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Epigenetic Landmarks of Leaf Senescence and Crop Improvement.


ABSTRACT: This review synthesizes knowledge on epigenetic regulation of leaf senescence and discusses the possibility of using this knowledge to improve crop quality. This control level is implemented by different but interacting epigenetic mechanisms, including DNA methylation, covalent histone modifications, and non-covalent chromatin remodeling. The genetic and epigenetic changes may act alone or together and regulate the gene expression, which may result in heritable (stress memory) changes and may lead to crop survival. In the review, the question also arises whether the mitotically stable epigenetic information can be used for crop improvement. The barley crop model for early and late events of dark-induced leaf senescence (DILS), where the point of no return was defined, revealed differences in DNA and RNA modifications active in DILS compared to developmental leaf senescence. This suggests the possibility of a yet-to-be-discovered epigenetic-based switch between cell survival and cell death. Conclusions from the analyzed research contributed to the hypothesis that chromatin-remodeling mechanisms play a role in the control of induced leaf senescence. Understanding this mechanism in crops might provide a tool for further exploitation toward sustainable agriculture: so-called epibreeding.

SUBMITTER: Ostrowska-Mazurek A 

PROVIDER: S-EPMC7404090 | biostudies-literature | 2020 Jul

REPOSITORIES: biostudies-literature

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Epigenetic Landmarks of Leaf Senescence and Crop Improvement.

Ostrowska-Mazurek Agnieszka A   Kasprzak Piotr P   Kubala Szymon S   Zaborowska Magdalena M   Sobieszczuk-Nowicka Ewa E  

International journal of molecular sciences 20200720 14


This review synthesizes knowledge on epigenetic regulation of leaf senescence and discusses the possibility of using this knowledge to improve crop quality. This control level is implemented by different but interacting epigenetic mechanisms, including DNA methylation, covalent histone modifications, and non-covalent chromatin remodeling. The genetic and epigenetic changes may act alone or together and regulate the gene expression, which may result in heritable (stress memory) changes and may le  ...[more]

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