Real-time quantitative PCR (RT-qPCR or qPCR) is revolutionizing many aspects of molecular biology and becoming the gold standard for accurate, sensitive, and fast quantification of gene expression.

Quantitative PCR (qPCR) technologies have exploded in the last decade. Commonly used for both diagnostics and basic research, new and exciting advances are being made in such areas as biomarker ...

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 ...

Comparison of expression data requires normalization. The optimum normalization method depends on sample type, with the most common being to normalize to reference genes. It is critical to select ...

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 ...

Real-world fusion landscape in advanced Chinese gastric cancer using next generation sequencing: A multicenter study. Phase Ib study of andecaliximab (GS-5745, ADX) in combination with S-1+platinum ...

Gene expression studies give a snapshot of the different types of RNAs being expressed at a given time point in cells or tissues in vivo. Different RNA types have different roles, for example in ...

Gene expression analysis using qPCR quantification of RNA transcripts expressed by cells or viruses plays an important role in the discovery and development of novel biotherapeutics. While widely used ...