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Labmate Real Time PCR System provides detection range from 1 to 10 billion copies ensuring reliable amplification results. Their advanced thermal cycling system maintains uniform temperature across all wells for consistent outcomes. They feature high-sensitivity fluorescence detection optimizing real-time quantification of nucleic acids. Their user-friendly interface simplifies operation with intuitive controls and data analysis capabilities. Our Real Time PCR System supports clinical diagnostics genetic research and pathogen detection.
$ 22950 / Pack of 1
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$ 6375 / Each of 1
Selection Guide for Real Time PCR System
When selecting Real Time PCR System, customers should consider the system’s sample capacity, detection capabilities, and compatibility with various formats to match their experimental needs. These systems support multiple configurations such as 96 wells × 0.2 mL, 16 wells × 0.2 mL, and are compatible with 96-well plates, 12×8 tube strips, and 96×0.2 mL single tubes, providing flexibility for both low- and high-throughput applications. The number of fluorescence channels available in 2, 4, or 6 allows for multiplex detection, making the system suitable for complex assays like gene expression analysis, mutation detection, and pathogen quantification. Sample volume ranges from 15 to 120 µL, depending on the model, accommodating various reaction types. Additionally, options like 48-well and 96-well formats ensure scalability to fit routine diagnostics or advanced research workflows. By evaluating these key factors, users can choose a system that best supports their application demands and throughput requirements.
Frequently Asked Questions
1 What is a Real Time PCR System?
A Real Time PCR System is an apparatus designed to amplify and simultaneously quantify a targeted DNA molecule, enabling real-time monitoring of the reaction.
2 How does Real Time PCR System work?
It works by amplifying DNA through thermal cycling while using fluorescent dyes or probes to detect and quantify DNA during each cycle.
3 How is Real Time PCR System different from a conventional PCR system?
It differs from conventional PCR by providing quantitative data in real time, whereas conventional PCR only shows end-point results after gel electrophoresis.
4 Can Real Time PCR System be used for RNA analysis?
It is used for RNA analysis through reverse transcription, converting RNA to cDNA before amplification.
5 How is Real Time PCR System used in cancer research?
It is used in cancer research to analyze gene expression levels, detect mutations, and monitor biomarkers related to tumor progression.
6 Is Real Time PCR System suitable for food safety testing?
It is suitable for food safety testing by detecting microbial contamination, allergens, and genetically modified organisms (GMOs) in food products.
7 How does Real Time PCR System help in detecting genetic disorders?
It helps in detecting genetic disorders by identifying specific gene mutations, deletions, or duplications linked to hereditary conditions.
8 How is Real Time PCR System used in forensic science?
It is used in forensic science for DNA quantification, STR analysis, and species identification in criminal investigations.
9 How does Real Time PCR System support environmental testing?
It supports environmental testing by identifying microbial contamination in water, soil, and air samples.
10 Can Real Time PCR System be applied to microbiome analysis?
It is applied to microbiome analysis by quantifying specific bacterial or fungal species in complex biological samples.