ROLE OF PULLING DIRECTION IN UNDERSTANDING THE ANISOTROPY OF THE RESISTANCE OF PROTEINS TO FORCE-INDUCED MECHANICAL UNFOLDING

Jensen I; Giri D; Kumar S

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ROLE OF PULLING DIRECTION IN UNDERSTANDING THE ANISOTROPY OF THE RESISTANCE OF PROTEINS TO FORCE-INDUCED MECHANICAL UNFOLDING

机译：拉力方向在理解蛋白质对强迫诱导的机械折叠抗性的各向异性中的作用

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Recent advances in single molecule experiments have made it possible to investigate the mechanical anisotropy of protein stability in greater detail. It has been found that proteins can exhibit a diverse range of responses when pulled indifferent directions. We review some of the experimental and numerical work related to the study of the resistance of proteins to force-induced mechanical unfolding. Based on model studies in the framework of statistical mechanics, we discuss the possible molecular origin of the anisotropy of protein resistance to unfolding.

机译：单分子实验的最新进展使得更详细地研究蛋白质稳定性的机械各向异性成为可能。已经发现，当以不同的方向拉动时，蛋白质可以表现出各种各样的响应。我们回顾一些与蛋白质对力诱导的机械展开抗性研究有关的实验和数值研究。基于统计力学框架内的模型研究，我们讨论了蛋白质抗折叠各向异性的可能分子起源。

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《Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics》 |2010年第5期|共21页
作者
Jensen I; Giri D; Kumar S;
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正文语种 eng
中图分类应用物理学;
关键词
Polymers and bipolymers; mechanical unfolding; anisotropy in force direction; lattice models; exact enumeration; force induced transitions;

机译：聚合物和二元共聚物;机械展开;力方向的各向异性;晶格模型;精确枚举;力诱导的转变;

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1. ROLE OF PULLING DIRECTION IN UNDERSTANDING THE ANISOTROPY OF THE RESISTANCE OF PROTEINS TO FORCE-INDUCED MECHANICAL UNFOLDING [J] . Jensen I, Giri D, Kumar S Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2010,第4a5期

机译：拉力方向在理解蛋白质对强迫诱导的机械折叠抗性的各向异性中的作用
2. Understanding the role of air and protein phase on mechanical anisotropy of calcium caseinate fibers [J] . Wang Zhaojun, Tian Bei, Boom Remko, Food research international . 2019,第JULa期

机译：了解空气和蛋白质相对酪蛋白酸钙纤维机械各向异性的作用
3. Understanding the role of air and protein phase on mechanical anisotropy of calcium caseinate fibers [J] . Wang Zhaojun, Tian Bei, Boom Remko, Food research international . 2019,第Jula期

机译：了解空气和蛋白质期对钙含钙纤维机械各向异性的作用
4. Role of Electrostatic Interaction on Surfactant Induced Protein Unfolding [C] . Sumit, Sugam Kumar, V.K. Aswal DAE Solid State Physics Symposium . 2014

机译：静电相互作用对表面活性剂诱导蛋白展开的作用
5. Macromolecular crowding effects in the mechanical unfolding forces of proteins. [D] . Roman, Marisa B. 2012

机译：大分子拥挤影响蛋白质的机械展开力。
6. Anisotropy in mechanical unfolding of protein upon partner-assisted pulling and handle-assisted pulling [O] . Nisha Arora, Jagadish Prasad Hazra, Sabyasachi Rakshit 2021

机译：合作伙伴辅助拉动和手柄辅助拉动时蛋白质机械展开的各向异性
7. Role of pulling direction in understanding the energy landscape of proteins [O] . Rajesh, R., Giri, D., Jensen, I., 2008

机译：拉动方向在理解能源景观中的作用蛋白质
8. Unfolding of Proteins: Thermal and Mechanical Unfolding [R] . Hur, Joe S., Darve, Eric 2004

机译：蛋白质的展开：热和机械展开

ROLE OF PULLING DIRECTION IN UNDERSTANDING THE ANISOTROPY OF THE RESISTANCE OF PROTEINS TO FORCE-INDUCED MECHANICAL UNFOLDING

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