Osmosensing and Osmoregulation in Unicellular Eukaryotes

Overview

Journal World J Microbiol Biotechnol

Publisher Springer

Specialties Biotechnology
Microbiology

Date 2015 Feb 2

PMID 25638456

Citations 8

Authors

Luis Parmenio Suescun-Bolivar

Patricia Elena Thome

Affiliations

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Abstract

Eukaryotic microorganisms possess mechanisms to detect osmotic variations in their surroundings, from specialized receptors and membrane transporters, to sophisticated systems such as two-component histidine kinases. Osmotic stimuli are transduced through conserved phosphorylation cascades that result in a rapid response to mitigate stress. This response allows for the maintenance of an optimal biochemical environment for cell functioning, as well as a suitable recovery in suboptimal environments that would otherwise endanger cell survival. The molecular basis of these responses has been largely studied in yeasts and bacteria. However, fewer studies have been published concerning the molecular basis of osmoregulation in other eukaryotic microorganisms such as protozoans and microalgae. Here, we review the main osmosensors reported in unicellular eukaryotic microorganisms (yeasts, microalgae and protozoa) and the pathways that maintain homeostasis in cells encountering hyperosmotic challenges.

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