History
A Brief History of PCR
A Brief History of PCR
from Carl T. Wittwer and Jared S. Farrar writing in PCR Troubleshooting and Optimization: The Essential Guide:
The polymerase chain reaction (PCR) has become a fundamental tool in molecular research and clinical testing. A recent review by Wittwer and Farrar discusses the origins of PCR, its early evolution including adaptation to RNA, thermostable polymerases, automation, improvements in specificity and rapid temperature cycling. Perhaps the most significant advance is real-time PCR, combining both amplification and detection into one instrument as a superior solution for nucleic acid quantification. Real-time PCR is enabled by monitoring the reaction with double stranded DNA dyes or specific probes, including hydrolysis, hybridization, and conformation-sensitive probes. PCR product and probe melting analysis continues to improve in resolution, allowing greater sequence detail for genotyping and variant scanning. Microfluidic platforms and digital PCR are destined to find more applications in the future.
Read more: PCR Troubleshooting and Optimization: The Essential Guide
from Carl T. Wittwer and Jared S. Farrar writing in PCR Troubleshooting and Optimization: The Essential Guide:
The polymerase chain reaction (PCR) has become a fundamental tool in molecular research and clinical testing. A recent review by Wittwer and Farrar discusses the origins of PCR, its early evolution including adaptation to RNA, thermostable polymerases, automation, improvements in specificity and rapid temperature cycling. Perhaps the most significant advance is real-time PCR, combining both amplification and detection into one instrument as a superior solution for nucleic acid quantification. Real-time PCR is enabled by monitoring the reaction with double stranded DNA dyes or specific probes, including hydrolysis, hybridization, and conformation-sensitive probes. PCR product and probe melting analysis continues to improve in resolution, allowing greater sequence detail for genotyping and variant scanning. Microfluidic platforms and digital PCR are destined to find more applications in the future.
Read more: PCR Troubleshooting and Optimization: The Essential Guide