The 7900HT Fast Real-Time PCR System is the only real-time quantitative PCR system that combines 96- and 384-well plate compatibility and the TaqMan® Low Density Array with fully automated robotic loading and now also offers optional Fast real-time PCR capability. 
 
High Throughput 
The 7900HT System is a high-throughput real-time PCR system that detects and quantitates nucleic acid sequences. An optional Automation Accessory (not included) combined with 384-well plate capability make the 7900HT system ideally suited to meet the high-throughput requirements of today's drug discovery process. Key applications include gene expression quantitation and the detection of single nucleotide polymorphisms (SNPs) using the fluorogenic 5' nuclease assay. 
 
Flexibility 
The 7900HT system is a versatile research tool that can accommodate any real-time PCR need. User-interchangeable thermal cycling block formats let you select the format thats right for your project, using industry-standard 96- and 384-well formats, as well as a novel 384-well TaqMan® Low Density Array and a new Fast 96-well block that reduces run times from 2 hours to about 30 minutes. An easy automation upgrade path lets you add features to meet throughput demands. A Fast PCR option reduces run times from 2 hours to about 30 minutes. 
 
Powerful Software 
Using two automation software tools, Plate Utility and Automation Controller, most of the gene expression and SNP genotyping workflow is fully automated for high-throughput applications and requires minimal user intervention. You can now process 5,000 x 384 well plates (384 markers), which equates to 1.92 million genotypes. Using Relative Quantification (RQ) Manager, you can also process 200 x 384-well plates (96 detectors with quadruplicate data points⁄multiplexed endogenous control), which equates to 153,600 data points. Fully integrated into one complete Enterprise system, SNP Manager and RQ Manager eliminate data analysis bottlenecks in high-throughput SNP and gene expression research by allowing significantly more plates to be analyzed simultaneously. This reduces hands-on analysis time and simplifies the data analysis workflow.