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W2929442065 abstract "Abstract Surface acoustic wave (SAW) sensors are reported to be extremely useful for the analysis of real‐time binding events of biomolecules at high sensitivity at low cost. SAW sensors allow label‐free detection of numerous analytes of a broad range, from small molecules, peptides, proteins, and lipid membranes to whole cells (e.g. mammal cells or bacteria) and cell cultures, which interact with an immobilized binding partner. SAW technique requires one binding component to be immobilized on a sensor chip surface, while the other binding component in buffer solution is flowed over the sensor surface; hence, a binding interaction is detected using an acoustic method that measures small changes in the phase and amplitude of the acoustic waves that travel through the sensor surface. The output signals, corresponding to changes in the phase and amplitude of waves, give information about the pure mass loading, intrinsic properties of bound materials, and viscoelastic effects such as conformational changes in protein structures, protein–protein complexes, and the internal structure of layers. These sensors offer a unique method for not only detection but also quantification of binding events because of being capable of measuring real‐time quantitative binding affinities ( K D ) and kinetic constants ( k on and k off ) of biological complexes and also concentrations of target analytes. SAW sensors are widely used in both academic life and industry in areas that include almost all fields of the biological and chemical science such as drug screens, diagnosis, environmental monitoring, or life science research." @default.
W2929442065 created "2019-04-11" @default.
W2929442065 creator A5052825717 @default.
W2929442065 date "2016-12-21" @default.
W2929442065 modified "2023-10-09" @default.
W2929442065 title "Applications of Surface Acoustic Wave Sensor in Protein Science" @default.
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W2929442065 doi "https://doi.org/10.1002/9780470027318.a9450" @default.
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