LightCycler® 1536 Instrument
Rapid, high-throughput, plate-based real-time PCR amplification and detection instrument.
For life science research only. Not for use in diagnostic procedures.
The LightCycler® 1536 Instrument is a rapid, plate-based thermal block cycler with integrated real-time, online detection capabilities. The architecture of this high-throughput platform is built upon the proven LightCycler® 480 Instrument, with its high-performance optical unit and block cycler technologies.
- Utilize the first plate-based real-time PCR instrument that generates 1,536 data points in a single PCR run in less than 50 minutes.
- Obtain high-performance data comparable to legacy data until now only generated with 96- and 384-formats, using this low-volume 1536-well format (0.5 to 2.0 µl).
- Reduce sample input volume, and cut your cost per data point by at least 50%.
- Obtain fourfold higher throughput per plate and reduce inter-assay errors.
- Maximize PCR layout flexibility using a customizable plate-based format.
- Obtain reliable real-time PCR data with the LightCycler® 1536 Software, streamlined for high-throughput needs.
- Take advantage of a streamlined system designed for automation and high-throughput workflows.
- Improve data robustness with a built-in error-checking system that detects pipetting errors.
- LightCycler® 1536 Real-Time PCR Instrument
- LightCycler® 1536 Thermal Block Cycler Unit
- LightCycler® 1536 Software
- LightCycler® 1536 Instrument Operator’s Guide
- LightCycler® Xenon Lamp (Spare Lamp)
- Pentium PC
Use the LightCycler® 1536 System to perform:
- High-throughput gene detection
- High-throughput gene expression
- Genetic variation analysis
The LightCycler® 1536 System shows outstanding performance in terms of
- Sensitivity and reproducibility
- Precision and linear range
- High-throughput profiling
- Long-term stability
Click here to learn more about the LightCycler® 1536 System Performance.
The LightCycler® 1536 optical unit facilitates mono- and dual-color assays using a variety of dyes, such as FAM, VIC, and Yellow 555, by supporting formats including Universal ProbeLibrary (UPL) probes, hydrolysis probes, and intercalating dyes (e.g., BrightGreen). The unique thermal block cycler design, in combination with the LightCycler® 1536 Multiwell Plate, enables very high well-to-well homogeneity and inter-assay reproducibility.
The LightCycler® 1536 Software supports the next generation of real-time PCR results (e.g., Cp's, endpoint fluorescence values), providing novel threshold functions for data refinement and powerful tools for data sorting and reviewing. Since this system is designed for automated high-throughput laboratory workflows, the instrument’s software allows easy data management for network and LIMS environments. In combination with Roche RealTime ready reagents, the system also features a new surveillance concept that checks for pipetting errors.
57.4 cm x 58.8 cm x 49.7 cm
22.6 in x 23.1 in x 19.6 in
(W x D x H)
|Weight||55.6 kg (121 lbs)|
|Computer||Pentium PC with Windows XP|
|Reaction Vessel||LightCycler® 1536 Multiwell Plate|
|Reaction Volume||0.5 – 2.0 µl|
|Excitation Source||Xenon lamp|
Excitation: 465 nm, 533 nm
Detection: 510 nm, 580 nm
|Detection||Cooled monochrome CCD camera|
|Temperature Range||+37 to +95°C|
Therma-BaseTM heat spreading technology
|Run Time||<50 minutes|
Thermaxis® technology (two-component design)
Barcode labeled for automated workflow tracking
• User-friendly programming
• Compact overview of basic results (e.g., CPs, slopes, endpoint fluorescence), and surveillance data
• Novel threshold functions for data refinement
• Powerful tools for data sorting and reviewing
• Multiple data input/output formats
• Simple data management for network environments
• Result data accessible via LIMS
• Automation integration module (AIM) for full connectivity to both remotely control the LightCycler® 1536 System and to exchange experiment data with other software.
• Software Development Kit to establish the remote application between the LightCycler® 1536 System and other instrumentation.