Modeling the coverage of an AFM tip by enzymes and its application in nanobiosensors

Adriano M. Amarante; Guedmiller S. Oliveira; Carolina C. Bueno; Richard A. Cunha; Jessica CM. Ierich; Luiz C.G. Freitas; Eduardo F. Franca; Osvaldo N. Oliveira Jr.; Fabio L Leite

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Modeling the coverage of an AFM tip by enzymes and its application in nanobiosensors

机译：用酶覆盖AFM尖端的覆盖率及其在纳米极收传感器中的应用

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A stochastic simulation of adsorption processes was developed to simulate the coverage of an atomic force microscope (AFM) tip with enzymes represented as rigid polyhedrons. From geometric considerations of the enzyme structure and AFM tip, we could estimate the average number of active sites available to interact with substrate molecules in the bulk. The procedure was exploited to determine the interaction force between acetyl-CoA carboxylase enzyme (ACC enzyme) and its substrate diclofop, for which steered molecular dynamics (SMD) was used. The theoretical force of (1.6 ± 0.5) nN per enzyme led to a total force in remarkable agreement with the experimentally measured force with AFM, thus demonstrating the usefulness of the procedure proposed here to assist in the interpretation of nanobiosensors experiments.

机译：开发了吸附过程的随机模拟，以模拟原子力显微镜（AFM）尖端的覆盖，所述酶表示为刚性多面体。从酶结构和AFM尖端的几何考虑，我们可以估计可用于与散装中的衬底分子相互作用的活性位点的平均数量。利用该程序以确定使用转向分子动力学（SMD）的乙酰-CoA羧化酶酶（ACC酶）和其底物DiClofop之间的相互作用力。每酶（1.6±0.5）NN的理论力导致总力与AFM的实验测量力显着的总力，从而证明了本文所提出的程序的有用性，以协助解释纳米索引体的实验。

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来源
《Behavioural processes》 |2014年第null期|共5页
作者
Adriano M. Amarante; Guedmiller S. Oliveira; Carolina C. Bueno; Richard A. Cunha; Jessica CM. Ierich; Luiz C.G. Freitas; Eduardo F. Franca; Osvaldo N. Oliveira Jr.; Fabio L Leite;
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Nanoneurobiophysics Research Group Department of Physics Chemistry and Mathematics Federal;

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原文格式 PDF
正文语种 eng
中图分类动物学;
关键词
Computational rigid model; Stochastic adsorption; Enzyme modeling; ACC enzyme; SMD; AFM;

机译：计算刚性模型;随机吸附;酶造型;ACC酶;SMD;AFM;

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1. Modeling the coverage of an AFM tip by enzymes and its application in nanobiosensors [J] . Adriano M. Amarante, Guedmiller S. Oliveira, Carolina C. Bueno, Behavioural processes . 2014,第Null期

机译：通过酶模拟AFM尖端的覆盖范围及其在纳米生物传感器中的应用
2. Modeling the coverage of an AFM tip by enzymes and its application in nanobiosensors [J] . Adriano M. Amarante, Guedmiller S. Oliveira, Carolina C. Bueno, Journal of molecular graphics & modelling . 2014,第Null期

机译：用酶模拟AFM尖端的覆盖范围及其在纳米生物传感器中的应用
3. Modeling the coverage of an AFM tip by enzymes and its application in nanobiosensors [J] . Adriano M. Amarante, Guedmiller S. Oliveira, Carolina C. Bueno, Behavioural processes . 2014,第Null期

机译：用酶覆盖AFM尖端的覆盖率及其在纳米极收传感器中的应用
4. Extended-Range AFM Imaging for Applications to Reflectance Modeling [C] . Brian G. Hoover, Pablo A. Reyes Reflection, scattering, and diffraction from surfaces V . 2016

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5. In vivo evaluation of (R)- and (S)-[carbon-11]rolipram for imaging cardiac phosphodiesterase-4 enzymes: Characterization and applications in rat models of heart failure [D] . Kenk, Miran 2010

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7. Modeling the coverage of an AFM tip by enzymes and its application in nanobiosensors [O] . Amarante Adriano M., Oliveira Guedmiller S., Bueno Carolina C., 2014

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Modeling the coverage of an AFM tip by enzymes and its application in nanobiosensors

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