ZX-22107-100/200/400 | Probe-based one-step RT-qPCR kit with low carboxy-X-rhodamine
The ZellX® One-Step Quantitative Reverse Transcription Polymerase Chain Reaction (RT-qPCR) Kit grants efficient cDNA synthesis and quantitative/real-time PCR in a single tube. The PCR Master Mix provided in the kit contains all the reagents (except primers, probes and RNA template) needed for running real-time PCR reactions and is compatible with different probe technologies (including Taqman®, Molecular Beacons® and Scorpion® probes). In addition, a separate Reverse Transcriptase mix that comprises a balanced mixture of both Reverse Transcriptase and RNase Inhibitor is provided. As an internal reference, the kit contains low concentrations of carboxy-X-rhodamine (ROXTM). Being independent from the amount of DNA template, the fluorescence signal of ROXTM is not influenced by the PCR reactions, and therefore can assist in the normalization of the reporter-dye signal during data analysis. The appropriate level of ROXTM depends on the real-time PCR instrument (Contact your instrument manufacturer for details). For high levels of ROXTM use our Probe-based one-step RT-qPCR kit with high carboxy-X-rhodamine (Cat NO. ZX-22108-100/200/400).
RT-PCR is used to amplify double-stranded DNA from single-stranded RNA templates. In the RT step the reverse transcriptase synthesizes single-stranded DNA molecules (cDNA) complementary to the RNA template. In the first cycle of the PCR, Taq DNA polymerase synthesizes DNA molecules complementary to the cDNA, thus generating a double-stranded DNA template. During subsequent cycles, the DNA polymerase exponentially amplifies the double-stranded DNA template.
Use: Highly efficient cDNA synthesis and qPCR in a single tube
Quantity: 100, 200, 400 rxns
Stability: 2 years at -20°C
Technical Support: Customer satisfaction is very important to us. Please call us at +49(0)30 81309085 or send an email to technical[at]zellx.de with your technical questions. A member of our scientific staff will be glad to assist you.