组蛋白修饰H3赖氨酸27三甲基化在油菜三复制基因组中具有保守的基因调控作用。

A. Akter, S. Takahashi, Weiwei Deng, Daniel John Shea, Etsuko Itabashi, Motoki Shimizu, N. Miyaji, K. Osabe, Namiko Nishida, Yutaka Suzuki, C. Helliwell, M. Seki, W. Peacock, E. Dennis, R. Fujimoto
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引用次数: 18

摘要

摘要油菜是一种重要的蔬菜和油料作物。我们研究了组蛋白标记H3K27 (H3K27me3)在rapa中三甲基化的分布及其在两个发育阶段(2天子叶和14天叶片)和同源物中基因表达的控制作用。H3K27me3在两个自交系中分布相似,但H3K27me3位点在组织间存在差异。2天子叶特异性位点的转录活性增加,基因体区域H3K27me3水平低。在14天叶片中,H3K27me3水平与基因表达降低相关。在三倍基因组中,H3K27me3与具有组织特异性表达的同源基因相关。尽管芥蓝和拟南芥在芸苔科中并不是近亲,但在这两个物种中存在h3k27me3标记位点的保守性。rapa和a.t aliana都需要春化来形成花,FLC是主要的控制位点。在所有四种BrFLC类似物中,低温处理增加近端成核部位的H3K27me3,降低BrFLC的表达。在恢复到正常的温度生长条件下,H3K27me3沿着所有四种BrFLC类似物传播,提供了稳定的基因抑制。
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The histone modification H3 lysine 27 tri-methylation has conserved gene regulatory roles in the triplicated genome of Brassica rapa L.
Abstract Brassica rapa L. is an important vegetable and oilseed crop. We investigated the distribution of the histone mark tri-methylation of H3K27 (H3K27me3) in B. rapa and its role in the control of gene expression at two stages of development (2-day cotyledons and 14-day leaves) and among paralogs in the triplicated genome. H3K27me3 has a similar distribution in two inbred lines, while there was variation of H3K27me3 sites between tissues. Sites that are specific to 2-day cotyledons have increased transcriptional activity, and low levels of H3K27me3 in the gene body region. In 14-day leaves, levels of H3K27me3 were associated with decreased gene expression. In the triplicated genome, H3K27me3 is associated with paralogs that have tissue-specific expression. Even though B. rapa and Arabidopsis thaliana are not closely related within the Brassicaceae, there is conservation of H3K27me3-marked sites in the two species. Both B. rapa and A. thaliana require vernalization for floral initiation with FLC being the major controlling locus. In all four BrFLC paralogs, low-temperature treatment increases H3K27me3 at the proximal nucleation site reducing BrFLC expression. Following return to normal temperature growth conditions, H3K27me3 spreads along all four BrFLC paralogs providing stable repression of the gene.
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