Probing nanomechanical properties from biomolecules to living cells.
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Potential role of atomic force microscopy in systems biologyCompliance profile of the human cornea as measured by atomic force microscopyMicrofluidics as a functional tool for cell mechanicsStiffness tomography by atomic force microscopyNanomechanics of the endothelial glycocalyx contribute to Na+-induced vascular inflammation.Sampling protein form and function with the atomic force microscope.The applications of atomic force microscopy to vision science.AFM stiffness nanotomography of normal, metaplastic and dysplastic human esophageal cellsAutomated force volume image processing for biological samples.Nanomechanics and sodium permeability of endothelial surface layer modulated by hawthorn extract WS 1442.Force volume and stiffness tomography investigation on the dynamics of stiff material under bacterial membranes.A universal fluid cell for the imaging of biological specimens in the atomic force microscope.Age-related vascular stiffening: causes and consequences.Structural transitions and energy landscape for Cowpea Chlorotic Mottle Virus capsid mechanics from nanomanipulation in vitro and in silico.Manipulation of biological samples using micro and nano techniques.Two barriers for sodium in vascular endothelium?Nanomechanics of vascular endothelium.Nanomechanical and topographical imaging of living cells by atomic force microscopy with colloidal probes.Cortical actin nanodynamics determines nitric oxide release in vascular endothelium.Force measurements on natural membrane nanovesicles reveal a composition-independent, high Young's modulus.The endothelial αENaC contributes to vascular endothelial function in vivo.OpenFovea: open-source AFM data processing software.A single point mutation in precursor protein VI doubles the mechanical strength of human adenovirus.The effect of fluoride on the structure, function, and proteome of intestinal epithelia.Atomic Force Microscopy: An Introduction.The effect of fluoride on the structure, function, and proteome of a renal epithelial cell monolayer.Measuring the elastic properties of living cells through the analysis of current–displacement curves in scanning ion conductance microscopy
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P2860
Probing nanomechanical properties from biomolecules to living cells.
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on 22 January 2008
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Probing nanomechanical properties from biomolecules to living cells.
@en
Probing nanomechanical properties from biomolecules to living cells.
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type
label
Probing nanomechanical properties from biomolecules to living cells.
@en
Probing nanomechanical properties from biomolecules to living cells.
@nl
prefLabel
Probing nanomechanical properties from biomolecules to living cells.
@en
Probing nanomechanical properties from biomolecules to living cells.
@nl
P2860
P1433
P1476
Probing nanomechanical properties from biomolecules to living cells.
@en
P2093
P2860
P2888
P356
10.1007/S00424-008-0448-Y
P577
2008-01-22T00:00:00Z