WOW, June was a busy month! We launched our next-generation SYNTAX kits to print primers and probes for qPCR and dPCR, FISH, and NGS right from your benchtop for same-day results. We then made the rounds presenting data from our latest applications at conferences and webinars. If you couldn't join one of our events, you can find plenty of information below!
PRODUCT LAUNCH
Finish First! Now Print Primers and Probes for q/dPCR Assays in Hours
Our next-generation kits now support the synthesis of probes labeled with fluorophores, quenchers, or biotin to provide the fastest solution for custom q/dPCR assays at the best value in the market. Beyond PCR, these new kits accelerate many genomic workflows, including NGS, ISH and FISH assays.
Optimization of a Single Molecule Fluorescence in situ Hybridization (smFISH) Assay for Drosophila A Virus Detection
See how Pasteur Institute accelerated the optimization of smFISH assays by printing DNA-on-demand. With the benchtop SYNTAX System, researchers quickly iterated through probe designs to fine-tune sensitivity and specificity, providing for a rapid and simple alternative to immunofluorescence.
Invasive fungal infection is a growing threat to public health. Read how the Pasteur Institute printed DNA on demand to quickly identify Candida glabrata genes with antifungal resistance. In addition to speed, the in-house SYNTAX System printer also offered confidentiality of primer sequences in a highly competitive area of research.
French DGA Extends Partnership to Synthesize Custom qPCR Probes for On-demand Detection of Biothreats
The partnership with the French Defense Innovation Agency, first announced in January 2021, leverages the SYNTAX System to produce DNA primers and probes for mobile and onsite deployment, enabling same-day qPCR from design to results, an enormous advantage for any pathogen early warning system.
Has the pandemic unleashed the molecule of RNA to be the new future of drug development? Tim Mercer, director of BASE Lab at the University of Queensland, discusses
enzymatic DNA synthesis, which he says is "a quantum shift” in our ability to synthesize DNA, and the future of mRNA vaccines and other RNA therapeutics.
Newly developed enzymatic methods are more environmentally friendly and offer hope for data storage with DNA. This article does a deep dive to help you understand why.
DNA Script takes the confidentiality and protection of your personal data very seriously; please see our privacy policy. You can unsubscribe at any time using the unsubscribe link found at the bottom of this communication.
DNA Script, Inc. | 650 Gateway Blvd South San Francisco, CA, 94080, United States | +1 (650) 457-0844
