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231.
Summary The molecular basis of group A xeroderma pigmentosum (XP) was investigated, and 3 mutations located in a zinc finger consensus sequence (nucleotide 313–387) of the XP group A complementing (XPAC) gene were identified in 2 Caucasian patients GM2990 and GM2009 who had typical symptoms of group A XP. The first mutation was a C deletion at nucleotide 374. Patient GM2990 was a homozygote for this mutation. The second mutation was a 5-bp deletion (CTTAT) at nucleotides 349–353. The third mutation was a G to T transversion at nucleotide 323 that alters the Cys-108 codon (TGT) to a Phe codon (TTT). Patient GM2009 was a compound heterozygote for the 5-bp deletion and the missense mutation. Both deletions introduce frameshifts with premature translation terminations resulting in instability of the XPAC mRNA and disruption of the putative zinc finger domain of the XPAC protein. The missense mutation also predicts disruption of the zinc finger domain of the XPAC protein. The expression study showed that the missense mutation does indeed causes loss of repair activity of the XPAC protein. We conclude that these 3 mutations are responsible for group A XP. 相似文献
232.
The second division of the gut precursor E cells is lethally accelerated during Caenorhabditis elegans gastrulation by mutations in the emb-5 gene, which encodes a presumed nuclear protein. We have isolated suppressor mutations of the temperature-sensitive allele emb-5(hc61), screened for them among dpy and other mutations routinely used as genetic markers, and identified eight emb-5 suppressor genes. Of these eight suppressor genes, at least four encode extracellular matrix proteins, i.e., three collagens and one proteoglycan. The suppression of the emb-5 gastrulation defect seemed to require the maternal expression of the suppressors. Phenotypically, the suppressors by themselves slowed down early embryonic cell divisions and corrected the abnormal cell-division sequence of emb-5 mutant embryos. We propose an indirect stress-response mechanism to be the main cause of the suppression because: (1) none of these suppressors is specific, either to particular temperature-sensitive emb-5 alleles or to the emb-5 gene; (2) suppressible alleles of genes, reported here or elsewhere, are temperature sensitive or weak; (3) the suppression is not strong but marginal; (4) the suppression itself shows some degree of temperature dependency; and (5) none of the extracellular matrix proteins identified here is known to be expressed in oocytes or early embryos, despite the present observation that the suppression is maternal. 相似文献