Our breakthroughs include mastering yeast assembly for multiple segments and large fragments, enabling precise and efficient one-step assembly of DNA fragments in Saccharomyces cerevisiae. We have also achieved industrial-scale production of 50 kb large DNA fragments, with demonstrated capabilities to deliver fragments as long as 200 kb. Tsingke's Gene Factory is equipped with state-of-the-art long fragment synthesis and assembly technologies, providing customized solutions for metabolic pathway synthesis, genome synthesis and assembly, DNA digital storage, and fundamental life science research. Through our technological advancements, we strive to address pressing global issues such as food scarcity, drug development, disease treatment optimization, environmental challenges, and innovative data storage solutions.

Unleashing Genetic Potential: Constructing Genomes up to 200 kb

Tsingke's expertise in genome synthesis enables the construction of DNA fragments as long as 200 kb. Our advanced technologies overcome the limitations of traditional chemical methods, allowing for the synthesis of kilobase to megabase-level genes and even entire genomes. By pushing the boundaries of DNA synthesis length, Tsingke empowers researchers to explore and engineer genetic systems on a larger scale. With our support, you can embark on ambitious projects that were once considered impossible.

Efficiency Refined: One-Step Assembly with Saccharomyces Cerevisiae

At Tsingke, we have perfected the art of DNA fragment assembly using Saccharomyces cerevisiae. Our innovative one-step assembly method in this assembly system ensures high assembly efficiency. By leveraging the power of yeast, we streamline the process, allowing for precise and efficient assembly of DNA fragments. This advanced technology reduces the complexity and time required for genome synthesis, enabling you to accelerate your research and development.

Precision Assured: Validated with Sanger Sequencing and NGS

Tsingke prioritizes accuracy in genome synthesis. To ensure the fidelity of the synthesized DNA fragments, we employ industry-standard techniques such as Sanger sequencing and Next-Generation Sequencing (NGS). Sanger sequencing validates the accuracy of the synthesized DNA fragments, while NGS provides comprehensive analysis of the sequence. With Tsingke's commitment to precision and quality, you can trust that your synthesized genomes are accurate and reliable.

Conclusion

Tsingke's expertise in genome synthesis propels the field of genetic innovation forward. With our breakthroughs in long DNA synthesis and assembly technologies, we enable the construction of genomes up to 200 kb in length. Our one-step assembly method using Saccharomyces cerevisiae ensures high assembly efficiency, simplifying the genome synthesis process. Through our dedication to accuracy, validated by Sanger sequencing and NGS, we guarantee precise and reliable results. Partner with Tsingke to unlock the full potential of genome synthesis and make significant strides in addressing global challenges such as food scarcity, drug development, disease treatment optimization, environmental sustainability, and cutting-edge data storage solutions. Together, we can shape a future where genetic innovation leads to transformative advancements in various fields of science and technology.