Keeping up with the Evolution of PCR
PCR has evolved from conventional endpoint detection to real-time qPCR, enabling fluorescence-based quantification. Third-generation digital PCR (dPCR) further revolutionized the field with absolute quantification, higher sensitivity, and partitioning technology. These advancements drive progress in research, development, and clinical practice, enhancing infectious disease detection, oncology, and genetic analysis. As precision medicine advances, dPCR’s role in rare mutation detection, minimal residual disease monitoring, and liquid biopsies will be crucial for the future of molecular diagnostics.
Sample Prep
Simple Endpoint PCR
Endpoint PCR has been the workhorse of molecular biology for decades, serving as a fundamental tool for DNA amplification across various research fields. Its simplicity, cost-effectiveness, and reliability have made it indispensable in applications such as genotyping in animal and plant research, where it enables the identification of genetic traits, species differentiation, and marker-assisted selection. Endpoint PCR also plays a crucial role in pathogen detection, forensic analysis, environmental DNA studies, and quality control in food and agriculture.
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The Exemplar - Real-time PCR
Real-time PCR has been a transformative technology in modern biological science and healthcare. It has been a cornerstone for applications such as gene expression analysis, pathogen detection, and mutation identification, revolutionizing fields like genomics, molecular biology, and clinical diagnostics.
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Reach out to us for a comprehensive instrumental, reagent and consumable approach to startup Real-time PCR
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