Providing unique insight into cell biology via atomic force microscopy.

International Review of Cytology-A Survey of Cell Biology Pub Date : 2008-01-01 DOI:10.1016/S0074-7696(07)65006-2

Victor Shahin, Nelson P Barrera

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引用次数: 38

Abstract

The invention of atomic force microscopy (AFM) some two decades ago opened up new realms for our perception of cell biology. AFM produces three-dimensional images of biological surfaces at atomic resolution in physiologically relevant environments. Beyond this one-of-a-kind capability, AFM can be applied to cell biology for a variety of investigations, such as to recognize single molecules at work and study their function and structure. This admirable technique is also being widely applied to measure forces, study characteristic surface properties such as adhesion, and detect mechanical responses, for example, volume and elasticity changes of cells to various physiological and pathophysiological stimuli. In more recent years, AFM has become the most rapidly developing imaging technique. In this chapter, the AFM capabilities and the usefulness of its broad application to cell biology are highlighted, with the emphasis on structural and functional investigations into a number of biological samples focusing on cells, membranes, and single molecules.

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通过原子力显微镜提供对细胞生物学的独特见解。

大约二十年前，原子力显微镜(AFM)的发明为我们对细胞生物学的认识开辟了新的领域。AFM在生理相关环境中以原子分辨率产生生物表面的三维图像。除了这种独一无二的能力之外，AFM还可以应用于细胞生物学的各种研究，例如识别工作中的单个分子并研究它们的功能和结构。这种令人钦佩的技术也被广泛应用于测量力，研究粘附性等表面特性，以及检测机械反应，例如细胞在各种生理和病理生理刺激下的体积和弹性变化。近年来，原子力显微镜已成为发展最为迅速的成像技术。在本章中，AFM的能力及其在细胞生物学中广泛应用的有用性被强调，重点是对一些生物样品的结构和功能研究，重点是细胞、膜和单分子。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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