scholarly article | Q13442814 |
P2093 | author name string | Aude Silve | |
Isabelle Leray | |||
Lluis M Mir | |||
Clair Poignard | |||
P2860 | cites work | The dependence of efficiency of transmembrane molecular transfer using electroporation on medium viscosity | Q50438161 |
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Electrical modeling of the influence of medium conductivity on electroporation | Q61758794 | ||
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The effect of electrical deformation forces on the electropermeabilization of erythrocyte membranes in low- and high-conductivity media | Q74644689 | ||
Electric pulses induce cylindrical deformations on giant vesicles in salt solutions | Q30477829 | ||
Nanoelectropulse-driven membrane perturbation and small molecule permeabilization | Q33260934 | ||
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Therapeutic perspectives of in vivo cell electropermeabilization | Q34155985 | ||
Modeling electroporation in a single cell. I. Effects Of field strength and rest potential | Q34171210 | ||
Electro-mechanical permeabilization of lipid vesicles. Role of membrane tension and compressibility | Q34261439 | ||
Manipulation of cell volume and membrane pore comparison following single cell permeabilization with 60- and 600-ns electric pulses | Q34574588 | ||
Two modes of cell death caused by exposure to nanosecond pulsed electric field | Q34876015 | ||
Multiple nanosecond electric pulses increase the number but not the size of long-lived nanopores in the cell membrane | Q35091306 | ||
Mechanisms of cell membrane electropermeabilization: a minireview of our present (lack of ?) knowledge. | Q36160460 | ||
Effect of medium conductivity and composition on the uptake of propidium iodide into electropermeabilized myeloma cells | Q36832004 | ||
Lipid nanopores can form a stable, ion channel-like conduction pathway in cell membrane | Q37335976 | ||
Nucleic acids electrotransfer-based gene therapy (electrogenetherapy): past, current, and future | Q37534480 | ||
Recent developments in the field of bending rigidity measurements on membranes | Q38199216 | ||
Different involvement of extracellular calcium in two modes of cell death induced by nanosecond pulsed electric fields | Q38397470 | ||
Cell membrane permeabilization by 12-ns electric pulses: Not a purely dielectric, but a charge-dependent phenomenon. | Q38857200 | ||
Demonstration of cell membrane permeabilization to medium-sized molecules caused by a single 10 ns electric pulse | Q39444963 | ||
Electropermeabilization of mammalian cells. Quantitative analysis of the phenomenon | Q39634780 | ||
Electropermeabilization of mammalian cells to macromolecules: control by pulse duration | Q40128465 | ||
Electroendocytosis: exposure of cells to pulsed low electric fields enhances adsorption and uptake of macromolecules | Q40321485 | ||
The influence of medium conductivity on electropermeabilization and survival of cells in vitro | Q40770518 | ||
The current-voltage relation for electropores with conductivity gradients | Q42124285 | ||
Introduction of definite amounts of nonpermeant molecules into living cells after electropermeabilization: direct access to the cytosol | Q42804607 | ||
Reversible electropermeabilization of mammalian cells by high-intensity, ultra-short pulses of submicrosecond duration | Q43806869 | ||
Very high cytotoxicity of bleomycin introduced into the cytosol of cells in culture | Q44073452 | ||
Optimization of a gene electrotransfer method for mesenchymal stem cell transfection. | Q45875015 | ||
Nanosecond electric pulse-induced calcium entry into chromaffin cells. | Q46007626 | ||
Size-controlled nanopores in lipid membranes with stabilizing electric fields | Q47306255 | ||
Control by electrical parameters of short- and long-term cell death resulting from electropermeabilization of Chinese hamster ovary cells. | Q49294059 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 19957 | |
P577 | publication date | 2016-02-01 | |
P1433 | published in | Scientific Reports | Q2261792 |
P1476 | title | Impact of external medium conductivity on cell membrane electropermeabilization by microsecond and nanosecond electric pulses | |
P478 | volume | 6 |
Q52684759 | Antitumor efficacy of liposome-encapsulated NVP-BEZ 235 in combination with irreversible electroporation. |
Q92808445 | Cell Electropermeabilisation Enhancement by Non-Thermal-Plasma-Treated PBS |
Q36084500 | Cell Electrosensitization Exists Only in Certain Electroporation Buffers |
Q40489059 | Changes in optical properties of electroporated cells as revealed by digital holographic microscopy. |
Q58710974 | Characterization of Cell Membrane Permeability In Vitro Part I: Transport Behavior Induced by Single-Pulse Electric Fields |
Q42025886 | Chemically different non-thermal plasmas target distinct cell death pathways. |
Q100395388 | Easy and robust electrotransfection protocol for efficient ectopic gene expression and genome editing in human B cells |
Q89948399 | Effects of extracellular medium conductivity on cell response in the context of sub-microsecond range calcium electroporation |
Q50962535 | High efficiency hydrodynamic bacterial electrotransformation. |
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Q47596281 | Physical and Chemical Enhancement of and Adaptive Resistance to Irreversible Electroporation of Pancreatic Cancer |
Q98466531 | Proof-of-Concept of Electrical Activation of Liposome Nanocarriers: From Dry to Wet Experiments |
Q92287676 | Reversibility of membrane permeabilization upon pulsed electric field treatment in Lactobacillus plantarum WCFS1 |
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