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Latest Articles
How to Choose Filter Plates for Automated Cell-based Assays: Biological and Hardware Considerations
Choosing the right filter plate starts with understanding your assay biology. What must happen at the membrane determines everything that follows. Choose filter plates according to membrane chemistry (binding vs non-binding) and the correct pore size for your target (cells, proteins, or small molecules). Finally, ensure plate architecture and automation compatibility support consistent flow, minimal crosstalk, and reproducible results at scale.
Latest Podcasts
qPCR Troubleshooting involves identifying and resolving common issues such as contamination, pipetting variability, reagent integrity, and reaction setup errors. This guide provides a clear framework to diagnose symptoms, optimize conditions systematically, and ensure reliable, reproducible qPCR results. It emphasizes the importance of proper primer handling, cycling conditions, and normalization for trustworthy data interpretation.
Choosing between qPCR or RNA-seq often means balancing speed and scope. qPCR is quick but limited to a small set of pre-selected genes, while RNA-seq offers a full transcriptome view but you typically wait weeks to get results. This article explores how 3′ RNA-seq bridges that gap, delivering genome-wide insights in days.
Find out how to detect low-affinity protein binding without using SPR. The Octet® R8e BLI system bridges the gap between speed, simplicity, and sensitivity, transforming drug discovery workflows.
qPCR Primer design involves a five-stage process ensuring specific, efficient amplification. Key steps include checking for validated primers, choosing detection chemistry, setting primer parameters, addressing mRNA-specific needs, and deciding on singleplex or multiplex assays. Proper design reduces errors and improves assay success, especially when targeting mRNA or multiplexing. This practical guide helps researchers create reliable primer sets tailored to their experimental goals.
Microscopy & Imaging
Optical microscopy has always been restricted by the diffraction of light. Because conventional widefield and confocal microscopes cannot resolve structures substantially smaller than about 200nm laterally, they miss critical signaling compartments and nanoscopic organization. Newer super-resolution technologies, such as stimulated emission depletion (STED), structured illumination microscopy (SIM), and photoactivated localization microscopy (PALM), solve this problem…
DNA / RNA Manipulation & Analysis
Unsure which next-generation sequencing (NGS) method to choose for your cancer and precision medicine research? Learn about the latest tools and tailored next-generation sequencing solutions for cancer research in this short guide.
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