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Metabolic Consequences of Polyphosphate Synthesis and Imminent Phosphate Limitation

Geun-Don Kim, Danye Qiu, Henning J. Jessen, Andreas Mayer

2023mBio28 citationsDOIOpen Access PDF

Abstract

) for synthesizing nucleic acids and phospholipids and its detrimental bioenergetic effects by reducing the free energy of nucleotide hydrolysis. The latter may stall metabolism. Therefore, microorganisms manage the import and export of phosphate, its conversion into osmotically inactive inorganic polyphosphates, and their storage in dedicated organelles (acidocalcisomes). Here, we provide novel insights into metabolic changes that yeast cells may use to signal declining phosphate availability in the cytosol and differentiate it from actual phosphate starvation. We also analyze the role of acidocalcisome-like organelles in phosphate homeostasis. This study uncovers an unexpected role of the polyphosphate pool in these organelles under phosphate-rich conditions, indicating that its metabolic roles go beyond that of a phosphate reserve for surviving starvation.

Topics & Concepts

PolyphosphatePhosphateChemistryIntensive care medicineBiochemistryMedicineGlycogen Storage Diseases and MyoclonusMetabolism, Diabetes, and CancerCoagulation, Bradykinin, Polyphosphates, and Angioedema
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