跨染色体甲基化。

Trans-chromosomal methylation.

机构信息

Commonwealth Scientific and Industrial Research Organization, Plant Industry, Canberra, Australia.

出版信息

Epigenetics. 2012 Aug;7(8):800-5. doi: 10.4161/epi.20820. Epub 2012 Jun 18.

DOI:10.4161/epi.20820

PMID:22705969

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3427274/

Abstract

The epigenome plays a vital role in helping to maintain and regulate cell functions in all organisms. Alleles with differing epigenetic marks in the same nucleus do not function in isolation but can interact in trans to modify the epigenetic state of one or both alleles. This is particularly evident when two divergent epigenomes come together in a hybrid resulting in thousands of alterations to the methylome. These changes mainly involve the methylation patterns at one allele being changed to resemble the methylation patterns of the other allele, in processes we have termed trans-chromosomal methylation (TCM) and trans-chromosomal demethylation (TCdM). These processes are primarily modulated by siRNAs and the RNA directed DNA methylation pathway. Drawing from other examples of trans-allelic interactions, we describe the process of TCM and TCdM and the effect such changes can have on genome activity. Trans-allelic epigenetic interactions may be a common occurrence in many biological systems.

摘要

表观基因组在帮助维持和调节所有生物体的细胞功能方面起着至关重要的作用。同一个核内具有不同表观遗传标记的等位基因不会孤立地发挥作用，而是可以相互作用，以改变一个或两个等位基因的表观遗传状态。当两个不同的表观基因组在杂种中聚集在一起时，这种情况尤其明显，导致甲基组发生数千种改变。这些变化主要涉及一个等位基因的甲基化模式被改变，以类似于另一个等位基因的甲基化模式，我们称之为跨染色体甲基化（TCM）和跨染色体去甲基化（TCdM）。这些过程主要由 siRNA 和 RNA 指导的 DNA 甲基化途径调控。借鉴其他跨等位基因相互作用的例子，我们描述了 TCM 和 TCdM 的过程，以及这种变化对基因组活性的影响。跨等位基因的表观遗传相互作用可能在许多生物系统中很常见。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f83/3427274/04db6484d056/epi-7-800-g1.jpg

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跨染色体甲基化。

Trans-chromosomal methylation.

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