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Linking 2D and 3D Spatial Biology for Multiscale Mapping of Complex Tissues
Using Empower™ CDS Efficiently – 3 Key Optimization Areas
Illuminating Nanomaterial–Cell Interactions by Confocal Microscopy
Innovations and Emerging Tools in Peptide Science
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qPCR Troubleshooting: How to Diagnose and Fix Common Failures
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.
Latest Podcasts
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.
Biological mechanisms are, by their nature, dynamic. They involve interaction, causality, and specific sequences that unfold over time. Standard scientific communication, however, tends to use static media that cannot represent time. This means that when you show a complex signalling pathway on a slide, your audience must first decode the spatial relationships, then infer the…
Gel and blot imaging has come a long way. Film gave you sensitivity but slowed you down with darkrooms and inconsistent results. Camera systems sped things up but still left you fighting noise and limited dynamic range. Laser imaging now gives you cleaner signals, sharper focus, and far more flexibility across sample types.
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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