Chromatin Manipulation and Editing: Challenges, New Technologies and Their Use in Plants - Archive ouverte HAL
Article Dans Une Revue (Article De Synthèse) International Journal of Molecular Sciences Année : 2021

Chromatin Manipulation and Editing: Challenges, New Technologies and Their Use in Plants

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An ongoing challenge in functional epigenomics is to develop tools for precise manipulation of epigenetic marks. These tools would allow moving from correlation-based to causal-based findings, a necessary step to reach conclusions on mechanistic principles. In this review, we describe and discuss the advantages and limits of tools and technologies developed to impact epigenetic marks, and which could be employed to study their direct effect on nuclear and chromatin structure, on transcription, and their further genuine role in plant cell fate and development. On one hand, epigenome-wide approaches include drug inhibitors for chromatin modifiers or readers, nanobodies against histone marks or lines expressing modified histones or mutant chromatin effectors. On the other hand, locus-specific approaches consist in targeting precise regions on the chromatin, with engineered proteins able to modify epigenetic marks. Early systems use effectors in fusion with protein domains that recognize a specific DNA sequence (Zinc Finger or TALEs), while the more recent dCas9 approach operates through RNA-DNA interaction, thereby providing more flexibility and modularity for tool designs. Current developments of "second generation", chimeric dCas9 systems, aiming at better targeting efficiency and modifier capacity have recently been tested in plants and provided promising results. Finally, recent proof-of-concept studies forecast even finer tools, such as inducible/switchable systems, that will allow temporal analyses of the molecular events that follow a change in a specific chromatin mark.
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hal-03111657 , version 1 (15-01-2021)

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Kateryna Fal, Denisa Tomkova, Gilles Vachon, Marie-Edith Chaboute, Alexandre Berr, et al.. Chromatin Manipulation and Editing: Challenges, New Technologies and Their Use in Plants. International Journal of Molecular Sciences, 2021, 22 (2), pp.512. ⟨10.3390/ijms22020512⟩. ⟨hal-03111657⟩
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