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Powering Innovation: Tsingke’s Large DNA Fragments in CRISPR and Genome Assembly

With a commitment to advancing synthetic biology, Tsingke has developed cutting-edge technologies that enable the efficient assembly of large DNA fragments, crucial for various applications ranging from genomic studies to therapeutic developments. Their focus on improvement and efficiency sets them apart in an ever-evolving field.

Advanced Technologies for Efficient Large DNA Fragment Assembly

In its quest to streamline the synthesis of large DNA fragments, Tsingke has successfully developed the Spore Bacillus One-Step Assembly technology, which replaces traditional extracellular enzyme ligation methods. This groundbreaking approach allows for the rapid acquisition of 5 kb DNA sequences and enables the simultaneous assembly of up to 10 fragments in a single step. By using this advanced technology, Tsingke has significantly shortened the synthesis cycle, reducing the time required by at least half compared to conventional methods. This remarkable efficiency makes Tsingke the preferred choice for researchers looking to synthesize large DNA fragments quickly and accurately.

Moreover, Tsingke has optimized the yeast assembly system, which greatly enhances both the success rate and transformation efficiency of multi-segment assembly. This optimization enables Tsingke to successfully complete the assembly of large DNA fragments up to 200 kb, a feat that positions the company as a leader in the synthesis of complex genetic constructs. By offering such capabilities, Tsingke empowers scientists to conduct more advanced genetic research and innovative projects with confidence.

Conclusion

With advanced technologies like the Spore Bacillus One-Step Assembly and optimized yeast assembly systems, Tsingke ensures the rapid and reliable synthesis of large DNA fragments, enabling researchers to push the boundaries of genetic exploration. For those seeking a trusted partner in large DNA fragment synthesis, Tsingke is the ideal choice to support groundbreaking research and development in synthetic biology.

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