Self-assembly of biomolecules: AFM study of F-actin on unstructured and nanostructured surfaces

机译：生物分子的自组装：F-肌动蛋白在非结构化和纳米结构表面上的AFM研究

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Advanced nanofabrication is capable of producing structures in the vicinity of the size of large biomolecules or their aggregates. Some of these protein aggregates emerge as having deleterious medical effects, e.g., degenerative diseases, or essential for biological processes, e.g., actin, cytoskeleton formation. Therefore it became possible, and important, to think of ways of interacting nanostructured surfaces with biomolecular aggregates in a designed manner. Along this line of thinking, we report on a preliminary atomic force microscopy (AFM) investigation of the behavior of F-actin on unstructured surfaces (mica, silicon) and nanostructured surface (13 nm height nanostructured silicon surface).

机译：先进的纳米制造能够在大生物分子或其聚集体的大小附近产生结构。这些蛋白质聚集体中的一些聚集体具有有害的医学作用，例如退化性疾病，或对于生物过程如肌动蛋白，细胞骨架形成至关重要。因此，有可能并且重要的是，以一种设计的方式来思考使纳米结构表面与生物分子聚集体相互作用的方式。沿着这种思路，我们报告了对非结构化表面（云母，硅）和纳米结构化表面（高度为13 nm的纳米结构化硅表面）上的F-肌动蛋白行为的初步原子力显微镜（AFM）研究。

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《Nanoscale imaging, sensing, and actuation for biomedical applications VI》|2009年|71880Q.1-71880Q.9|共9页
会议地点 San Jose CA(US)
作者
Marina Naldi; Elena Vasina; Serban Dobroiu; Luminita Paraoan; Dan V. Nicolau; Vincenza Andrisano;
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作者单位

Department of Pharmaceutical Sciences, Universita di Bologna, Via Belmeloro 6, 40126 Bologna, Italy;

Department of Electrical and Electronic Engineering, Liverpool University, Brownlow Hill L69 3GJ, Liverpool, UK;

Department of Electrical and Electronic Engineering, Liverpool University, Brownlow Hill L69 3GJ, Liverpool, UK;

School of Clinical Sciences, Liverpool University, Royal Liverpool University Hospital, L69 3GA, Liverpool, UK;

Department of Electrical and Electronic Engineering, Liverpool University, Brownlow Hill L69 3GJ, Liverpool, UK;

Department of Pharmaceutical Sciences, Universita di Bologna, Via Belmeloro 6, 40126 Bologna, Italy;

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正文语种 eng
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atomic force microscopy; actin; nanostructures; self-assembly;

机译：原子力显微镜肌动蛋白纳米结构自组装;

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1. Highly responsive sensor on a nanostructured surface via the self-assembly of a biomolecule with an evanescent wave technique [J] . Hong S, Kang T, Moon J, Journal of nanoscience and nanotechnology . 2006,第11期

机译：通过with逝波技术通过生物分子的自组装在纳米结构表面上的高响应传感器
2. Biomolecule-biomaterial interaction: A DFT-D study of glycine adsorption and self-assembly on hydroxylated Cr_2O_3 surfaces [J] . Costa D., Garrain P.-A., Diawara B., Langmuir: The ACS Journal of Surfaces and Colloids . 2011,第6期

机译：生物分子-生物材料的相互作用：DFT-D研究甘氨酸在羟基化的Cr_2O_3表面的吸附和自组装
3. Foils, Films, and Nanostructured Surfaces: A Comparative XPS and AFM Study of Model Catalyst Surfaces [J] . Markus Schildenberger, Roel Prins, Yargo C. Bonetti The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2000,第14期

机译：箔，薄膜和纳米结构表面：模型催化剂表面的XPS和AFM比较研究
4. Self-assembly of biomolecules: AFM study of F-actin on unstructuredand nanostructured surfaces [C] . Marina Naldi, Elena Vasina, Serban Dobroiu, Conference on nanoscale imaging, sensing, and actuation for biomedical applications . 2009

机译：生物分子的自我组装：AFM研究F-Actin On Unstractured和纳米结构表面
5. Study of Self-Assembly of Nanoporous Silica Particles and Biomolecules on Sensing Surfaces. [D] . Volkov, Dmytro. 2011

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6. In situ AFM Study of Amelogenin Assembly and Disassembly Dynamics on Charged Surfaces Provides Insights on Matrix Protein Self-Assembly [O] . Chun-Long Chen, Keith M. Bromley, Janet Moradian-Oldak, -1

机译：在原位釉原蛋白装拆动态对带电表面aFm研究提供的基质蛋白自组装见解
7. AFM and Raman study of graphene deposited on silicon surfaces nanostructured by ion beam irradiation [O] . R. DELLANNA, E. IACOB, M. TRIPATHI, 2020

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Self-assembly of biomolecules: AFM study of F-actin on unstructured and nanostructured surfaces

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