Lab Absolute Quantification Digital dPCR Biochip Reader
CHL-CS100

Using the principle of infinity optical system, through the implementation of Apo lens, high-sensitivity scientific camera and motor automation control, the reading of the fluorescent signal of the supporting dPCR chip is completed. Through the optical uniformity correction algorithm and Poisson distribution principle statistics, the absolute concentration of each target is obtained. The BioDigital Reader S100 is compatible with FAM (Sybr Green), HEX (VIC), ROX and cy5, four-band fluorescence detection channels. Up to 10 weight dPCR reactions can be achieved in one experiment.

Applications
The application of digital PCR technology in genomics research
1. Research on genomic expression and regulation:

This field requires the recognition of all genomic expression products mRNA and protein and their interaction at the whole cell level; digital PCR technology is well suited for high-precision quantification of gene expression products, especially microRNAs, and can achieve single cell and single molecular weight levels. Quantitative detection and analysis of nucleic acids.

2. Identification and identification of human genetic information:

To extract genomic function information, identifying and identifying gene sequences is essential for basic work. Digital PCR technology can verify and confirm the sequence of the gene obtained by sequencing, especially in the case that the original sample is difficult to obtain or the original content is extremely low, because digital PCR technology is good at identifying weak signals from the background signal.

3. Extraction and identification of gene function information:

Specifically, it includes systematic identification of human gene mutants, mapping of gene expression profiles, and identification of "gene alteration-function changes"; digital PCR technology can achieve gene expression profiling and highly sensitive detection of gene mutants.

4. Genetic polymorphism analysis:

Although the genome sequence obtained by the Human Genome Project is representative, each person's genome is not exactly the same. The most common polymorphism is single nucleotide polymorphisms (SNPs), and digital PCR technology passes the reaction. The unit is discretized and has a small influence on the amplification efficiency of the polymerase chain reaction (PCR), and can achieve a SNP analysis with a sensitivity of one hundred thousandth.

The application of digital PCR technology in translational medicine and precision medicine
1. Individualized diagnosis and treatment of cancer

2. Ultra-early diagnosis of disease - "liquid biopsy"

3. Non-invasive prenatal examination

4. Pathogenic microorganism detection and other disease prevention and control