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For the analysis of PCR template amplification, the Fluorescence Quantitative PCR System uses real-time fluorescent detection techniques. The best technique for identifying and measuring nucleic acids in a range of biological samples has emerged: real-time PCR/qPCR testing.
It is utilised in a variety of processes, including as the investigation of cancer, genetic diseases, and foodborne pathogens. A heat cycler with an optical detection module is part of the system. When the fluorophore binds to the target sequence during each cycle of amplification, a fluorescence signal is generated, which is measured.
The 96-well double-colour scanning method, which only takes 5.5 seconds, is one of the scanning models available on the Fluorescent Quantitative PCR System.
Other scanning models include whole block scanning and formulated line scanning mode. With no crosstalk between the various channels, it allows for fluorescence detection across 6 channels.
The Global Fluorescence Quantitative PCR Detection System market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
By using chorionic villus collection, the fluorescent Quantitative PCR System can provide a quick prenatal diagnosis of foetal aneuploidies.
In a study, Shin et al. investigated the medical records of 383 pregnant women who had chorionic villus collection to determine whether fluorescence quantitative PCR could quickly diagnose foetal aneuploidies.
The findings showed that while some cases were trisomy, others were thought to be mosaicism. There were no false-positive findings in the fluorescent quantitative PCR results for common autosomal trisomies compared to LTC results.
So, at an earlier stage of pregnancy, fluorescence quantitative PCR can efficiently provide fast prenatal screening for common chromosomal trisomies.
A quick and inexpensive way to identify and quantify nucleic acids in various biological samples is to use the Fluorescent Quantitative PCR System.
It is utilised in a variety of industries, including forensic, medicinal, biological, and veterinary research. The system has several scanning techniques that can complete a scan in just 5.5 seconds.
The system also has an automated heated lid that opens and closes on its own, keeping the reagents from evaporating. The system’s integrated LED excitation light has an extremely extended lifespan. The wells’ distinctive bottom detection is compatible with reactions up to in volume.
