A coordinate relationship between the GALK and the TK1 genes of the Chinese hamster

Induction of multilocus lesions by UVC-radiation in mouse L5178Y lymphoblasts

The survival, the mutant frequency and the nature of the DNA alteration responsible for the inactivation of the thymidine kinase (tk) locus were investigated in 5 strains of mouse L5178Y lymphoblasts exposed to UVC radiation. The nature of the DNA alteration was investigated in independent TK-/- mutants using Southern blot analysis. The concomitant loss of galactokinase (GK) activity in homogenates of individual TK-/- mutants was taken as an indication that the lesion inactivating the tk allele extended to the neighboring galactokinase (gk) allele. The survival of strains LY-R16 and LY-R83 was decreased to a greater extent than that of strains LY-S1, LY-SR1, and LY-3.7.2C, reflecting a deficiency in excision repair in strains derived from LY-R cells. The TK-/- mutant frequency of strain LY-R83, which is monosomic for chromosome 11 and thus hemizygous for the tk and gk genes, was only 50% of the mutant frequency of strain LY-R16 which is heterozygous for the tk gene. Moreover, a greatly reduced percentage of individual spontaneous and UVC-induced TK-/- mutants of strain LY-R83 showed loss of GK activity in comparison to the other strains. This result indicates that UVC irradiation induces intergenic mutations and that such mutants are poorly recovered in the hemizygous strain. Strain LY-3.7.2C appears to have only one active galactokinase (gk) allele, and very few TK-/- mutants of this strain showed loss of GK activity, possibly because this strain, although heterozyogous for the tk gene, is hemizygous in the region of the gk gene. Strains LY-R16 and LY-S1 are deficient in the repair of UVC- and X-radiation-induced damage, respectively, and the percentage of TK-/- mutants with intergenic mutations was higher for strain LY-R16 after UVC-radiation and for strain LY-S1 after X-radiation. These results indicate that unrepaired DNA lesions lead to an increase in intergenic mutations.

Regulation of O6-methylguanine-DNA methyltransferase expression in the Burkitt's lymphoma cell line Raji

We have investigated the expression of the DNA-repair enzyme O6-methylguanine-DNA methyltransferase in the Burkitt's lymphoma cell line Raji. An existing mutant Raji cell line which lacks thymidine kinase activity had previously been shown to be Mex- and to no longer express O6-methylguanine-DNA methyltransferase. We report here that in addition to the methyltransferase and thymidine kinase, a third enzyme with an unrelated function, galactokinase, is also not expressed in Raji cells. The control of thymidine kinase expression is post-transcriptional and it is possible that galactokinase and methyltransferase can share a common post-transcriptional regulation with thymidine kinase.

Cytosolic thymidine kinase activity in cultured human fibroblasts from individuals with galactokinase deficiency

The structural genes for human galactokinase (GALK) and the human cytosolic form of thymidine kinase (TK1) are located on 17q21-q22. These two loci are tightly linked, and studies on Chinese hamster cell lines have shown that the expression of TK1 and GALK genes may alter simultaneously. We investigated the possibility of a dependent mutation of TK1 and GALK genes in cultured fibroblasts, obtained from two patients homozygous for the GALKG-deficient gene. Since we showed that the TK1 level varies as a function of the passage and the growth rate of a given strain, our experiments were performed on nonstored skin fibroblasts, between the third and the fifth passage for both controls and patients. We found that TK1 levels in GALK-deficient cells were almost 75% of those observed in control strains with a similar growth rate. Previous results in the literature have shown a pronounced decrease in TK1 activity in three GALK-deficient fibroblastic strains. We suggest that these disparities of TK1 levels in GALK-deficient fibroblasts may be related either to genetic heterogeneity of GALK deficiency or to differences in culture conditions.

Linkage between the porcine genes encoding immunoglobulin heavy-chain allotypes and some serum alpha-protease inhibitors: a conserved linkage in pig, mouse and human

Linkage between the genes coding for immunoglobulin heavy-chain allotypes and some serum alpha-protease inhibitors was demonstrated in pigs by means of segregation data in families. A recombination frequency of about 8% was estimated. This represents evolutionary conservation of an autosomal linkage group as linkage between the homologous loci has previously been reported, in humans and in mice.