Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0043346 (xeroderma pigmentosum)
 2,924 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Five UV-sensitive mutant strains of CHO cells representing different genetic complementation groups were analyzed for their ability to perform the incision step of nucleotide excision repair after UV exposure. The assay utilized inhibitors of DNA synthesis to accumulate the short-lived strand breaks resulting from repair incisions. After 6 J/m2, each of the mutants showed less than 10% of the incision rate of the parental AA8 cells. After 50 J/m2, the rate in AA8 was similar to that at 6 J/m2, but the rates in the mutants were significantly higher (approximately 20% of the rate of AA8). Thus by this incision assay the mutants were phenotypically indistinguishable. Each of the mutants were hypersensitive to mutation induction at both the hprt and aprt loci by a factor of 10, and in the one strain tested ouabain resistance was induced sevenfold more efficiently than in AA8 cells. Sister chromatid exchange was also induced with sevenfold increased efficiency in the two mutant strains examined. Thus, these CHO mutants resemble xeroderma pigmentosum cells in terms of their incision defects and their hypersensitivity to DNA damage by UV.
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PMID:Hypersensitivity to mutation and sister-chromatid-exchange induction in CHO cell mutants defective in incising DNA containing UV lesions. 716 54

We have developed a DNA-based system, to detect mutations at restriction sites without any selection in culture. DNA is exhaustively digested with a restriction enzyme. Primers flanking a chosen site for this enzyme are used in the polymerase chain reaction (PCR). Only DNA molecules mutated at the chosen site are resistant to digestion and can serve as templates for the PCR. We have initially used this system to demonstrate the generation of mutations by ethyl methanesulphonate (EMS) at a TaqI site in the aprt gene of Chinese hamster cells, and by u.v.-C irradiation at a TaqI site in the hprt gene of human fibroblasts. In repair-deficient xeroderma pigmentosum (XP) cells the u.v.-induced mutant frequency was greatly enhanced. We have been able to detect and analyse mutations in XP cells at TaqI sites in three different genes, hprt, p53 and c-Ha-ras1. Both u.v.-C and u.v.-B irradiation have been used as mutagenic agents with both lymphoblastoid and fibroblast cells from XP patients from complementation group G. The mutant DNA molecules have been sequenced. Following u.v.-C-irradiation, the majority of mutations analysed were GC-->AT transitions, but several double and tandem mutations were also found.
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PMID:U.v.-hypermutability of xeroderma pigmentosum cells demonstrated with a DNA-based mutation system. 776 Nov 6

The Restriction Site Mutation (RSM) procedure is a DNA-based method for detecting mutations at any unselected locus. Mutations are identified as alterations of the DNA sequence at a chosen restriction site. DNA from cells exposed to mutagenic treatment is exhaustively digested with the restriction enzyme (RE). Sequences containing the mutated target site are specifically amplified using the polymerase chain reaction (PCR), whereas DNA without mutations at this site will have been cleaved and can not therefore provide a substrate for PCR. We have developed this procedure using both bacterial and mammalian cells. With bacteria, in plasmid reconstruction experiments we were able to detect mutations at a frequency of 10(-6) at an EcoRI site in the AraA locus of Salmonella typhimurium. The detection limit with an RsaI site in the lacI gene of Escherichia coli was 10(-5), and we were able to detect DNA damage and repair after treatment with N-methyl-N-nitrosourea (MNU). With mammalian cells, we have detected mutations induced by ethyl methanesulphonate (EMS) at a TaqI site in the aprt gene of Chinese hamster cells. In extensive studies with normal and repair-deficient human cells, we have detected and sequenced mutations induced by UV-C or UV-B in fibroblasts and lymphoblastoid cells from repair-deficient xeroderma pigmentosum (XP) donors. Similar results were obtained at TaqI sites in three genes, hprt, c-Ha-rasI and p53. These results demonstrate that the system is able to detect and analyse mutations induced at high frequencies. In our extensive attempts to extend the work to conditions of lower mutation frequencies, we have encountered several obstacles, the most serious being false-positive mutant DNA in totally untreated cells. This appeared to be a cell-line specific phenomenon, which we have not been able to eliminate by altering conditions. We propose therefore that, at present, RSM is a suitable method for studying high mutation frequencies at different loci and could be used for mutagen testing with repair-deficient cells. As yet, however, its sensitivity and specificity is not sufficient for population monitoring.
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PMID:Development of new molecular procedures for the detection of genetic alterations in man. 869 87