Genetic analysis of the Neurospora crassa RAD14 homolog mus-43 and the RAD10 homolog mus-44 reveals that they belong to the mus-38 pathway of two nucleotide excision repair systems.

Genetic analysis of the Neurospora crassa RAD14 homolog mus-43 and the RAD10 homolog mus-44 reveals that they belong to the mus-38 pathway of two nucleotide excision repair systems. Research Abstract Details 

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Genetic analysis of the Neurospora crassa RAD14 homolog mus-43 and the RAD10 homolog mus-44 reveals that they belong to the mus-38 pathway of two nucleotide excision repair systems. Abstract Text:

Masahito Sato,Takaharu Niki,Takeru Tokou,Kouhei Suzuki,Makoto Fujimura,Akihiko Ichiishi,

Saccharomyces cerevisiae Rad14 and Rad10 proteins are essential for nucleotide excision repair (NER). Rad14 is a UV-damaged DNA binding protein and Rad10 is a structure-specific endonuclease that functions in a complex with Rad1. In this study, we identified and characterized the RAD14 and RAD10 homolog genes in Neurospora crassa, which we named mus-43 and mus-44, respectively. Disruption of mus-43 and mus-44 conferred sensitivity to UV and 4-nitroquinoline 1-oxide, but not to methyl methanesulfonate, N-methyl-N'-nitro-N-nitrosoguanidine, camptothecin, hydroxyurea, or bleomycin. The mus-44 mutant was more sensitive to UV than the mus-43 mutant. Genetic analysis indicated that mus-43 and mus-44 are epistatic to mus-38 which is a homolog of the S. cerevisiae RAD1, but not to mus-18 which belongs to a second excision repair pathway. Immunological assays demonstrated that both mus-43 and mus-44 retained the ability to excise UV-induced cyclobutane pyrimidine dimers and 6-4 photoproducts, but that excision ability was completely abolished in the mus-43 mus-18 and mus-44 mus-18 double mutants. These double mutants exhibited extremely high sensitivity to UV. In mus-43 and mus-44 mutants, the UV-induced mutation frequency increased compared to that of the wild-type. The mus-44 mutants also exhibited a partial photoreactivation defect phenotype similar to mus-38. These results suggest that both mus-43 and mus-44 function in the mus-38 NER pathway, but not in the mus-18 excision repair pathway.

Genetic analysis of the Neurospora crassa RAD14 homolog mus-43 and the RAD10 homolog mus-44 reveals that they belong to the mus-38 pathway of two nucleotide excision repair systems. Publishing Authors By Initials

M Sato,T Niki,T Tokou,K Suzuki,M Fujimura,A Ichiishi,

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Genetic analysis of the Neurospora crassa RAD14 homolog mus-43 and the RAD10 homolog mus-44 reveals that they belong to the mus-38 pathway of two nucleotide excision repair systems. Journal Published:

PUBLICATION TYPE: Journal Article

Journal: Genes & genetic systems

VOLUME: 83

Page Numbers: 1-11

Journal Abbreviation: Genes Genet. Syst.

ISSN: 1341-7568

DAY: 1

MONTH: Feb

YEAR: 2008

Genetic analysis of the Neurospora crassa RAD14 homolog mus-43 and the RAD10 homolog mus-44 reveals that they belong to the mus-38 pathway of two nucleotide excision repair systems. Information

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LANGUAGE: eng

NlmUniqueID: 9607822

Genetic analysis of the Neurospora crassa RAD14 homolog mus-43 and the RAD10 homolog mus-44 reveals that they belong to the mus-38 pathway of two nucleotide excision repair systems. Keywords Mesh Terms:

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Grant and Affiliation Information for Genetic analysis of the Neurospora crassa RAD14 homolog mus-43 and the RAD10 homolog mus-44 reveals that they belong to the mus-38 pathway of two nucleotide excision repair systems.

AFFILIATION: Faculty of Life Sciences, Toyo University.

Country: Japan

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MEDLINETA: Genes Genet Syst

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Genetic analysis of the Neurospora crassa RAD14 homolog mus-43 and the RAD10 homolog mus-44 reveals that they belong to the mus-38 pathway of two nucleotide excision repair systems Related Publications

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