Navigating the Future of Biotechnology: Tsingke’s Single Stranded Genetic Messenger Explained
Committed to innovation and quality, Tsingke ensures that researchers have access to reliable ssDNA that meets their experimental needs, facilitating advancements in gene editing, genome modification, and therapeutic development.
Advantages of Single Stranded Genetic Messenger (ssDNA)
One of the significant advantages of Tsingke’s single stranded genetic messenger is the wide synthesis range offered, with the capability to produce ssDNA up to 6000 nucleotides (nt). This extensive range allows researchers to design and implement innovative experiments, including complex gene modifications and functional studies. Additionally, Tsingke’s ssDNA exhibits low cytotoxicity, which is crucial for achieving higher homologous recombination and knock-in efficiency. By minimizing cytotoxic effects, Tsingke ensures that researchers can conduct their work with greater confidence and success.
Moreover, Tsingke’s ssDNA has been shown to provide high editing efficiency, boasting a remarkable nine-fold increase in CRISPR/Cas9 gene knock-in efficiency when compared to double-stranded DNA (dsDNA) as a homologous recombination template. This enhanced performance is vital for researchers seeking precise genetic modifications, as it enables the successful targeting and integration of new genes into genomes, paving the way for breakthroughs in genetic research and therapy.
Conclusion
Tsingke’s synthesised ssDNA is dedicated to quality and innovation; it minimises cytotoxicity and improves editing efficiency, making it a vital tool for furthering scientific research. Tsingke is the perfect partner for anyone looking for dependable and efficient ssDNA solutions because they are committed to advancing innovative genetics research.