Clayton Tuckett scite author profile

Clayton Tuckett

4Publications

35Citation Statements Received

83Citation Statements Given

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140

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Oakwood University

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Memory elements in the electrical network ofMimosa pudicaL.

Volkov

Reedus

Mitchell

et al. 2014

Plant Signaling & Behavior

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The fourth basic circuit element, a memristor, is a resistor with memory that was postulated by Chua in 1971. Here we found that memristors exist in vivo. The electrostimulation of the Mimosa pudica by bipolar sinusoidal or triangle periodic waves induce electrical responses with fingerprints of memristors. Uncouplers carbonylcyanide-3-chlorophenylhydrazone and carbonylcyanide-4-trifluoromethoxy-phenyl hydrazone decrease the amplitude of electrical responses at low and high frequencies of bipolar sinusoidal or triangle periodic electrostimulating waves. Memristive behavior of an electrical network in the Mimosa pudica is linked to the properties of voltage gated ion channels: the channel blocker TEACl reduces the electric response to a conventional resistor. Our results demonstrate that a voltage gated K(+) channel in the excitable tissue of plants has properties of a memristor. The discovery of memristors in plants creates a new direction in the modeling and understanding of electrical phenomena in plants.

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Cyclic voltammetry of apple fruits: Memristors in vivo

Volkov

Nyasani

Tuckett

et al. 2016

Bioelectrochemistry

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Electrophysiology of pumpkin seeds: Memristors in vivo

Volkov

Nyasani

Tuckett

et al. 2016

Plant Signaling & Behavior

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Leon Chua, the discoverer of a memristor, theoretically predicted that voltage gated ion channels can be memristors. We recently found memristors in different plants such as the Venus flytrap, Mimosa pudica, Aloe vera, apple fruits, and in potato tubers. There are no publications in literature about the existence of memristors in seeds. The goal of this work was to discover if pumpkin seeds might have memristors. We selected Cucurbita pepo L., cv. Cinderella, Cucurbita maxima L. cv Warty Goblin, and Cucurbita maxima L., cv. Jarrahdale seeds for this analysis. In these seeds, we found the presence of resistors with memory. The analysis was based on cyclic voltammetry where a memristor should manifest itself as a nonlinear two-terminal electrical element, which exhibits a pinched hysteresis loop on a current-voltage plane for any bipolar cyclic voltage input signal. Dry dormant pumpkin seeds have very high electrical resistance without memristive properties. The electrostimulation by bipolar sinusoidal or triangular periodic waves induces electrical responses in imbibed pumpkin seeds with fingerprints of memristors. Tetraethylammonium chloride, an inhibitor of voltage gated K(+) channels, transforms a memristor to a resistor in pumpkin seeds. NPPB (5-Nitro-2-(3-phenylpropylamino)benzoic acid) inhibits the memristive properties of imbibed pumpkin seeds. The discovery of memristors in pumpkin seeds creates a new direction in the understanding of electrophysiological phenomena in seeds.

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Electrotonic potentials in Aloe vera L.: Effects of intercellular and external electrodes arrangement

Volkov

Nyasani

Tuckett

et al. 2017

Bioelectrochemistry

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Clayton Tuckett

Memory elements in the electrical network ofMimosa pudicaL.

Cyclic voltammetry of apple fruits: Memristors in vivo

Electrophysiology of pumpkin seeds: Memristors in vivo

Electrotonic potentials in Aloe vera L.: Effects of intercellular and external electrodes arrangement

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