Altering the biochemical state of individual cultured cells and organelles with ultramicroelectrodes.
about
Membrane electroporation: a molecular dynamics simulation.Lab-on-a-chip technologies for proteomic analysis from isolated cells.Single-cell transfection by electroporation using an electrolyte/plasmid-filled capillary.Redox-filled Carbon-Fiber Microelectrodes for Single-Cell Exocytosis.In Vitro Electrochemistry of Biological Systems.Mechanisms for the intracellular manipulation of organelles by conventional electroporation.Control of the release of freely diffusing molecules in single-cell electroporationDelivery of molecules into cells using localized single cell electroporation on ITO micro-electrode based transparent chip.Single-cell juxtacellular transfection and recording technique.An approach to electrical modeling of single and multiple cells.Automated single-cell electroporationFinite element analysis of microelectrotension of cell membranesNumerical calculations of single-cell electroporation with an electrolyte-filled capillary.Ultra-localized single cell electroporation using silicon nanowiresMicro-/nanofluidics based cell electroporation.Simultaneous maximization of cell permeabilization and viability in single-cell electroporation using an electrolyte-filled capillary.Nanofountain probe electroporation (NFP-E) of single cellsSingle-cell electroporation using a multifunctional pipetteParallel single-cell light-induced electroporation and dielectrophoretic manipulation.Optoelectrofluidic platforms for chemistry and biology.Micro-/nanoscale electroporation.Single-cell electroporation using proton beam fabricated biochips.Characterization of single-cell electroporation by using patch-clamp and fluorescence microscopy.Spatially and temporally controlled gene transfer by electroporation into adherent cells on plasmid DNA-loaded electrodes.Generation of focused electric field patterns at dielectric surfaces.Electroporation: an arsenal of application.Single cell and neural process experimentation using laterally applied electrical fields between pairs of closely apposed microelectrodes with vertical sidewalls.Optimization of single-cell electroporation protocol for forced gene expression in primary neuronal cultures.Long-term gene-silencing effects of siRNA introduced by single-cell electroporation into postmitotic CNS neurons.Electroporation loading of calcium-sensitive dyes into the CNS.Impact of pulse duration on localized single-cell nano-electroporation.
P2860
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P2860
Altering the biochemical state of individual cultured cells and organelles with ultramicroelectrodes.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on September 1998
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Altering the biochemical state ...... les with ultramicroelectrodes.
@en
Altering the biochemical state ...... les with ultramicroelectrodes.
@nl
type
label
Altering the biochemical state ...... les with ultramicroelectrodes.
@en
Altering the biochemical state ...... les with ultramicroelectrodes.
@nl
prefLabel
Altering the biochemical state ...... les with ultramicroelectrodes.
@en
Altering the biochemical state ...... les with ultramicroelectrodes.
@nl
P2093
P2860
P356
P1476
Altering the biochemical state ...... lles with ultramicroelectrodes
@en
P2093
A Strömberg
J A Lundqvist
P S Eriksson
P2860
P304
10356-10360
P356
10.1073/PNAS.95.18.10356
P407
P50
P577
1998-09-01T00:00:00Z