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ABSTRACT: Xeroderma pigmentosum complementation group A was partially complemented by a cosmid genomic clone containing a 42-kb human DNA insert selected with a cDNA clone that we obtained through cDNA competition between the repair-proficient and repair-deficient cell line. The relationship between these two clones was confirmed using PCR amplifications. The enhancement in DNA-repair capacity of the transformants was assessed with the monoclonal antibodies specific for cyclobutane dimers and (6-4) photoproducts and partially correct the xeroderma pigmentosum complementation group A defect. Furthermore, the level of the photoproduct-repair capacity is in agreement with the survival enhancement calculated from the D37 values. This gene was mapped to chromosome 8, suggesting that this may represent one of the defective gene(s) in xeroderma pigmentosum complementation group A.
Mutation Research/Fundamental and Molecular Mechanisms of Mutagenesis 02/1993; 293(2):143-50. · 2.85 Impact Factor
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ABSTRACT: A gene that partially complements sensitivity of xeroderma pigmentosum cells of group A to UV irradiation has been mapped to human chromosome 8. Isolation of this gene has previously been described. A cDNA clone pEMKR that represents part of this gene was used for mapping. Based upon the nucleotide sequence of pEMKR, a set of oligonucleotide primers were designed for PCR amplification of DNAs from hybrid cell lines. A panel of rodent-human hybrid cell lines representing the total human genome was screened by PCR and Southern blot analysis for chromosomal assignment of this gene. PCR amplification and hybridization occurred only in the case of human and hybrid cell lines that contained human chromosome 8. The pEMKR thus represents a different gene than a DNA repair gene XPAC that has been mapped to human chromosome 9.
Somatic Cell and Molecular Genetics 08/1992; 18(4):371-9.
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ABSTRACT: Xeroderma pigmentosum (XP) is an autosomal recessive disease in which the major clinical manifestation is a 2,000-fold enhanced probability of developing sunlight-induced skin tumors, and the molecular basis for the disease is a defective DNA excision repair system. To clone the gene defective in XP complementation group A (XP-A), cDNA clones were isolated by a competition hybridization strategy in which the corresponding mRNAs were more abundant in cells of the obligately heterozygous parents relative to cells of the homozygous proband affected with the disease. In this report, a human genomic DNA clone that contains this cDNA was transformed into two independent homozygous XP-A cell lines, and these transformants displayed partial restoration of resistance to the killing effects of UV irradiation. The abundance of mRNA corresponding to this cDNA appears to correlate well with the observed UV cell survival. The results of unscheduled DNA synthesis after UV exposure indicate that the transformed cells are repair proficient relative to that of the control XP-A cells. However, using this same genomic DNA, transformation of an XP-F cell line did not confer any enhancement of UV survival or promote unscheduled DNA synthesis after UV exposure.
Proceedings of the National Academy of Sciences 10/1990; 87(17):6818-22. · 9.68 Impact Factor
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ABSTRACT: A competition hybridization strategy using size-cut cDNA libraries as both probe and competitor was designed for the cloning of genes whose mRNAs are either regulated transcriptionally or vary in abundance as a function of cell line or cell cycle. We used this strategy to construct cDNA libraries from a particular size fraction of mRNA from three members of a xeroderma pigmentosum (XP), complementation group A family. Size-cut cDNA libraries derived from the father's, mother's, and child's fibroblast cell line were used in a competition scheme to screen two lambda gt11 human cDNA libraries. Of the 15 positive lambda gt11 clones which have been characterized, at least 14 clones represent the same gene which is present in greater abundance in both the mother and father XP obligate heterozygotes relative to the homozygous affected child.
DNA (Mary Ann Liebert, Inc.) 11/1988; 7(8):563-70.
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ABSTRACT: Xeroderma pigmentosum complementation group A was partially complemented by a cosmid genomic clone containing a 42-kb human DNA insert selected with a cDNA clone that we obtained through cDNA competition between the repair-proficient and repair-deficient cell line. The relationship between these two clones was confirmed using PCR amplifications. The enhancement in DNA-repair capacity of the transformants was assessed with the monoclonal antibodies specific for cyclobutane dimers and (6−4) photoproducts and partially correct the xeroderma pigmentosum complementation group A defect. Furthermore, the level of the photoproduct-repair capacity is in agreement with the survival enhancement calculated from the D37 values. This gene was mapped to chromosome 8, suggesting that this may represent one of the defective gene(s) in xeroderma pigmentosum complementation group A.
Mutation Research/DNA Repair.
