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三甲基转移酶复合物对于磷脂酰胆碱生物合成和生长是必需的。

A Methyltransferase Trio Essential for Phosphatidylcholine Biosynthesis and Growth.

机构信息

Institute of Plant and Microbial Biology, Academia Sinica, Taipei 11529, Taiwan.

Molecular and Biological Agricultural Sciences Program, Taiwan International Graduate Program, Academia Sinica, Taipei 11529, Taiwan.

出版信息

Plant Physiol. 2019 Feb;179(2):433-445. doi: 10.1104/pp.18.01408. Epub 2018 Dec 5.

DOI:10.1104/pp.18.01408
PMID:30518673
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6426410/
Abstract

Phosphatidylcholine (PC) is a primary class of membrane lipids in most eukaryotes. In plants, the primary PC biosynthetic pathway and its role in plant growth and development remain elusive due to lack of a mutant model with substantially decreased PC content. Recently, a double mutant of Arabidopsis () PHOSPHO-BASE -METHYLTRANSFERASE 1 (PMT1) and PMT3 was reported with reduced PC content and defective plant growth. However, residual PC content as well as the nonlethal phenotype of the mutant suggests an additional enzyme contributes to PC biosynthesis. In this article, we report on the role of three PMTs in PC biosynthesis and plant development, with a focus on PMT2. had the highest expression level among the three PMTs, and it was highly expressed in roots. The double mutant enhanced the defects in root growth, cell viability, and PC content of , suggesting that PMT2 functions together with PMT1 in roots. Chemical inhibition of PMT activity in wild-type roots reproduced the short root phenotype observed in , suggesting that PMT1 and PMT2 are the major PMT isoforms in roots. In shoots, enhanced the phenotype of , showing seedling lethality and further reduced PC content without detectable de novo PC biosynthesis. These results suggest that PMTs catalyze an essential reaction step in PC biosynthesis and that the three PMTs have differential tissue-specific functions in PC biosynthesis and plant growth.

摘要

磷脂酰胆碱 (PC) 是大多数真核生物中膜脂质的主要类别。在植物中,由于缺乏 PC 含量显著降低的突变体模型,主要的 PC 生物合成途径及其在植物生长发育中的作用仍不清楚。最近,报道了拟南芥 PHOSPHO-BASE -METHYLTRANSFERASE 1 (PMT1) 和 PMT3 的双突变体,其 PC 含量降低且植物生长缺陷。然而,突变体的残留 PC 含量和非致死表型表明,还有其他酶参与 PC 的生物合成。在本文中,我们报告了三种 PMT 在 PC 生物合成和植物发育中的作用,重点是 PMT2。在三种 PMT 中,表达水平最高,在根中高度表达。双突变体增强了根生长、细胞活力和 PC 含量的缺陷,表明 PMT2 与 PMT1 在根中共同作用。在野生型根中抑制 PMT 活性的化学抑制剂再现了观察到的突变体中的短根表型,表明 PMT1 和 PMT2 是根中主要的 PMT 同工型。在地上部分,增强了 的表型,表现出幼苗致死性,进一步降低了 PC 含量,而新合成的 PC 含量不可检测。这些结果表明 PMTs 催化 PC 生物合成中的一个必需反应步骤,并且这三种 PMT 在 PC 生物合成和植物生长中有不同的组织特异性功能。

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Plant J. 2018 Dec;96(5):1064-1075. doi: 10.1111/tpj.14090. Epub 2018 Oct 29.
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Arabidopsis Serine Decarboxylase 1 (SDC1) in Phospholipid and Amino Acid Metabolism.拟南芥丝氨酸脱羧酶1(SDC1)在磷脂和氨基酸代谢中的作用
Front Plant Sci. 2018 Jul 31;9:972. doi: 10.3389/fpls.2018.00972. eCollection 2018.
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NMT1 and NMT3 -Methyltransferase Activity Is Critical to Lipid Homeostasis, Morphogenesis, and Reproduction.NMT1 和 NMT3-甲基转移酶活性对脂质稳态、形态发生和生殖至关重要。
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The Phosphate Fast-Responsive Genes and Affect Phosphocholine and Phosphoethanolamine Content.磷酸盐快速响应基因影响磷酸胆碱和磷酸乙醇胺含量。
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