Cantilever arrays for multiplexed mechanical analysis of biomolecular reactions.

Min Yue, Jeanne C Stachowiak, Arunava Majumdar
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Abstract

Microchips containing arrays of cantilever beams have been used to mechanically detect and quantitatively analyze multiple reactions of DNA hybridization and antigen-antibody binding simultaneously. The reaction-induced deflection of a cantilever beam reflects the interplay between strain energy increase of the beam and the free energy reduction of a reaction, providing an ideal tool for investigating the connection between mechanics and chemistry of biomolecular reactions. Since free energy reduction is common for all reactions, the cantilever array forms a universal platform for label-free detection of various specific biomolecular reactions. A few such reactions and their implications in biology and biotechnology are discussed.

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用于生物分子反应多重力学分析的悬臂阵列。
包含悬臂梁阵列的微芯片已被用于同时机械检测和定量分析DNA杂交和抗原抗体结合的多种反应。悬臂梁的反应引起的挠曲反映了梁的应变能增加与反应的自由能减少之间的相互作用,为研究生物分子反应的力学和化学之间的联系提供了理想的工具。由于自由能还原对所有反应都是常见的,因此悬臂阵列形成了各种特定生物分子反应的无标记检测的通用平台。本文讨论了一些这样的反应及其在生物学和生物技术中的意义。
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