waveRAPID—A Robust Assay for High-Throughput Kinetic Screens with the Creoptix WAVEsystem

1. Homola, J., Yee, S. S., Gauglitz, G. Surface Plasmon Resonance Sensors: Review. Sens. Actuators B Chem. 1999, 54, 3–15.
Google Scholar | Crossref2. Patko, D., Cottier, K., Hamori, A.; et al. Single Beam Grating Coupled Interferometry: High Resolution Miniaturized Label-Free Sensor for Plate Based Parallel Screening. Opt. Express 2012, 20, 23162.
Google Scholar | Crossref | Medline3. Crook, A. D., Willoughby, A. C., Hazak, O.; et al. BAM1/2 Receptor Kinase Signaling Drives CLE Peptide-Mediated Formative Cell Divisions in Arabidopsis Roots. Proc. Natl. Acad. Sci. U.S.A. 2020, 117, 32750–32756.
Google Scholar | Crossref | Medline4. Walter, J. D., Hutter, C. A. J., Garaeva, A. A.; et al. Highly Potent Bispecific Sybodies Neutralize SARS-CoV-2. bioRxiv 2020. DOI: 10.1101/2020.11.10.376822.
Google Scholar | Crossref5. Cooper, M. A. Optical Biosensors in Drug Discovery. Nat. Rev. Drug Discov. 2002, 1, 515–528.
Google Scholar | Crossref | Medline6. Oshannessy, D. J., Brighamburke, M., Soneson, K. K.; et al. Determination of Rate and Equilibrium Binding Constants for Macromolecular Interactions Using Surface Plasmon Resonance: Use of Nonlinear Least Squares Analysis Methods. Anal. Biochem. 1993, 212, 457–468.
Google Scholar | Crossref | Medline7. Karlsson, R., Fält, A. Experimental Design for Kinetic Analysis of Protein-Protein Interactions with Surface Plasmon Resonance Biosensors. J. Immunol. Methods 1997, 200, 121–133.
Google Scholar | Crossref | Medline8. Önell, A., Andersson, K. Kinetic Determinations of Molecular Interactions Using Biacore—Minimum Data Requirements for Efficient Experimental Design. J. Mol. Recognit. 2005, 18, 307–317.
Google Scholar | Crossref | Medline9. Murray, J. B., Roughley, S. D., Matassova, N.; et al. Off-Rate Screening (ORS) by Surface Plasmon Resonance. An Efficient Method to Kinetically Sample Hit to Lead Chemical Space from Unpurified Reaction Products. J. Med. Chem. 2014, 57, 2845–2850.
Google Scholar | Crossref | Medline10. Shank-Retzlaff, M. L., Sligar, S. G. Analyte Gradient-Surface Plasmon Resonance: A One-Step Method for Determining Kinetic Rates and Macromolecular Binding Affinities. Anal. Chem. 2000, 72, 4212–4220.
Google Scholar | Crossref | Medline11. Quinn, J. G. Modeling Taylor Dispersion Injections: Determination of Kinetic/Affinity Interaction Constants and Diffusion Coefficients in Label-Free Biosensing. Anal. Biochem. 2012, 421, 391–400.
Google Scholar | Crossref | Medline12. Quinn, J. G. Evaluation of Taylor Dispersion Injections: Determining Kinetic/Affinity Interaction Constants and Diffusion Coefficients in Label-Free Biosensing. Anal. Biochem. 2012, 421, 401–410.
Google Scholar | Crossref | Medline13. Cottier, K. Methods for Determining Kinetic Parameters of a Reaction between Analyte and Ligands. WO2020234691A1, November 26, 2020.
Google Scholar14. Glaser, R. W. Antigen-Antibody Binding and Mass Transport by Convection and Diffusion to a Surface: A Two-Dimensional Computer Model of Binding and Dissociation Kinetics. Anal. Biochem. 1993, 213, 152–161.
Google Scholar | Crossref | Medline15. Myszka, D. G., He, X., Dembo, M.; et al. Extending the Range of Rate Constants Available from BIACORE: Interpreting Mass Transport-Influenced Binding Data. Biophys. J. 1998, 75, 583–594.
Google Scholar | Crossref | Medline16. Vörös, J., Ramsden, J. J., Csúcs, G.; et al. Optical Grating Coupler Biosensors. Biomaterials 2002, 23, 3699–3710.
Google Scholar | Crossref | Medline17. Cottier, K., Fievet, L. Method for Calculating Kinetic Parameters of a Reaction Network. WO2020016669A1, January 23, 2020.
Google Scholar18. Dattner, I. A Model-Based Initial Guess for Estimating Parameters in Systems of Ordinary Differential Equations. Biometrics 2015, 71, 1176–1184.
Google Scholar | Crossref | Medline19. Ramsay, J. O., Hooker, G., Campbell, D.; et al. Parameter Estimation for Differential Equations: A Generalized Smoothing Approach. J. R. Stat. Soc. Ser. B Stat. Methodol. 2007, 69, 741–796.
Google Scholar | Crossref20. Miao, H., Xia, X., Perelson, A. S.; et al. On Identifiability of Nonlinear ODE Models and Applications in Viral Dynamics. SIAM Rev. 2011, 53, 3–39.
Google Scholar | Crossref | Medline21. Evans, N. D., Moyse, H. A. J., Lowe, D.; et al. Structural Identifiability of Surface Binding Reactions Involving Heterogeneous Analyte: Application to Surface Plasmon Resonance Experiments. Automatica 2013, 49, 48–57.
Google Scholar | Crossref22. Nguyen, T. H., Rustenburg, A. S., Krimmer, S. G.; et al. Bayesian Analysis of Isothermal Titration Calorimetry for Binding Thermodynamics. PLoS One 2018, 13, e0203224.
Google Scholar | Crossref | Medline23. McDowell, E. J., Ren, J., Yang, C. Fundamental Sensitivity Limit Imposed by Dark 1/f Noise in the Low Optical Signal Detection Regime. Opt. Express 2008, 16, 6822–6832.
Google Scholar | Crossref | Medline

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