拟南芥AtGPAT1是膜结合甘油-3-磷酸酰基转移酶基因家族的成员之一，对绒毡层分化和雄性育性至关重要。

Arabidopsis AtGPAT1, a member of the membrane-bound glycerol-3-phosphate acyltransferase gene family, is essential for tapetum differentiation and male fertility.

作者信息

Zheng Zhifu, Xia Qun, Dauk Melanie, Shen Wenyun, Selvaraj Gopalan, Zou Jitao

机构信息

Plant Biotechnology Institute, National Research Council of Canada, Saskatoon, Saskatchewan S7N OW9, Canada.

出版信息

Plant Cell. 2003 Aug;15(8):1872-87. doi: 10.1105/tpc.012427.

DOI:10.1105/tpc.012427

PMID:12897259

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC167176/

Abstract

Membrane-bound glycerol-3-phosphate acyltransferase (GPAT; EC 2.3.1.15) mediates the initial step of glycerolipid biosynthesis in the extraplastidic compartments of plant cells. Here, we report the molecular characterization of a novel GPAT gene family from Arabidopsis, designated AtGPAT. The corresponding polypeptides possess transmembrane domains and GPAT activity when expressed heterologously in a yeast lipid mutant. The functional significance of one isoform, AtGPAT1, is the focus of the present study. Disruption of the AtGPAT1 gene causes a massive pollen development arrest, and subsequent introduction of the gene into the mutant plant rescues the phenotype, illustrating a pivotal role for AtGPAT1 in pollen development. Microscopic examinations revealed that the gene lesion results in a perturbed degeneration of the tapetum, which is associated with altered endoplasmic reticulum profiles and reduced secretion. In addition to the sporophytic effect, AtGPAT1 also exerts a gametophytic effect on pollen performance, as the competitive ability of a pollen grain to pollinate is dependent on the presence of an AtGPAT1 gene. Deficiency in AtGPAT1 correlates with several fatty acid composition changes in flower tissues and seeds. Unexpectedly, however, a loss of AtGPAT1 causes no significant change in seed oil content.

摘要

膜结合甘油-3-磷酸酰基转移酶（GPAT；EC 2.3.1.15）介导植物细胞质外体区室中甘油脂质生物合成的起始步骤。在此，我们报道了拟南芥中一个新的GPAT基因家族的分子特征，命名为AtGPAT。相应的多肽在酵母脂质突变体中异源表达时具有跨膜结构域和GPAT活性。本研究的重点是其中一个同工型AtGPAT1的功能意义。AtGPAT1基因的破坏导致大量花粉发育停滞，随后将该基因导入突变体植物中可挽救该表型，说明AtGPAT1在花粉发育中起关键作用。显微镜检查显示，该基因损伤导致绒毡层的异常退化，这与内质网形态改变和分泌减少有关。除了孢子体效应外，AtGPAT1对花粉性能也有配子体效应，因为花粉粒授粉的竞争能力取决于AtGPAT1基因的存在。AtGPAT1的缺乏与花组织和种子中几种脂肪酸组成的变化相关。然而，出乎意料的是，AtGPAT1的缺失并未导致种子油含量发生显著变化。

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