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HIGH-THROUGHPUT FORCE-DEPENDENT CELLULAR RESPONSE ASSAY USING SPECTRALLY ENCODED SMART BEADS
­HIGH-THROUGHPUT FORCE-DEPENDENT CELLULAR RESPONSE ASSAY USING SPECTRALLY ENCODED SMART BEADS Researchers at Stanford have developed a technology that uses biomechanical force to initiate T-cell triggering in a high throughput method, facilitating the exploration of the force- and sequence-dependent landscape of T-cell responses. Adaptive immunity...
Published: 3/17/2023   |   Inventor(s): Xiang Zhao, Adam White, Polly Fordyce, Yinnian Feng, K Garcia
Keywords(s): Catch Bond, High-Throughput Mechanobiology, Ligand Discrimination, Mechanotransduction, Single-Cell Microfluidics, Spectrally Encoded Beads, T-Cell Activation, T-Cell Biophysics, T-Cell Receptor
Category(s): Technology Classifications > Biology