| Literature DB >> 33684542 |
Xuelei Lai1, Romain Blanc-Mathieu1, Loïc GrandVuillemin1, Ying Huang2, Arnaud Stigliani3, Jérémy Lucas1, Emmanuel Thévenon1, Jeanne Loue-Manifel4, Laura Turchi1, Hussein Daher5, Eugenia Brun-Hernandez1, Gilles Vachon1, David Latrasse2, Moussa Benhamed6, Renaud Dumas1, Chloe Zubieta1, François Parcy7.
Abstract
Pioneer transcription factors (TFs) are a special category of TFs with the capacity to bind to closed chromatin regions in which DNA is wrapped around histones and may be highly methylated. Subsequently, pioneer TFs are able to modify the chromatin state to initiate gene expression. In plants, LEAFY (LFY) is a master floral regulator and has been suggested to act as a pioneer TF in Arabidopsis. Here, we demonstrate that LFY is able to bind both methylated and non-methylated DNA using a combination of in vitro genome-wide binding experiments and structural modeling. Comparisons between regions bound by LFY in vivo and chromatin accessibility data suggest that a subset of LFY bound regions is occupied by nucleosomes. We confirm that LFY is able to bind nucleosomal DNA in vitro using reconstituted nucleosomes. Finally, we show that constitutive LFY expression in seedling tissues is sufficient to induce chromatin accessibility in the LFY direct target genes APETALA1 and AGAMOUS. Taken together, our study suggests that LFY possesses key pioneer TF features that contribute to launching the floral gene expression program.Entities:
Keywords: chromatin remodeling; flower development; gene regulation; pioneer transcription factor
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Year: 2021 PMID: 33684542 DOI: 10.1016/j.molp.2021.03.004
Source DB: PubMed Journal: Mol Plant ISSN: 1674-2052 Impact factor: 13.164