Gene reactivation: a tool for the isolation of mammalian DNA methylation mutants.
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TLDR
It is proposed that the phenotype of tsm cells is due to a mutation involved in the regulation of DNA methylation, and the further characterization of this and other mammalian mutants should help to clarify the physiological role of DNAmethylation, as well as its regulation.Abstract:
We report the isolation and characterization of a mammalian strain (tsm) that has a temperature-sensitive mutation in DNA methylation. The isolation procedure was based on the observation that treatment of a CHO TK- MT- cell line with demethylating agents introduces up to 46% demethylation, resulting in phenotypic reversion and transcriptional activation of the thymidine kinase (TK) and metallothionein (MT) genes at frequencies ranging from 1% to 59%. Seven thousand individual colonies from an EMS-mutagenized CHO TK- MT- population were screened for spontaneous reversion to TK+ phenotype after treatment at 39 degrees C. Successful isolates were subsequently examined for MT+ reversion. A single clone (tsm) was obtained that showed temperature-dependent reactivation of both TK and MT genes at frequencies of 7.2 X 10(-4) and 6 X 10(-4), respectively. The tsm cells were viable at 39 degrees C and showed no increased mutation frequency. Reactivation correlated with transcriptional activation of the respective genes, whereas backreversion to the TK- phenotype was associated with transcriptional inactivation. TK- backrevertants were reactivable again with demethylating agents. Although demethylation in tsm cells was not detectable by HPLC, Southern blot analysis revealed that reactivants, irrespective of their mode of generation, showed specific demethylation of both TK and MT genes. Also, after about 150 cell generations after treatment, reactivants from both temperature-induced tsm and cells exposed to demethylating agents gained 60% and 23%, respectively, in 5-methylcytosine (5mC). It is proposed that the phenotype of tsm cells is due to a mutation involved in the regulation of DNA methylation. The further characterization of this and other mammalian mutants should help to clarify the physiological role of DNA methylation, as well as its regulation.read more
Citations
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The inheritance of epigenetic defects.
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High levels of de novo methylation and altered chromatin structure at CpG islands in cell lines.
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Epigenetics of host-pathogen interactions: the road ahead and the road behind.
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References
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Journal ArticleDOI
Changes in structure and methylation pattern in a cluster of thymidine kinase genes.
TL;DR: Although the entire gene cluster was never lost, indicating that integration into the genome was stable, internal rearrangements occurred at a high frequency and had no obvious correlation with the state of methylation or with the expression of the genes.
Journal ArticleDOI
Mutations resistant to bromodeoxyuridine in mouse lymphoma cells selected by repeated exposure to EMS characteristics of phenotypic instability and reversion to HAT resistance by 5-azacytidine
Nori Nakamura,Shigefumi Okada +1 more
TL;DR: The results indicate that the initial BrdUrdr cells did not result from inactivation of the thymidine-kinase gene but that the mode of gene expression was altered in some way.
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The associated reactivation of two X-linked genes. The spontaneous and azacytidine-induced reexpression of ornithine transcarbamoylase and glucose-6-phosphate dehydrogenase in a rat hepatoma
TL;DR: It is suggested that the suppression of the two genes resembles X-inactivation: in both cases, azacytidine treatment induces gene reactivation with a high frequency and results in different clones of cells expressing widely varying amounts of enzyme activity.
Journal ArticleDOI
Azacytidine induces reversion of thymidine kinase deficiency in Friend erythroleukemia cells.
TL;DR: It is concluded that DNA methylation of one or both alleles of the thymidine kinase gene is largely responsible for the instability of this gene in Friend erythroleukemia cells.
Journal ArticleDOI
Biochemical effects of 12-O-tetradecanoylphorbol-13-acetate, retinoic acid, phenobarbital, and 5-azacytidine on a normal rat liver epithelial cell line.
TL;DR: The effect of RA on NADH‐diaphorase, lactate dehydrogenase, and alkaline phosphatase activities was the opposite of the changes observed during carcinogenesis of these rat liver epithelial cells by multiple treatments with N‐methyl‐N′‐nitro‐N‐nitrosoguanidine.