Real-time PCR (qPCR) analysis has become the method of choice for quantitating DNA in a wide variety of applications. The availability of commercial kits has made the technique easy to perform, ...

Real-time reverse transcription PCR analysis of RNA expression in normal and diseased states is a fundamental technique used in research workflows. Immortalized and primary cells are often used to ...

Omega Bio-tek, announced the release of the Mag-Bind® Total RNA Xpress Kit (M6742), a next-generation solution designed for rapid, reliable isolation of high-quality total RNA-including small ...

BioEcho Life Sciences, a leading provider of innovative molecular biology solutions, announces the launch of its EchoLUTION FFPE RNA Kit, offering researchers a simplified protocol and superior RNA ...

Scientists from the Massachusetts Institute of Technology (MIT) say they have developed a simpler process for messenger RNA (mRNA) purification based on continuous precipitation. According to Maria ...

RNA and DNA extraction kits take formalin-fixed tissue samples by storm, enabling superior quality and yields. Researchers using standard extraction protocols that heat samples to eliminate ...

High-throughput RNA sequencing enables the quantification of transcript abundance and the identification of novel transcripts in biological samples. These include circular RNAs (circRNAs), a family of ...

Join us for a whimsical and educational journey into the microscopic world of RNA in our upcoming webinar. This engaging session tells the story of an RNA molecule and its friends from their birth in ...

Circular RNA (circRNA) has gained significant attention in RNA therapeutics due to its enhanced stability and protein-coding potential. In this study, we present two in vitro RNA circularization ...

To obtain high-quality, purified nucleic acids, scientists can use several different methods, including phenol-chloroform extraction, cesium chloride/ethidium bromide (CsCl/EtBr) gradient ...

Although there are striking differences between the cells that make up your eyes, kidneys, brain and toes, the DNA blueprint for these cells is essentially the same. Where do those differences come ...