Literature DB >> 34016450

Epimutations Define a Fast-Ticking Molecular Clock in Plants.

Nan Yao1, Robert J Schmitz2, Frank Johannes3.   

Abstract

Stochastic gains and losses of DNA methylation at CG dinucleotides are a frequent occurrence in plants. These spontaneous 'epimutations' occur at a rate that is 100 000 times higher than the genetic mutation rate, are effectively neutral at the genome-wide scale, and are stably inherited across mitotic and meiotic cell divisions. Mathematical models have been extraordinarily successful at describing how epimutations accumulate in plant genomes over time, making this process one of the most predictable epigenetic phenomena to date. Here, we propose that their high rate and effective neutrality make epimutations a powerful new molecular clock for timing evolutionary events of the recent past and for age dating of long-lived perennials such as trees.
Copyright © 2021 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  DNA methylation; aging; epimutations; evolution; molecular clock; phylogenetics

Mesh:

Year:  2021        PMID: 34016450      PMCID: PMC8282728          DOI: 10.1016/j.tig.2021.04.010

Source DB:  PubMed          Journal:  Trends Genet        ISSN: 0168-9525            Impact factor:   11.821


  85 in total

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4.  DNA methylation repatterning accompanying hybridization, whole genome doubling and homoeolog exchange in nascent segmental rice allotetraploids.

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5.  Low number of fixed somatic mutations in a long-lived oak tree.

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7.  Extremely high genetic diversity in a single tumor points to prevalence of non-Darwinian cell evolution.

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Review 9.  Methylome evolution in plants.

Authors:  Amaryllis Vidalis; Daniel Živković; René Wardenaar; David Roquis; Aurélien Tellier; Frank Johannes
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10.  Transgenerational epimutations induced by multi-generation drought imposition mediate rice plant's adaptation to drought condition.

Authors:  Xiaoguo Zheng; Liang Chen; Hui Xia; Haibin Wei; Qiaojun Lou; Mingshou Li; Tiemei Li; Lijun Luo
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