The role of transposable elements and DNA damage repair mechanisms in gene duplications and gene fusions in plant genomes
- PMID: 30849712
- DOI: 10.1016/j.pbi.2019.01.004
The role of transposable elements and DNA damage repair mechanisms in gene duplications and gene fusions in plant genomes
Abstract
Plant genomes are shaped by structural variation. Gene-size insertions and among most prominent events and can have significant effects on amplification of gene families as well as facilitate new gene fusions. Transposable elements as well as plant DNA repair machinery have overlapping contributions to these events, and often work in synergy. Activity of transposable elements is often lineage specific and can preferentially affect specific gene families, such as disease resistance genes. Once duplicated, genes themselves can serve templates for additional variation that can arise from non-allelic homologous recombination. Non-homologous DNA repair mechanisms contribute to additional variation and diversify the mechanisms of gene movement, such as through ligation of extra-chromosomal DNA fragments. Genomic processes that generate structural variation can be induced by stress and, therefore, can provide adaptive potential. This review describes mechanisms that contribute to gene-size structural variation in plants, result in gene duplication and generation of new plant genes through gene fusion.
Copyright © 2019 The Author. Published by Elsevier Ltd.. All rights reserved.
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