SYBR GreenER qPCR SuperMix for ABI PRISM

SYBR GreenER qPCR SuperMix for ABI PRISM is a ready-to-use cocktail containing all components, except primers and template, for real-time quantitative PCR (qPCR) on ABI real-time instruments that support normalization with ROX Reference Dye at a final concentration of 500 nM. It combines a chemically modified “hot-start” version of Taq DNA polymerase with integrated uracil DNA glycosylase (UDG) carryover prevention technology and a novel fluorescent dye to deliver excellent sensitivity in the quantification of target sequences, with a linear dose response over a wide range of target concentrations.

Volumes are provided for 100 or 500 amplification reactions of 50 μl each.

SYBR GreenER qPCR SuperMix for ABI PRISM is supplied at a 2X concentration and contains hot-start Taq DNA polymerase, SYBR GreenER fluorescent dye, 1 μM ROX Reference Dye, MgCl₂, dNTPs (with dUTP instead of dTTP), UDG, and stabilizers. The SuperMix formulation can quantify fewer than 10 copies of a target gene, has a broad dynamic range, and is compatible with melting curve analysis.

• The fluorescent double-stranded DNA (dsDNA) binding dye in the SuperMix provides both higher sensitivity and lower PCR inhibition than SYBR Green I dye. It can be used on real-time PCR instruments calibrated for SYBR Green I dye without any change of filters or settings. In qPCR, as dsDNA accumulates, the SYBR GreenER qPCR SuperMix dye generates a fluorescent signal that is proportional to the DNA concentration (1, 2).
• The Taq DNA polymerase provided in the SuperMix has been chemically modified to block polymerase activity at ambient temperatures, allowing room-temperature setup and long-term storage at 4°C. Activity is restored after a 10-minute incubation in PCR cycling, providing an automatic hot start for increased sensitivity, specificity, and yield (3).
• UDG and dUTP in the SuperMix prevent the reamplification of carryover PCR products between reactions (4). dUTP ensures that any amplified DNA will contain uracil, while UDG removes uracil residues from single- or double-stranded DNA. A UDG incubation step before PCR cycling destroys any contaminating dU-containing product from previous reactions (5). UDG is then inactivated by the high temperatures during normal PCR cycling, thereby allowing the amplification of genuine target sequences.
• ROX is included at a final concentration of 500 nM to normalize the fluorescent signal on instruments that are compatible with this option. ROX can adjust for non-PCR-related fluctuations in fluorescence between reactions, and provides a stable baseline in multiplex reactions. It is composed of a glycine conjugate of 5-carboxy-X-rhodamine, succinimidyl ester.

Shipping and Storage

The SuperMix is shipped on dry ice and should be stored at 4ºC. Storage at –20ºC may extend shelf life.

Handling Conditions

Minimize exposure of SYBR GreenER qPCR SuperMix for ABI PRISM to direct light. Exposure to direct light for an extended period of time may result in loss of fluorescent signal intensity.

Two-Step qRT-PCR Kits

This SuperMix is also included with the SYBR GreenER Two-Step qRT-PCR Kit for ABI PRISM, catalog nos. 11763-100 and 11763-500.

Product Qualification

The Certificate of Analysis (CofA) provides detailed quality control information for each product. Search for the CofA for your product.

Instrument Compatibility

This kit can be used with ABI real-time instruments that are compatible with ROX Reference Dye at a final concentration of 500 nM. These instruments include the ABI PRISM 7000, 7700, and 7900HT; the ABI 7300 Real-Time PCR System; and the ABI GeneAmp 5700.

Note: This kit is not compatible with instruments that use ROX at a final concentration lower than 500 nM, including the ABI 7500. For these instruments, we recommend SYBR GreenER qPCR SuperMix Universal, which includes ROX as a separate tube that can be added at the required concentration (see Additional Products in Ordering Table).

Template cDNA

• For two-step qRT-PCR, use undiluted or diluted cDNA generated from up to 1 μg of total RNA. For cDNA synthesis, we recommend the SuperScript III First-Strand Synthesis SuperMix for qRT-PCR
• A maximum of 10% of the qPCR reaction volume may be undiluted cDNA (e.g., for a 50-μl qPCR, use up to 5 μl of undiluted cDNA).
• Note that detecting high-abundance genes in undiluted cDNA may result in very low CTs in qPCR, leading to reduced quantification accuracy. Prepare a dilution series of the cDNA template for the most accurate results.

Plasmid and Genomic DNA

Use up to 100 ng of genomic DNA or 10–10⁷ copies of plasmid DNA in a 10-μl volume. Note that 1 μg of plasmid DNA contains 9.1 × 10¹¹ copies divided by the plasmid size in kilobases.

Primers

Primer design is one of the most important parameters when using SYBR GreenER qPCR SuperMix. We strongly recommend using a primer design program such as OligoPerfect, available here, or Vector NTI. When designing primers, the amplicon length should be approximately 80–250 bp. A final concentration of 200 nM per primer is effective for most reactions. Optimal results may require a titration of primer concentrations between 100 and 500 nM.

DNA Polymerase Activation Time

The hot-start DNA polymerase is activated in the 10-minute incubation at 95°C before PCR cycling.

Melting Curve Analysis

Melting curve analysis should always be performed following real-time qPCR to identify the presence of primer dimers and analyze the specificity of the reaction. Program your instrument for melting curve analysis using the instructions provided with your specific instrument.

Magnesium Concentration

Magnesium chloride is included in the SuperMix at an optimized concentration for qPCR.

TOP

1. Program your real-time instrument as shown below. Optimal temperatures and incubation times may vary.
   50ºC for 2 minutes hold (UDG incubation)
   95ºC for 10 minutes hold (UDG inactivation and DNA polymerase activation)
   40 cycles of:
   95ºC, 15 seconds
   60ºC, 60 seconds
   


2. For each reaction, add the following to a 0.2-ml microcentrifuge tube or each well of a PCR plate. A standard 50-μl reaction size is provided; component volumes can be scaled as desired (e.g., scaled down to a 20-μl reaction volume for 384-well plates). For multiple reactions, prepare a master mix of common components, add the appropriate volume to each tube or plate well, and then add the unique reaction components (e.g., template). Note: Preparing a master mix is strongly recommended in qRT-PCR to reduce pipetting errors.
   
   

   Component	Single rxn	Notes
   SYBR® GreenER™ qPCR SuperMix for ABI PRISM®	25 μl	1X final conc.
   Forward primer, 10 μM	1 μl	200 nM final conc.
   Reverse primer, 10 μM	1 μl	200 nM final conc
   Template (up to 100 ng of genomic DNA, 10–107 copies of plasmid DNA, or cDNA generated from up to 1 μg of total RNA)	5–10 μl	max. 10% v/v undiluted cDNA
   DEPC-treated water	to 50 μl	—

   
   


3. Cap or seal the reaction tube/PCR plate, and gently mix. Make sure that all components are at the bottom of the tube/plate; centrifuge briefly if needed.
   


4. Place reactions in a preheated real-time instrument programmed as described above. Collect data and analyze results.