中文摘要：

表观遗传学是指在DNA序列不发生改变的情况下基因表达发生的稳定、可遗传的变化,主要研究DNA甲基化、组蛋白修饰、非编码RNA修饰、X染色体失活、基因印记、染色质重塑等修饰对基因表达的调控作用.此外,这些修饰还受到环境因素的影响,并与之共同对细胞和个体的表型产生影响.大量研究表明,表观遗传学修饰在很多疾病包括癌症中都存在异常.然而,这些可遗传的修饰如何向子代传递的机制还不是很明了.本文汇总和概括了近年来本领域的研究进展,为今后在分子水平和个体水平的表观遗传机制的研究及应用提供一定的理论基础.

英文摘要：

It is known that genomic information is not only contained in the DNA sequence, but also in varieties of genetic effects, namely epigenetics. Epigenetics is defined as stable inheritance without changes in DNA sequence, which mainly focuses on the modification regulations, including DNA methylation, histone modification, non-coding RNA, X chromatin inactivation, gene imprinting, chromatin remodeling and so on. In the past few decades, epigenetics has made a dramatic advance, and quantities of mechanisms underlie the epigenetic phenomena have been discovered. Among these, DNA methylation and histone modifications are two most important aspects in epigenetic phenomena. The major DNA methylation and demethylation happen on cytosines of the CpG dinucleotide in mammals. In this process, DNA methyltransferase（DNMT） family proteins and ten-eleven translocation methylcytosine dioxygenase（TET） family proteins cooperate and achieve the both methylation and demethylation progress. Several covalent modifications of histones can alter the nucleosome conformation by changing the electrostatic charge of it, which include histone methylation, acetylation, phosphorylation and ubiquitination. In histone modification procedure, a set of enzymes are involved, Polycomb group（Pc G） and Trithorax group（TrxG） functioning in histone methylation, for instance. These modifications fit together and lead to distinct state of chromatin accessibility, resulting in either gene expression or repression. Long-range chromatin interactions organize chromatin into transcriptionally permissive or prohibitive, thereby regulating gene expression. Non-coding RNAs also play critical roles in gene expression process through interacts directly with DNA, RNA, proteins. The epigenetic mechanisms mentioned above work cooperatively in gene expression regulation, which is essential for normal development and survival. Moreover, the epigenetic information can be inherited from parents to offsprings. Previous studies have shed light on the mechani