High-quality biophysical characterization tools to help researchers study challenging molecular interactions, protein stability, and protein characterization.
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Your guide to efficiently develop antibody-based therapeutics. The use of a monoclonal antibody (mAb) as a therapeutic has been around for over 30 years with the first approval by the FDA in 1986. The efforts to further develop and optimize better mAb-based biotherapeutics continue to rise. MAb-based therapeutics are becoming increasingly ...
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Use MST technology to measure interactions. Monolith uses MST technology to quantify molecular interactions between a target and ligand by detecting changes in fluorescence intensity while a temperature gradient is applied over time (grey box, top figure). The fluorescent signal comes from the target that is either fluorescently labeled or has ...
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The Jetson NANO module is made in China. Operating temperature is -25C ~ C. I say ‘x’ instead of ‘80’ or similar because any ambient temperature limit depends on your system design. The Jetson NANO Thermal Design Guide contains details about recommended operating temperature limits for SoC and other module components. You are responsible to design a …
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Thermal Management and Design of High Heat Small Satellite Payloads Casper Versteeg ... analysis serves as a design guide, and proving the concept before more detailed simulations are run. Pre- ... the maximum temper-ature over time is plotted against the beta angle set evaluated. These are presented in Figure 6.
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NANOTemper Technologies interview details: 1 interview questions and 2 interview reviews posted anonymously by NANOTemper Technologies interview candidates.
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Shaft Fitting Guide Hard Stepping & Soft Stepping Shaft Spining DIY Shaft Installation OEM Shaft Replacement Guide Contact us ACCRA Aerotech Aldila Apollo Fujikura Grafalloy Graphite Design KBS MATRIX Mitsubishi Rayon Miyazaki Nippon NVENTiX OBAN …
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Jan 10, 2011 . It is shown that the micro-structure in welds in low-alloy steels can be computed with useful accuracy and resolution for multi-pass welds. Furthermore by combining this analysis with a Design of Experiment (DOE) methodology, this approach has the potential to optimize the design of temper bead weld procedures.
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NANOTemper Technologies offers consumables of high quality and precision specially designed and optimized for your NANODSF assay. The capillaries are optimized for NANODSF measurements provding robust signal detection for a broad range of concentrations. The exceptional reproducibility and glass purity allow you to get high quality NANODSF data.
NANOTemper Technologies offers NANODSF technology with the Prometheus Series. NANODSF is the method of choice for easy, rapid and accurate analysis of protein stability and aggregation, with applications in protein engineering, membrane protein research, formulation development and quality control.
NANOTemper tools are the quickest way to characterize proteins and perform protein sequence analysis for research in pharmaceutical, biotechnology and academia. Your choice regarding cookies on this site
In addition to its speed, precision and throughput, NANODSF is a robust method that does not require cumbersome instrument maintenance and time-consuming sample preparation such as dialysis or filtration. Therefore, the Prometheus NT.48 is the ideal instrument for rapid and precise thermal stability screening in biopharmaceutical development.
Monolith gives you one less thing to worry about because it has the flexibility to handle all different types of molecules and samples. Monolith uses MST technology to quantify molecular interactions between a target and ligand by detecting changes in fluorescence intensity while a temperature gradient is applied over time (grey box, top figure).
Most software starts once you load your samples and start your run. Monolith’s MO.Control is built differently — not only do you get help with guided step-by-step experimental planning and assay setup before you start your run, but you also get immediate feedback on assay optimization based on your results after the run is over.
Monolith uses MST technology to quantify molecular interactions between a target and ligand by detecting changes in fluorescence intensity while a temperature gradient is applied over time (grey box, top figure).
With Monolith, you get a K d in a fraction of the volume and concentration, leaving you with more sample for additional experiments. Immobilizing molecules in SPR assays often causes them to lose activity, and you’re left without results.