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Polycomb, epigenomes, and control of cell identity.多梳蛋白、表观基因组与细胞身份的调控
Cell. 2003 Mar 7;112(5):599-606. doi: 10.1016/s0092-8674(03)00157-0.
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Epigenetic inheritance of expression states in plant development: the role of Polycomb group proteins.植物发育中表达状态的表观遗传继承:多梳蛋白家族的作用
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Chromatin-remodeling and memory factors. New regulators of plant development.染色质重塑与记忆因子。植物发育的新调控因子。
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Drosophila enhancer of Zeste/ESC complexes have a histone H3 methyltransferase activity that marks chromosomal Polycomb sites.果蝇Zeste增强子/ESC复合物具有一种组蛋白H3甲基转移酶活性,可标记染色体上的多梳位点。
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多梳蛋白组蛋白MEDEA通过控制MADS盒基因PHERES1的表达来调节种子发育。

The Polycomb-group protein MEDEA regulates seed development by controlling expression of the MADS-box gene PHERES1.

作者信息

Köhler Claudia, Hennig Lars, Spillane Charles, Pien Stephane, Gruissem Wilhelm, Grossniklaus Ueli

机构信息

Institute of Plant Biology & Zürich-Basel Plant Science Center, University of Zürich, CH-8008 Zürich, Switzerland.

出版信息

Genes Dev. 2003 Jun 15;17(12):1540-53. doi: 10.1101/gad.257403.

DOI:10.1101/gad.257403
PMID:12815071
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC196083/
Abstract

The Polycomb-group (PcG) proteins MEDEA, FERTILIZATION INDEPENDENT ENDOSPERM, and FERTILIZATION INDEPENDENT SEED2 regulate seed development in Arabidopsis by controlling embryo and endosperm proliferation. All three of these FIS-class proteins are likely subunits of a multiprotein PcG complex, which epigenetically regulates downstream target genes that were previously unknown. Here we show that the MADS-box gene PHERES1 (PHE1) is commonly deregulated in the fis-class mutants. PHE1 belongs to the evolutionarily ancient type I class of MADS-box proteins that have not yet been assigned any function in plants. Both MEDEA and FIE directly associate with the promoter region of PHE1, suggesting that PHE1 expression is epigenetically regulated by PcG proteins. PHE1 is expressed transiently after fertilization in both the embryo and the endosperm; however, it remains up-regulated in the fis mutants, consistent with the proposed function of the FIS genes as transcriptional repressors. Reduced expression levels of PHE1 in medea mutant seeds can suppress medea seed abortion, indicating a key role of PHE1 repression in seed development. PHE1 expression in a hypomethylated medea mutant background resembles the wild-type expression pattern and is associated with rescue of the medea seed-abortion phenotype. In summary, our results demonstrate that seed abortion in the medea mutant is largely mediated by deregulated expression of the type I MADS-box gene PHE1.

摘要

多梳蛋白家族(PcG)中的蛋白MEA、非受精依赖型胚乳(FIE)和非受精依赖型种子2(FIS2)通过控制胚和胚乳的增殖来调节拟南芥种子的发育。这三种FIS类蛋白可能都是一种多蛋白PcG复合物的亚基,该复合物通过表观遗传方式调节此前未知的下游靶基因。我们在此表明,MADS盒基因PHERES1(PHE1)在FIS类突变体中通常发生失调。PHE1属于进化上古老的I型MADS盒蛋白,这类蛋白在植物中尚未被赋予任何功能。MEA和FIE都直接与PHE1的启动子区域结合,这表明PHE1的表达受PcG蛋白的表观遗传调控。受精后,PHE1在胚和胚乳中短暂表达;然而,在FIS突变体中它仍处于上调状态,这与FIS基因作为转录抑制因子的推测功能一致。在MEA突变体种子中降低PHE1的表达水平可抑制MEA种子败育,这表明PHE1的抑制在种子发育中起关键作用。在低甲基化的MEA突变体背景中PHE1的表达类似于野生型表达模式,并且与MEA种子败育表型的挽救相关。总之,我们的结果表明,MEA突变体中的种子败育很大程度上是由I型MADS盒基因PHE1的失调表达介导的。