PerkinElmer offers the complete workflow for successful PCR testing workflows by providing efficient sample homogenization tools, automated solutions for high-quality nucleic acid isolation and accurate PCR setup to increase the throughput and reproducibility of PCR workflows.
Our solutions for sample homogenization, automated nucleic acid isolation and analysis, purification of PCR products, and PCR setup are designed to increase the efficiency of endpoint, real-time, RT, and multiplex PCR experiments.
PerkinElmer OMNI homogenizers have brought ease of use and consistency to sample preparation. These homogenizers can be found in laboratories worldwide and are counted on for years of trouble-free operation. Designed for grinding, lysing, and homogenizing biological samples prior to molecular extraction, OMNI homogenizers process samples in seconds and provide repeatable results.
PerkinElmer offers several different solutions for automated nucleic acid isolation based on your sample volume and throughput needs. These solutions are based on the proprietary chemagen™ magnetic bead technology and are realized in the chemagic™ high performance instruments which deliver high-yield and purity DNA and RNA for PCR analysis. Additionally, we offer solutions for PCR product purification and sequencing reaction cleanup.
PerkinElmer offers an automated microfluidic device with high sensitivity nucleic acid analysis. This unparalleled electrophoresis platform simplifies the analysis of nucleic acid concentration and qualitative assessment of PCR products, and replacing the multiple manual steps of slab gel electrophoresis with high levels of accuracy.
With liquid handlers ranging in size from benchtop to large integrated workstations, PerkinElmer offers PCR setup automation solutions to meet any of your throughput needs. Moreover, PerkinElmer offers combined solutions for automated nucleic acid isolation and subsequent PCR Setup in one instrument.
Explore the areas below to learn how you can increase the efficiency of your PCR experiments.