The H3K4me3 binding ALFIN-LIKE proteins recruit SWR1 for gene-body deposition of H2A.Z

Linhao Xu, Yafei Wang, Xueying Li, Qin Hu, Vanda Adamkova, Junjie Xu, C. Jake Harris, Israel Ausin
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Abstract

The H2A.Z histone variant is highly enriched over gene bodies, playing an essential role in several genome-templated processes, including transcriptional regulation and epigenetic patterning across eukaryotes. The SWR1 chromatin remodeling complex deposits H2A.Z. How SWR1 is directed to gene bodies is largely unknown. Here, we show that ALFIN-LIKE (AL) proteins are responsible for H2A.Z gene body patterning in Arabidopsis. AL proteins encode H3K4me3-binding PHD domains, and by ChIP-seq, we confirm preferential binding of AL5 to H3K4me3 over H3K4me1/2 in planta. We observe a global reduction in H2A.Z in al septuple mutants (al7m), especially of over H3K4me3-enriched genic regions. While MBD9 recruits SWR1 to nucleosome-free regions, ALs act non-redundantly with MBD9 for deposition of H2A.Z. Notably, al7m mutants show severe developmental abnormalities and upregulation of H2A.Z gene body-enriched responsive genes. Therefore, we propose a model whereby AL proteins direct gene body enrichment of H2A.Z by recruiting SWR1 to H3K4me3-containing responsive genes.
与 H3K4me3 结合的 ALFIN-LIKE 蛋白招募 SWR1 进行 H2A.Z 的基因体沉积
H2A.Z组蛋白变体高度富集于基因体,在真核生物的转录调控和表观遗传模式化等多个基因组模板化过程中发挥着重要作用。SWR1 染色质重塑复合物沉积了 H2A.Z。SWR1 是如何被引导到基因体上的,目前尚不清楚。在这里,我们发现 ALFIN-LIKE(AL)蛋白负责拟南芥中 H2A.Z 基因体的模式化。AL 蛋白编码与 H3K4me3 结合的 PHD 结构域,通过 ChIP-seq 技术,我们证实 AL5 在植物体内优先与 H3K4me3 结合,而不是 H3K4me1/2。我们观察到 al 七重突变体(al7m)中 H2A.Z 的全面减少,尤其是在 H3K4me3 富集的基因区域。值得注意的是,al7m 突变体表现出严重的发育异常和 H2A.Z 基因体富集反应基因的上调。因此,我们提出了一种模型,即 AL 蛋白通过招募 SWR1 到含有 H3K4me3 的响应基因上,从而引导基因体富集 H2A.Z。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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