGCTAATGTCTACTTCGTCCCCGCCACTCTGCGTCCGGA
GACCATGTACGGACAGACCTGCTGCTTCCTTGGCCCCAAGATCACCTATG
GTCTCTACAAGGTCAAGGAGAAGGAATACTTCGTTGTCACCAAGAGGGCT
GCCTGGAACATGGCCTTCCAGGGCTACTTCTCCGATGGCGAGAAATTCCT
TAAGTCCCAGGACCAACTGCCCCTTGTCGTTGAGGCTCCTGGAACCGCCT
TTGTTGGTACTCTCGTCAACGCTCCTCTCTCTTTCCACACTGAAGGTGTG
CGCATCCTTCCCATGGAGGGAGTCTCCGCCAGCAAGGGTACCGGTGTCGT
CACTTCCGTGCCCTCGGATTCCCCCGATGATTACGCCACTCTGATGGATC
TCGCGAAGAAGCCGGAGTACTATGGTATCAAGAAGGAGTGGGCTGAGCTG
GAGATCTTCCCTCTCATTGAGACTCCCACGTACGGAAACCTCACTGCTCC
CGCCCTGGTCAAGCAGCTTAAGATCAACTCTCCCAAGGACGTTAACCAGC
TTGCACAGGCCAAGGAGCTGGCCTATGGTGAAGCTTTCTACAAGGGTACC
ATGATTGTTGGTGAGTACAAGGGTCAGCCCGTGAGCGCTGTCAAGGAGAA
GATCCGTAAGTCTCTCTACGAGAGCGGAGATGCCTTCCCCTTCGCCGACC
CCATGGGCAAGGTCGTCAGTCGCAGTGGCGATGACTGTGTCGTTGCCTAC
CTCGGCCAGTGGTTCCTGAACTACGGTGAGAACGATGCTGAGTGGCAGAA
GACCACCCTGAACCACGTTGTGAACACCCTGAACACCTACTCGAGCGAAA
CCAAGAACGGTTTCGAGAAGAACCTGTCTTGGCTCAACCGCTGGGCTTGC
GCCAGAACCTACGGTCTGGGTTCGAAGCTGCCCTGGGACAAGCAGTTCCT
TGTTGAGAGTTTGAGTGACAGTACCGTCTACATGGCATACTACACCATCG
CCCACTACCTGCACGGCGACCGCTACGGTAAGGAGCCTGGTTCCCTGAAC
GTGAAGGCCGAGCAGATGATCGACGAAGTCTGGGACTACATCTTCACCAG
ACGTGAGCTTAGCGATGAGCTTGTTTCCAAGAGCGGTATCAGCAAGGAGG
CTCTGCAGAAGATGCGCAGAGAGTTCGAGTACTGGTACCCTCTGGACGTC
CGTGTCTCCGGAAAGGATCTCATCCAGAACCACTTGACCTTTTTCCTGTA
CATCCACGTCGCCCTCTTCCCTCCTGAGTACTGGCCTCGCGGTGTCCGTG
CTAACGGACACTTGCTGCTCAACGGTGAGAAGATGAGCAAGAGTACGGGT
AACTTCCTTACCCTGAAGGATGCTGTCGACAAGTTCGGTGCCGATGCTAC
CCGTATTGCCTTTGCCGATGCTGGTGATGGTATTGAGGACGCCAACTTCG
AGGAGACCGTCGCTAACAGCAACATCCTTCGTCTCCACACTCTCAAGGAC
TGGATGGAGGAAGTTGTCAAGGACGAGACCCTGCGTACCGGTCCGGCCGA
TGCCTTCTGGGACAAGCTCTTTGACAACGAGCTCAACGGCCTTGTCCGTG
AGACTAAGAAGCACTACCAGGACACCAACTTCAAGCTCGCCCTGAAGTCT
GGTCTGTACGACCTGGTCAGCGCCCGTGACTTCTACCGTGAAGCCACCAC
CACTGCCGGCATCGGCATGCACCGTGACGTCGTCCTCCGCTACATCGAGC
TGCAGGCACTGATGATGGCCGTCATTGCTCCTCACTGGTCCGAGCACATC
TGGCTCGAGATTCTGAAGAAGCCCTCAACCATCCACCACGCCCGCTTCCC
CGAGGTCCCCGAGCTCTCCCTCGAGCTGTCCGCAGCCCTTGACTACGCCC
GCTCGACCACCTCCAGCATCACCTCCGCGGAGGCCAACTTCGTGAAGAAG
CTCTCCAAGGGCAAGCAGACTGCCTTCGACCCCCGCAAGCCCAAGAAGCT
CAGCATCTATGCGGCCAAGAAGTTCCCCGTCTGGCAGGAGAAGTACATCG
ACCTTGTGCGCGAAGCTTTCGACGCTGTCAGCATCTCCTTCAACGACAAG
GAGCTGAACGCCAAGGTCGGCAAGCTCGGCGAGATGAAGAAGGCCATGCC
CTTCGTCCAGAGACTCAAGAAGCGTCTCGTTGTCGACAAGGAAGTCCCCG
AGACTGTCTTCGACCGTAAGCTGCCTTTCGATGAATTCGCTGTCCTCAGC
GAGATGGTTCCTGCTATTAAGCGCGTTACTGGCGCCAAGGAGTTGGAGAT
TGTTGCTGTTGATGAGGGTGGTAAGACTGGTGAGGTTGTGGGTACTGGTG
AGAAGAGGGAGGGATTGCAGGCTGAGAATGCCGTTCCCGGTCAACCTTCT
TTCAACTTTGCCAATATTGAGTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006429 | leucyl-tRNA aminoacylation |
| GO:0006418 | tRNA aminoacylation for protein translation |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0002161 | aminoacyl-tRNA editing activity |
| GO:0004823 | leucine-tRNA ligase activity |
| GO:0000166 | nucleotide binding |
| GO:0004812 | aminoacyl-tRNA ligase activity |
| GO:0005524 | ATP binding |
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG092601KZ |
| DBxref | InterPro:IPR009008 |
| DBxref | InterPro:IPR009080 |
| DBxref | InterPro:IPR004493 |
| DBxref | InterPro:IPR013155 |
| DBxref | InterPro:IPR002300 |
| DBxref | PFAM:PF08264 |
| 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 |
|---|
| An06 | supercontig | An06:458401..462122 + |
|
