Mutation of a Major CG Methylase in Rice Causes Genome-wide Hypomethylation, Dysregulated Genome Expression, and Seedling Lethality

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2014 Jul 9

PMID 25002488

Citations 77

Authors

Lanjuan Hu

Ning Li

Chunming Xu

Silin Zhong

Xiuyun Lin

Jingjing Yang

Tianqi Zhou

Anzhi Yuliang

Ying Wu

Yun-Ru Chen

Xiaofeng Cao

Assaf Zemach

Sachin Rustgi

Diter von Wettstein

Bao Liu

Affiliations

Soon will be listed here.

Abstract

Cytosine methylation at CG sites ((m)CG) plays critical roles in development, epigenetic inheritance, and genome stability in mammals and plants. In the dicot model plant Arabidopsis thaliana, methyltransferase 1 (MET1), a principal CG methylase, functions to maintain (m)CG during DNA replication, with its null mutation resulting in global hypomethylation and pleiotropic developmental defects. Null mutation of a critical CG methylase has not been characterized at a whole-genome level in other higher eukaryotes, leaving the generality of the Arabidopsis findings largely speculative. Rice is a model plant of monocots, to which many of our important crops belong. Here we have characterized a null mutant of OsMet1-2, the major CG methylase in rice. We found that seeds homozygous for OsMet1-2 gene mutation (OsMET1-2(-/-)), which directly segregated from normal heterozygote plants (OsMET1-2(+/-)), were seriously maldeveloped, and all germinated seedlings underwent swift necrotic death. Compared with wild type, genome-wide loss of (m)CG occurred in the mutant methylome, which was accompanied by a plethora of quantitative molecular phenotypes including dysregulated expression of diverse protein-coding genes, activation and repression of transposable elements, and altered small RNA profiles. Our results have revealed conservation but also distinct functional differences in CG methylases between rice and Arabidopsis.

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