Search Results - "Markin, Vladislav S."

Biophysics and Structure of the Patch and the Gigaseal by Suchyna, Thomas M., Markin, Vladislav S., Sachs, Frederick

“…Interpreting channel behavior in patches requires an understanding of patch structure and dynamics, especially in studies of mechanosensitive channels. High…”
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Energetics of peptide (pHLIP) binding to and folding across a lipid bilayer membrane by Reshetnyak, Yana K, Andreev, Oleg A, Segala, Michael, Markin, Vladislav S, Engelman, Donald M

“…The pH low-insertion peptide (pHLIP) serves as a model system for peptide insertion and folding across a lipid bilayer. It has three general states: (I)…”
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Mimosa pudica: Electrical and mechanical stimulation of plant movements by VOLKOV, ALEXANDER G, FOSTER, JUSTIN C, ASHBY, TALITHA A, WALKER, RONALD K, JOHNSON, JON A, MARKIN, VLADISLAV S

“…Thigmonastic movements in the sensitive plant Mimosa pudica L., associated with fast responses to environmental stimuli, appear to be regulated through…”
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intimate collaboration between peroxisomes and lipid bodies by Binns, Derk, Januszewski, Tom, Chen, Yue, Hill, Justin, Markin, Vladislav S, Zhao, Yingming, Gilpin, Christopher, Chapman, Kent D, Anderson, Richard G.W, Goodman, Joel M

“…Although peroxisomes oxidize lipids, the metabolism of lipid bodies and peroxisomes is thought to be largely uncoupled from one another. In this study, using…”
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Modulation of the pHLIP Transmembrane Helix Insertion Pathway by Karabadzhak, Alexander G., Weerakkody, Dhammika, Wijesinghe, Dayanjali, Thakur, Mak S., Engelman, Donald M., Andreev, Oleg A., Markin, Vladislav S., Reshetnyak, Yana K.

“…The membrane-associated folding/unfolding of pH (low) insertion peptide (pHLIP) provides an opportunity to study how sequence variations influence the kinetics…”
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Signal transduction in Mimosa pudica: biologically closed electrical circuits by VOLKOV, ALEXANDER G, FOSTER, JUSTIN C, MARKIN, VLADISLAV S

“…Biologically closed electrical circuits operate over large distances in biological tissues. The activation of such circuits can lead to various physiological…”
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Active movements in plants: Mechanism of trap closure by Dionaea muscipula Ellis by Markin, Vladislav S., Volkov, Alexander G., Jovanov, Emil

“…The Venus flytrap (Dionaea muscipula Ellis) captures insects with one of the most rapid movements in the plant kingdom. We investigated trap closure by…”
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Mechanical and electrical anisotropy in Mimosa pudica pulvini by Volkov, Alexander G, Foster, Justin C, Baker, Kara D, Markin, Vladislav S

“…Thigmonastic or seismonastic movements in Mimosa pudica, such as the response to touch, appear to be regulated by electrical, hydrodynamical, and chemical…”
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Quantitative Theory of Surface Tension and Surface Potential of Aqueous Solutions of Electrolytes by Markin, Vladislav S, Volkov, Alexander G

“…The surface tension and surface potential of aqueous solutions of inorganic electrolytes are calculated. The new model includes image forces at liquid…”
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Plant electrical memory by Volkov, Alexander G., Carrell, Holly, Adesina, Tejumade, Markin, Vladislav S., Jovanov, Emil

“…Electrical signaling, short-term memory and rapid closure of the carnivorous plant Dionaea muscipula Ellis (Venus flytrap) have been attracting the attention…”
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Kinetics and Mechanism of Dionaea muscipula Trap Closing by Volkov, Alexander G, Adesina, Tejumade, Markin, Vladislav S, Jovanov, Emil

“…The Venus flytrap (Dionaea muscipula) possesses an active trapping mechanism to capture insects with one of the most rapid movements in the plant kingdom, as…”
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Molecular electronics in pinnae of Mimosa pudica by Volkov, Alexander G., Foster, Justin C., Markin, Vladislav S.

“…Bioelectrochemical circuits operate in all plants including the sensitive plant Mimosa pudica Linn. The activation of biologically closed circuits with voltage…”
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Circadian rhythms in biologically closed electrical circuits of plants by Volkov, Alexander G., Waite, Astian J., Wooten, Joseph D., Markin, Vladislav S.

“…The circadian clock regulates a wide range of electrophysiological and developmental processes in plants. Here, we discuss the direct influence of a circadian…”
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Biologically Closed Electrical Circuits in Venus Flytrap by Volkov, Alexander G, Carrell, Holly, Markin, Vladislav S

“…The Venus flytrap (Dionaea muscipula Ellis) is a marvel of plant electrical, mechanical, and biochemical engineering. The rapid closure of the Venus flytrap…”
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Molecular Electronics of the Dionaea muscipula trap by Volkov, Alexander G., Carrell, Holly, Markin, Vladislav S.

“…Transmission of electrical charge between a lobe and the midrib causes closure of the trap and induces an electrical signal propagating between a lobe and a…”
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Structure of Nonpolarizable Water/Nitrobenzene Interface:  Potential Distribution, Ion Adsorption, and Interfacial Tension by Markin, Vladislav S, Volkov, Alexander G, Volkova-Gugeshashvili, Maya I

“…Adsorption of hydrophobic and hydrophilic ions at the nonpolarizable interface between two immiscible electrolyte solutions was investigated. The results were…”
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Memristors in plants by Volkov, Alexander G, Tucket, Clayton, Reedus, Jada, Volkova, Maya I, Markin, Vladislav S, Chua, Leon

“…We investigated electrical circuitry of the Venus flytrap, Mimosa pudica and Aloe vera. The goal was to discover if these plants might have a new electrical…”
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An analytical model of memristors in plants by Markin, Vladislav S, Volkov, Alexander G, Chua, Leon

“…The memristor, a resistor with memory, was postulated by Chua in 1971 and the first solid-state memristor was built in 2008. Recently, we found memristors in…”
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Electrical memory in Venus flytrap by Volkov, Alexander G., Carrell, Holly, Baldwin, Andrew, Markin, Vladislav S.

“…Electrical signaling, memory and rapid closure of the carnivorous plant Dionaea muscipula Ellis (Venus flytrap) have been attracting the attention of…”
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Gating pore currents in DIIS4 mutations of NaV1.4 associated with periodic paralysis: saturation of ion flux and implications for disease pathogenesis by Struyk, Arie F, Markin, Vladislav S, Francis, David, Cannon, Stephen C

“…S4 voltage-sensor mutations in CaV1.1 and NaV1.4 channels cause the human muscle disorder hypokalemic periodic paralysis (HypoPP). The mechanism whereby these…”
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