Monogalactosyldiacylglycerol synthase isoforms play diverse roles inside and outside the diatom plastid.

IF 10 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Plant Cell Pub Date : 2024-10-09 DOI:10.1093/plcell/koae275
Nolwenn Guéguen, Yannick Sérès, Félix Cicéron, Valérie Gros, Grégory Si Larbi, Denis Falconet, Etienne Deragon, Siraba D Gueye, Damien Le Moigne, Marion Schilling, Mathilde Cussac, Dimitris Petroutsos, Hanhua Hu, Yangmin Gong, Morgane Michaud, Juliette Jouhet, Juliette Salvaing, Alberto Amato, Eric Maréchal
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引用次数: 0

Abstract

Diatoms derive from a secondary endosymbiosis event, which occurred when a eukaryotic host cell engulfed a red alga. This led to the formation of a complex plastid enclosed by four membranes: two innermost membranes originating from the red alga chloroplast envelope, and two additional peri- and epiplastidial membranes (PPM, EpM). The EpM is linked to the endoplasmic reticulum (ER). The most abundant membrane lipid in diatoms is monogalactosyldiacylglycerol (MGDG), synthesized by galactosyltransferases called MGDG synthases (MGDs), conserved in photosynthetic eukaryotes and considered to be specific to chloroplast membranes. Similar to angiosperms, a multigenic family of MGDs has evolved in diatoms, but through an independent process. We characterized MGDα, MGDβ and MGDγ in Phaeodactylum tricornutum, combining molecular analyses, heterologous expression in Saccharomyces cerevisiae, and studying overexpressing and CRISPR-Cas9-edited lines. MGDα localizes mainly to thylakoids, MGDβ to the PPM, and MGDγ to the ER and EpM. MGDs have distinct specificities for diacylglycerol, consistent with their localization. Results suggest that MGDα is required for thylakoid expansion under optimal conditions, while MGDβ and MGDγ play roles in plastid and non-plastid membranes and in response to environmental stress. Functional compensation among MGDs likely contributes to diatom resilience under adverse conditions and to their ecological success.

单半乳糖二乙酰甘油合成酶同工酶在硅藻质体内外发挥着不同的作用。
硅藻是真核宿主细胞吞噬红藻时发生的二次共生现象的产物。这导致形成了由四层膜包裹的复杂质体:两层最内层的膜来自红藻叶绿体包膜,另外两层是质体周围膜和质体外膜(PPM、EpM)。EpM 与内质网(ER)相连。硅藻中最丰富的膜脂是单半乳糖基二乙酰甘油(MGDG),由称为 MGDG 合成酶(MGDs)的半乳糖基转移酶合成。与被子植物类似,硅藻中也进化出了一个多基因的 MGDs 家族,但这是一个独立的过程。我们结合分子分析、在酿酒酵母中的异源表达以及过表达和CRISPR-Cas9编辑品系的研究,确定了三疣藻中MGDα、MGDβ和MGDγ的特征。MGDα主要定位于葡萄体,MGDβ定位于PPM,MGDγ定位于ER和EpM。MGD 对二酰基甘油具有不同的特异性,这与它们的定位一致。研究结果表明,在最佳条件下,MGDα对类囊体的扩展是必需的,而MGDβ和MGDγ则在质体膜和非质体膜以及对环境胁迫的反应中发挥作用。MGD之间的功能补偿可能有助于硅藻在不利条件下的恢复能力及其生态成功。
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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来源期刊
Plant Cell
Plant Cell 生物-生化与分子生物学
CiteScore
16.90
自引率
5.20%
发文量
337
审稿时长
2.4 months
期刊介绍: Title: Plant Cell Publisher: Published monthly by the American Society of Plant Biologists (ASPB) Produced by Sheridan Journal Services, Waterbury, VT History and Impact: Established in 1989 Within three years of publication, ranked first in impact among journals in plant sciences Maintains high standard of excellence Scope: Publishes novel research of special significance in plant biology Focus areas include cellular biology, molecular biology, biochemistry, genetics, development, and evolution Primary criteria: articles provide new insight of broad interest to plant biologists and are suitable for a wide audience Tenets: Publish the most exciting, cutting-edge research in plant cellular and molecular biology Provide rapid turnaround time for reviewing and publishing research papers Ensure highest quality reproduction of data Feature interactive format for commentaries, opinion pieces, and exchange of information in review articles, meeting reports, and insightful overviews.
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