Membrane electroporation: The absolute rate equation and nanosecond time scale pore creation. - Wikidata - wikimedia - TriplyDB

Membrane electroporation: The absolute rate equation and nanosecond time scale pore creation.

Membrane electroporation: The absolute rate equation and nanosecond time scale pore creation.

http://www.wikidata.org/entity/Q51931860

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Magneto-elasto-electroporation (MEEP): In-vitro visualization and numerical characteristics.Mitigation of impedance changes due to electroporation therapy using bursts of high-frequency bipolar pulses.Dose-dependent thresholds of 10-ns electric pulse induced plasma membrane disruption and cytotoxicity in multiple cell lines.Mechanisms for the intracellular manipulation of organelles by conventional electroporation.Thresholds for phosphatidylserine externalization in Chinese hamster ovarian cells following exposure to nanosecond pulsed electrical fields (nsPEF).Ion transport into cells exposed to monopolar and bipolar nanosecond pulses Effects of nanosecond pulse electric fields on cellular elasticity.Transmembrane molecular transport during versus after extremely large, nanosecond electric pulses.Active mechanisms are needed to describe cell responses to submicrosecond, megavolt-per-meter pulses: cell models for ultrashort pulses.Quantification of electroporative uptake kinetics and electric field heterogeneity effects in cells.Kinetics, statistics, and energetics of lipid membrane electroporation studied by molecular dynamics simulations.Electrical behavior and pore accumulation in a multicellular model for conventional and supra-electroporation.Uncertainty Quantification in Irreversible Electroporation Simulations.Nucleofection of expression vectors induces a robust interferon response and inhibition of cell proliferation.Basic features of a cell electroporation model: illustrative behavior for two very different pulses.The current-voltage relation for electropores with conductivity gradients.An engineered membrane to measure electroporation: effect of tethers and bioelectronic interface.Cell electrofusion using nanosecond electric pulses.Self-consistent analyses for potential conduction block in nerves by an ultrashort high-intensity electric pulse.Transmembrane voltage analyses in spheroidal cells in response to an intense ultrashort electrical pulse.Calcium and phosphatidylserine inhibit lipid electropore formation and reduce pore lifetime.Adrenal Chromaffin Cells Exposed to 5-ns Pulses Require Higher Electric Fields to Porate Intracellular Membranes than the Plasma Membrane: An Experimental and Modeling Study.Core-shell magnetoelectric nanorobot - A remotely controlled probe for targeted cell manipulation.A transportable, inexpensive electroporator for in utero electroporation.Investigation of the morphological transition of a phospholipid bilayer membrane in an external electric field via molecular dynamics simulation.Simulations of intracellular calcium release dynamics in response to a high-intensity, ultrashort electric pulse.Molecular dynamics simulations of lipid membrane electroporation.Towards solid tumor treatment by irreversible electroporation: intrinsic redistribution of fields and currents in tissue.

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Membrane electroporation: The absolute rate equation and nanosecond time scale pore creation.

http://www.wikidata.org/entity/Q51931860

description

2006 nî lūn-bûn

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2006年の論文

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年學術文章

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2006年學術文章

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PHYSREVE.74.021904

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Physical Review E

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Axel T Esser

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James C Weaver

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T R Gowrishankar

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Zlatko Vasilkoski

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Electroporation dynamics in biological cells subjected to ultrafast electrical pulses: A numerical simulation study

Voltage-induced nonconductive pre-pores and metastable single pores in unmodified planar lipid bilayer.

Dynamic tension spectroscopy and strength of biomembranes

Membrane electroporation: a molecular dynamics simulation.

Aggregation of topological motifs in the Escherichia coli transcriptional regulatory network

Plasma membrane voltage changes during nanosecond pulsed electric field exposure.

Theory of electroporation of planar bilayer membranes: predictions of the aqueous area, change in capacitance, and pore-pore separation.

Time courses of cell electroporation as revealed by submicrosecond imaging of transmembrane potential.

Electric field-induced functional reductions in the K+ channels mainly resulted from supramembrane potential-mediated electroconformational changes.

Modeling electroporation in a single cell. I. Effects Of field strength and rest potential.

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10.1103/PHYSREVE.74.021904

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2 Pt 1

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2006-08-03T00:00:00Z

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electroporation