Experimental techniques for single cell and single molecule biomechanics

Experimental techniques for single cell and single molecule biomechanics

Stresses and strains that act on the human body can arise either from external physical forces or internal physiological environmental conditions. These biophysical interactions can occur not only at the musculoskeletal but also cellular and molecular levels and can determine the health and function...

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Bibliographic Details
Published in:Materials Science & Engineering C Vol. 26; no. 8; pp. 1278 - 1288
Main Authors: Lim, C.T., Zhou, E.H., Li, A., Vedula, S.R.K., Fu, H.X.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-09-2006
Subjects:
Atomic force microscopy
Biophysical interactions
Micropipette aspiration
Optical or laser traps
Single cell mechanics
Single molecule biomechanics
Atomic force microscopy
Micropipette aspiration
Single cell mechanics
Biophysical interactions
Single molecule biomechanics
Optical or laser traps
Online Access:Get full text
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Summary:Stresses and strains that act on the human body can arise either from external physical forces or internal physiological environmental conditions. These biophysical interactions can occur not only at the musculoskeletal but also cellular and molecular levels and can determine the health and function of the human body. Here, we seek to investigate the structure-property-function relationship of cells and biomolecules so as to understand their important physiological functions as well as establish possible connections to human diseases. With the recent advancements in cell and molecular biology, biophysics and nanotechnology, several innovative and state-of-the-art experimental techniques and equipment have been developed to probe the structural and mechanical properties of biostructures from the micro- down to picoscale. Some of these experimental techniques include the optical or laser trap method, micropipette aspiration, step-pressure technique, atomic force microscopy and molecular force spectroscopy. In this article, we will review the basic principles and usage of these techniques to conduct single cell and single molecule biomechanics research.
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ISSN:0928-4931
1873-0191
DOI:10.1016/j.msec.2005.08.022