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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000020.1:715652..718670+ Legend: five_prime_UTRexonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_211926-T1 ID=ASPNIDRAFT_211926-T1|Name=ASPNIDRAFT_211926-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=3019bp|location=Sequence derived from alignment at ACJE01000020.1:715652..718670+ (Aspergillus niger ATCC 1015)
TGCCGTTCTTAAATGATATCTTGTCTGGCCTCGAGATGAAAACTGCTGGG
AAACTCAATTGATCTGCGATGCGGGACTAACCAGCTACCACCTAGATAGA
GACCGTTGTCAATATTCATCGCCTTTCTTTCCCTATATACAGCCAGATTT
ACGATCTTCTTCCTCATAACCTCAGTTTATGTGTCTGCCATTTAGTTGCA
TCTAACTTTGTCATATCGCCCCGTCACCAGGTCCCGGTGACCTTTTCTCG
TCTTAGAATATCCGCCGTTGTTGACCATGGACTCGTTCAATCCAGAAGAC
ATGGCTCCTAGTTTCTGCATCGGACAGCATGAAAGCAACCGCAAGAACCC
AATTACGGCTGCAATTGTACAGGCAGCCCACGAAAGCAATGTACGCATAT
TCTCGTGCTGAATTGCCGGCTCATATGCTAACTTGGATCACTCAGTATGA
CATGCTCACGGCACCAATTACCACGGAGGCGTTCCATTCTCGTATCCTCA
CCCTGTTGGGTTCCAACCCAAATGCTCCTCTCTCTCAGGCTGCAAATGGG
ACTTTGATGACGACCGATAATATACGCCCCCTCTTTATCCCTCCCTTAAC
TCCCGCGGATAGCCACTTGACACCGGATGAGACGATGTCGCAGATAGTTG
GAGTCACCAGCAGTTGGATCGATCTATGCTCTCCAGATCCCCTTATTGCG
GACATCTCGCGTCAAGTTTTCATGCGGGAGGTCGCTTATGCAGCATTTTG
TGGCCTTGGGTACCTCTTGATTCCTGGCCCGAAACTGCACCACGGAGATA
TCCATGCAGAAGGCGTGACTTACTATGCGAGAGCGATACAGGATGCTATC
AACCTCGCTCCGTACATTCAGTTTCACATTTGGATGCCTATGGTCGATAA
TCCCGATTTGGAAGTAGATGGAATAGCCGATTTGTCTCGCCTTGCTCGTC
AGGAGTTTCTTGGAGAGCCGCTCACAGGGCAGCCATCGCGAGTGGACCCT
TTTGGAACTTGGGATGCTTGGGACATCATACGAAGAACTTGTAAATACCA
TTCAAGGCTTGTCGTAGGTAAGATAATATCCCACGGTCTTAACGTTTTGC
GTCTCCTACCTGCGGCTAAGACAATGTTGTTAGCACTTTCAATGCCTAAA
CACCTCCCTCCCATGTCTGTGCAGTCTCGCTGGTACTCTGAGCCTGTTCA
TCTGCTCAGCTTTGATGCCAATACCTTCATCAAGAACCAGAAAGGCTATC
CCGTACTGTCGAAGACACACCAGGCGCTCATCGGTCGGTTTATGCGCCTG
CGGACATCCCCATGGATCCTTCTCTGCGACGTTGGCCCAATTCCAGGCGT
AGATGAGCAAGAAACTTCAGGAACAAAACTACCCGCTCTGTCCGGCTCTG
ATTATCCTAGCCTCACCCAGGCCGCGGTATCTAATAAGAAGCATTATGAC
CCGACCCCTCATCTTTCCTACCTCAGAAATCTACAGCAACGCCAGCCTTC
TAGGAGCGCCATGGAGAGATTCGGAGTTGGATACCAAGACTATCTCCAGG
CGCCCTTGCAGCCGTTGACAGTCAACCTGGAAAGCATTACCTACGAAGTG
TTCGAGAAAGATCCTATCAAATACAAATGGTATGAGCGCGCGGTTGCCAA
AGCCCTTAGCGACTGGGCAAGTGAAGGAAAGCCAACTTCAAACCCCGACG
GCCGGGTGGTTGTGGCTGTTGTTGGTGCGGGTCGAGGACCGCTCGTGTCA
CGGGCGCTCCAAGCCAGTGTAGAGACTGGGGTTAAGATTGACCTCTGGGC
AGTTGAGAAGAACACCAATGCTTTCGTCCTTCTCCAGCGCCACAATGAGC
AGAAATGGGGTGGACAAGTCAAGCTTGTTCAATCGGACATGCGAAGCTGG
AAAGGGCCGCAGGTTGAGAAGAAGGATGACTCGGGAGCACAAACAGGACC
GGTAGGGCAATCCCTTGGAATCGAGAATTCCTTACTGTACAATGCCAACG
AGGAGCAGGAAACGGCACAGACGTCCGACTCGGCAGCCGCGCCCCCCGTC
ACCGAGCTCGTTCCCACTACCATTGACATTCTGATCTCAGAGCTGCTGGG
CTCGTTCGGCGACAACGAGCTTTCGCCAGAATGCCTCGACGGCGTCACAC
ACCTACTCAATCCGGTTCATGGTATCTCCATTCCGGCTTCCTATACGGCT
CACCTCACGCCCATCGCGGCGCCGAAGCTCCATGCCGATGTCATGAATCA
ATCCATCTCTAACCCAGCAGCGCCGGAGACGCCGTATGTGGTCATGTTAC
ACGCGATCGACTTCCTCTCCACGAATCAGCCCTCCGCAGCTGCACTGATG
AACTCCAGTCATGGGGGCGCTAAATATAGTGCCCGAGACTCAATCTCCAC
GCTGCCGGGTTCTGGAGAGGCGCCCATCCCATTCGTGCAGACGACCTGGT
CTTTTGAGCATCCTAACCAGCATATACCCCCTCAGTTGCCGACCACGTCG
ACGATTTCCAACTCGCATAACGTGCGCCGGACCCGCCTGTCATTCCCAGT
CTACAACCGAGGAGTGTGCCATGGTTTGGCAGGGTACTTTGAAACGGTGT
TATACCGCGACATTGAGCTGTCGACCAATCCTGTCACGATGGATACCAAG
AGTGCCGACATGATCAGTTGGTTCCCGATCTACTTCCCATTGAAGGTCTG
CATTCCTACATACGTATAAGAACTACAACGCCGGATGCTAACAGTATGCT
ATCTACAGACTCCTCTAAATGTCCCCGACAATGGCGAAGTGGTGGTGACC
ATGTACCGGCAAACCGACGACCGCAAGGTATGGTATGAGTGGATGGTGGA
AGTATTTGCAGTGGAAGGCAACGAAGAAGAAGTGGTGATGAGTGGGGGTA
AAGGCACGTCTCCAGCGGCTGGCAATCTGCAGCGACAGCCCCAGCGATCA
CGTGGCGGGCGACGTGTCCGGGTTGGGACGAGCGAGCTGCACTCCAGCAT
CAAGGAGGGCTGCCTCATG back to topCoding sequence (CDS) from alignment at ACJE01000020.1:715652..718670+ >ASPNIDRAFT_211926-T1 ID=ASPNIDRAFT_211926-T1|Name=ASPNIDRAFT_211926-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=10236bp|location=Sequence derived from alignment at ACJE01000020.1:715652..718670+ (Aspergillus niger ATCC 1015)
ATGGACTCGTTCAATCCAGAAGACATGGCTCCTAGTTTCTGCATCGGACA
GCATGAAAGCAACCGCAAGAACCCAATTACGGCTGCAATTGTACAGGCAG
CCCACGAAAGCAATTATGACATGCTCACGGCACCAATTACCACGGAGGCG
TTCCATTCTCGTATCCTCACCCTGTTGGGTTCCAACCCAAATGCTCCTCT
CTCTCAGGCTGCAAATGGGACTTTGATGACGACCGATAATATACGCCCCC
TCTTTATCCCTCCCTTAACTCCCGCGGATAGCCACTTGACACCGGATGAG
ACGATGTCGCAGATAGTTGGAGTCACCAGCAGTTGGATCGATCTATGCTC
TCCAGATCCCCTTATTGCGGACATCTCGCGTCAAGTTTTCATGCGGGAGG
TCGCTTATGCAGCATTTTGTGGCCTTGGGTACCTCTTGATTCCTGGCCCG
AAACTGCACCACGGAGATATCCATGCAGAAGGCGTGACTTACTATGCGAG
AGCGATACAGGATGCTATCAACCTCGCTCCGTACATTCAGTTTCACATTT
GGATGCCTATGGTCGATAATCCCGATTTGGAAGTAGATGGAATAGCCGAT
TTGTCTCGCCTTGCTCGTCAGGAGTTTCTTGGAGAGCCGCTCACAGGGCA
GCCATCGCGAGTGGACCCTTTTGGAACTTGGGATGCTTGGGACATCATAC
GAAGAACTTGTAAATACCATTCAAGGCTTGTCGTAGCACTTTCAATGCCT
AAACACCTCCCTCCCATGTCTGTGCAGTCTCGCTGGTACTCTGAGCCTGT
TCATCTGCTCAGCTTTGATGCCAATACCTTCATCAAGAACCAGAAAGGCT
ATCCCGTACTGTCGAAGACACACCAGGCGCTCATCGGTCGGTTTATGCGC
CTGCGGACATCCCCATGGATCCTTCTCTGCGACGTTGGCCCAATTCCAGG
CGTAGATGAGCAAGAAACTTCAGGAACAAAACTACCCGCTCTGTCCGGCT
CTGATTATCCTAGCCTCACCCAGGCCGCGGTATCTAATAAGAAGCATTAT
GACCCGACCCCTCATCTTTCCTACCTCAGAAATCTACAGCAACGCCAGCC
TTCTAGGAGCGCCATGGAGAGATTCGGAGTTGGATACCAAGACTATCTCC
AGGCGCCCTTGCAGCCGTTGACAGTCAACCTGGAAAGCATTACCTACGAA
GTGTTCGAGAAAGATCCTATCAAATACAAATGGTATGAGCGCGCGGTTGC
CAAAGCCCTTAGCGACTGGGCAAGTGAAGGAAAGCCAACTTCAAACCCCG
ACGGCCGGGTGGTTGTGGCTGTTGTTGGTGCGGGTCGAGGACCGCTCGTG
TCACGGGCGCTCCAAGCCAGTGTAGAGACTGGGGTTAAGATTGACCTCTG
GGCAGTTGAGAAGAACACCAATGCTTTCGTCCTTCTCCAGCGCCACAATG
AGCAGAAATGGGGTGGACAAGTCAAGCTTGTTCAATCGGACATGCGAAGC
TGGAAAGGGCCGCAGGTTGAGAAGAAGGATGACTCGGGAGCACAAACAGG
ACCGGTAGGGCAATCCCTTGGAATCGAGAATTCCTTACTGTACAATGCCA
ACGAGGAGCAGGAAACGGCACAGACGTCCGACTCGGCAGCCGCGCCCCCC
GTCACCGAGCTCGTTCCCACTACCATTGACATTCTGATCTCAGAGCTGCT
GGGCTCGTTCGGCGACAACGAGCTTTCGCCAGAATGCCTCGACGGCGTCA
CACACCTACTCAATCCGGTTCATGGTATCTCCATTCCGGCTTCCTATACG
GCTCACCTCACGCCCATCGCGGCGCCGAAGCTCCATGCCGATGTCATGAA
TCAATCCATCTCTAACCCAGCAGCGCCGGAGACGCCGTATGTGGTCATGT
TACACGCGATCGACTTCCTCTCCACGAATCAGCCCTCCGCAGCTGCACTG
ATGAACTCCAGTCATGGGGGCGCTAAATATAGTGCCCGAGACTCAATCTC
CACGCTGCCGGGTTCTGGAGAGGCGCCCATCCCATTCGTGCAGACGACCT
GGTCTTTTGAGCATCCTAACCAGCATATACCCCCTCAGTTGCCGACCACG
TCGACGATTTCCAACTCGCATAACGTGCGCCGGACCCGCCTGTCATTCCC
AGTCTACAACCGAGGAGTGTGCCATGGTTTGGCAGGGTACTTTGAAACGG
TGTTATACCGCGACATTGAGCTGTCGACCAATCCTGTCACGATGGATACC
AAGAGTGCCGACATGATCAGTTGGTTCCCGATCTACTTCCCATTGAAGAC
TCCTCTAAATGTCCCCGACAATGGCGAAGTGGTGGTGACCATGTACCGGC
AAACCGACGACCGCAAGGTATGGTATGAGTGGATGGTGGAAGTATTTGCA
GTGGAAGGCAACGAAGAAGAAGTGGTGATGAGTGGGGGTAAAGGCACGTC
TCCAGCGGCTGGCAATCTGCAGCGACAGCCCCAGCGATCACGTGGCGGGC
GACGTGTCCGGGTTGGGACGAGCGAGCTGCACTCCAGCATCAAGGAGGGC
TGCCTCATGATGGACTCGTTCAATCCAGAAGACATGGCTCCTAGTTTCTG
CATCGGACAGCATGAAAGCAACCGCAAGAACCCAATTACGGCTGCAATTG
TACAGGCAGCCCACGAAAGCAATTATGACATGCTCACGGCACCAATTACC
ACGGAGGCGTTCCATTCTCGTATCCTCACCCTGTTGGGTTCCAACCCAAA
TGCTCCTCTCTCTCAGGCTGCAAATGGGACTTTGATGACGACCGATAATA
TACGCCCCCTCTTTATCCCTCCCTTAACTCCCGCGGATAGCCACTTGACA
CCGGATGAGACGATGTCGCAGATAGTTGGAGTCACCAGCAGTTGGATCGA
TCTATGCTCTCCAGATCCCCTTATTGCGGACATCTCGCGTCAAGTTTTCA
TGCGGGAGGTCGCTTATGCAGCATTTTGTGGCCTTGGGTACCTCTTGATT
CCTGGCCCGAAACTGCACCACGGAGATATCCATGCAGAAGGCGTGACTTA
CTATGCGAGAGCGATACAGGATGCTATCAACCTCGCTCCGTACATTCAGT
TTCACATTTGGATGCCTATGGTCGATAATCCCGATTTGGAAGTAGATGGA
ATAGCCGATTTGTCTCGCCTTGCTCGTCAGGAGTTTCTTGGAGAGCCGCT
CACAGGGCAGCCATCGCGAGTGGACCCTTTTGGAACTTGGGATGCTTGGG
ACATCATACGAAGAACTTGTAAATACCATTCAAGGCTTGTCGTAGCACTT
TCAATGCCTAAACACCTCCCTCCCATGTCTGTGCAGTCTCGCTGGTACTC
TGAGCCTGTTCATCTGCTCAGCTTTGATGCCAATACCTTCATCAAGAACC
AGAAAGGCTATCCCGTACTGTCGAAGACACACCAGGCGCTCATCGGTCGG
TTTATGCGCCTGCGGACATCCCCATGGATCCTTCTCTGCGACGTTGGCCC
AATTCCAGGCGTAGATGAGCAAGAAACTTCAGGAACAAAACTACCCGCTC
TGTCCGGCTCTGATTATCCTAGCCTCACCCAGGCCGCGGTATCTAATAAG
AAGCATTATGACCCGACCCCTCATCTTTCCTACCTCAGAAATCTACAGCA
ACGCCAGCCTTCTAGGAGCGCCATGGAGAGATTCGGAGTTGGATACCAAG
ACTATCTCCAGGCGCCCTTGCAGCCGTTGACAGTCAACCTGGAAAGCATT
ACCTACGAAGTGTTCGAGAAAGATCCTATCAAATACAAATGGTATGAGCG
CGCGGTTGCCAAAGCCCTTAGCGACTGGGCAAGTGAAGGAAAGCCAACTT
CAAACCCCGACGGCCGGGTGGTTGTGGCTGTTGTTGGTGCGGGTCGAGGA
CCGCTCGTGTCACGGGCGCTCCAAGCCAGTGTAGAGACTGGGGTTAAGAT
TGACCTCTGGGCAGTTGAGAAGAACACCAATGCTTTCGTCCTTCTCCAGC
GCCACAATGAGCAGAAATGGGGTGGACAAGTCAAGCTTGTTCAATCGGAC
ATGCGAAGCTGGAAAGGGCCGCAGGTTGAGAAGAAGGATGACTCGGGAGC
ACAAACAGGACCGGTAGGGCAATCCCTTGGAATCGAGAATTCCTTACTGT
ACAATGCCAACGAGGAGCAGGAAACGGCACAGACGTCCGACTCGGCAGCC
GCGCCCCCCGTCACCGAGCTCGTTCCCACTACCATTGACATTCTGATCTC
AGAGCTGCTGGGCTCGTTCGGCGACAACGAGCTTTCGCCAGAATGCCTCG
ACGGCGTCACACACCTACTCAATCCGGTTCATGGTATCTCCATTCCGGCT
TCCTATACGGCTCACCTCACGCCCATCGCGGCGCCGAAGCTCCATGCCGA
TGTCATGAATCAATCCATCTCTAACCCAGCAGCGCCGGAGACGCCGTATG
TGGTCATGTTACACGCGATCGACTTCCTCTCCACGAATCAGCCCTCCGCA
GCTGCACTGATGAACTCCAGTCATGGGGGCGCTAAATATAGTGCCCGAGA
CTCAATCTCCACGCTGCCGGGTTCTGGAGAGGCGCCCATCCCATTCGTGC
AGACGACCTGGTCTTTTGAGCATCCTAACCAGCATATACCCCCTCAGTTG
CCGACCACGTCGACGATTTCCAACTCGCATAACGTGCGCCGGACCCGCCT
GTCATTCCCAGTCTACAACCGAGGAGTGTGCCATGGTTTGGCAGGGTACT
TTGAAACGGTGTTATACCGCGACATTGAGCTGTCGACCAATCCTGTCACG
ATGGATACCAAGAGTGCCGACATGATCAGTTGGTTCCCGATCTACTTCCC
ATTGAAGACTCCTCTAAATGTCCCCGACAATGGCGAAGTGGTGGTGACCA
TGTACCGGCAAACCGACGACCGCAAGGTATGGTATGAGTGGATGGTGGAA
GTATTTGCAGTGGAAGGCAACGAAGAAGAAGTGGTGATGAGTGGGGGTAA
AGGCACGTCTCCAGCGGCTGGCAATCTGCAGCGACAGCCCCAGCGATCAC
GTGGCGGGCGACGTGTCCGGGTTGGGACGAGCGAGCTGCACTCCAGCATC
AAGGAGGGCTGCCTCATGATGGACTCGTTCAATCCAGAAGACATGGCTCC
TAGTTTCTGCATCGGACAGCATGAAAGCAACCGCAAGAACCCAATTACGG
CTGCAATTGTACAGGCAGCCCACGAAAGCAATTATGACATGCTCACGGCA
CCAATTACCACGGAGGCGTTCCATTCTCGTATCCTCACCCTGTTGGGTTC
CAACCCAAATGCTCCTCTCTCTCAGGCTGCAAATGGGACTTTGATGACGA
CCGATAATATACGCCCCCTCTTTATCCCTCCCTTAACTCCCGCGGATAGC
CACTTGACACCGGATGAGACGATGTCGCAGATAGTTGGAGTCACCAGCAG
TTGGATCGATCTATGCTCTCCAGATCCCCTTATTGCGGACATCTCGCGTC
AAGTTTTCATGCGGGAGGTCGCTTATGCAGCATTTTGTGGCCTTGGGTAC
CTCTTGATTCCTGGCCCGAAACTGCACCACGGAGATATCCATGCAGAAGG
CGTGACTTACTATGCGAGAGCGATACAGGATGCTATCAACCTCGCTCCGT
ACATTCAGTTTCACATTTGGATGCCTATGGTCGATAATCCCGATTTGGAA
GTAGATGGAATAGCCGATTTGTCTCGCCTTGCTCGTCAGGAGTTTCTTGG
AGAGCCGCTCACAGGGCAGCCATCGCGAGTGGACCCTTTTGGAACTTGGG
ATGCTTGGGACATCATACGAAGAACTTGTAAATACCATTCAAGGCTTGTC
GTAGCACTTTCAATGCCTAAACACCTCCCTCCCATGTCTGTGCAGTCTCG
CTGGTACTCTGAGCCTGTTCATCTGCTCAGCTTTGATGCCAATACCTTCA
TCAAGAACCAGAAAGGCTATCCCGTACTGTCGAAGACACACCAGGCGCTC
ATCGGTCGGTTTATGCGCCTGCGGACATCCCCATGGATCCTTCTCTGCGA
CGTTGGCCCAATTCCAGGCGTAGATGAGCAAGAAACTTCAGGAACAAAAC
TACCCGCTCTGTCCGGCTCTGATTATCCTAGCCTCACCCAGGCCGCGGTA
TCTAATAAGAAGCATTATGACCCGACCCCTCATCTTTCCTACCTCAGAAA
TCTACAGCAACGCCAGCCTTCTAGGAGCGCCATGGAGAGATTCGGAGTTG
GATACCAAGACTATCTCCAGGCGCCCTTGCAGCCGTTGACAGTCAACCTG
GAAAGCATTACCTACGAAGTGTTCGAGAAAGATCCTATCAAATACAAATG
GTATGAGCGCGCGGTTGCCAAAGCCCTTAGCGACTGGGCAAGTGAAGGAA
AGCCAACTTCAAACCCCGACGGCCGGGTGGTTGTGGCTGTTGTTGGTGCG
GGTCGAGGACCGCTCGTGTCACGGGCGCTCCAAGCCAGTGTAGAGACTGG
GGTTAAGATTGACCTCTGGGCAGTTGAGAAGAACACCAATGCTTTCGTCC
TTCTCCAGCGCCACAATGAGCAGAAATGGGGTGGACAAGTCAAGCTTGTT
CAATCGGACATGCGAAGCTGGAAAGGGCCGCAGGTTGAGAAGAAGGATGA
CTCGGGAGCACAAACAGGACCGGTAGGGCAATCCCTTGGAATCGAGAATT
CCTTACTGTACAATGCCAACGAGGAGCAGGAAACGGCACAGACGTCCGAC
TCGGCAGCCGCGCCCCCCGTCACCGAGCTCGTTCCCACTACCATTGACAT
TCTGATCTCAGAGCTGCTGGGCTCGTTCGGCGACAACGAGCTTTCGCCAG
AATGCCTCGACGGCGTCACACACCTACTCAATCCGGTTCATGGTATCTCC
ATTCCGGCTTCCTATACGGCTCACCTCACGCCCATCGCGGCGCCGAAGCT
CCATGCCGATGTCATGAATCAATCCATCTCTAACCCAGCAGCGCCGGAGA
CGCCGTATGTGGTCATGTTACACGCGATCGACTTCCTCTCCACGAATCAG
CCCTCCGCAGCTGCACTGATGAACTCCAGTCATGGGGGCGCTAAATATAG
TGCCCGAGACTCAATCTCCACGCTGCCGGGTTCTGGAGAGGCGCCCATCC
CATTCGTGCAGACGACCTGGTCTTTTGAGCATCCTAACCAGCATATACCC
CCTCAGTTGCCGACCACGTCGACGATTTCCAACTCGCATAACGTGCGCCG
GACCCGCCTGTCATTCCCAGTCTACAACCGAGGAGTGTGCCATGGTTTGG
CAGGGTACTTTGAAACGGTGTTATACCGCGACATTGAGCTGTCGACCAAT
CCTGTCACGATGGATACCAAGAGTGCCGACATGATCAGTTGGTTCCCGAT
CTACTTCCCATTGAAGACTCCTCTAAATGTCCCCGACAATGGCGAAGTGG
TGGTGACCATGTACCGGCAAACCGACGACCGCAAGGTATGGTATGAGTGG
ATGGTGGAAGTATTTGCAGTGGAAGGCAACGAAGAAGAAGTGGTGATGAG
TGGGGGTAAAGGCACGTCTCCAGCGGCTGGCAATCTGCAGCGACAGCCCC
AGCGATCACGTGGCGGGCGACGTGTCCGGGTTGGGACGAGCGAGCTGCAC
TCCAGCATCAAGGAGGGCTGCCTCATGATGGACTCGTTCAATCCAGAAGA
CATGGCTCCTAGTTTCTGCATCGGACAGCATGAAAGCAACCGCAAGAACC
CAATTACGGCTGCAATTGTACAGGCAGCCCACGAAAGCAATTATGACATG
CTCACGGCACCAATTACCACGGAGGCGTTCCATTCTCGTATCCTCACCCT
GTTGGGTTCCAACCCAAATGCTCCTCTCTCTCAGGCTGCAAATGGGACTT
TGATGACGACCGATAATATACGCCCCCTCTTTATCCCTCCCTTAACTCCC
GCGGATAGCCACTTGACACCGGATGAGACGATGTCGCAGATAGTTGGAGT
CACCAGCAGTTGGATCGATCTATGCTCTCCAGATCCCCTTATTGCGGACA
TCTCGCGTCAAGTTTTCATGCGGGAGGTCGCTTATGCAGCATTTTGTGGC
CTTGGGTACCTCTTGATTCCTGGCCCGAAACTGCACCACGGAGATATCCA
TGCAGAAGGCGTGACTTACTATGCGAGAGCGATACAGGATGCTATCAACC
TCGCTCCGTACATTCAGTTTCACATTTGGATGCCTATGGTCGATAATCCC
GATTTGGAAGTAGATGGAATAGCCGATTTGTCTCGCCTTGCTCGTCAGGA
GTTTCTTGGAGAGCCGCTCACAGGGCAGCCATCGCGAGTGGACCCTTTTG
GAACTTGGGATGCTTGGGACATCATACGAAGAACTTGTAAATACCATTCA
AGGCTTGTCGTAGCACTTTCAATGCCTAAACACCTCCCTCCCATGTCTGT
GCAGTCTCGCTGGTACTCTGAGCCTGTTCATCTGCTCAGCTTTGATGCCA
ATACCTTCATCAAGAACCAGAAAGGCTATCCCGTACTGTCGAAGACACAC
CAGGCGCTCATCGGTCGGTTTATGCGCCTGCGGACATCCCCATGGATCCT
TCTCTGCGACGTTGGCCCAATTCCAGGCGTAGATGAGCAAGAAACTTCAG
GAACAAAACTACCCGCTCTGTCCGGCTCTGATTATCCTAGCCTCACCCAG
GCCGCGGTATCTAATAAGAAGCATTATGACCCGACCCCTCATCTTTCCTA
CCTCAGAAATCTACAGCAACGCCAGCCTTCTAGGAGCGCCATGGAGAGAT
TCGGAGTTGGATACCAAGACTATCTCCAGGCGCCCTTGCAGCCGTTGACA
GTCAACCTGGAAAGCATTACCTACGAAGTGTTCGAGAAAGATCCTATCAA
ATACAAATGGTATGAGCGCGCGGTTGCCAAAGCCCTTAGCGACTGGGCAA
GTGAAGGAAAGCCAACTTCAAACCCCGACGGCCGGGTGGTTGTGGCTGTT
GTTGGTGCGGGTCGAGGACCGCTCGTGTCACGGGCGCTCCAAGCCAGTGT
AGAGACTGGGGTTAAGATTGACCTCTGGGCAGTTGAGAAGAACACCAATG
CTTTCGTCCTTCTCCAGCGCCACAATGAGCAGAAATGGGGTGGACAAGTC
AAGCTTGTTCAATCGGACATGCGAAGCTGGAAAGGGCCGCAGGTTGAGAA
GAAGGATGACTCGGGAGCACAAACAGGACCGGTAGGGCAATCCCTTGGAA
TCGAGAATTCCTTACTGTACAATGCCAACGAGGAGCAGGAAACGGCACAG
ACGTCCGACTCGGCAGCCGCGCCCCCCGTCACCGAGCTCGTTCCCACTAC
CATTGACATTCTGATCTCAGAGCTGCTGGGCTCGTTCGGCGACAACGAGC
TTTCGCCAGAATGCCTCGACGGCGTCACACACCTACTCAATCCGGTTCAT
GGTATCTCCATTCCGGCTTCCTATACGGCTCACCTCACGCCCATCGCGGC
GCCGAAGCTCCATGCCGATGTCATGAATCAATCCATCTCTAACCCAGCAG
CGCCGGAGACGCCGTATGTGGTCATGTTACACGCGATCGACTTCCTCTCC
ACGAATCAGCCCTCCGCAGCTGCACTGATGAACTCCAGTCATGGGGGCGC
TAAATATAGTGCCCGAGACTCAATCTCCACGCTGCCGGGTTCTGGAGAGG
CGCCCATCCCATTCGTGCAGACGACCTGGTCTTTTGAGCATCCTAACCAG
CATATACCCCCTCAGTTGCCGACCACGTCGACGATTTCCAACTCGCATAA
CGTGCGCCGGACCCGCCTGTCATTCCCAGTCTACAACCGAGGAGTGTGCC
ATGGTTTGGCAGGGTACTTTGAAACGGTGTTATACCGCGACATTGAGCTG
TCGACCAATCCTGTCACGATGGATACCAAGAGTGCCGACATGATCAGTTG
GTTCCCGATCTACTTCCCATTGAAGACTCCTCTAAATGTCCCCGACAATG
GCGAAGTGGTGGTGACCATGTACCGGCAAACCGACGACCGCAAGGTATGG
TATGAGTGGATGGTGGAAGTATTTGCAGTGGAAGGCAACGAAGAAGAAGT
GGTGATGAGTGGGGGTAAAGGCACGTCTCCAGCGGCTGGCAATCTGCAGC
GACAGCCCCAGCGATCACGTGGCGGGCGACGTGTCCGGGTTGGGACGAGC
GAGCTGCACTCCAGCATCAAGGAGGGCTGCCTCATG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006479 | protein methylation |
| GO:0035246 | peptidyl-arginine N-methylation |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0008168 | methyltransferase activity |
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:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09260SAH |
| DBxref | InterPro:IPR029063 |
| DBxref | InterPro:IPR025799 |
| DBxref | InterPro:IPR007857 |
| DBxref | InterPro:IPR035247 |
| DBxref | InterPro:IPR035075 |
| DBxref | InterPro:IPR035248 |
| DBxref | PFAM:PF17285 |
| DBxref | PFAM:PF17286 |
| DBxref | PFAM:PF05185 |
| 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 |
|---|
| ACJE01000020.1 | supercontig | ACJE01000020.1:715652..718670 + |
|
