Optimizing the formulation of reagents for your qPCR assay requires careful experimental design that looks across several performance factors for each reagent formulation tested. These performance ...

The core principle of BETMAT’s Kinetic Chromogenic LAL Assay is based on the specific enzymatic cascade triggered by the interaction between Limulus Amebocyte Lysate (LAL) and bacterial ...

The combined software package enables seamless access of the latest crude assay information throughout plant lifecycle modeling, from design through operations and performance optimization. Invensys ...

When working in a lab, launching a quantitative PCR (qPCR) experiment demands a comprehensive understanding of complicated protocols, principles, and methodologies. Analyzing the large amounts of ...

Hit identification and hit validation represent distinct but connected stages of early drug discovery. This article examines ...

Approved biological products are required to be accompanied by analytical tests to demonstrate safety, purity, and potency. Manufacturing and testing processes for approved products are validated and ...

Time-resolved fluorescence resonance energy transfer (TR-FRET) combines fluorescence detection with temporal resolution to significantly enhance assay performance. This technology minimizes background ...

Associate Professor, Director of the Microscopy and Cytometry Core Facility at Amsterdam UMC and Co-Director of the Immune Monitoring Unit at the Amsterdam UMC Immunotherapy Center Multiplexed ...

Assay miniaturization has become a central strategy in modern high-throughput screening (HTS), enabling laboratories to increase throughput while managing reagent consumption and operational costs. As ...

Lead optimization aims at enhancing the most promising compounds to improve effectiveness, diminish toxicity, or increase absorption. Many of the technologies for lead discovery overlap with lead ...