Polymerase chain reaction (PCR) is a fundamental molecular biology tool that scientists use to amplify and analyze genetic material, such as DNA and RNA. PCR involves the enzymatic amplification of ...

The "capture" can be realized through the hybridization of fragmented DNA with baits complementary to regions of interest, either on a microarray chip or free in solution. In-solution hybridization ...

The development of the polymerase chain reaction (PCR) in 1983 by Kary Mullis and coworkers revolutionized molecular biology, allowing scientists to amplify DNA sequences for various applications. 1 ...

Simplify and accelerate the creation of your lyophilized amplification assay to expedite the development of your point-of-care application. Promega has dedicated time to perfecting reagent ...

As the need for more sensitive and precise molecular quantification grows across translational research, diagnostics, and therapeutic development, conventional PCR workflows can fall short. Detecting ...

PCR genetic analysis has been in the spotlight since COVID-19, but light is now further facilitating PCR-free methods. Osaka Metropolitan University scientists have developed a light-induced DNA ...

SuperScript IV UniPrime One-Step RT-PCR System is designed to perform both cDNA synthesis and subsequent PCR amplification in a single tube. This master mix formulation combines the high processivity ...

Isothermal amplification methods streamline nucleic acid amplification without the need for thermal cycling. Join us to explore two innovative techniques, Recombinase Polymerase Amplification (RPA) ...