SPR Biosensors SPR Systems 2SPR 3SPR 4SPR System Comparison System Components Flow Cells Opto Pad Software Applications Application notes Application Note 01: Biotinylated Anti-HSA-HSA Binding Application Note 02: Small Molecule Binding Reproducibility Application Note 03: Thermodynamic Analysis Application Note 04: Small Volume Injections Application Note 05: Combining SPR and Electrochemistry Application Note 06: High Throughput Antibody-Antigen Analysis Application Note 07: Small Molecule Analysis Application Note 08: Capture Analysis Application Note 09: Concentration Analysis Application Note 10: Capture vs. Coupling of Antibody Application Note 11: DNA Binding to Zinc Complexes Application Note 12: Phage-Antibody Selection using a Reichert SPR Instrument Application Note 13: Serum IgG Antibody Binding Application note 14: Epitope Identification and Affinity Determination of AB specific Antibodies by online SPR-MS Application note 15: Epitope Identification and Affinity Determination of Horse Heart Myoglobin Binding to Myoglobin Antibody by online SPR-MS Application note 16: Endothelial Cell Attachment to Matrix Proteins and Hypersmolar Response Quantified using Surface Plasmon Resonance (SPR) Application note 17: Measuring White Blood Cell (Leukocyte) Recruitment Onto Substrates Bearing Vascular Adhesion Molecules Application note 18: Surface Plasmon Resonance and Vaccine Research – Developments in Malaria Research Application note 19: Using Reichert’s Flexible Surface Plasmon Resonance Instrumentation for Surface Chemistry Research Application note 20: Reichert Surface Plasmon Resonance used for HIV/AIDS research Application note 21: Reichert Surface Plasmon Resonance used for the study of aptamer based macromolecules Application note 22: Reichert Surface Plasmon Resonance used for kinetic analysis and epitope mapping of monoclonal antibodies Application note 23: Using Reichert Surface Plasmon Resonance for Membrane Researchantibodies Application note 24: Reichert SPR-Plus Surface Plasmon Resonance Used for Gradient Dissociations Application note 25: Reichert Surface Plasmon Resonance used to unravel important enzyme binding mechanism Application note 26: Using Reichert Surface Plasmon Resonance (SPR) to help design a novel multifunctional cancer therapy Application note 27: Using Reichert Surface Plasmon Resonance (SPR) for screening of small molecule inhibitors Application note 30: Using Reichert Surface Plasmon Resonance (SPR) to Study SARS-CoV-2 Interactions Literature Testimonials Case studies Washington University in St. Louis case study University at Buffalo using Reichert SPR Systems FAQ Downloads SPR Sensor chips Chip selection guide Coatings 2-D coatings Hydrogels Downloads Coated slides Downloads Immobilization Kits, Buffers and Reagents Immobilization and capture reagents and kits Running buffers Regeneration buffers and kits Reagents for instrument maintenance Buffers and reagents for microarray slides Downloads Custom coatings
Whitepapers Comparison of Biomolecular Interaction Techniques Kinetics – or the importance of rate constants in biological and pharmaceutical research Why you should work »Label-free«! Innovation in action Sensors and surfaces Reichert Surface Plasmon Resonance used for kinetic analysis and epitope mapping of monoclonal antibodies Easy, gentle and controlled ligand immobilization using Click Coupling Advantages/disadvantages of immobilization techniques in SPR applications Zwitterionic surfaces: efficient covalent immobilization of acidic biomolecules and reduced non-specific binding – killing two birds with one stone GST capture kit – Site directed immobilization of GST-fusion proteins in SPR analysis C19RBDHC30M: SPR sensor chip for COVID-19 research Protein-Small Molecule Biomolecular Interactions – a Retrospective NiHC: High affinity poly-Ni-NTA sensor chips for fragment based drug discovery (Update) Comparison between sensor chips from XanTec and other manufacturers A superior alternative to His-Tag/NTA – Stable, reversible and highly specific immobilization on SPR sensor chips using Strep-Tactin®XT Beyond High Purity: Why Ultrapure EDC is Key for Successful Amine Coupling in SPR Literature
