For outstanding performance in real-time PCR
QIAGEN's real-time PCR cycler, the Rotor-Gene Q, combines multiple optimized design features to provide the outstanding performance and reliable results that your research demands. Together with optimized QIAGEN kits for real-time PCR, the Rotor-Gene Q enables streamlined analysis for a wide range of applications. Q-Rex Software is operating and analysis software for life science qPCR applications. A choice of plug-ins lets you add new functionality without affecting established workflows.Explore the virtual demo to learn more about the Rotor-Gene Q.
The Rotor-Gene Q, if used in combination with QIAGEN kits indicated for use with the Rotor-Gene Q instrument, is intended for the applications described in the respective QIAGEN kit handbooks. If the Rotor-Gene Q instrument is used with kits other than QIAGEN kits, it is the user’s responsibility to validate the performance of such product combination for any particular application.
The Rotor-Gene Q is the only real-time cycler currently capable of deciphering the most difficult class IV SNPs by HRM. Harness the power of HRM using dedicated QIAGEN HRM Kits for applications such as genotyping (see figure "Identification of a class IV SNP" for data from the Type-it HRM PCR Kit), quantitative methylation analysis (see figure "Highly sensitive detection of methylated DNA" for data from the EpiTect HRM PCR Kit), gene scanning, and sequence matching. The Type-it HRM PCR Kit reliably and accurately detects gene mutations and SNPs. The EpiTect HRM PCR Kit enables fast screening and accurate detection of changes in CpG methylation status of bisulfite converted DNA.
Unique rotary design for outstanding performance
The unique centrifugal rotary design of the Rotor-Gene Q makes it the most precise and versatile real-time PCR cycler currently available (see figure "Cross-section of the Rotor-Gene Q"). Each tube spins in a chamber of moving air, keeping all samples at precisely the same temperature during rapid thermal cycling. Detection is similarly uniform. When each tube aligns with the detection optics, the sample is illuminated and the fluorescent signal is rapidly collected from a single, short optical pathway. This thermal and optical uniformity results in sensitive, precise, and fast real-time PCR analysis (see figure "Precise real-time PCR analysis"). It also eliminates sample-to-sample variations and edge effects. These are unavoidable in traditional block-based instruments due to temperature gradients across the block and multiple, complex optical pathways.
The rotary design delivers:
Unrivaled optical range enables multiple applications
Whether your assay is based on intercalating dyes such as SYBR® Green, probes such as hydrolysis (TaqMan®), hybridization (FRET), Scorpion probes, or other multiplex chemistries, the Rotor-Gene Q meets your requirements. With up to 6 channels spanning UV to infrared wavelengths, the cycler delivers the widest optical range currently available (see table). In addition, the software allows you to create new excitation/detection wavelength combinations, which means that the Rotor-Gene Q is compatible with dyes you may use in the future.
Expand your research with HRM
High-resolution melting analysis (HRM) is a closed-tube, post-PCR analysis that has raised enormous scientific interest. HRM characterizes double-stranded PCR products based on their dissociation (melting) behavior. It is similar to classical melting curve analysis, but provides far more information for a wider range of applications. PCR products can be discriminated according to sequence, length, GC content, or strand complementarity, down to single base-pair changes. Previously unknown and even complex sequence variations can be readily detected and characterized in a robust and straightforward way. The rotary design of the Rotor-Gene Q and its outstanding thermal and optical performance are highly suited to HRM.
The HRM option for the Rotor-Gene Q includes:
Minimum maintenance; maximum convenience
The Rotor-Gene Q is engineered to reduce the need for maintenance and to maximize ease of use. This saves time and costs, and allows you to focus on your research; not on keeping the cycler up and running.
Convenient features of the Rotor-Gene Q include:
Flexible formats match your workflows
The Rotor-Gene Q supports multiple PCR tube formats to suit a range of needs (see figure "Flexible formats"). Changing the format, by simply switching the snap-fit metal rotor that holds the tubes, takes just seconds. As well as tubes, Rotor-Discs are available, which offer accelerated setup and higher throughput. Rotor-Discs are circular plates of vertically oriented reaction wells. The Rotor-Disc 100 is the equivalent of a 96-well plate with an additional 4 reference wells. These extra wells can be conveniently used for more reactions or additional controls. Alternatively, the Rotor-Disc 72 has 72 wells. Rotor-Discs can be quickly and easily sealed with plastic film using a Rotor-Disc Heat Sealer. For all you need to run reactions using Rotor-Discs, choose the Rotor-Disc 100 Starter Kit or the Rotor-Disc 72 Starter Kit.
You can perform manual reaction setup, or take advantage of QIAGEN's automated solutions for reaction setup. The QIAgility is cost-effective and delivers rapid, high-precision PCR setup, while the QIAsymphony AS is ideal for laboratories performing routine PCR tests on a day-to-day basis. Both instruments perform automated reaction setup in Rotor-Gene formats, allow direct transfer of sample lists, and are supplied with verified protocols for real-time PCR master mixes.
Easy routine verification
Laboratories may often want to verify thermal accuracy. For most cyclers, this requires interaction with a service engineer. With the Rotor-Gene Q, this is not necessary. Instead, the easy-to-use, cost-effective Rotor-Disc OTV (Optical Temperature Verification) Kit automates accuracy testing. The full procedure takes only a couple of minutes.
A range of QIAGEN kits for the Rotor-Gene Q enables reliable quantification in all your real-time PCR applications without the need for optimization of reaction and cycling conditions. Kits for real-time PCR and HRM applications are available for:
Q-Rex Software is a new operating and analysis software for the Rotor-Gene Q, providing several unique new features that promote a more user-friendly interface to help streamline your qPCR workflow. The software is suitable for use by the most novice researchers, while maintaining the highly complex data analysis functions required by advanced researchers.
Rotor-Gene Q Software
The comprehensive Rotor-Gene Q software package supports all current state-of-the art real-time analysis procedures from basic to advanced algorithms. This provides complete freedom to analyze your valuable experimental data and increases the reliability of your results. Data security is assured and all process steps are trackable from starting the run to exporting the results.
Superior software available for genotyping and mutation detection using HRM analysis
Rotor-Gene ScreenClust HRM Software is an extension to the Rotor-Gene operating software. This software is the most powerful tool currently available for analysis of HRM data from the Rotor-Gene Q or Rotor-Gene 6000 cycler. By grouping samples into clusters, Rotor-Gene ScreenClust HRM Software opens a new dimension in HRM analysis for applications such as genotyping and mutation screening.
REST software 2009
REST software 2009 is a standalone software tool for analysis of gene expression data from quantitative real-time PCR experiments. REST software 2009 is available for download under the "Resources" tab, and provides valuable analysis, including:
Traditional relative quantification enables estimation of gene expression. However, this method does not provide statistical information that is suitable for comparing expression in groups of treated and untreated samples in a robust manner. The integrated randomization and bootstrapping methods used in REST software 2009 test the statistical significance of calculated expression ratios and can be used even when the data includes outliers.
REST software 2009 applies a mathematic model that takes into account the different PCR efficiencies of the gene of interest and reference genes. Compared to using a single reference gene, using multiple reference genes for normalization can improve the reliability of results.
Have your throughput demands increased? Do you want to expand your application range or further streamline workflows? Do you need to manage more complex samples? Do you need improved connectivity?
If the answer to any of these questions is yes, then QIAGEN’s trade-in/trade-up program is just right for you!
QIAGEN makes it easy to keep up to speed with the latest automation and sample processing technologies. Simply exchange an old instrument for a new one. Improve your efficiency by trading in a competitor instrument or trading up with an older QIAGEN instrument.
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