PCR genetic analysis has been in the spotlight since COVID-19, but light is now further facilitating PCR-free methods. Osaka ...

enabling DNA polymerases to assemble copies of the target sequence in large quantities. PCR makes it possible to produce millions of copies of a DNA sequence in a test tube in just a few hours ...

This method allows cloning with low amounts of DNA and for high throughput applications. PCR for next-generation sequencing (NGS) PCR amplification allows the creation of multiple NGS libraries. This ...

The global biological PCR technology market size is calculated at USD 15.68 billion in 2025 and is expected to reach around USD 28.93 billion by 2034, growing at a CAGR of 7.04% for the forecasted ...

PCR-machines are used for replication of DNA, detecting DNA sequences, carrying out DNA fingerprinting, forensic analysis, and molecular cloning, diagnosing genetic diseases, and detecting ...

1 Following bisulfite conversion, researchers determine the methylation status in loci of interest because unmethylated cytosines are recognized as thymine after PCR amplification and sequencing. 3 ...

RAPD is a multilocus approach that uses low-stringency PCR conditions to permit promiscuous amplification of genomic regions. It can be carried out in the absence of genome sequence data ...

The latest biotech industry updates, complete with product launches, partnerships, publications and personnel appointments ...

Real-time PCR, or quantitative qPCR, is a commonly used molecular biology lab technique to determine the actual amount of PCR product at a given cycle. For quantitative reverse transcription PCR ...

The advent of digital droplet PCR (ddPCR) has marked a paradigm shift in molecular diagnostics, offering unparalleled sensitivity, precision, and reproducibility. Within the domain of forensic science ...