PROTEIN BEHAVIOR AT SILICONE--A SINGLE MOLECULE STUDY

蛋白质在有机硅中的行为——单分子研究

• 批准号: 6519525
• 负责人: VIOLA VOGEL
• 金额: $ 26.35万
• 依托单位: UNIVERSITY OF WASHINGTON
• 依托单位国家: 美国
• 财政年份: 1994
• 资助国家: 美国
• 起止时间: 1994-01-01 至 2003-12-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6519525
• 关键词: binding sites; bioengineering /biomedical engineering; biological signal transduction; biomaterial interface interaction; cell adhesion molecules; computer simulation; conformation; fibronectins; fluorescence resonance energy transfer; fluorescent dye /probe; ionophores; mathematical model; molecular dynamics; molecular site; nanotechnology; protein sequence; protein structure; protein structure function

The relationship between the chemical and physical nature of an interface and the molecular pathway by which recognition sites of surface adsorbed adhesion proteins are exposed remains unknown. Shedding light on this relationship will open an important path for the development of truly "biocompatible" materials. This is particularly challenging for adhesion proteins, which have multiple recognition sites, and it is well known hat exposure of these sites is regulated via conformational changes. Our hypothesis is that the difficulty in deriving t quantitative information how protein conformation relates to cell behavior, which has troubled the biomaterials community for a long time, originates at least in part from the fact that conventional analytical techniques average over a large population of proteins. Therefore, our approach is to study individual molecules at interfaces one by one rather than probing a large population of proteins simultaneously. This will allow us to gain insight into the number of coexisting conformational states and to probe the conformational evolution as function of time. Our major tool will be single molecule spectroscopy combined with fluorescent resonant energy transfer (FRET) measurements to gain insight into relative distances between specific sites on a single protein. Fibronectin has been chosen as our model protein due to its ability to assume numerous conformations and to expose multiple recognition sites under different conditions. The proposed experiments complemented by computer simulations will provide completely new insights into the structure and function of fibronectin at interfaces. Enabling technology has advanced to the point that it can now be applied to the study of biomolecules that are of fundamental importance in surgery and bioengineering. This proposal outlines the experiments that need to be done to explore the power of single molecule spectroscopy and of steered molecular dynamics simulations to the analysis the conformational states of fibronectin. The expertise gained will be immediately applicable to the study of other adhesion proteins, and proteins in general. Equally important, this proposal lays out experiments that provide new information about how the exposure of fibronectin's binding sites is regulated by surface properties and mechanical tension. The development of the proposed experimental and computational tools, as well as the information derived, will be crucial for learning how to design surface coating for biomaterials that trigger specific healing responses.

界面的化学和物理性质与表面吸附的粘附蛋白的识别位点暴露的分子途径之间的关系仍然未知。阐明这种关系将为开发真正的“生物相容性”材料开辟一条重要道路。 这对于具有多个识别位点的粘附蛋白来说尤其具有挑战性，并且众所周知，这些位点的暴露是通过构象变化来调节的。 我们的假设是，获取蛋白质构象与细胞行为之间关系的定量信息的困难，长期以来一直困扰着生物材料界，至少部分源于传统分析技术对大量蛋白质进行平均的事实。 因此，我们的方法是一一研究界面处的单个分子，而不是同时探测大量蛋白质。 这将使我们能够深入了解共存构象状态的数量，并探索随时间变化的构象演化。我们的主要工具将是单分子光谱与荧光共振能量转移（FRET）测量相结合，以深入了解单个蛋白质上特定位点之间的相对距离。 纤连蛋白被选为我们的模型蛋白，因为它能够呈现多种构象并在不同条件下暴露多个识别位点。 所提出的实验辅以计算机模拟将为界面纤连蛋白的结构和功能提供全新的见解。 使能技术已经发展到可以应用于对外科和生物工程至关重要的生物分子的研究。 该提案概述了探索单分子光谱学和引导分子动力学模拟分析纤连蛋白构象状态的能力所需进行的实验。 获得的专业知识将立即适用于其他粘附蛋白和一般蛋白质的研究。同样重要的是，该提案提出的实验提供了有关纤连蛋白结合位点的暴露如何受表面特性和机械张力调节的新信息。 所提出的实验和计算工具的开发以及所获得的信息对于学习如何设计触发特定愈合反应的生物材料表面涂层至关重要。

项目成果

Fibronectin conformational changes induced by adsorption to liposomes.

• DOI: 10.1016/j.jconrel.2004.07.002
• 发表时间: 2005-01
• 期刊: Journal of controlled release : official journal of the Controlled Release Society
• 作者: M. Halter;M. Antia;V. Vogel