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Plant proton pumping pyrophosphatase: the potential for its pyrophosphate synthesis activity to modulate plant growth
Author(s) -
Primo C.,
Pizzio G. A.,
Yang J.,
Gaxiola R. A.,
ScholzStarke J.,
Hirschi K. D.
Publication year - 2019
Publication title -
plant biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.871
H-Index - 87
eISSN - 1438-8677
pISSN - 1435-8603
DOI - 10.1111/plb.13007
Subject(s) - inorganic pyrophosphatase , pyrophosphate , biology , atp synthase , pyrophosphatase , biochemistry , pyrophosphatases , bioenergetics , vacuole , heterologous expression , enzyme , plant growth , microbiology and biotechnology , mitochondrion , botany , recombinant dna , cytoplasm , gene
Cellular pyrophosphate (PPi) homeostasis is vital for normal plant growth and development. Plant proton‐pumping pyrophosphatases (H + ‐PPases) are enzymes with different tissue‐specific functions related to the regulation of PPi homeostasis. Enhanced expression of plant H + ‐PPases increases biomass and yield in different crop species. Here, we emphasise emerging studies utilising heterologous expression in yeast and plant vacuole electrophysiology approaches, as well as phylogenetic relationships and structural analysis, to showcase that the H + ‐PPases possess a PPi synthesis function. We postulate this synthase activity contributes to modulating and promoting plant growth both in H + ‐PPase‐engineered crops and in wild‐type plants. We propose a model where the PPi synthase activity of H + ‐PPases maintains the PPi pool when cells adopt PPi‐dependent glycolysis during high energy demands and/or low oxygen environments. We conclude by proposing experiments to further investigate the H + ‐PPase‐mediated PPi synthase role in plant growth.