Department of Plant and Microbial Biology, University of Minnesota at Twin Cities, Saint Paul, Minnesota MN 55108, United States of AmericaUSA.
Department of Plant and Microbial Biology, University of Minnesota at Twin Cities, Saint Paul, Minnesota MN 55108, United States of AmericaUSA.
Mol Plant. 2024 Jul 1;17(7):1110-1128. doi: 10.1016/j.molp.2024.05.011. Epub 2024 Jun 1.
Spatiotemporal regulation of gene expression by polycomb repressive complex 2 (PRC2) is critical for animal and plant development. The Arabidopsis fertilization independent seed (FIS)-PRC2 complex functions specifically during plant reproduction from gametogenesis to seed development. After a double fertilization event, triploid endosperm proliferates early, followed by the growth of a diploid embryo, which replaces the endosperm in Arabidopsis and many dicots. Key genes critical for endosperm proliferation such as IKU2 and MINI3 are activated after fertilization. Here we report that two MADS-box AGAMOUS-LIKE (AGL) proteins associate with the key endosperm proliferation loci and recruit the FIS-PRC2 repressive complex at 4-5 days after pollination (DAP). Interestingly, AGL9 and AGL15 only accumulate toward the end of endosperm proliferation at 4-5 DAP and promote the deposition of H3K27me3 marks at key endosperm proliferation loci. Disruption of AGL9 and AGL15 or overexpression of AGL9 or AGL15 significantly influence endosperm proliferation and cellularization. Genome-wide analysis with cleavage Under Targets and tagmentation (CUT&Tag) sequencing and RNA sequencing revealed the landscape of endosperm H3K27me3 marks and gene expression profiles in Col-0 and agl9 agl15. CUT&Tag qPCR also demonstrated the occupancy of the two MADS-box proteins and FIS-PRC2 on a few representative target loci. Our studies suggest that MADS-box proteins could potentially recruit PRC2 to regulate many other developmental processes in plants or even in fungi and animals.
多梳抑制复合物 2 (PRC2) 对基因表达的时空调控对于动植物的发育至关重要。拟南芥受精不依赖种子 (FIS)-PRC2 复合物在植物生殖过程中从配子发生到种子发育过程中特异性发挥作用。在双受精事件后,三倍体胚乳早期增殖,随后是二倍体胚胎的生长,该胚胎在拟南芥和许多双子叶植物中取代胚乳。受精后,关键的胚乳增殖基因如 IKU2 和 MINI3 被激活。在这里,我们报告两个 MADS-box AGAMOUS-LIKE (AGL) 蛋白与关键的胚乳增殖位点结合,并在授粉后 4-5 天 (DAP) 招募 FIS-PRC2 抑制复合物。有趣的是,AGL9 和 AGL15 仅在 4-5 DAP 时在胚乳增殖结束时积累,并促进关键胚乳增殖位点处 H3K27me3 标记的沉积。AGL9 和 AGL15 的缺失或过表达会显著影响胚乳增殖和细胞化。利用靶向切割和标签 (CUT&Tag) 测序和 RNA 测序进行全基因组分析揭示了 Col-0 和 agl9 agl15 中胚乳 H3K27me3 标记和基因表达谱的全景。CUT&Tag qPCR 还证明了这两个 MADS-box 蛋白和 FIS-PRC2 在几个代表性靶标位点上的占据。我们的研究表明,MADS-box 蛋白可能潜在地招募 PRC2 来调节植物中甚至真菌和动物中的许多其他发育过程。
