Biological Applications of a Nanomanipulator Based on AFM: In situ visualization and quantification of cellular behaviors at the single-molecule level.

Li Mi; Liu Lianqing; Xi Ning; Wang Yuechao

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Biological Applications of a Nanomanipulator Based on AFM: In situ visualization and quantification of cellular behaviors at the single-molecule level.

机译：基于AFM的纳米操纵器的生物学应用：在单分子水平上对细胞行为的原位可视化和定量。

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Cells are the structural and functional unit of living organisms. Knowledge of cellular behaviors is critical for us to understand the underlying mechanisms that guide the physiological and pathological changes in living organisms. So far, virtually all knowledge of the molecular reactions in cells has come from the ensemble measurements done in test tubes with purified molecules [1], [2]. The disadvantage of this approach is that experiments with purified molecules require the lysis of cells, meaning that the obtained results may not reflect the real situations of living cells.

机译：细胞是生物的结构和功能单元。细胞行为的知识对于我们了解指导生命有机体的生理和病理变化的潜在机制至关重要。到目前为止，几乎所有关于细胞内分子反应的知识都来自在带有纯化分子的试管中进行的整体测量[1]，[2]。这种方法的缺点是使用纯化分子进行的实验需要裂解细胞，这意味着获得的结果可能无法反映活细胞的真实情况。

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《Nanotechnology Magazine, IEEE》 |2015年第3期|25-35|共11页
作者
Li Mi; Liu Lianqing; Xi Ning; Wang Yuechao;
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State Key Laboratory of Robotics, Shenyang Institute of Automation Chinese Academy of Sciences, China;

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2. In situ nanomanipulators as a tool to separate individual tobermorite crystals for AFM studies [J] . Tianhe Yang, Lorenz Holzer, Ralf Kagi Ultramicroscopy . 2007,第10a11期

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3. Universal Quantifier Derived from AFM Analysis Links Cellular Mechanical Properties and Cell-Surface Integration Forces with Microbial Deposition and Transport Behavior [J] . Yueyun Li, Xin Wang, Annalisa Onnis-Hayden, Environmental Science & Technology . 2014,第3期

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Biological Applications of a Nanomanipulator Based on AFM: In situ visualization and quantification of cellular behaviors at the single-molecule level.

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