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 polymerase chain reaction -- A brief comparison between in vivo DNA replication and in vitro PCR amplification -- The PCR in practice -- The different types and varieties of nucleic acid target ...

Limited sample material and insufficient DNA input pose significant challenges for downstream analysis in various laboratory settings. To overcome this issue, isothermal amplification techniques have ...

PCR is a technique used to amplify target DNA in a sample. It’s a well-known method that has undergone numerous modifications to enhance its capabilities. This year, it’s turning 40 years old. PCR has ...

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 ...

Promising new inroads into critical DNA testing has been forecast by experts who have applied machine learning to DNA profiling. From medical diagnostics to forensic tests and national security, PCR ...

In vitro diagnostics (IVD) is an umbrella term for tests conducted on blood or tissue samples to detect diseases, determine the efficacy of novel or established treatments, and monitor health.

Researchers have developed a light-induced DNA detection method that enables rapid, PCR-free genetic analysis. Their technique offers ultra-sensitive mutation detection in just five minutes, reducing ...

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

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 ...