Fällman Erik, Schedin Staffan, Jass Jana, Andersson Magnus, Uhlin Bernt Eric, Axner Ove
Department of Physics, Umeå University, SE-901 87 Umeå, Sweden.
Biosens Bioelectron. 2004 Jun 15;19(11):1429-37. doi: 10.1016/j.bios.2003.12.029.
An optical force measurement system for quantitating forces in the pN range between micrometer-sized objects has been developed. The system was based upon optical tweezers in combination with a sensitive position detection system and constructed around an inverted microscope. A trapped particle in the focus of the high numerical aperture microscope-objective behaves like an omnidirectional mechanical spring in response to an external force. The particle's displacement from the equilibrium position is therefore a direct measure of the exerted force. A weak probe laser beam, focused directly below the trapping focus, was used for position detection of the trapped particle (a polystyrene bead). The bead and the condenser focus the light to a distinct spot in the far field, monitored by a position sensitive detector. Various calibration procedures were implemented in order to provide absolute force measurements. The system has been used to measure the binding forces between Escherichia coli bacterial adhesins and galabiose-functionalized beads.
已开发出一种用于定量微米级物体之间皮牛(pN)力范围内的力的光力测量系统。该系统基于光镊与灵敏的位置检测系统相结合,并围绕倒置显微镜构建。在高数值孔径显微镜物镜焦点处捕获的粒子,在受到外力时表现得像一个全向机械弹簧。因此,粒子相对于平衡位置的位移是所施加力的直接度量。一束弱探测激光束直接聚焦在捕获焦点下方,用于检测捕获粒子(聚苯乙烯珠)的位置。珠子和聚光器将光聚焦到远场中的一个清晰光斑,由位置敏感探测器进行监测。实施了各种校准程序以提供绝对力测量。该系统已用于测量大肠杆菌细菌粘附素与半乳糖功能化珠子之间的结合力。