dPCR Microbial DNA Detection Assays

dPCR Microbial DNA Detection Virulence Genes 5 Research

Preconfigured assays for Virulence Genes 5 research detecting: Minor fimbrial subunit , shiga-like toxin 1 subunit B encoded within prophage CP-933V, gamma-hemolysin component B, invasion protein invA, endocarditis specific antigen
200rxn in 40µl (Nanoplate 26k), 666rxn in 12µl (Nanoplate 8,5k)
€4,189.00

Product Specification

TargetGeneGlobe IDDyePrice
minor fimbrial subunitDMA00614-FFAM €764.00
shiga-like toxin 1 subunit B encoded within prophage CP-933VDMA00677-HHEX €764.00
gamma-hemolysin component BDMA00635-TTAMRA €887.00
invasion proteinDMA00642-RROX €887.00
endocarditis specific antigenDMA00611-CCy5 €887.00

Resources

Technical Information (1)
Detect microbial targets – bacterial, fungal, parasitic, viral, antibiotic resistance and virulence factor genes – using digital PCR
Kit Handbooks (1)
Brochures & Guides (2)
Detect microbial targets – bacterial, fungal, parasitic, viral, antibiotic resistance and virulence factor genes – using digital PCR
A versatile workflow for the detection of low-abundance microbes
Safety Data Sheets (1)
Certificates of Analysis (1)
Introducing the dPCR Microbial DNA Detection Virulence Genes 5 Research, a cutting-edge addition to our dPCR Microbial DNA Detection Assays lineup, specifically designed for Digital PCR applications. This premium product offers unparalleled performance for researchers working with endocarditis specific antigen models. Leveraging advanced technology, the dPCR Microbial DNA Detection Virulence Genes 5 Research facilitates accurate and reliable results, making it an indispensable tool for your scientific investigations. Whether you're conducting Digital PCR, or any other sophisticated analyses, this product from our dPCR Microbial DNA Detection Assays collection ensures optimal efficiency and reproducibility for endocarditis specific antigen studies. Embrace the future of research with dPCR Microbial DNA Detection Virulence Genes 5 Research and elevate your work to new heights.