Electrorotation of single yeast cells at frequencies between 100 Hz and 1.6 GHz. - Wikidata - awgldk - TriplyDB

Electrorotation of single yeast cells at frequencies between 100 Hz and 1.6 GHz.

Electrorotation of single yeast cells at frequencies between 100 Hz and 1.6 GHz.

http://www.wikidata.org/entity/Q41845258

about

Single Cell Electrical Characterization Techniques Maxwell's mixing equation revisited: characteristic impedance equations for ellipsoidal cells Dielectrophoresis-Based Sample Handling in General-Purpose Programmable Diagnostic Instruments Label-free electrical quantification of the dielectrophoretic response of DNA.Electrorotation studies of baby hamster kidney fibroblasts infected with herpes simplex virus type 1.Particle separation by dielectrophoresis.Distinctive translational and self-rotational motion of lymphoma cells in an optically induced non-rotational alternating current electric field.Dielectric model for Chinese hamster ovary cells obtained by dielectrophoresis cytometry.Cellular dielectrophoresis: applications to the characterization, manipulation, separation and patterning of cells.High-throughput cell and particle characterization using isodielectric separation.Assessment of 0.5 T static field exposure effect on yeast and HEK cells using electrorotation.Interaction of lipophilic ions with the plasma membrane of mammalian cells studies by electrorotation.A unified resistor-capacitor model for impedance, dielectrophoresis, electrorotation, and induced transmembrane potential.A polarization model overcoming the geometric restrictions of the laplace solution for spheroidal cells: obtaining new equations for field-induced forces and transmembrane potential.Interaction between cells in dielectrophoresis and electrorotation experiments Characterization of subcellular morphology of single yeast cells using high frequency microfluidic impedance cytometer.Rapid dielectrophoretic characterization of single cells using the dielectrophoretic spring.Membrane capacitance of thousands of single white blood cells.Dielectric analysis and multi-cell electrofusion of the yeast Pichia pastoris for electrophysiological studies.Combined AC-electrokinetic effects: Theoretical considerations on a three-axial ellipsoidal model.Electromechanical effects on multilayered cells in nonuniform rotating fields.Dielectric response of particles in flowing media: the effect of shear-induced rotation on the variation in particle polarizability.Using dielectrophoresis to study the dynamic response of single budding yeast cells to Lyticase.Development of a new contactless dielectrophoresis system for active particle manipulation using movable liquid electrodes.ANALYTICAL AND NUMERICAL MODELING METHODS FOR IMPEDANCE ANALYSIS OF SINGLE CELLS ON-CHIP

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P2860

Electrorotation of single yeast cells at frequencies between 100 Hz and 1.6 GHz.

http://www.wikidata.org/entity/Q41845258

description

1997 nî lūn-bûn

@nan

1997年の論文

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1997年論文

@yue

1997年論文

@zh-hant

1997年論文

@zh-hk

1997年論文

@zh-mo

1997年論文

@zh-tw

1997年论文

@wuu

1997年论文

@zh

1997年论文

@zh-cn

name

Electrorotation of single yeast cells at frequencies between 100 Hz and 1.6 GHz.

@en

type

label

Electrorotation of single yeast cells at frequencies between 100 Hz and 1.6 GHz.

@en

prefLabel

Electrorotation of single yeast cells at frequencies between 100 Hz and 1.6 GHz.

@en

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S0006-3495(97)78142-6

P1433

Biophysical Journal

P1476

Electrorotation of single yeast cells at frequencies between 100 Hz and 1.6 GHz.

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Hölzel R

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P2860

Ultrastructure of the yeast actin cytoskeleton and its association with the plasma membrane

Lesions and preferential initial localization of [S-methyl-3H]bleomycin A2 on Saccharomyces cerevisiae cell walls and membranes.

Dielectric behavior of wild-type yeast and vacuole-deficient mutant over a frequency range of 10 kHz to 10 GHz.

Dielectrophoresis and electrorotation of neurospora slime and murine myeloma cells.

The passive electrical properties of biological systems: their significance in physiology, biophysics and biotechnology.

Use of Saccharomyces cerevisiae for patch-clamp analysis of heterologous membrane proteins: characterization of Kat1, an inward-rectifying K+ channel from Arabidopsis thaliana, and comparison with endogeneous yeast channels and carriers.

Studies on the oxidative metabolism of Saccharomyces cerevisiae. I. Observations on the fine structure of the yeast cell.

Permeability of the cell envelope and osmotic behavior in Saccharomyces cerevisiae.

Porosity of the yeast cell wall and membrane

Electric field mediated loading of macromolecules in intact yeast cells is critically controlled at the wall level.

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1103-1109

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scholarly article

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10.1016/S0006-3495(97)78142-6

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2

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9251826

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Electrorotation

P932

1181006

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