RAD1/YPL022W Literature Guide 
Other names published for RAD1: LPB9, YPL022W
RAD1 LITERATURE TOPICS
- Curated Literature
- Additional Literature
- All Curated References
- Primary Literature
- Reviews
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
RAD1 - Additional Literature (248)
| Reference | Other Genes Addressed |
|---|---|
| Bussey H, et al. (1997) The nucleotide sequence of Saccharomyces cerevisiae chromosome XVI. Nature 387(6632 Suppl):103-5 |
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| Kirkpatrick DT and Petes TD (1997) Repair of DNA loops involves DNA-mismatch and nucleotide-excision repair proteins. Nature 387(6636):929-31 |
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| Livingstone-Zatchej M, et al. (1997) RNA polymerase II transcription inhibits DNA repair by photolyase in the transcribed strand of active yeast genes. Nucleic Acids Res 25(19):3795-800 |
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| Lydall D and Weinert T (1997) G2/M checkpoint genes of Saccharomyces cerevisiae: further evidence for roles in DNA replication and/or repair. Mol Gen Genet 256(6):638-51 |
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| Sugawara N, et al. (1997) Role of Saccharomyces cerevisiae Msh2 and Msh3 repair proteins in double-strand break-induced recombination. Proc Natl Acad Sci U S A 94(17):9214-9 |
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| Suter B, et al. (1997) Chromatin structure modulates DNA repair by photolyase in vivo. EMBO J 16(8):2150-60 |
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| Yao XD, et al. (1997) Direct repeats of the herpes simplex virus a sequence promote nonconservative homologous recombination that is not dependent on XPF/ERCC4. J Virol 71(9):6842-9 |
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| Araj H and Smith PD (1996) Positional cloning of the Drosophila melanogaster mei-9 gene, the putative homolog of the Saccharomyces cerevisiae RAD1 gene. Mutat Res 364(3):209-15 |
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| Brookman KW, et al. (1996) ERCC4 (XPF) encodes a human nucleotide excision repair protein with eukaryotic recombination homologs. Mol Cell Biol 16(11):6553-62 |
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| Matsunaga T, et al. (1996) Replication protein A confers structure-specific endonuclease activities to the XPF-ERCC1 and XPG subunits of human DNA repair excision nuclease. J Biol Chem 271(19):11047-50 |
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| Moore JK and Haber JE (1996) Cell cycle and genetic requirements of two pathways of nonhomologous end-joining repair of double-strand breaks in Saccharomyces cerevisiae. Mol Cell Biol 16(5):2164-73 |
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| Nevo-Caspi Y and Kupiec M (1996) Induction of Ty recombination in yeast by cDNA and transcription: role of the RAD1 and RAD52 genes. Genetics 144(3):947-55 |
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| Porter G, et al. (1996) Homologous and homeologous intermolecular gene conversion are not differentially affected by mutations in the DNA damage or the mismatch repair genes RAD1, RAD50, RAD51, RAD52, RAD54, PMS1 and MSH2. Genetics 143(2):755-67 |
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| Sijbers AM, et al. (1996) Xeroderma pigmentosum group F caused by a defect in a structure-specific DNA repair endonuclease. Cell 86(5):811-22 |
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| Verhage RA, et al. (1996) Repair of rDNA in Saccharomyces cerevisiae: RAD4-independent strand-specific nucleotide excision repair of RNA polymerase I transcribed genes. Nucleic Acids Res 24(6):1020-5 |
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| Watt PM, et al. (1996) SGS1, a homologue of the Bloom's and Werner's syndrome genes, is required for maintenance of genome stability in Saccharomyces cerevisiae. Genetics 144(3):935-45 |
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| Aguilera A (1995) Genetic evidence for different RAD52-dependent intrachromosomal recombination pathways in Saccharomyces cerevisiae. Curr Genet 27(4):298-305 |
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| Armstrong JD and Kunz BA (1995) Excision repair and gene orientation modulate the strand specificity of UV mutagenesis in a plasmid-borne yeast tRNA gene. Environ Mol Mutagen 25(1):12-22 |
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| Guzder SN, et al. (1995) Reconstitution of yeast nucleotide excision repair with purified Rad proteins, replication protein A, and transcription factor TFIIH. J Biol Chem 270(22):12973-6 |
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| Leadon SA, et al. (1995) The yeast RAD2, but not RAD1, gene is involved in the transcription-coupled repair of thymine glycols. Mutat Res 337(3):169-78 |
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| Liefshitz B, et al. (1995) The role of DNA repair genes in recombination between repeated sequences in yeast. Genetics 140(4):1199-211 |
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| Prado F and Aguilera A (1995) Role of reciprocal exchange, one-ended invasion crossover and single-strand annealing on inverted and direct repeat recombination in yeast: different requirements for the RAD1, RAD10, and RAD52 genes. Genetics 139(1):109-23 |
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| Rattray AJ and Symington LS (1995) Multiple pathways for homologous recombination in Saccharomyces cerevisiae. Genetics 139(1):45-56 |
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| Sekelsky JJ, et al. (1995) The Drosophila meiotic recombination gene mei-9 encodes a homologue of the yeast excision repair protein Rad1. Genetics 141(2):619-27 |
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| Smith J and Rothstein R (1995) A mutation in the gene encoding the Saccharomyces cerevisiae single-stranded DNA-binding protein Rfa1 stimulates a RAD52-independent pathway for direct-repeat recombination. Mol Cell Biol 15(3):1632-41 |
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| Svejstrup JQ, et al. (1995) Different forms of TFIIH for transcription and DNA repair: holo-TFIIH and a nucleotide excision repairosome. Cell 80(1):21-8 |
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| West SC (1995) Holliday junctions cleaved by Rad1? Nature 373(6509):27-8 |
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| Yajima H, et al. (1995) A eukaryotic gene encoding an endonuclease that specifically repairs DNA damaged by ultraviolet light. EMBO J 14(10):2393-9 |
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| Abe H, et al. (1994) Altered drug sensitivities to anticancer agents in radiation-sensitive DNA repair deficient yeast mutants. Anticancer Res 14(5A):1807-10 |
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| Brozmanova J, et al. (1994) Expression of the E.coli ada gene in S.cerevisiae provides cellular resistance to N-methyl-N'-nitro-N-nitrosoguanidine in rad6 but not in rad52 mutants. Nucleic Acids Res 22(25):5717-22 |
