QuantStudio™ 7 Flex Real-Time PCR System, 96-well, laptop

The Applied Biosystems® QuantStudio™ 7 Flex Real-Time PCR System advances your research further by enabling a broad range of real-time PCR-based applications through its multiplexing capabilities and interchangeable block formats. With a simplified workflow, intuitive software, automation capabilities, and touch-screen interface, the QuantStudio™ 7 Flex system offers exceptional reproducibility with minimal well-to-well and instrument-to-instrument variation.

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Description

The QuantStudio™ 7 Flex system accommodates the interchange of a 96-well, 96-well Fast, 384-well, or TaqMan® array card block. The system is delivered with one block type (a 96-well block in this case); other block types may be purchased separately. In addition, a Twister® Robot Automation Accessory is available for this system to support high throughput workflows. For a more value-priced system that does not support TaqMan® array cards or automation (but that can be upgraded to do so at a later date), please see our QuantStudio™ 6 Flex system. And for the ultimate in flexibility, consider the QuantStudio™ 12K Flex system, which also accommodates TaqMan® OpenArray® plates.

Accomplish More, Faster

Run hundreds of real-time PCR reactions effortlessly using TaqMan® Array 384-well microfluidic cards. And when integrated with the Twister® Robot Automation Accessory (available separately), the QuantStudio™ 7 Flex system maximizes your throughput capabilities.

High Application Versatility Simple workflows, reliable assays and reagents, multiple formats, and intuitive software are available for a broad range of applications, including gene expression, genetic variation, gene regulation, High Resolution Melt (HRM), and Protein Thermal Shift™ experiments.

Results You Can Trust

Improved well-to-well and instrument-to-instrument data accuracy is achieved with the OptiFlex™ system, which features 6 decoupled excitation and emission filter channels with 21 filter combinations for maximum multiplexing and chemistry flexibility.

Sensitive Data Analysis

Detect changes in target quantity as small as 1.5-fold in single-plex reactions and obtain 10 logs of linear dynamic range.