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Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000019.1:2692784..2697198- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_39521-T1 ID=ASPNIDRAFT_39521-T1|Name=ASPNIDRAFT_39521-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=4415bp|location=Sequence derived from alignment at ACJE01000019.1:2692784..2697198- (Aspergillus niger ATCC 1015)
ATGCCTCAGCAGCACGCCGGCCGTTCTCCCCCTCGAACACCTCCCTCCGA
AGCCGTCAACGGAAAGCCTACAAGGAGAGGGAATCATCCGCGACCCTCTG
TCCGGGAGACCTTTCTAGATGACTTCAATGCAGCCGACAACACCAACGAG
AGCAATGAGTCCTGTGACGAGCGAGATCCTCACGACCTATCGCTGTCTCC
GAAGCATGCGGCCCGTACCTCCATCGTCGATAACATGCTCCTCTCCCTAG
ACCAGTTCGTGGCGGGTTCCTCTGTGCTGGATGACTACCGGCTATTCAAT
TCGGTTTTCGAAACGGACCTCTACGGCCACGGCTCACCGGACTCGTTAGC
CCAACGACGGTATCGTGGACATACCTTTTCGTCCTCCCTATCGTCAGAAG
TAGACGGCACATTTGAGGACGGCACGGCCCGCCATGCGTCCCAACTCCCG
CGAGGTCGTCGGAGTAACAGCAGCTCTAACTATCATTCCAGCCTGAGGAG
ATTTGGAAGCACACGCAGTCGGGAAGGCACCGGCTCACGCGGCCAGCTCT
ATGACTATCGGCCGAGTTCTACTGCGGCAGCAGGGGCTCATACTGCGAGA
AATGGGAGCAAAGGAAGTGCTTCCTCCCAGGTAGACTTCGGTCCGCCTCT
GCTACGTCGTCGAGCGGATTCAACCGGCGAGAGACGCTCGGCGAGCTTCG
ACTTTGGTACTCGGCCGCCTTTCATTCCCTTTTCCGAACCGGTTGCCGAC
TACGGTTCCTGGTCCTTTAGCGATTTTGACGCAGCCCCTACGCCAAGTAT
TCCTGGAGGCCCCAGTAAATACCACCCATCTTCGCAAGGGGACTATGCAG
GTTCGCTCAGCCTGCAGCAGTCACGGACGCCGGTGGCCTCGCGACGGAAC
AGTATCAAGTCTCCTCGTGCAAATTCTAACCGGAAGTCTCGCCCGGAGAA
CATTGGCACGGCCACTATCCGGAGCCGAGATCTCGACCTGGCGAATCTGG
GCGATGCAGGCTTAGAGCTTCCGCCTACAATTCCCTCCTCACTCGACCCG
CCTGCGCCCAGCCCAACAATCTCCTTCAACAAACCAATCTTTCCCCCGCC
GCCTGAACCAGCGCCGGCCAAGGAACGACCAGGTTTCTTTCGACGTGTCT
TTGGCTCCAAAGCTCCCACTTTCGGACCGTCCGATTACAGTCAATCTGAT
TCCCATTCCGCCCAAGAGACCGACACCAAAGATATTAAGAGCTGGAGACA
GCCGCTGAAGCACAGTGGGACAGGGCTCAATTCGGGCCGCGATGGAAACC
ATCAGGTGGTGACCAAAAAGTCGTCCTTCTTCCGCCGGCGGAAGAAGTCC
GTGGCTGAAAGTGCCCCGCCTCCGATCGTGCTTCCTCCGGAGCTGTCGGG
CTCCAGGGCAATGGAAATCATGAAGCCGGAGCCGAGTCCGGTCAGTAGCC
TGAAAAAGGTGATGAACCCGTATATTATGGATTCGAATGCATCCATGCCG
GACCAGGCCAATAAGCCCTCGCAGTCCCGGGCGGCGACAGATGATGCGGA
AGCCAAGAATCCAGGAACCACGTCAACGCACAATCCGCGAGGCAGCCTCC
TTACAACCTCCGGTCCCCCTAAGGCCAAATACAGTTTATATCCCGCAGTT
TCGTCCGCAAATAACAATGAGGCTACATTTTTAGGAAATAGTAGTGGAGA
TGAAGAGTCCGGATCGAAGTCTAATGGTCAGGATCCCGTCGCTCCTGTTG
ACCGCCAACCAGGTTCAAGGGCATCGCGGGATGGCGTGAGCTCGCGCGGC
AGTGATATGGACTCCGTGGATAAAGACCAGGTCTTTGCTTTACCAGGAGG
TTTGAAGCCACAGGAGACTGCTGTTTCCTCGCTTTCGCCCGTCATGGAGA
GCTTCTCTCAAATGAGCGCTAGCCCCACTCACAGTTCTGATGATGCTCCT
GAAGAAACCAAGGAAATTCCTGTCTCTGACGTACGCAAAGATGAGATTGT
TGATGGCACGAGCCGAATTTCTACCCCGGCTAATGGTCCGGGCGGTTCGC
CGCGGGCCTCCATTTCGGAAATGTCGAACTACTACACGGCATCTGAGAGT
GCCGCCATGGGCCCGACGGAGCCAAAACTTGCCGATCTTGCGGAGGCTAG
CCCGGATGATATTCCAGCTAGTGAGCCAACTAGTTCGGACAAAGAACAGG
CGCAGATGCTCTTTGATAGCCAGGATCAAGTCGTAGGGAATGAGCCGGCT
GCGGCTTGGCTGGGCGATCCGGACCGAGCCTTCGTCCGCAAGGCGTACAT
GGATCTCTTTGACTGGGCCAATCTGAACATCCTGGCAGCCCTTCGAAGTC
TGTGTAACCGACTGGTGTTGAAAGGAGAAACGCAACAAGTGGACCGAGTC
TTGGATGCCTTTTCCACGCGGTGGTGCGAGTGCAACCCACGCCACAGCTT
CAAAGCTTCTGGTTTGTCCACGCCTTTGACTCTGTCTCACTGCTTGATAT
CTCTCGATCTAACTGCTGTACAGATGTCGTGCACACCATTTGTTACTCGC
TTCTCCTGCTGAACACCGACTTGCACCTTGCCGATATCGAGCAGAAGATG
ACGAAGGCCCAGTTTGTCCGAAACACTATGCCGACAATTCATCGAGTGGC
GGCAGATGCTGCACCGGATGGCTTCTTTGACCAGCGCGATGCGAACAAGT
CAAAAGCCCAATCACAAGACCCACCATCCCTCGCCTCGAACTCCAGATCT
GCTACCACTGACGACCTTGAACGGAAAACTCCAAGTGCTGACAAGCCAAC
CAATGGCCCTACAAAGTTGGTAAATCGACTCTCACGGACGGATCTCTCGG
CCAAGATGATAAGCGATCCTGACAACGACACCGGTCCTCTCGTTAACACT
CCGTTCACCGGCACAATGAGAGCGTGGGAGCAACAAGTGGAAATGGTGCT
GCGAGACTTTTACACGTCGATTCAGAAGCAGAAGCTCCCGTTGCATGGTG
CCCAAGGGGAAAAGGAGCCGACGCGCTCGTCCTCAAACAACCTACTGGGC
CCTCACCCAGGTGGACTCCGCAGGAGCCCGAGTACAGTAAGCAAAAGTGG
CTCAGATATCTATCCACGCGGCCGCTCTGCCGATTCCCGTTATGGAACGG
CACGCTGGTCTTCCAAGCCCAGGTCTCGAGCCAGACTGTATCCACCTTCT
ACGATGGGCTCTAGCCGGACTAGCTTGGATGACCAGTCTTCCCTCTGGAG
TCCGTCGGCATCCAGTACGTGGAGCAAGTACTCTTCGGGGAAGTTGACCT
CTGCGTCGGTGGATTCTTTCAATTCAGATTACCCACGTGGGGATTATCAA
CAATCGATCGGCTTTGCCAATGCCTTGAGTCAAGCCATTATCCGTGAAGA
TTCGGCACATTCGATAGCCAGCTTCGAAGACGCCGAGCGGAACACGCCCC
TTCTGGAAGATGAGACTCTACAGCTTGCGGGCGCCCCCTGGGCTAAGGAA
GGAAGCCTCAAGCACAAGCATCACTTGGATTCGGTGGATAAGAGGGCTAA
AGACCGCAACTGGAATGAATGCTTTGCCGTCATCCAGCAAGGTTGGATGC
GCCTGTTCTCCTTCAACGCGTCCATGAAATCAGTACGGCAGAAGGCCAAG
CAACGGCATCCTGGCGGCGTCGTGGTGGGAGGAGGCAACTGGACGGAAAA
TGCGGAAGAAATCTGGAAGTTTCTTTTGCGTCAAACCATTGCCAGCGCGC
TGCCACCTCCGGGGTATTCCAAGTCTCGTCCGCATGTCTGGGCCCTGAGC
CTGCCCACGGGCGCCGTACATCTGTTCCAAGCCGGCACGCCAGAAATCGT
TCGGGAATTCGTGTCCAGCGCCAATTATTGGAGCGCGCGACTATCCAAGG
AGCCTTTGATCGGTGGCATCAGTAACATGGAGTATGGCTGGAGCGATGCA
GTCATTAACAGCGCCTTGATCTCGGCAGAGAGCAGCCGGACTCCTCCTTC
CTCGTCAGGGGCGCGACCGAGCATCCAGAGCTCGATCCGCAGCTCTATTG
ATCAGCAGGGGGTCCGGCCTCGACTGCCGGCAGATCGGGTGCACATTAGC
GATTGGGCCCCTCCGCAACAGAGCATGATGGCGTCAGCTCTTCCAGAAGA
TGAACAGTTGAAGGCCCTGCAGACGTATGTTAAGAATGTGGAGGAGGAAC
TGCAACGACATAATGAGCTTCGACCCGCCATGATCCTTGCCTTCTCGCCG
CGGCACCCCAATGCGGCCAAGGCGTTGGCCAACTGGGAGCGCAAGTCGTC
GTATCTGCTGCGGGAGATTGTGAAGTTCCGGACCTACATTGACTCGCTCT
CCTCGGCCTTGGAGCAGAAGAAACGAATCTATACCAACCGGGAAGAGAGC
ACTCCTGTCGAGTAA back to topCoding sequence (CDS) from alignment at ACJE01000019.1:2692784..2697198- >ASPNIDRAFT_39521-T1 ID=ASPNIDRAFT_39521-T1|Name=ASPNIDRAFT_39521-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=8706bp|location=Sequence derived from alignment at ACJE01000019.1:2692784..2697198- (Aspergillus niger ATCC 1015)
ATGTCGTGCACACCATTTGTTACTCGCTTCTCCTGCTGAACACCGACTTG
CACCTTGCCGATATCGAGCAGAAGATGACGAAGGCCCAGTTTGTCCGAAA
CACTATGCCGACAATTCATCGAGTGGCGGCAGATGCTGCACCGGATGGCT
TCTTTGACCAGCGCGATGCGAACAAGTCAAAAGCCCAATCACAAGACCCA
CCATCCCTCGCCTCGAACTCCAGATCTGCTACCACTGACGACCTTGAACG
GAAAACTCCAAGTGCTGACAAGCCAACCAATGGCCCTACAAAGTTGGTAA
ATCGACTCTCACGGACGGATCTCTCGGCCAAGATGATAAGCGATCCTGAC
AACGACACCGGTCCTCTCGTTAACACTCCGTTCACCGGCACAATGAGAGC
GTGGGAGCAACAAGTGGAAATGGTGCTGCGAGACTTTTACACGTCGATTC
AGAAGCAGAAGCTCCCGTTGCATGGTGCCCAAGGGGAAAAGGAGCCGACG
CGCTCGTCCTCAAACAACCTACTGGGCCCTCACCCAGGTGGACTCCGCAG
GAGCCCGAGTACAGTAAGCAAAAGTGGCTCAGATATCTATCCACGCGGCC
GCTCTGCCGATTCCCGTTATGGAACGGCACGCTGGTCTTCCAAGCCCAGG
TCTCGAGCCAGACTGTATCCACCTTCTACGATGGGCTCTAGCCGGACTAG
CTTGGATGACCAGTCTTCCCTCTGGAGTCCGTCGGCATCCAGTACGTGGA
GCAAGTACTCTTCGGGGAAGTTGACCTCTGCGTCGGTGGATTCTTTCAAT
TCAGATTACCCACGTGGGGATTATCAACAATCGATCGGCTTTGCCAATGC
CTTGAGTCAAGCCATTATCCGTGAAGATTCGGCACATTCGATAGCCAGCT
TCGAAGACGCCGAGCGGAACACGCCCCTTCTGGAAGATGAGACTCTACAG
CTTGCGGGCGCCCCCTGGGCTAAGGAAGGAAGCCTCAAGCACAAGCATCA
CTTGGATTCGGTGGATAAGAGGGCTAAAGACCGCAACTGGAATGAATGCT
TTGCCGTCATCCAGCAAGGTTGGATGCGCCTGTTCTCCTTCAACGCGTCC
ATGAAATCAGTACGGCAGAAGGCCAAGCAACGGCATCCTGGCGGCGTCGT
GGTGGGAGGAGGCAACTGGACGGAAAATGCGGAAGAAATCTGGAAGTTTC
TTTTGCGTCAAACCATTGCCAGCGCGCTGCCACCTCCGGGGTATTCCAAG
TCTCGTCCGCATGTCTGGGCCCTGAGCCTGCCCACGGGCGCCGTACATCT
GTTCCAAGCCGGCACGCCAGAAATCGTTCGGGAATTCGTGTCCAGCGCCA
ATTATTGGAGCGCGCGACTATCCAAGGAGCCTTTGATCGGTGGCATCAGT
AACATGGAGTATGGCTGGAGCGATGCAGTCATTAACAGCGCCTTGATCTC
GGCAGAGAGCAGCCGGACTCCTCCTTCCTCGTCAGGGGCGCGACCGAGCA
TCCAGAGCTCGATCCGCAGCTCTATTGATCAGCAGGGGGTCCGGCCTCGA
CTGCCGGCAGATCGGGTGCACATTAGCGATTGGGCCCCTCCGCAACAGAG
CATGATGGCGTCAGCTCTTCCAGAAGATGAACAGTTGAAGGCCCTGCAGA
CGTATGTTAAGAATGTGGAGGAGGAACTGCAACGACATAATGAGCTTCGA
CCCGCCATGATCCTTGCCTTCTCGCCGCGGCACCCCAATGCGGCCAAGGC
GTTGGCCAACTGGGAGCGCAAGTCGTCGTATCTGCTGCGGGAGATTGTGA
AGTTCCGGACCTACATTGACTCGCTCTCCTCGGCCTTGGAGCAGAAGAAA
CGAATCTATACCAACCGGGAAGAGAGCACTCCTGTCGAGTAAATGCCTCA
GCAGCACGCCGGCCGTTCTCCCCCTCGAACACCTCCCTCCGAAGCCGTCA
ACGGAAAGCCTACAAGGAGAGGGAATCATCCGCGACCCTCTGTCCGGGAG
ACCTTTCTAGATGACTTCAATGCAGCCGACAACACCAACGAGAGCAATGA
GTCCTGTGACGAGCGAGATCCTCACGACCTATCGCTGTCTCCGAAGCATG
CGGCCCGTACCTCCATCGTCGATAACATGCTCCTCTCCCTAGACCAGTTC
GTGGCGGGTTCCTCTGTGCTGGATGACTACCGGCTATTCAATTCGGTTTT
CGAAACGGACCTCTACGGCCACGGCTCACCGGACTCGTTAGCCCAACGAC
GGTATCGTGGACATACCTTTTCGTCCTCCCTATCGTCAGAAGTAGACGGC
ACATTTGAGGACGGCACGGCCCGCCATGCGTCCCAACTCCCGCGAGGTCG
TCGGAGTAACAGCAGCTCTAACTATCATTCCAGCCTGAGGAGATTTGGAA
GCACACGCAGTCGGGAAGGCACCGGCTCACGCGGCCAGCTCTATGACTAT
CGGCCGAGTTCTACTGCGGCAGCAGGGGCTCATACTGCGAGAAATGGGAG
CAAAGGAAGTGCTTCCTCCCAGGTAGACTTCGGTCCGCCTCTGCTACGTC
GTCGAGCGGATTCAACCGGCGAGAGACGCTCGGCGAGCTTCGACTTTGGT
ACTCGGCCGCCTTTCATTCCCTTTTCCGAACCGGTTGCCGACTACGGTTC
CTGGTCCTTTAGCGATTTTGACGCAGCCCCTACGCCAAGTATTCCTGGAG
GCCCCAGTAAATACCACCCATCTTCGCAAGGGGACTATGCAGGTTCGCTC
AGCCTGCAGCAGTCACGGACGCCGGTGGCCTCGCGACGGAACAGTATCAA
GTCTCCTCGTGCAAATTCTAACCGGAAGTCTCGCCCGGAGAACATTGGCA
CGGCCACTATCCGGAGCCGAGATCTCGACCTGGCGAATCTGGGCGATGCA
GGCTTAGAGCTTCCGCCTACAATTCCCTCCTCACTCGACCCGCCTGCGCC
CAGCCCAACAATCTCCTTCAACAAACCAATCTTTCCCCCGCCGCCTGAAC
CAGCGCCGGCCAAGGAACGACCAGGTTTCTTTCGACGTGTCTTTGGCTCC
AAAGCTCCCACTTTCGGACCGTCCGATTACAGTCAATCTGATTCCCATTC
CGCCCAAGAGACCGACACCAAAGATATTAAGAGCTGGAGACAGCCGCTGA
AGCACAGTGGGACAGGGCTCAATTCGGGCCGCGATGGAAACCATCAGGTG
GTGACCAAAAAGTCGTCCTTCTTCCGCCGGCGGAAGAAGTCCGTGGCTGA
AAGTGCCCCGCCTCCGATCGTGCTTCCTCCGGAGCTGTCGGGCTCCAGGG
CAATGGAAATCATGAAGCCGGAGCCGAGTCCGGTCAGTAGCCTGAAAAAG
GTGATGAACCCGTATATTATGGATTCGAATGCATCCATGCCGGACCAGGC
CAATAAGCCCTCGCAGTCCCGGGCGGCGACAGATGATGCGGAAGCCAAGA
ATCCAGGAACCACGTCAACGCACAATCCGCGAGGCAGCCTCCTTACAACC
TCCGGTCCCCCTAAGGCCAAATACAGTTTATATCCCGCAGTTTCGTCCGC
AAATAACAATGAGGCTACATTTTTAGGAAATAGTAGTGGAGATGAAGAGT
CCGGATCGAAGTCTAATGGTCAGGATCCCGTCGCTCCTGTTGACCGCCAA
CCAGGTTCAAGGGCATCGCGGGATGGCGTGAGCTCGCGCGGCAGTGATAT
GGACTCCGTGGATAAAGACCAGGTCTTTGCTTTACCAGGAGGTTTGAAGC
CACAGGAGACTGCTGTTTCCTCGCTTTCGCCCGTCATGGAGAGCTTCTCT
CAAATGAGCGCTAGCCCCACTCACAGTTCTGATGATGCTCCTGAAGAAAC
CAAGGAAATTCCTGTCTCTGACGTACGCAAAGATGAGATTGTTGATGGCA
CGAGCCGAATTTCTACCCCGGCTAATGGTCCGGGCGGTTCGCCGCGGGCC
TCCATTTCGGAAATGTCGAACTACTACACGGCATCTGAGAGTGCCGCCAT
GGGCCCGACGGAGCCAAAACTTGCCGATCTTGCGGAGGCTAGCCCGGATG
ATATTCCAGCTAGTGAGCCAACTAGTTCGGACAAAGAACAGGCGCAGATG
CTCTTTGATAGCCAGGATCAAGTCGTAGGGAATGAGCCGGCTGCGGCTTG
GCTGGGCGATCCGGACCGAGCCTTCGTCCGCAAGGCGTACATGGATCTCT
TTGACTGGGCCAATCTGAACATCCTGGCAGCCCTTCGAAGTCTGTGTAAC
CGACTGGTGTTGAAAGGAGAAACGCAACAAGTGGACCGAGTCTTGGATGC
CTTTTCCACGCGGTGGTGCGAGTGCAACCCACGCCACAGCTTCAAAGCTT
CTGATGTCGTGCACACCATTTGTTACTCGCTTCTCCTGCTGAACACCGAC
TTGCACCTTGCCGATATCGAGCAGAAGATGACGAAGGCCCAGTTTGTCCG
AAACACTATGCCGACAATTCATCGAGTGGCGGCAGATGCTGCACCGGATG
GCTTCTTTGACCAGCGCGATGCGAACAAGTCAAAAGCCCAATCACAAGAC
CCACCATCCCTCGCCTCGAACTCCAGATCTGCTACCACTGACGACCTTGA
ACGGAAAACTCCAAGTGCTGACAAGCCAACCAATGGCCCTACAAAGTTGG
TAAATCGACTCTCACGGACGGATCTCTCGGCCAAGATGATAAGCGATCCT
GACAACGACACCGGTCCTCTCGTTAACACTCCGTTCACCGGCACAATGAG
AGCGTGGGAGCAACAAGTGGAAATGGTGCTGCGAGACTTTTACACGTCGA
TTCAGAAGCAGAAGCTCCCGTTGCATGGTGCCCAAGGGGAAAAGGAGCCG
ACGCGCTCGTCCTCAAACAACCTACTGGGCCCTCACCCAGGTGGACTCCG
CAGGAGCCCGAGTACAGTAAGCAAAAGTGGCTCAGATATCTATCCACGCG
GCCGCTCTGCCGATTCCCGTTATGGAACGGCACGCTGGTCTTCCAAGCCC
AGGTCTCGAGCCAGACTGTATCCACCTTCTACGATGGGCTCTAGCCGGAC
TAGCTTGGATGACCAGTCTTCCCTCTGGAGTCCGTCGGCATCCAGTACGT
GGAGCAAGTACTCTTCGGGGAAGTTGACCTCTGCGTCGGTGGATTCTTTC
AATTCAGATTACCCACGTGGGGATTATCAACAATCGATCGGCTTTGCCAA
TGCCTTGAGTCAAGCCATTATCCGTGAAGATTCGGCACATTCGATAGCCA
GCTTCGAAGACGCCGAGCGGAACACGCCCCTTCTGGAAGATGAGACTCTA
CAGCTTGCGGGCGCCCCCTGGGCTAAGGAAGGAAGCCTCAAGCACAAGCA
TCACTTGGATTCGGTGGATAAGAGGGCTAAAGACCGCAACTGGAATGAAT
GCTTTGCCGTCATCCAGCAAGGTTGGATGCGCCTGTTCTCCTTCAACGCG
TCCATGAAATCAGTACGGCAGAAGGCCAAGCAACGGCATCCTGGCGGCGT
CGTGGTGGGAGGAGGCAACTGGACGGAAAATGCGGAAGAAATCTGGAAGT
TTCTTTTGCGTCAAACCATTGCCAGCGCGCTGCCACCTCCGGGGTATTCC
AAGTCTCGTCCGCATGTCTGGGCCCTGAGCCTGCCCACGGGCGCCGTACA
TCTGTTCCAAGCCGGCACGCCAGAAATCGTTCGGGAATTCGTGTCCAGCG
CCAATTATTGGAGCGCGCGACTATCCAAGGAGCCTTTGATCGGTGGCATC
AGTAACATGGAGTATGGCTGGAGCGATGCAGTCATTAACAGCGCCTTGAT
CTCGGCAGAGAGCAGCCGGACTCCTCCTTCCTCGTCAGGGGCGCGACCGA
GCATCCAGAGCTCGATCCGCAGCTCTATTGATCAGCAGGGGGTCCGGCCT
CGACTGCCGGCAGATCGGGTGCACATTAGCGATTGGGCCCCTCCGCAACA
GAGCATGATGGCGTCAGCTCTTCCAGAAGATGAACAGTTGAAGGCCCTGC
AGACGTATGTTAAGAATGTGGAGGAGGAACTGCAACGACATAATGAGCTT
CGACCCGCCATGATCCTTGCCTTCTCGCCGCGGCACCCCAATGCGGCCAA
GGCGTTGGCCAACTGGGAGCGCAAGTCGTCGTATCTGCTGCGGGAGATTG
TGAAGTTCCGGACCTACATTGACTCGCTCTCCTCGGCCTTGGAGCAGAAG
AAACGAATCTATACCAACCGGGAAGAGAGCACTCCTGTCGAGTAAATGCC
TCAGCAGCACGCCGGCCGTTCTCCCCCTCGAACACCTCCCTCCGAAGCCG
TCAACGGAAAGCCTACAAGGAGAGGGAATCATCCGCGACCCTCTGTCCGG
GAGACCTTTCTAGATGACTTCAATGCAGCCGACAACACCAACGAGAGCAA
TGAGTCCTGTGACGAGCGAGATCCTCACGACCTATCGCTGTCTCCGAAGC
ATGCGGCCCGTACCTCCATCGTCGATAACATGCTCCTCTCCCTAGACCAG
TTCGTGGCGGGTTCCTCTGTGCTGGATGACTACCGGCTATTCAATTCGGT
TTTCGAAACGGACCTCTACGGCCACGGCTCACCGGACTCGTTAGCCCAAC
GACGGTATCGTGGACATACCTTTTCGTCCTCCCTATCGTCAGAAGTAGAC
GGCACATTTGAGGACGGCACGGCCCGCCATGCGTCCCAACTCCCGCGAGG
TCGTCGGAGTAACAGCAGCTCTAACTATCATTCCAGCCTGAGGAGATTTG
GAAGCACACGCAGTCGGGAAGGCACCGGCTCACGCGGCCAGCTCTATGAC
TATCGGCCGAGTTCTACTGCGGCAGCAGGGGCTCATACTGCGAGAAATGG
GAGCAAAGGAAGTGCTTCCTCCCAGGTAGACTTCGGTCCGCCTCTGCTAC
GTCGTCGAGCGGATTCAACCGGCGAGAGACGCTCGGCGAGCTTCGACTTT
GGTACTCGGCCGCCTTTCATTCCCTTTTCCGAACCGGTTGCCGACTACGG
TTCCTGGTCCTTTAGCGATTTTGACGCAGCCCCTACGCCAAGTATTCCTG
GAGGCCCCAGTAAATACCACCCATCTTCGCAAGGGGACTATGCAGGTTCG
CTCAGCCTGCAGCAGTCACGGACGCCGGTGGCCTCGCGACGGAACAGTAT
CAAGTCTCCTCGTGCAAATTCTAACCGGAAGTCTCGCCCGGAGAACATTG
GCACGGCCACTATCCGGAGCCGAGATCTCGACCTGGCGAATCTGGGCGAT
GCAGGCTTAGAGCTTCCGCCTACAATTCCCTCCTCACTCGACCCGCCTGC
GCCCAGCCCAACAATCTCCTTCAACAAACCAATCTTTCCCCCGCCGCCTG
AACCAGCGCCGGCCAAGGAACGACCAGGTTTCTTTCGACGTGTCTTTGGC
TCCAAAGCTCCCACTTTCGGACCGTCCGATTACAGTCAATCTGATTCCCA
TTCCGCCCAAGAGACCGACACCAAAGATATTAAGAGCTGGAGACAGCCGC
TGAAGCACAGTGGGACAGGGCTCAATTCGGGCCGCGATGGAAACCATCAG
GTGGTGACCAAAAAGTCGTCCTTCTTCCGCCGGCGGAAGAAGTCCGTGGC
TGAAAGTGCCCCGCCTCCGATCGTGCTTCCTCCGGAGCTGTCGGGCTCCA
GGGCAATGGAAATCATGAAGCCGGAGCCGAGTCCGGTCAGTAGCCTGAAA
AAGGTGATGAACCCGTATATTATGGATTCGAATGCATCCATGCCGGACCA
GGCCAATAAGCCCTCGCAGTCCCGGGCGGCGACAGATGATGCGGAAGCCA
AGAATCCAGGAACCACGTCAACGCACAATCCGCGAGGCAGCCTCCTTACA
ACCTCCGGTCCCCCTAAGGCCAAATACAGTTTATATCCCGCAGTTTCGTC
CGCAAATAACAATGAGGCTACATTTTTAGGAAATAGTAGTGGAGATGAAG
AGTCCGGATCGAAGTCTAATGGTCAGGATCCCGTCGCTCCTGTTGACCGC
CAACCAGGTTCAAGGGCATCGCGGGATGGCGTGAGCTCGCGCGGCAGTGA
TATGGACTCCGTGGATAAAGACCAGGTCTTTGCTTTACCAGGAGGTTTGA
AGCCACAGGAGACTGCTGTTTCCTCGCTTTCGCCCGTCATGGAGAGCTTC
TCTCAAATGAGCGCTAGCCCCACTCACAGTTCTGATGATGCTCCTGAAGA
AACCAAGGAAATTCCTGTCTCTGACGTACGCAAAGATGAGATTGTTGATG
GCACGAGCCGAATTTCTACCCCGGCTAATGGTCCGGGCGGTTCGCCGCGG
GCCTCCATTTCGGAAATGTCGAACTACTACACGGCATCTGAGAGTGCCGC
CATGGGCCCGACGGAGCCAAAACTTGCCGATCTTGCGGAGGCTAGCCCGG
ATGATATTCCAGCTAGTGAGCCAACTAGTTCGGACAAAGAACAGGCGCAG
ATGCTCTTTGATAGCCAGGATCAAGTCGTAGGGAATGAGCCGGCTGCGGC
TTGGCTGGGCGATCCGGACCGAGCCTTCGTCCGCAAGGCGTACATGGATC
TCTTTGACTGGGCCAATCTGAACATCCTGGCAGCCCTTCGAAGTCTGTGT
AACCGACTGGTGTTGAAAGGAGAAACGCAACAAGTGGACCGAGTCTTGGA
TGCCTTTTCCACGCGGTGGTGCGAGTGCAACCCACGCCACAGCTTCAAAG
CTTCTG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0032012 | regulation of ARF protein signal transduction |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005086 | ARF guanyl-nucleotide exchange factor activity |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR035999 |
| DBxref | InterPro:IPR011993 |
| DBxref | InterPro:IPR023394 |
| DBxref | InterPro:IPR041681 |
| DBxref | InterPro:IPR000904 |
| DBxref | PFAM:PF01369 |
| DBxref | PFAM:PF15410 |
| 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 |
|---|
| ACJE01000019.1 | supercontig | ACJE01000019.1:2692784..2697198 - |
|
