Titlebook: Epigenetics and Chromatin; Philippe Jeanteur Book 2005 Springer-Verlag Berlin Heidelberg 2005 Allele.Biochemistry.Cell Biology.Chromatin.D

使?jié)M足

Lecture Notes in Electrical Engineeringiptional silencing. In this review,we survey the unique epigenetic features that characterize the inactive X chromosome, describe the mechanisms by which these marks are established and maintained, and discuss how each contributes to silencing the inactive X chromosome.

hauteur

柔美流暢

Ambush Marketing und Markenschutzactivity, in which histone modifications stand in a key position, has been achieved. The identification of these connections has contributed not only to understanding how epigenetic deregulation occurs in cancer but also to developing novel therapies that can reverse epigenetic defects in cancer cells.

Mawkish

加強防衛(wèi)

How to Pack the Genome for a Safe Trip, remain obscure. This chapter summarizes the major chromatin-associated events taking place during the post-meiotic differentiation of male haploid cells in mammals and discusses some of the basic issues that remain to be solved to finally understand chromatin remodeling during spermatogenesis.

Foreknowledge

Chromatin Modifications on the Inactive X Chromosome,iptional silencing. In this review,we survey the unique epigenetic features that characterize the inactive X chromosome, describe the mechanisms by which these marks are established and maintained, and discuss how each contributes to silencing the inactive X chromosome.

仔細閱讀

DNA Methylation in Epigenetic Control of Gene Expression, has been recently clarified and the interrelationships between DNA methylation and histone modification are currently under investigation. DNA methylation is implicated in developmental processes such as X-chromosome inactivation, genomic imprinting and disease, including tumor development. This chapter discusses all these issues in depth.

國家明智

Lime石灰

Seed Development and Genomic Imprinting in Plants,ays some role in the control of parent-of-origin-specific expression in both mammals and plants. Thus, although imprinting evolved independently in mammals and plants, there are striking similarities at the phenotypic and possibly also mechanistic level.

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