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Sequences
The following sequences are available for this feature:
mRNA from alignment at OGUI01000017.1:2225680..2228536- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC64974_102820-T1 ID=ATCC64974_102820-T1|Name=ATCC64974_102820-T1|organism=Aspergillus niger N402|type=mRNA|length=2857bp|location=Sequence derived from alignment at OGUI01000017.1:2225680..2228536- (Aspergillus niger N402)
ATGGCAACCAATGGCCATTTTGCCGCCATTGGCAACGGCAGCAGCGACAA
GACAGCATATGAGCACGGGGTGCAGGTCATCGACGAAAATAAGGAGTTCA
AGTAGGTTCTTCCGGTTGTCTATGAGTCTCAATACAAAGGTGGTTGTTTG
TGACGTTGGGGTCAAGTCTCAGGGAGTTTACGCAGAATGCGACTCTCCGT
CATCCGCATCACCTGTTCAGGGGCTTTTGAACGGCGCATCAGCTAACAAA
CACAATTACTCTAGTGCGAATCTGTCCAAGTATCTTACCTTAGAGGATGT
CACACCAGCCGGCTTCAATTATCACCTCATATCCGTCTTCGGCTCCCAGT
CGACGGGAAAGTCGACCTTGCTCAACCACCTTTTCGGCACCCAGTTCTCC
GTAATGTCAGAGTTGGAACGTCGTCAAACTACCAAGGGTATCTGGATGTC
CAAAAACAAGAATGGCGGCGACTCATCAATGGCCGACAACATCCTGGTTA
TGGATGTTGAGGGTACTGATGGTCGCGAACGTGGAGAGGACCAGGACTTT
GAGCGCAAAAGCGCCCTGTTTGCGCTTGCGACGAGTGAGGTCCTCATTGT
CAATATCTGGGAGCATCAGGTTGGATTGTATCAGGGTGCCAACATGGGCT
TGTTGAAGACCGTTTTTGAAGTTAACATGCAGCTTTTCCTGAAAGATAGG
GCGTACGTTTCGCATATTGTTCTACGTGTTGCTCATGCTTTTTGCTGACC
CTTAGCGTATAGTACCAGCCACCGTTCTCTTCTCTTCTTCGTCATTCGTG
ACTTTGTCGGCAACACGCCTCTCCAGAACCTGCAGCGGACACTGATGGAG
GATATGTCGCGCCTCTGGGACTCGATCTCTAAGCCTGCCGGCTTGGAACA
CTCTTCAGTGCATGATTACTTCGACTTTCAATTCTACGGTCTCCCACACA
AGAGCTACCAGCCAGAACAGTTTGTTGCGGAGACAAAGAAGCTGAGCCTG
CGTTTCCGTGAAGGACAGAAGGACCCTAGTTTGGATGCGCGCAAGGGCGA
GTTTTCCGATGGAGGCGTCTTCCTCCCCGAGTACCACCGTCGCATTCCCG
CGGACGGCTTTTCCCACTATGCGGAGGGAATTTGGGACCAGATTGTGAAC
AATAAGGATCTCGATCTCCCCACTCAGCAGGAACTGCTTGCGCAGTTCCG
CTGTGATGAAATTCTGCGGGAGGTCATGGTTGCATTTGACGAGGCGATCG
TTCCATTTGAGGATAAGCAGTCGCAGGCGGCTCGCCTCGGGGAACCGGAG
ATCCTCGGCGGCCTGGGAGCGGCGATGCGGGCCTCGCGGTCCAAGGCCTT
CAAGAGCTTCGAAACGGAAGCCAGTCGGTACCACAAAGGAGTTTACCAGC
GCAAACGCGCCGAGCTCGAGAGCAAGATCGATACTCGTTTGAAGGCTCTA
TTCCAGGGCCAGCTGGATGCGACCCATAAGTCTGGTATCACCGAGTTCAG
CGAGGCTGTGTCGGGTGCTGTCAAGGCCGGACAGAAGAAGGGCACTGGCT
ATGACTTCGCCGAAATCGTGAACGAGGAAGTGACCAAGGCAGTGCAGAAG
TTCAAGGAGGTTGCGCACGAAACGGCCGTGGAGGGCGCCACCTGGAGTGA
CTCTCAACAGCAGCTGACACTGTATGAGAAGGAACTGGCGGAAGTGAGCG
CACGGCTGCGTCGTGAGGAGATGCGACGACTGGCCAGCCGGGTCGAGCGT
TGGGTGCAGTCTCGCCTGGGCGAATCGGTTGGTCTGGAGTTCAATGCTCT
TGGGTCCGGACGGGCCGGAGGTGGCGCTCCGGAAGAGGGAGAGAAGCCTA
CGGAGAAGAAATTTTGGGACCGTGTATGGAATGTGTTTGTGGAGACCGTG
CTCGATGCCGAGCGCAGATTCACCGACCGCGCCAGTAGCTTCGACGCCAG
CCTAGAGGAGGTGGATGTTGGGCTGTGGCGGTTGCGCCGGAAGTCTTGGG
GTGTTTTGCGCGCAAAGATTGACGAAGAGATGGTTGAGGGCAATTTGCTG
CTGAAGCTGCGCGAGAACTTTGAGGACAAGTTCCGCTACGACGACGCTGG
TGTTCCCCGAATCTGGCGGCCAACCGATGATATTGAGGGCATCTACACCC
GTGCGCGCGAGTCGACACTAACCCTGATTCCCCTTCTATCACGGTTCCGA
CTGGCGGAGACCTCTGCACCACCGCCACTGGATCGCTGGGTTGGGCACAC
GCCCAGCTCTGCGACAGCGGCCGATGAGGAGGACCTGCCGCCGATCGGTG
GAGTAGACGAAGAGGAGGGCAAGAGCTTGGAAGAGGAGATGACGATTCTC
AGCGAGTCTAAGCGGCAGGAGCTGACGGTGCGGTTCAAGAAGGCTGCGGA
TGGAGTGTACGTGGAGGCCAAACGCAGCGCCATCGGCGGCATGACGCAGG
TGCCCCTGTACTTTTATGGCATTCTTCTGGCGCTTGGTTGGAACGAGATT
GTGGCTGGTAAGTTTCGCTCTATGAATTTCGGATTCTGGGTTGATCATGG
CTAACTGTGCACAGTCCTTCGTAACCCTGCCTACTTCTTCCTCTTGTTTG
TGTGCCTCGTTGCAGGGTACGTGACGTACCAGCTCAATCTGTGGGGACCG
ATCATGAAGATGACGGAGGCTGCATCGAACCAGGCACTCGTGGAGGGCAA
GAAGCGACTGCGCGAGTTTCTCGAGTCTTCGGATACGGGACGACAGGCAA
TTGCGATGTCGACACCCGGCGGTGCTGGCCGGGGGGAGCAGGTGGAGATG
TCGCGCCTCAACAAGCAGGGAAAGACAACGGCCGAGGATGAGGACGGTGA
CTTGTAA back to topCoding sequence (CDS) from alignment at OGUI01000017.1:2225680..2228536- >ATCC64974_102820-T1 ID=ATCC64974_102820-T1|Name=ATCC64974_102820-T1|organism=Aspergillus niger N402|type=CDS|length=10308bp|location=Sequence derived from alignment at OGUI01000017.1:2225680..2228536- (Aspergillus niger N402)
TCCTTCGTAACCCTGCCTACTTCTTCCTCTTGTTTGTGTGCCTCGTTGCA
GGGTACGTGACGTACCAGCTCAATCTGTGGGGACCGATCATGAAGATGAC
GGAGGCTGCATCGAACCAGGCACTCGTGGAGGGCAAGAAGCGACTGCGCG
AGTTTCTCGAGTCTTCGGATACGGGACGACAGGCAATTGCGATGTCGACA
CCCGGCGGTGCTGGCCGGGGGGAGCAGGTGGAGATGTCGCGCCTCAACAA
GCAGGGAAAGACAACGGCCGAGGATGAGGACGGTGACTTGTAATACCAGC
CACCGTTCTCTTCTCTTCTTCGTCATTCGTGACTTTGTCGGCAACACGCC
TCTCCAGAACCTGCAGCGGACACTGATGGAGGATATGTCGCGCCTCTGGG
ACTCGATCTCTAAGCCTGCCGGCTTGGAACACTCTTCAGTGCATGATTAC
TTCGACTTTCAATTCTACGGTCTCCCACACAAGAGCTACCAGCCAGAACA
GTTTGTTGCGGAGACAAAGAAGCTGAGCCTGCGTTTCCGTGAAGGACAGA
AGGACCCTAGTTTGGATGCGCGCAAGGGCGAGTTTTCCGATGGAGGCGTC
TTCCTCCCCGAGTACCACCGTCGCATTCCCGCGGACGGCTTTTCCCACTA
TGCGGAGGGAATTTGGGACCAGATTGTGAACAATAAGGATCTCGATCTCC
CCACTCAGCAGGAACTGCTTGCGCAGTTCCGCTGTGATGAAATTCTGCGG
GAGGTCATGGTTGCATTTGACGAGGCGATCGTTCCATTTGAGGATAAGCA
GTCGCAGGCGGCTCGCCTCGGGGAACCGGAGATCCTCGGCGGCCTGGGAG
CGGCGATGCGGGCCTCGCGGTCCAAGGCCTTCAAGAGCTTCGAAACGGAA
GCCAGTCGGTACCACAAAGGAGTTTACCAGCGCAAACGCGCCGAGCTCGA
GAGCAAGATCGATACTCGTTTGAAGGCTCTATTCCAGGGCCAGCTGGATG
CGACCCATAAGTCTGGTATCACCGAGTTCAGCGAGGCTGTGTCGGGTGCT
GTCAAGGCCGGACAGAAGAAGGGCACTGGCTATGACTTCGCCGAAATCGT
GAACGAGGAAGTGACCAAGGCAGTGCAGAAGTTCAAGGAGGTTGCGCACG
AAACGGCCGTGGAGGGCGCCACCTGGAGTGACTCTCAACAGCAGCTGACA
CTGTATGAGAAGGAACTGGCGGAAGTGAGCGCACGGCTGCGTCGTGAGGA
GATGCGACGACTGGCCAGCCGGGTCGAGCGTTGGGTGCAGTCTCGCCTGG
GCGAATCGGTTGGTCTGGAGTTCAATGCTCTTGGGTCCGGACGGGCCGGA
GGTGGCGCTCCGGAAGAGGGAGAGAAGCCTACGGAGAAGAAATTTTGGGA
CCGTGTATGGAATGTGTTTGTGGAGACCGTGCTCGATGCCGAGCGCAGAT
TCACCGACCGCGCCAGTAGCTTCGACGCCAGCCTAGAGGAGGTGGATGTT
GGGCTGTGGCGGTTGCGCCGGAAGTCTTGGGGTGTTTTGCGCGCAAAGAT
TGACGAAGAGATGGTTGAGGGCAATTTGCTGCTGAAGCTGCGCGAGAACT
TTGAGGACAAGTTCCGCTACGACGACGCTGGTGTTCCCCGAATCTGGCGG
CCAACCGATGATATTGAGGGCATCTACACCCGTGCGCGCGAGTCGACACT
AACCCTGATTCCCCTTCTATCACGGTTCCGACTGGCGGAGACCTCTGCAC
CACCGCCACTGGATCGCTGGGTTGGGCACACGCCCAGCTCTGCGACAGCG
GCCGATGAGGAGGACCTGCCGCCGATCGGTGGAGTAGACGAAGAGGAGGG
CAAGAGCTTGGAAGAGGAGATGACGATTCTCAGCGAGTCTAAGCGGCAGG
AGCTGACGGTGCGGTTCAAGAAGGCTGCGGATGGAGTGTACGTGGAGGCC
AAACGCAGCGCCATCGGCGGCATGACGCAGGTGCCCCTGTACTTTTATGG
CATTCTTCTGGCGCTTGGTTGGAACGAGATTGTGGCTGTGCGAATCTGTC
CAAGTATCTTACCTTAGAGGATGTCACACCAGCCGGCTTCAATTATCACC
TCATATCCGTCTTCGGCTCCCAGTCGACGGGAAAGTCGACCTTGCTCAAC
CACCTTTTCGGCACCCAGTTCTCCGTAATGTCAGAGTTGGAACGTCGTCA
AACTACCAAGGGTATCTGGATGTCCAAAAACAAGAATGGCGGCGACTCAT
CAATGGCCGACAACATCCTGGTTATGGATGTTGAGGGTACTGATGGTCGC
GAACGTGGAGAGGACCAGGACTTTGAGCGCAAAAGCGCCCTGTTTGCGCT
TGCGACGAGTGAGGTCCTCATTGTCAATATCTGGGAGCATCAGGTTGGAT
TGTATCAGGGTGCCAACATGGGCTTGTTGAAGACCGTTTTTGAAGTTAAC
ATGCAGCTTTTCCTGAAAGATAGGGCATGGCAACCAATGGCCATTTTGCC
GCCATTGGCAACGGCAGCAGCGACAAGACAGCATATGAGCACGGGGTGCA
GGTCATCGACGAAAATAAGGAGTTCAATCCTTCGTAACCCTGCCTACTTC
TTCCTCTTGTTTGTGTGCCTCGTTGCAGGGTACGTGACGTACCAGCTCAA
TCTGTGGGGACCGATCATGAAGATGACGGAGGCTGCATCGAACCAGGCAC
TCGTGGAGGGCAAGAAGCGACTGCGCGAGTTTCTCGAGTCTTCGGATACG
GGACGACAGGCAATTGCGATGTCGACACCCGGCGGTGCTGGCCGGGGGGA
GCAGGTGGAGATGTCGCGCCTCAACAAGCAGGGAAAGACAACGGCCGAGG
ATGAGGACGGTGACTTGTAATACCAGCCACCGTTCTCTTCTCTTCTTCGT
CATTCGTGACTTTGTCGGCAACACGCCTCTCCAGAACCTGCAGCGGACAC
TGATGGAGGATATGTCGCGCCTCTGGGACTCGATCTCTAAGCCTGCCGGC
TTGGAACACTCTTCAGTGCATGATTACTTCGACTTTCAATTCTACGGTCT
CCCACACAAGAGCTACCAGCCAGAACAGTTTGTTGCGGAGACAAAGAAGC
TGAGCCTGCGTTTCCGTGAAGGACAGAAGGACCCTAGTTTGGATGCGCGC
AAGGGCGAGTTTTCCGATGGAGGCGTCTTCCTCCCCGAGTACCACCGTCG
CATTCCCGCGGACGGCTTTTCCCACTATGCGGAGGGAATTTGGGACCAGA
TTGTGAACAATAAGGATCTCGATCTCCCCACTCAGCAGGAACTGCTTGCG
CAGTTCCGCTGTGATGAAATTCTGCGGGAGGTCATGGTTGCATTTGACGA
GGCGATCGTTCCATTTGAGGATAAGCAGTCGCAGGCGGCTCGCCTCGGGG
AACCGGAGATCCTCGGCGGCCTGGGAGCGGCGATGCGGGCCTCGCGGTCC
AAGGCCTTCAAGAGCTTCGAAACGGAAGCCAGTCGGTACCACAAAGGAGT
TTACCAGCGCAAACGCGCCGAGCTCGAGAGCAAGATCGATACTCGTTTGA
AGGCTCTATTCCAGGGCCAGCTGGATGCGACCCATAAGTCTGGTATCACC
GAGTTCAGCGAGGCTGTGTCGGGTGCTGTCAAGGCCGGACAGAAGAAGGG
CACTGGCTATGACTTCGCCGAAATCGTGAACGAGGAAGTGACCAAGGCAG
TGCAGAAGTTCAAGGAGGTTGCGCACGAAACGGCCGTGGAGGGCGCCACC
TGGAGTGACTCTCAACAGCAGCTGACACTGTATGAGAAGGAACTGGCGGA
AGTGAGCGCACGGCTGCGTCGTGAGGAGATGCGACGACTGGCCAGCCGGG
TCGAGCGTTGGGTGCAGTCTCGCCTGGGCGAATCGGTTGGTCTGGAGTTC
AATGCTCTTGGGTCCGGACGGGCCGGAGGTGGCGCTCCGGAAGAGGGAGA
GAAGCCTACGGAGAAGAAATTTTGGGACCGTGTATGGAATGTGTTTGTGG
AGACCGTGCTCGATGCCGAGCGCAGATTCACCGACCGCGCCAGTAGCTTC
GACGCCAGCCTAGAGGAGGTGGATGTTGGGCTGTGGCGGTTGCGCCGGAA
GTCTTGGGGTGTTTTGCGCGCAAAGATTGACGAAGAGATGGTTGAGGGCA
ATTTGCTGCTGAAGCTGCGCGAGAACTTTGAGGACAAGTTCCGCTACGAC
GACGCTGGTGTTCCCCGAATCTGGCGGCCAACCGATGATATTGAGGGCAT
CTACACCCGTGCGCGCGAGTCGACACTAACCCTGATTCCCCTTCTATCAC
GGTTCCGACTGGCGGAGACCTCTGCACCACCGCCACTGGATCGCTGGGTT
GGGCACACGCCCAGCTCTGCGACAGCGGCCGATGAGGAGGACCTGCCGCC
GATCGGTGGAGTAGACGAAGAGGAGGGCAAGAGCTTGGAAGAGGAGATGA
CGATTCTCAGCGAGTCTAAGCGGCAGGAGCTGACGGTGCGGTTCAAGAAG
GCTGCGGATGGAGTGTACGTGGAGGCCAAACGCAGCGCCATCGGCGGCAT
GACGCAGGTGCCCCTGTACTTTTATGGCATTCTTCTGGCGCTTGGTTGGA
ACGAGATTGTGGCTGTGCGAATCTGTCCAAGTATCTTACCTTAGAGGATG
TCACACCAGCCGGCTTCAATTATCACCTCATATCCGTCTTCGGCTCCCAG
TCGACGGGAAAGTCGACCTTGCTCAACCACCTTTTCGGCACCCAGTTCTC
CGTAATGTCAGAGTTGGAACGTCGTCAAACTACCAAGGGTATCTGGATGT
CCAAAAACAAGAATGGCGGCGACTCATCAATGGCCGACAACATCCTGGTT
ATGGATGTTGAGGGTACTGATGGTCGCGAACGTGGAGAGGACCAGGACTT
TGAGCGCAAAAGCGCCCTGTTTGCGCTTGCGACGAGTGAGGTCCTCATTG
TCAATATCTGGGAGCATCAGGTTGGATTGTATCAGGGTGCCAACATGGGC
TTGTTGAAGACCGTTTTTGAAGTTAACATGCAGCTTTTCCTGAAAGATAG
GGCATGGCAACCAATGGCCATTTTGCCGCCATTGGCAACGGCAGCAGCGA
CAAGACAGCATATGAGCACGGGGTGCAGGTCATCGACGAAAATAAGGAGT
TCAATCCTTCGTAACCCTGCCTACTTCTTCCTCTTGTTTGTGTGCCTCGT
TGCAGGGTACGTGACGTACCAGCTCAATCTGTGGGGACCGATCATGAAGA
TGACGGAGGCTGCATCGAACCAGGCACTCGTGGAGGGCAAGAAGCGACTG
CGCGAGTTTCTCGAGTCTTCGGATACGGGACGACAGGCAATTGCGATGTC
GACACCCGGCGGTGCTGGCCGGGGGGAGCAGGTGGAGATGTCGCGCCTCA
ACAAGCAGGGAAAGACAACGGCCGAGGATGAGGACGGTGACTTGTAATAC
CAGCCACCGTTCTCTTCTCTTCTTCGTCATTCGTGACTTTGTCGGCAACA
CGCCTCTCCAGAACCTGCAGCGGACACTGATGGAGGATATGTCGCGCCTC
TGGGACTCGATCTCTAAGCCTGCCGGCTTGGAACACTCTTCAGTGCATGA
TTACTTCGACTTTCAATTCTACGGTCTCCCACACAAGAGCTACCAGCCAG
AACAGTTTGTTGCGGAGACAAAGAAGCTGAGCCTGCGTTTCCGTGAAGGA
CAGAAGGACCCTAGTTTGGATGCGCGCAAGGGCGAGTTTTCCGATGGAGG
CGTCTTCCTCCCCGAGTACCACCGTCGCATTCCCGCGGACGGCTTTTCCC
ACTATGCGGAGGGAATTTGGGACCAGATTGTGAACAATAAGGATCTCGAT
CTCCCCACTCAGCAGGAACTGCTTGCGCAGTTCCGCTGTGATGAAATTCT
GCGGGAGGTCATGGTTGCATTTGACGAGGCGATCGTTCCATTTGAGGATA
AGCAGTCGCAGGCGGCTCGCCTCGGGGAACCGGAGATCCTCGGCGGCCTG
GGAGCGGCGATGCGGGCCTCGCGGTCCAAGGCCTTCAAGAGCTTCGAAAC
GGAAGCCAGTCGGTACCACAAAGGAGTTTACCAGCGCAAACGCGCCGAGC
TCGAGAGCAAGATCGATACTCGTTTGAAGGCTCTATTCCAGGGCCAGCTG
GATGCGACCCATAAGTCTGGTATCACCGAGTTCAGCGAGGCTGTGTCGGG
TGCTGTCAAGGCCGGACAGAAGAAGGGCACTGGCTATGACTTCGCCGAAA
TCGTGAACGAGGAAGTGACCAAGGCAGTGCAGAAGTTCAAGGAGGTTGCG
CACGAAACGGCCGTGGAGGGCGCCACCTGGAGTGACTCTCAACAGCAGCT
GACACTGTATGAGAAGGAACTGGCGGAAGTGAGCGCACGGCTGCGTCGTG
AGGAGATGCGACGACTGGCCAGCCGGGTCGAGCGTTGGGTGCAGTCTCGC
CTGGGCGAATCGGTTGGTCTGGAGTTCAATGCTCTTGGGTCCGGACGGGC
CGGAGGTGGCGCTCCGGAAGAGGGAGAGAAGCCTACGGAGAAGAAATTTT
GGGACCGTGTATGGAATGTGTTTGTGGAGACCGTGCTCGATGCCGAGCGC
AGATTCACCGACCGCGCCAGTAGCTTCGACGCCAGCCTAGAGGAGGTGGA
TGTTGGGCTGTGGCGGTTGCGCCGGAAGTCTTGGGGTGTTTTGCGCGCAA
AGATTGACGAAGAGATGGTTGAGGGCAATTTGCTGCTGAAGCTGCGCGAG
AACTTTGAGGACAAGTTCCGCTACGACGACGCTGGTGTTCCCCGAATCTG
GCGGCCAACCGATGATATTGAGGGCATCTACACCCGTGCGCGCGAGTCGA
CACTAACCCTGATTCCCCTTCTATCACGGTTCCGACTGGCGGAGACCTCT
GCACCACCGCCACTGGATCGCTGGGTTGGGCACACGCCCAGCTCTGCGAC
AGCGGCCGATGAGGAGGACCTGCCGCCGATCGGTGGAGTAGACGAAGAGG
AGGGCAAGAGCTTGGAAGAGGAGATGACGATTCTCAGCGAGTCTAAGCGG
CAGGAGCTGACGGTGCGGTTCAAGAAGGCTGCGGATGGAGTGTACGTGGA
GGCCAAACGCAGCGCCATCGGCGGCATGACGCAGGTGCCCCTGTACTTTT
ATGGCATTCTTCTGGCGCTTGGTTGGAACGAGATTGTGGCTGTGCGAATC
TGTCCAAGTATCTTACCTTAGAGGATGTCACACCAGCCGGCTTCAATTAT
CACCTCATATCCGTCTTCGGCTCCCAGTCGACGGGAAAGTCGACCTTGCT
CAACCACCTTTTCGGCACCCAGTTCTCCGTAATGTCAGAGTTGGAACGTC
GTCAAACTACCAAGGGTATCTGGATGTCCAAAAACAAGAATGGCGGCGAC
TCATCAATGGCCGACAACATCCTGGTTATGGATGTTGAGGGTACTGATGG
TCGCGAACGTGGAGAGGACCAGGACTTTGAGCGCAAAAGCGCCCTGTTTG
CGCTTGCGACGAGTGAGGTCCTCATTGTCAATATCTGGGAGCATCAGGTT
GGATTGTATCAGGGTGCCAACATGGGCTTGTTGAAGACCGTTTTTGAAGT
TAACATGCAGCTTTTCCTGAAAGATAGGGCATGGCAACCAATGGCCATTT
TGCCGCCATTGGCAACGGCAGCAGCGACAAGACAGCATATGAGCACGGGG
TGCAGGTCATCGACGAAAATAAGGAGTTCAATCCTTCGTAACCCTGCCTA
CTTCTTCCTCTTGTTTGTGTGCCTCGTTGCAGGGTACGTGACGTACCAGC
TCAATCTGTGGGGACCGATCATGAAGATGACGGAGGCTGCATCGAACCAG
GCACTCGTGGAGGGCAAGAAGCGACTGCGCGAGTTTCTCGAGTCTTCGGA
TACGGGACGACAGGCAATTGCGATGTCGACACCCGGCGGTGCTGGCCGGG
GGGAGCAGGTGGAGATGTCGCGCCTCAACAAGCAGGGAAAGACAACGGCC
GAGGATGAGGACGGTGACTTGTAATACCAGCCACCGTTCTCTTCTCTTCT
TCGTCATTCGTGACTTTGTCGGCAACACGCCTCTCCAGAACCTGCAGCGG
ACACTGATGGAGGATATGTCGCGCCTCTGGGACTCGATCTCTAAGCCTGC
CGGCTTGGAACACTCTTCAGTGCATGATTACTTCGACTTTCAATTCTACG
GTCTCCCACACAAGAGCTACCAGCCAGAACAGTTTGTTGCGGAGACAAAG
AAGCTGAGCCTGCGTTTCCGTGAAGGACAGAAGGACCCTAGTTTGGATGC
GCGCAAGGGCGAGTTTTCCGATGGAGGCGTCTTCCTCCCCGAGTACCACC
GTCGCATTCCCGCGGACGGCTTTTCCCACTATGCGGAGGGAATTTGGGAC
CAGATTGTGAACAATAAGGATCTCGATCTCCCCACTCAGCAGGAACTGCT
TGCGCAGTTCCGCTGTGATGAAATTCTGCGGGAGGTCATGGTTGCATTTG
ACGAGGCGATCGTTCCATTTGAGGATAAGCAGTCGCAGGCGGCTCGCCTC
GGGGAACCGGAGATCCTCGGCGGCCTGGGAGCGGCGATGCGGGCCTCGCG
GTCCAAGGCCTTCAAGAGCTTCGAAACGGAAGCCAGTCGGTACCACAAAG
GAGTTTACCAGCGCAAACGCGCCGAGCTCGAGAGCAAGATCGATACTCGT
TTGAAGGCTCTATTCCAGGGCCAGCTGGATGCGACCCATAAGTCTGGTAT
CACCGAGTTCAGCGAGGCTGTGTCGGGTGCTGTCAAGGCCGGACAGAAGA
AGGGCACTGGCTATGACTTCGCCGAAATCGTGAACGAGGAAGTGACCAAG
GCAGTGCAGAAGTTCAAGGAGGTTGCGCACGAAACGGCCGTGGAGGGCGC
CACCTGGAGTGACTCTCAACAGCAGCTGACACTGTATGAGAAGGAACTGG
CGGAAGTGAGCGCACGGCTGCGTCGTGAGGAGATGCGACGACTGGCCAGC
CGGGTCGAGCGTTGGGTGCAGTCTCGCCTGGGCGAATCGGTTGGTCTGGA
GTTCAATGCTCTTGGGTCCGGACGGGCCGGAGGTGGCGCTCCGGAAGAGG
GAGAGAAGCCTACGGAGAAGAAATTTTGGGACCGTGTATGGAATGTGTTT
GTGGAGACCGTGCTCGATGCCGAGCGCAGATTCACCGACCGCGCCAGTAG
CTTCGACGCCAGCCTAGAGGAGGTGGATGTTGGGCTGTGGCGGTTGCGCC
GGAAGTCTTGGGGTGTTTTGCGCGCAAAGATTGACGAAGAGATGGTTGAG
GGCAATTTGCTGCTGAAGCTGCGCGAGAACTTTGAGGACAAGTTCCGCTA
CGACGACGCTGGTGTTCCCCGAATCTGGCGGCCAACCGATGATATTGAGG
GCATCTACACCCGTGCGCGCGAGTCGACACTAACCCTGATTCCCCTTCTA
TCACGGTTCCGACTGGCGGAGACCTCTGCACCACCGCCACTGGATCGCTG
GGTTGGGCACACGCCCAGCTCTGCGACAGCGGCCGATGAGGAGGACCTGC
CGCCGATCGGTGGAGTAGACGAAGAGGAGGGCAAGAGCTTGGAAGAGGAG
ATGACGATTCTCAGCGAGTCTAAGCGGCAGGAGCTGACGGTGCGGTTCAA
GAAGGCTGCGGATGGAGTGTACGTGGAGGCCAAACGCAGCGCCATCGGCG
GCATGACGCAGGTGCCCCTGTACTTTTATGGCATTCTTCTGGCGCTTGGT
TGGAACGAGATTGTGGCTGTGCGAATCTGTCCAAGTATCTTACCTTAGAG
GATGTCACACCAGCCGGCTTCAATTATCACCTCATATCCGTCTTCGGCTC
CCAGTCGACGGGAAAGTCGACCTTGCTCAACCACCTTTTCGGCACCCAGT
TCTCCGTAATGTCAGAGTTGGAACGTCGTCAAACTACCAAGGGTATCTGG
ATGTCCAAAAACAAGAATGGCGGCGACTCATCAATGGCCGACAACATCCT
GGTTATGGATGTTGAGGGTACTGATGGTCGCGAACGTGGAGAGGACCAGG
ACTTTGAGCGCAAAAGCGCCCTGTTTGCGCTTGCGACGAGTGAGGTCCTC
ATTGTCAATATCTGGGAGCATCAGGTTGGATTGTATCAGGGTGCCAACAT
GGGCTTGTTGAAGACCGTTTTTGAAGTTAACATGCAGCTTTTCCTGAAAG
ATAGGGCATGGCAACCAATGGCCATTTTGCCGCCATTGGCAACGGCAGCA
GCGACAAGACAGCATATGAGCACGGGGTGCAGGTCATCGACGAAAATAAG
GAGTTCAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005525 | GTP binding |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| ATCC64974_102820-T1 | ATCC64974_102820-T1-protein | Aspergillus niger N402 | polypeptide |
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 |
|---|
| Note | EggNog:ENOG41 |
| Note | BUSCO:EOG092610TN |
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR030386 |
| DBxref | InterPro:IPR008803 |
| DBxref | PFAM:PF05879 |
| DBxref | PFAM:PF02263 |
| Product | Dynamin-like GTPase that mediates homotypic ER fusion |
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 |
|---|
| OGUI01000017.1 | supercontig | OGUI01000017.1:2225680..2228536 - |
|
