在绿硫细菌中发现的单半乳糖二酰甘油合成酶揭示了半乳糖脂在光合作用中的重要作用。

A monogalactosyldiacylglycerol synthase found in the green sulfur bacterium Chlorobaculum tepidum reveals important roles for galactolipids in photosynthesis.

机构信息

Center for Biological Resources and Informatics, Tokyo Institute of Technology, Yokohama 226-8501, Japan.

出版信息

Plant Cell. 2011 Jul;23(7):2644-58. doi: 10.1105/tpc.111.085357. Epub 2011 Jul 15.

DOI:10.1105/tpc.111.085357

PMID:21764989

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3226221/

Abstract

Monogalactosyldiacylglycerol (MGDG), which is conserved in almost all photosynthetic organisms, is the most abundant natural polar lipid on Earth. In plants, MGDG is highly accumulated in the chloroplast membranes and is an important bulk constituent of thylakoid membranes. However, precise functions of MGDG in photosynthesis have not been well understood. Here, we report a novel MGDG synthase from the green sulfur bacterium Chlorobaculum tepidum. This enzyme, MgdA, catalyzes MGDG synthesis using UDP-Gal as a substrate. The gene encoding MgdA was essential for this bacterium; only heterozygous mgdA mutants could be isolated. An mgdA knockdown mutation affected in vivo assembly of bacteriochlorophyll c aggregates, suggesting the involvement of MGDG in the construction of the light-harvesting complex called chlorosome. These results indicate that MGDG biosynthesis has been independently established in each photosynthetic organism to perform photosynthesis under different environmental conditions. We complemented an Arabidopsis thaliana MGDG synthase mutant by heterologous expression of MgdA. The complemented plants showed almost normal levels of MGDG, although they also had abnormal morphological phenotypes, including reduced chlorophyll content, no apical dominance in shoot growth, atypical flower development, and infertility. These observations provide new insights regarding the importance of regulated MGDG synthesis in the physiology of higher plants.

摘要

单半乳糖二酰基甘油 (MGDG) 在几乎所有光合生物中都保守存在，是地球上最丰富的天然极性脂质。在植物中，MGDG 高度积累在叶绿体膜中，是类囊体膜的重要大量组成部分。然而，MGDG 在光合作用中的精确功能尚未得到很好的理解。在这里，我们报道了一种来自绿硫细菌 Chlorobaculum tepidum 的新型 MGDG 合酶。该酶 MgdA 使用 UDP-Gal 作为底物催化 MGDG 合成。编码 MgdA 的基因对该细菌是必需的；只能分离出杂合性 mgdA 突变体。mgdA 敲低突变影响细菌叶绿素 c 聚集体的体内组装，表明 MGDG 参与了称为菌叶绿素体的光捕获复合物的构建。这些结果表明，MGDG 生物合成在每个光合生物中都独立建立，以在不同的环境条件下进行光合作用。我们通过异源表达 MgdA 来互补拟南芥 MGDG 合酶突变体。互补植物显示出几乎正常水平的 MGDG，尽管它们也具有异常的形态表型，包括降低的叶绿素含量、茎生长中无顶端优势、典型的花发育和不育。这些观察结果为调控 MGDG 合成在高等植物生理学中的重要性提供了新的见解。

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