Postreplicative methylation of bacterial DNA has long been known to be the molecular basis of" modification," which protects DNA against destruction by restriction endonucleases. More recently, another function of DNA methylation was found in Escherichia coli, where methy lation is involved during DNA replication in the recogni tion of old and newly synthesized strands. The intensive search for new restriction enzymes during the 1970s yielded an enormous arsenal of such enzymes and re vealed the ubiquitous distribution of restriction/modifi cation systems in the bacterial kingdom without provid ing much information on the corresponding modifica tion methyltransferases. However, it is obvious that DNA methyltransferases represent an ideal class of en zymes to those interested in protein/DNA interactions; these enzymes are at least as interesting as the restriction enzymes, with which they share the capacity to recognize and interact with specific sequences of DNA. In recent years the interest in DNA methylation has been greatly stimulated by two discoveries: the correla tion between gene expression and hypomethylation in eukaryotes and the convertability of DNA into its Z form through cytosine methylation. In fact, studies on DNA methylation are now being intensively performed in many laboratories. A description of the state of the art of DNA methylation has been the topic of two con gresses: The Cologne Spring Meeting in 1981 organized by WALTER DOERFLER and an EMBO Workshop at Nethybridge in 1982 organized by ROGER ADAMS.
Postreplicative methylation of bacterial DNA has long been known to be the molecular basis of" modification," which protects DNA against destruction by restriction endonucleases. More recently, another function of DNA methylation was found in Escherichia coli, where methy lation is involved during DNA replication in the recogni tion of old and newly synthesized strands. The intensive search for new restriction enzymes during the 1970s yielded an enormous arsenal of such enzymes and re vealed the ubiquitous distribution of restriction/modifi cation systems in the bacterial kingdom without provid ing much information on the corresponding modifica tion methyltransferases. However, it is obvious that DNA methyltransferases represent an ideal class of en zymes to those interested in protein/DNA interactions; these enzymes are at least as interesting as the restriction enzymes, with which they share the capacity to recognize and interact with specific sequences of DNA. In recent years the interest in DNA methylation has been greatly stimulated by two discoveries: the correla tion between gene expression and hypomethylation in eukaryotes and the convertability of DNA into its Z form through cytosine methylation. In fact, studies on DNA methylation are now being intensively performed in many laboratories. A description of the state of the art of DNA methylation has been the topic of two con gresses: The Cologne Spring Meeting in 1981 organized by WALTER DOERFLER and an EMBO Workshop at Nethybridge in 1982 organized by ROGER ADAMS.
This book presents an elucidative account on the mechanisms and fundamental concepts of DNA Methylation. Alterations in the normal DNA methylation processes can inflict serious results on embryonic...
This book aims to educate readers about the concepts of DNA methylation. Epigenetics is one of the most thrilling and speedily increasing areas of modern genetics with functions in many disciplines...
This book is a comprehensive survey of new and exciting developments regarding the role of DNA methylation in human cancer. Issues related to the mutagenicity of 5-methylcytosine and the increase in...
This third edition volume expands on the previous editions by providing a comprehensive update on the available technologies required to successfully perform DNA methylation analysis. The different...
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