In the realm of genetic synthesis, the limitations of traditional chemical methods restricting DNA lengths to 200 nucleotides have become increasingly apparent. The surge in demand for kilobase to megabase-level genes, including entire genomes, underscores the necessity for advanced in vitro assembly technologies. Tsingke leads the way in overcoming the hurdles of genome synthesis, prioritizing the enhancement of long DNA synthesis and assembly technologies to address the changing requirements of genetic research and biotechnology.

Tsingke's Innovation in DNA Synthesis and Assembly

With a wealth of experience and a commitment to continuous innovation, Tsingke has pushed the boundaries of genetic synthesis to new heights. Our pioneering efforts include the mastery of yeast assembly technology for multiple segments and large fragments, facilitating precise and efficient one-step assembly of DNA fragments in Saccharomyces cerevisiae. Noteworthy achievements also include industrial-scale production of 50 kb large DNA fragments, showcasing our ability to deliver fragments as extensive as 200 kb with precision and reliability.

Leading the Way in Long Fragment Synthesis and Assembly

At Tsingke's Gene Factory, we house cutting-edge technologies for long fragment synthesis and assembly, empowering researchers and industries with customized solutions for metabolic pathway synthesis, genome assembly, and beyond. Our expertise extends to supporting DNA digital storage initiatives and fundamental life science research, with a vision to address critical challenges such as food scarcity, drug development, disease treatment optimization, environmental sustainability, and innovative data storage solutions through our technological advancements.

Conclusion

A new era of kilobases and base pairs (kb and bp) is ushered in by Tsingke, a symbol of mastery in DNA synthesis and assembly, thanks to our state-of-the-art technology and unwavering commitment to innovation. We want to spur advances in genetic research and biotechnology, promoting breakthroughs in fields from environmental stewardship to healthcare, by meeting the growing need for extended DNA fragments and genome-scale assemblies. Work together with Tsingke to unlock the potential of genetic synthesis and pave the way for a more transparent future for scientific discovery and inventiveness.