4.8 Article

Mitochondrial ATP synthase subunit d, a component of the peripheral stalk, is essential for growth and heat stress tolerance in Arabidopsis thaliana

Journal

PLANT JOURNAL
Volume 107, Issue 3, Pages 713-726

Publisher

WILEY
DOI: 10.1111/tpj.15317

Keywords

adenosine triphosphate synthase subunit d; heat stress; mitochondria; reactive oxygen species; Arabidopsis thaliana

Categories

Funding

  1. China Scholarship Council
  2. U.S. National Science Foundation [IOS 1354960]

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The research highlights the essential role of the mitochondrial ATP synthase d subunit in normal plant growth and heat stress tolerance. Downregulation of ATPd affects only subunits of the mitochondrial ATP synthase complex V, leading to increased sensitivity to heat stress, slower growth, and abnormal leaf morphology in plants.
As rapid changes in climate threaten global crop yields, an understanding of plant heat stress tolerance is increasingly relevant. Heat stress tolerance involves the coordinated action of many cellular processes and is particularly energy demanding. We acquired a knockout mutant and generated knockdown lines in Arabidopsis thaliana of the d subunit of mitochondrial ATP synthase (gene name: ATPQ, AT3G52300, referred to hereafter as ATPd), a subunit of the peripheral stalk, and used these to investigate the phenotypic significance of this subunit in normal growth and heat stress tolerance. Homozygous knockout mutants for ATPd could not be obtained due to gametophytic defects, while heterozygotes possess no visible phenotype. Therefore, we used RNA interference to create knockdown plant lines for further studies. Proteomic analysis and blue native gels revealed that ATPd downregulation impairs only subunits of the mitochondrial ATP synthase (complex V). Knockdown plants were more sensitive to heat stress, had abnormal leaf morphology, and were severely slow growing compared to wild type. These results indicate that ATPd plays a crucial role in proper function of the mitochondrial ATP synthase holoenzyme, which, when reduced, leads to wide-ranging defects in energy-demanding cellular processes. In knockdown plants, more hydrogen peroxide accumulated and mitochondrial dysfunction stimulon (MDS) genes were activated. These data establish the essential structural role of ATPd and support the importance of complex V in normal plant growth, and provide new information about its requirement for heat stress tolerance.

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