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Rotor-Gene Q (CA)

For outstanding performance in real-time PCR

S_1202_IAS_RGQ_0083_s

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Rotor-Gene Q 2plex Priority Package

Cat. No. / ID:   9001861

Real-time PCR cycler with 2 channels (green, yellow), laptop computer, software, accessories: includes Priority Package with software, installation, training, 2-year warranty on parts and labor, and 2 preventive maintenance visits
InstrumentProduct
Rotor-Gene Q
Rotor-Gene Q HRM
Rotor-Gene ScreenClust HRM Software
Multi-channel detection
2plex
5plex
6plex
Service Options
Priority Package
Priority Package Plus
System
Platform

✓ 24/7 automatic processing of online orders

✓ Knowledgeable and professional Product & Technical Support

✓ Fast and reliable (re)-ordering

Features

  • Outstanding thermal and optical performance due to rotary format
  • An unmatched optical range spanning UV to infrared wavelengths
  • State-of-the art analyses supported by user-friendly software
  • Low maintenance and maximum convenience due to robust design
  • High performance in multiple applications with QIAGEN assays

Product Details

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 the new operating and analysis software for life science qPCR applications, with a plug-in concept that lets you add new functionality without affecting established workflows.

Explore the virtual demo to learn more about the Rotor-Gene Q.

Note that the Rotor-Gene Q instruments are a life science product and not intended for in vitro diagnostic use.

Performance

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.
See figures

Principle

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:

  • Tube-to-tube variation ±0.02°C
  • Uniform detection eliminating the need for ROX reference dye
  • Fast ramping and negligible equilibration times for short run-times
  • Complete confidence in your results
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.

Channels for optical detection
Channel Excitation (nm) Detection (nm) Examples of fluorophores detected
Blue 365 ± 20 460 ± 20 Marina Blue, Edans, Bothell Blue,
Alexa Fluor 350, AMCA-X
Green 470 ± 10 510 ± 5 FAM, SYBR® Green I, Fluorescein,
EvaGreen, Alexa Fluor 488
Yellow 530 ± 5 557 ± 5 JOE, VIC, HEX, TET, MAX, CAL Fluor Gold 540, Yakima Yellow
Orange 585 ± 5 610 ± 5 ROX, CAL Fluor Red 610, Cy 3.5,
Texas Red, Alexa Fluor 568
Red 625 ± 5 660 ± 10 Cy5, Quasar 670, LightCycler
Red640, Alexa Fluor 633
Crimson 680 ± 5 712 high pass Quasar 705, LightCycler Red705,
Alexa Fluor 680
HRM 460 ± 20 510 ± 5 SYBR® Green I, SYTO9, LC Green,
LC Green Plus+, EvaGreen

 

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:

  • A specially tuned high-intensity optical HRM channel
  • Thermal resolution of 0.02°C
  • High data-acquisition rates
  • Comprehensive HRM software
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:

  • Lifetime guarantee on highly stable LEDs, no expensive lamps or lasers to change, no gradual performance loss of light source
  • No optical calibration needed at installation or when the instrument is moved
  • No sample block to clean
  • No condensation or bubbles in reactions due to rotation
  • Small, light, and robust; simply place the instrument wherever you like
See figures

Procedure

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.

See figures

Applications

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:

  • Gene expression analysis
  • Pathogen detection
  • DNA methylation analysis
  • Genotyping and gene scanning
  • miRNA research

Software

Q-Rex Software

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:

  • Estimation of up- and down-regulation for gene expression studies
  • Randomization and bootstrapping techniques
  • Graphical data output via whisker-box plots

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.

Supporting data and figures

Specifications

FeaturesSpecifications
Protocols/main application on this instrument
Heat dissipation/thermal load
Weight
Features
Transportation conditions
Overvoltage category
Warranty
Operating temperature
Place of operation
Storage conditions
Samples per run (throughput)
Typical run time
Dimensions
Power
Kits designed for this instrument
Humidity
Thermal performance
Pollution level
Software
Optical System
Technology
AltitudeUp to 2000 m (6500 ft)

Resources

Brochures & Guides (4)
Kit Handbooks (3)
For verification of thermal accuracy of Rotor-Gene real-time cyclers
Instrument User Manuals (8)
For use with Rotor-Gene Q Software version 2.3.4
For Rotor-Gene Q instruments using Rotor-Gene Q Software version 2.3.1
For Rotor-Gene Q instruments using Rotor-Gene Q Software version 2.3.4
Guideline for ISO 20836:2020
Alternative options for the optical drive (DVD-ROM drive) on the Rotor-Gene Q Notebook, Part Number 9026760
For use with Rotor-Gene Q instruments and Q-Rex Software version 1.0
Application/Protocol Documents (1)
Quick-Start Protocols (1)
Analysis Software (12)
For use with the Q-Rex Software v1.0 or higher to calculate absolute concentration of targets by PCR. The plug-in is dedicated to our customers 
For use with the Q-Rex Software v1.0 to calculate absolute concentration of targets by PCR
Q-Rex Basic Plug-in 2.0.0
SOFTWARE (1MB)
For use with the Q-Rex Software v.1.0 or higher to visualize fluorescence data and determine quantification cycle values based on an automatic user independent threshold algorithm.
For use with the Q-Rex Software v1.0 to classify the genotypes of unknown samples.
New Gene Expression Analysis Plug-in for the Q-Rex Software
For use with the Q-Rex Software v1.0 for determination of genotypes using High-Resolution Melting analysis.
For use with the Q-Rex Software v1.0 or higher for determination of genotypes using Melt Curve Analysis.
For use with the Q-Rex Software v1.0 or higher to detect targets
For use with Q-Rex Software version 1.0 to perform relative quantitation analyses
For use with the Q-Rex Software v1.0 for determination of genotypes using Melt Curve Analysis. This user manual provides information about the functions and features of the Q-Rex Melt Curve Analysis plug-in.
For use with the Q-Rex Software version 1.1 to detect targets by PCR
Operating Software (4)
For use on the Rotor-Gene Q. Rotor-Gene Q software 2.3.5 is compatible with Windows 7 and Windows 10 operating systems
Q-Rex Software 1.1.0
SOFTWARE (94MB)
For operating and data acquisition with Rotor-Gene Q. Q-Rex Software 1.1.0 is compatible with Windows 7 and 10 operating systems. Additional plug-ins are available to further analysis needs
For use with the Q-Rex Software v1.0 or higher to create new experiments quickly and easily based on existing QIAGEN kit templates.
For use with Q-Rex Software to import sample information from QIAgility instruments
Software User Guides (6)
For use with Q-Rex Software version 1.0 to calculate absolute concentration of targets by PCR. This user manual provides information about the functions and features of the Q-Rex Absolute Quantification HID plug-in.
For use with Q-Rex Software version 1.0 to calculate absolute concentration of targets by PCR
For use with the Q-Rex Software v1.0 to determine quantification cycle values
For use with the Q-Rex Software v1.0 to classify the genotypes of unknown samples. This user manual provides information about the functions and features of the Q-Rex End-Point Analysis plug-in.
For use with the Q-Rex Software v1.0 for determination of genotypes using High-Resolution Melting analysis. This user manual provides information about the functions and features of the Q-Rex HRM Analysis plug-in.
For use with Rotor-Gene Q instruments and Q-Rex Software version 1.1

FAQ

Will QuantiTect Primer Assays work with Rotor-Gene SYBR Green Kits using an annealing step at 60ºC?

Based on our extensive and successful testing of many QuantiTect Primer Assays with Rotor-Gene SYBR Green PCR Kits, we guarantee this.

 

 

FAQ ID -2124
If new dyes or chemistries appear on the real-time PCR market, will Rotor-Gene Q be capable of running those dyes?

The Rotor-Gene Q software allows creation of new excitation/detection wavelength combinations, which means that Rotor-Gene Q will work with dyes you may want to use in the future.

 

FAQ ID -2087
Do you have a protocol for Rotor-Gene software setup for the Rotor-Gene SYBR Green PCR and RT-PCR Kits?
What is the difference between probability and typicality in the Rotor-Gene ScreenClust HRM Software?

'Probability' is the likelihood or chance that a sample is a member of each available cluster. The combined probabilities of a single sample add up to 1.00.

'Typicality' in the Rotor-Gene ScreenClust HRM analysis is a measure of how well a sample fits into its assigned cluster. It can also be seen as a measure of how far away a sample is from the centre of the cluster. Typicality values range from 0 to 1, the higher the value the closer it is to the centre of its assigned cluster. If a sample has a typicality value of 0.5, it means that approximately half of all samples within that cluster will be closer to the centre and the other half will be further away. In reality, this might not be the case as small samples numbers can have skewed distributions.

 

FAQ ID -2203
Why are some of my samples outside of the cluster using Rotor-Gene ScreenClust HRM Software?

Clusters in Rotor-Gene ScreenClust HRM Software are graphically represented by ellipses/ellipsoids which act as a visual aid. They are not designed to cover all of the samples. They are a good tool for compare differences between clusters. To judge how well individual samples fit within their clusters use the typicality scores.

 

 

FAQ ID -2204
Why are most of my samples outside of the cluster in supervised mode using Rotor-Gene ScreenClust HRM Software?

The controls define the centre of the clusters in supervised mode using Rotor-Gene ScreenClust HRM Software. If the control samples lie on the fringe of the cluster then the cluster centre can be shifted away from the bulk of the samples within the cluster. Controls should provide a good representation of the expected behavior of unknown samples. If this is not the case the experimental setup should be re-evaluated.

 

FAQ ID -2205
How is the hypothesis test performed in the REST software?
In the REST 2009 software, the hypothesis test performs 10,000 random reallocations of samples and controls between the groups, and counts the number of times the relative expression on the randomly assigned group is greater than the sample data.
FAQ ID -2459
How do Rotor-Gene Probe Kits compare with QuantiFast Probe Kits?

Rotor-Gene Probe Kits are specially developed for Rotor-Gene cyclers. The unique rotary system of the cyclers combined with the kits’ proprietary buffer system enable ultrafast cycling. Rotor-Gene Probe Kits do not contain ROX dye.

 

FAQ ID -2125
Can 0.1 ml and 0.2 ml tubes used on the Rotor-Gene Q be labeled?

Both types of tubes run on the Rotor-Gene Q, and can be labeled on the top without any interference with data acquisition, because signal is detected from the bottom of the tube. Labeling is helpful and can prevent possible sample mix up.

 

FAQ ID -2082
Does the Rotor-Gene Q software have the capacity to export data?

There are several features available to allow exporting data across platforms to a variety of software packages. Sample names can easily be imported into the Rotor-Gene Q Excel sample sheets. By using a function "Export to Excel" the software automatically exports any results table in the software to Excel. Furthermore, reports can now be exported as Word files, which make the data compatible with any Microsoft office/Mac application. Reports can also be saved or sent in HTML format. All figures and graphs can be exported as Jpeg or Bitmap files for use in any desktop publishing software.

 

FAQ ID -2089
Why do I need normalization using Rotor-Gene ScreenClust HRM Software?

Normalization using Rotor-Gene ScreenClust HRM Software is required since HRM melt curves can have different starting points. Therefore the scale of each melt curve can be different. Comparison can only occur if all samples are on the same scale, so each curve needs to be normalized.

 

FAQ ID -2198
Do the master mixes in Rotor-Gene Kits contain dUTP to allow UNG pretreatment?

No. The master mixes in Rotor-Gene Kits contain dTTP instead of dUTP. If UNG treatment is required, we recommend using QuantiTect +UNG Kits. QuantiTect Kits are also compatible with the Rotor-Gene Q; however, the kits require a significantly longer cycling time.

 

 

FAQ ID -2117
In the REST software, what is the range indicated by 'Std. Error' on the 'Results' page?
In the REST 2009 software, the range for the Standard Error on the results tab is 68% C.I. (confidence interval).
FAQ ID -2455
Is a passive internal reference dye, like ROX, required on the Rotor-Gene Q to obtain reproducible results?

No. The fixed optical path ensures uniform illumination and detection from sample to sample eliminating the need to use a reference dye such as ROX on the Rotor-Gene Q.

 

 

FAQ ID -2079
Is it possible to edit the sample sheet in the Rotor-Gene Q software after a PCR run?

Yes. The sample sheet can be amended during or after a PCR run by activating the 'Edit samples' button in the Rotor-Gene Q software. The sample sheet will open and may be modified.

 

FAQ ID -2092
Can data be analyzed on the Rotor-Gene Q while a run is in progress?

Yes, data can be analyzed on the Rotor-Gene Q while a run is in progress, allowing to save time for planning and setting up new experiments. Multiple copies of the Rotor-Gene Q software can be opened simultaneously during a run allowing analysis of previous experiments while the system is running.

 

FAQ ID -2091
What is a QuantiTect Primer Assay?

QuantiTect Primer Assays are primer pairs designed and bioinformatically validated specifically for real-time RT-PCR with SYBR Green detection. To find a primer assay for your target gene of interest, please visit our GeneGlobe data base.

For best results, we strongly recommend using QuantiTect Primer Assays in combination with QIAGEN's products for SYBR Green-based Real-Time PCR and RT-PCR.

FAQ ID -1141
If Vapor-Lock is used to overlay PCR reactions, which volume should be entered as reaction volume in the Rotor-Gene Q Software?

The reaction volume to be entered in the Rotor-Gene Q software should be the sum of the PCR reaction volume and the volume of Vapor-Lock.

 

 

FAQ ID -2150
How many signal readings are taken during the real-time data acquisition on the Rotor-Gene Q?

At the selected data acquisition step of the thermal cycle on the Rotor-Gene Q, the fluorescent signal intensity is measured 20 times for each sample as they spin past the detector. Tubes on a rotor spin past the excitation/detection optics every 150 milliseconds. The average of the 20 readings is then taken as the fluorescence of the sample at that cycle number.

 

FAQ ID -2083
Why is a 2-step (and not a 3-step) cycling protocol recommended for Rotor-Gene SYBR Green Kits?

This type of cycling allows a significant reduction in cycling time for Rotor-Gene SYBR Green PCR Kits. It is more effective than reducing the individual times for annealing and extension.

 

FAQ ID -2122
What types of reaction vessels are required for use in the Rotor-Gene Q?

We strongly recommend use of the dedicated Rotor-Gene Q Accessories, e.g., PCR Tubes 0.2 ml or Strip Tubes and Caps 0.1 ml provided by QIAGEN. These tubes are designed to give low background and perfectly match the Rotor-Gene Q requirements.

 

FAQ ID -2085
Why is the initial activation step different for Rotor-Gene Probe, SYBR Green and Multiplex Kits?

The buffer composition, which affects the initial reactivation of HotStarTaq Plus DNA Polymerase, has been optimized for each respective Rotor-Gene Kit.

 

FAQ ID -2118
How long does an Investigator Quantiplex run take?
On the Rotor-Gene Q, an Investigator Quantiplex run of 40 cycles takes approximately 48 minutes. On the Applied Biosystems 7500 Real-Time PCR System, an Investigator Quantiplex run of 40 cycles takes approximately 57 minutes
FAQ ID -2566
How many samples can be run in parallel with the Rotor-Gene Q real-time PCR instrument?

The Rotor-Gene Q instrument can be used with two different rotor formats: using tubes or rotor-dics. Tubes can be run in 36 and 72-well rotors and rotor-discs in Rotor-Disc 72 and Rotor-Disc 100 rotors. When programming the temperature profile please make sure the correct rotor type is selected.  

 

 

FAQ ID -1519
What are Principal Components analyzed in Rotor-Gene ScreenClust HRM Software?

Principal component analysis is a well-established method of data analysis for multivariate data sets, such as obtained from, e.g.,  microarray analysis or image analysis. However, it is new in ScreenClust for HRM data. Principal Components (PCs) are extracted from the residuals plot so that the first Principle Component (PC1) represents the greatest variability or difference between all samples. The second (PC2) represents the regions of difference not already present in PC1. The third (PC3) represents differences not in PC1 and PC2.

 

FAQ ID -2200
Which mode should I use in the Rotor-Gene ScreenClust HRM Software, supervised or unsupervised?

The supervised mode in the Rotor-Gene ScreenClust HRM Software is designed for data sets with a known number of clusters where each cluster has defined controls. All samples will be grouped into one of the defined clusters.

The unsupervised mode is used if there are no controls for each cluster or if the number of clusters is not known. Based on the data presented, ScreenClust will return the recommended number of clusters and whether to separate the data in 2D or 3D. A user may choose to change either of both of these values.

 

FAQ ID -2202
Are TaqMan® Gene Expression Assays from Applied Biosystems compatible with Rotor-Gene Probe Kits?

Yes, use the assays at a final concentration of 1x with Rotor-Gene Probe Kits on the Rotor-Gene Q cycler.

See trademarks.  

FAQ ID -2126
How do you achieve fast cycling, yet still deliver the same performance in PCR as that achieved with standard cycling?

Our unique multiplex PCR buffer system with ammonium and potassium ions and Factor MP has been further optimized in QuantiFast and Rotor-Gene Kits. We have also discovered Q-Bond, a buffer component which supports the rapid formation of the polymerase–primer–template complex, leading to reduced annealing times.

FAQ ID -1430
Which qPCR instrument should I use with your RT² qPCR Primer Assays?

Our RT² qPCR Primer Assays may be used on any real-time instrument. qPCR solutions are available for the most popular qPCR instrumentation, including those from QIAGEN, ABI, BioRad, Stratagene.

Instrument-specific protocols are available for selected instruments, and can be accessed at the following link: http://www.sabiosciences.com/pcrarrayprotocolfiles.php

FAQ ID -2714
For which real-time cyclers has the Investigator Quantiplex Kit been validated?
The Investigator Quantiplex Kit has been validated for the Rotor-Gene Q, and the Applied Biosystems 7500 Fast and 7500 Real-Time PCR Systems.
FAQ ID -2567
How is the log graph threshold value (Ct) for the Rotor-Gene Q determined?

Based on the defined standards present, the automatic threshold function of the Rotor-Gene Q scans through all the possible threshold levels until the best fit is determined. This is defined as the R value or correlation coefficient, which is maximized to most closely approach 1.0. If there is no standard present, the threshold can also be set manually.

 

FAQ ID -2088
What are clusters analyzed in the Rotor-Gene ScreenClust HRM Software?

Clusters analyzed in the Rotor-Gene ScreenClust HRM Software are groups of samples with the same melt characteristics. For example, in a single nucleotide polymorphism (SNP) analysis the clusters may represent the genotypes 'wild type', 'mutant' and 'heterozygote'. ScreenClust is designed to group samples into clusters after they are separated based on differences in their melt curves. The clusters can either be defined by control samples (supervised mode) or ScreenClust can determine the appropriate number of clusters (unsupervised mode).

 

FAQ ID -2201
Which version of the Rotor-Gene Q software can be used to run the Investigator Quantiplex?
Using the Investigator Quantiplex on the Rotor-Gene Q: All versions of the Rotor-Gene Q software can be used to run the Investigator Quantiplex.
FAQ ID -2568
Do limiting primer concentrations need to be determined when using the Rotor-Gene Multiplex PCR Kit?

No, that is not necessary. Simply use the primer concentrations specified in the protocols in the handbook supplied with your Rotor-Gene Multiplex PCR Kit.

 

 

FAQ ID -2128
What real-time cycler should I use for my qPCR experiments?
There are several manufacturers of high-quality real-time cyclers. These include QIAGEN's Rotor-Gene Q, Applied Biosystems, BioRad, Stratagene, Eppendorf, Roche, TaKaRa, Fluidigm, and Cepheid. The important thing to keep in mind is that, once you select an instrument to use, you must use compatible Rotor-Gene Discs and tubes, 96 or 384 well plates, and qPCR master mixes that are optimized for use in that particular instrument.  For example, QIAGEN's Rotor-Gene SYBR Green, Probe, and Multiplex real-time master mixes.  
FAQ ID -2670
Is it possible to import a standard curve from a previous PCR run on the Rotor-Gene Q?

Yes. If the reaction efficiency between two PCR runs is not expected to vary, importing a standard curve from a previous run allows to estimate concentrations when a standard curve for the current run is not available. Curves can be imported from another channel, or from another run by clicking on 'Import Curve' in the Rotor-Gene Q software. Standard curves can be adjusted such that only the efficiency of the source curve is imported into the current run. Whether a standard curve should be adjusted depends on the PCR chemistry used. To adjust a standard curve, use a reference with a known concentration in the target run.

 

FAQ ID -2093
Are Rotor-Gene Kits compatible with reaction setup using the QIAgility instrument?

The majority of the Rotor-Gene Kit data shown in our literature has been generated with the help of the QIAgility instrument. We did not observe any problems during the pipetting steps.

 

FAQ ID -2116
Are TaqMan® Gene Expression Assays from Applied Biosystems compatible with the Rotor-Gene Multiplex PCR Kit?

Yes, simply use the assays at a final concentration of 1x with the Rotor-Gene Multiplex PCR Kit.

See trademarks

FAQ ID -2131
Can Vapor-Lock be used with samples processed on the QIAgility?

Vapor-Lock is fully compatible with the QIAgility instrument for high-precision, automated reaction setup. It is also highly suited for use with the Rotor-Gene Q cycler. For support to program your QIAgility instrument for use with Vapor-Lock, please contact your local QIAGEN Technical Support Department.

 

 

FAQ ID -2153
Do QuantiTect Primer Assays also work with Rotor-Gene SYBR Green PCR Kits?

We have performed numerous tests comparing the performance of Rotor-Gene SYBR Green PCR Kits and QuantiTect Kits with QuantiTect Primer Assays. Due to the optimized ion concentrations in the PCR buffers, both perform equally well with QuantiTect Primer Assays and do not require any adjustment of primer concentration.

 

FAQ ID -2123
During data analysis, how should the threshold be set in the Yellow channel on the Rotor-Gene Q cycler to analyze the Internal Control from the QuantiFast Pathogen PCR +IC Kit or the QuantiFast Pathogen RT-PCR +IC Kit
On the Rotor-Gene Q, setting the threshold in the Yellow channel to an absolute value of 0.05 will give satisfactory results in most cases.
FAQ ID -2607
What are the main differences between Rotor-Gene and QuantiTect or QuantiFast PCR Kits?

Rotor-Gene Kits are specifically developed for the Rotor-Gene Q PCR Cycler. The unique rotary system of the cycler combined with the kits’ proprietary buffer system enable ultrafast cycling. Rotor-Gene Kits do not contain ROX dye since no normalization to a passive reference is required. Also, Rotor-Gene Kits do not contain dUTP; therefore, UNG pretreatment is not possible.

 

FAQ ID -2119
Does the centrifugal force have any effect on the kinetics of a PCR reaction on the Rotor-Gene Q?

No. The speed at which the samples spin on the Rotor-Gene Q is not high enough to apply any significant centrifugal force on them.

 

 

 

FAQ ID -2081
How fast does the rotor spin during a run on the Rotor-Gene Q?

The sample rotor of the Rotor-Gene Q spins continuously at a speed of 400 rpm during a run.

 

FAQ ID -2080
Can the Rotor-Gene Multiplex RT-PCR Kit be used on other cyclers?

The specific features of Rotor-Gene Kits and Rotor-Gene cyclers work synergetically to enable an ultrafast-cycling protocol. We do not guarantee that the performance of the Rotor-Gene Multiplex RT-PCR Kit with the same cycling protocol will be the same on other cyclers.

 

 

FAQ ID -2142
Will Rotor-Gene Kits also work on the Rotor-Gene 6000 and 3000 cyclers?

Yes. Rotor-Gene Kits will also work on the Rotor-Gene 6000 and Rotor-Gene 3000 PCR cyclers with the cycling conditions specified in the Rotor-Gene kit handbooks.

 

FAQ ID -2121
What is the residuals plot in the Rotor-Gene ScreenClust HRM Software?

Once all melt curves are normalized, they are on a comparable basis. To make the information within each curve more useful for comparison, each curve is differentiated. The Residuals Plot is a plot of the difference between each sample and the composite median of all the samples after differentiation. The Residuals Plot of the Rotor-Gene ScreenClust HRM Software is different from a "Difference Plot" known from standard HRM software packages.

 

FAQ ID -2199
Which downstream applications have been tested with SARS-CoV-2-derived RNA purified from saliva collected into PAXgene Saliva Collector?

RNA purified with the QIAamp Viral RNA Mini Kit has been used for quantification by qPCR with QuantiTect Probe RT-PCR Kit on QIAGEN Rotor-Gene Q.

3828
Can the Rotor-gene software run on a computer with Windows 7 operating system?

The Rotor-Gene Q software version v2.2 and lower versions require a computer with Windows XP or Vista operating systems. The Rotor-Gene Q software v2.3 or higher versions can run with Windows XP or Windows 7 32-bit and 64-bit operating systems.

Rotor-Gene 6000 software requires a computer with Windows XP or Vista operating system. QIAGEN will no longer support Rotor-Gene 3000 instruments and Rotor-Gene 6.0 software starting from January 1, 2014

FAQ ID -9021
What should I do if the Rotor-Disc OTV run does not pass?

Please send the original OTV run file to QIAGEN Technical Service for further assistance.

FAQ ID -9022
Why is no fluorescence signal detected in my run?

Please make data are collected in the appropriate fluorescent channel. Also check the gain is optimized.

If the issue persists, please send the original run file with extension .rex to QIAGEN Technical Service for further assistance.

FAQ ID -9023
What kind of file is required for hardware-related trouble-shooting?
For hardware related issues, please send the support package to QIAGEN Technical Service. Within the Rotor-gene Q software, click Help and select Send Support Email. In the new window, select the file that relates to the issue and email it to QIAGEN Technical Service.
FAQ ID - 9024
Is regular calibration needed with the Rotor-gene instrument?
QIAGEN recommends the annual inspection service on Rotor-gene instruments, during which all application-critical modules of the Rotor-gene are inspected and tested and an OTV check is conducted. Performed tests and test results are documented in a GMP/GLP-compliant Report. In addition, the end users can perform the temperature calibration in the lab as needed using the Rotor-Disc OTV kit.

Note: The Rotor-Disc OTV kit requires the Rotor-Disc 72 Rotor and Rotor-Disc 72 locking ring.
FAQ ID -9025
Can I import a standard curve from a previous PCR run on the Rotor-Gene Q?

Use of endogenous control genes corrects for variation in RNA content, variation in reverse-transcription efficiency, possible RNA degradation or presence of inhibitors in the RNA sample, variation in nucleic acid recover, and differences in sample handling. The endogenous control gene ought to have consistent expression levels between samples and among treatment conditions, and ideally has a similar expression level to that of the genes of interest. Genes commonly used as references can be found at the QuantiTect Primer Assays as endogenous controls.

FAQ ID -9027
Which-reporter-dyes-can-be-combined-for-use-in-multiplex-PCR-on-the-Rotor-Gene-Q-Cycler?
Please refer to section 'Guidelines for effective multiplex assays' under "Important Notes" in the Rotor-Gene Multiplex PCR Handbook for suitable combinations of reporter dyes, or visit our Multiplex real-time PCR Resource site for additional information.
FAQ ID -9028
Must I fill blank positions with empty tubes when running sample numbers lower than the rotor capacity of the Rotor Gene Q?
Yes, all empty positions in the rotor of the Rotor-Gene Q have to be filled with empty tubes. This guarantees optimal temperature repartition in the Rotor-Gene Q chamber.
FAQ ID -9029
What reaction volume is suitable for use in the Rotor-Gene Q?

Reaction volumes suitable for use on the Rotor-Gene Q are:

  • Rotor-Disc 100: 30 µl x 100-wells, 10-25 µl reaction volume
  • Rotor-Disc 72: 0.1 ml x 72-wells, 15-25 µl reaction volume
  • Strip Tubes 0.1 ml: 0.1 ml x 72-wells, 10-30 µl reaction volume, strips of 4 tubes and caps
  • PCR Tubes 0.2 ml: 0.2 ml x 36-wells, 15-50 µl reaction volume, individual tubes with caps
FAQ ID -9030
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