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The potentialities of the atomic force microscopy (AFM) make it a tool of the undeniable value for the study of biomolecule samples. One of the main steps for the application of atomic force microscopy to the study of proteins has been the self-assembled monolayers (SAMs). The methods of physical adsorption and chemical modification are utilized to immobilize proteins to substrates efficiently. SAMs...
In this work we for the first time demonstrate real-time monitoring of the expression of membrane proteins in native, live cells, free of hydrodynamic stress at single cell resolution. This micro-optofluidic mechanism is uniquely enabled by the intricate interplay of gravity induced sedimentation with laminar flow, fast diffusion and short optical path length on our lab-in-a-trench platform.
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