Dynamics of homeostats: the basis of electrical, chemical, hydraulic, pH and calcium signaling in plants

Dynamics of homeostats: the basis of electrical, chemical, hydraulic, pH and calcium signaling in plants

Homeostats are important to control homeostatic conditions. Here, we have analyzed the theoretical basis of their dynamic properties by bringing the K homeostat out of steady state (i) by an electrical stimulus, (ii) by an external imbalance in the K+ or H+ gradient or (iii) by a readjustment of tra...

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Bibliographic Details
Main Authors: Leslie Contador-Álvarez, Tamara Rojas-Rocco, Talía Rodríguez-Gómez, María Eugenia Rubio-Meléndez, Janin Riedelsberger, Erwan Michard, Ingo Dreyer
Format: Article
Language:English
Published: Cambridge University Press 2025-01-01
Series:Quantitative Plant Biology
Subjects:
homeostasis
membrane transport
modeling
quantitative biology
thermodynamics
transporter networks
Online Access:https://www.cambridge.org/core/product/identifier/S2632882825000062/type/journal_article
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Summary:Homeostats are important to control homeostatic conditions. Here, we have analyzed the theoretical basis of their dynamic properties by bringing the K homeostat out of steady state (i) by an electrical stimulus, (ii) by an external imbalance in the K+ or H+ gradient or (iii) by a readjustment of transporter activities. The reactions to such changes can be divided into (i) a short-term response (tens of milliseconds), where the membrane voltage changed along with the concentrations of ions that are not very abundant in the cytosol (H+ and Ca2+), and (ii) a long-term response (minutes and longer) caused by the slow changes in K+ concentrations. The mechanistic insights into its dynamics are not limited to the K homeostat but can be generalized, providing a new perspective on electrical, chemical, hydraulic, pH and Ca2+ signaling in plants. The results presented here also provide a theoretical background for optogenetic experiments in plants.
ISSN:2632-8828

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