A Tripod Molecular Tip for Single Molecule Ligand−Receptor Force Spectroscopy by AFM

三脚架(摄影) 力谱学 原子力显微镜 分子 化学 化学物理 光谱学 纳米技术 材料科学 结晶学 物理 光学 有机化学 量子力学
作者
Michael E. Drew,Arkadiusz Chworoś,Emin Oroudjev,Helen G. Hansma,Yoko Yamakoshi
出处
期刊:Langmuir [American Chemical Society]
卷期号:26 (10): 7117-7125 被引量:25
标识
DOI:10.1021/la904151h
摘要

Tripod-shaped molecules were designed for chemical modification of the surface of probes used for atomic force microscopy (AFM). These chemically functionalized tips were used for chemical force spectroscopy (CFS) measurements of the ligand-protein receptor interaction in a biotin-NeutrAvidin model system. We demonstrate that by using this unique tripodal system, we can achieve significantly lower density of ligand on the AFM tip apex, which is optimal for true single molecule measurements. Furthermore, the molecular tripods form highly stable bonds to the AFM probes, leading to more robust and reproducible unbinding force data, thereby addressing one of the challenges in CFS studies. Histogram analysis of the hundreds of collected unbinding forces showed a specific distribution with a peak force maximum at approximately 165 pN, in good agreement with the previously reported data of single rupture events of biotin-avidin. We compared these molecular tripod tips with a molecular monopod. The results showed that the molecular tripods are more robust for repeated measurements. The distinct biotin-avidin force maximum was not observed in the control experiments. This indicated that the force distribution observed for molecular tripods corresponds to the specific rupture force between biotin and avidin. The improved robustness of molecular tripods for CFS will provide benefits in other ligand-receptor unbinding studies, including those of transmembrane receptor systems, which require high resolution, sensitivity, and reproducibility in force spectroscopy measurements.
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