Circadian Rhythms in Biologically Closed Electrical Circuits of Plants

Overview

Journal Plant Signal Behav

Specialty Biology

Date 2012 Feb 23

PMID 22353874

Citations 4

Authors

Alexander Volkov

Astian J Waite

Joseph D Wooten

Vladislav S Markin

Affiliations

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Abstract

The circadian clock regulates a wide range of electrophysiological and developmental processes in plants. Here, we discuss the direct influence of a circadian clock on biologically closed electrochemical circuits in vivo. The biologically closed electrochemical circuits in the leaves of C. miniata (Kaffir lily), Aloe vera and Mimosa pudica, which regulate their physiology, were analyzed using the charge stimulation method. Plants are able to memorize daytime and nighttime. Even at continuous light or darkness, plants recognize nighttime or daytime and change the input resistance. The circadian clock can be maintained endogenously and has electrochemical oscillators, which can activate ion channels in biologically closed electrochemical circuits. The activation of voltage gated channels depends on the applied voltage, electrical charge, and the speed of transmission of electrical energy from the electrostimulator to plants.

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References

Volkov A, Carrell H, Markin V . Biologically closed electrical circuits in venus flytrap. Plant Physiol. 2009; 149(4):1661-7. PMC: 2663737. DOI: 10.1104/pp.108.134536. View

Kim H, Cote G, Crain R . Effects of Light on the Membrane Potential of Protoplasts from Samanea saman Pulvini : Involvement of K Channels and the H -ATPase. Plant Physiol. 1992; 99(4):1532-9. PMC: 1080659. DOI: 10.1104/pp.99.4.1532. View

SCOTT B, Gulline H . Membrane changes in a circadian system. Nature. 1975; 254(5495):69-70. DOI: 10.1038/254069a0. View

Volkov A, Wooten J, Waite A, Brown C, Markin V . Circadian rhythms in electrical circuits of Clivia miniata. J Plant Physiol. 2011; 168(15):1753-60. DOI: 10.1016/j.jplph.2011.03.012. View

Cote G . Signal Transduction in Leaf Movement. Plant Physiol. 1995; 109(3):729-734. PMC: 161371. DOI: 10.1104/pp.109.3.729. View