Oligo synthesis service providers face many hidden challenges. These include the inability to accept about 30% of the sequences you need. The remaining 60% require some codon optimization and 10% are impossible to manufacture. This results in inconsistent turnaround times that range from a few weeks to more than a month causing significant project delays. How can you improve turnaround times to achieve your milestones and meet your timelines when deliveries are delayed and there are errors with your order?

Benchtop enzymatic DNA synthesis enables you to iterate faster and increase productivity by 30%. The Syntax STX-200 System combined with the Hi-Fidelity Kits enables enzymatic synthesis of up to 120 nucleotides.

View the product information sheets here.

“A major bottle neck in executing synthetic biology workflows is the time delay in obtaining synthetic DNA from commercial suppliers. The exciting new SYNTAX platform allows us to synthesize DNA on demand, which not only speeds up our internal design-build-test-learn cycle but allows us to control our own workflow and maximize access to our synthetic biology design space.”

— Paul Freemont, PhD, Head of Structural and Synthetic Biology and the London Biofoundry at Imperial College London

“Being able to rapidly produce customized oligos with enzymatic DNA synthesis in our own lab will help accelerate our synthetic biology research and allow us to more quickly build and test genetic constructs.”

— Harris Wang, PhD, Associate Professor at Columbia University

The Syntax System empowers researchers by placing control back in their hands with an all in-one, easy-to-use, automatic, benchtop enzymatic DNA synthesis platform. The new Hi-Fidelity kits enable the printing of oligos up to 120 nucleotides long. Download this oligonucleotide benchmarking application note to learn why scientists around the world are demanding DNA-on-Demand.

Benchmarking of Oligonucleotide Providers:
Comparison of enzymatic and chemically synthesized oligonucleotides for quality and reproducibility

Benchmarking of Oligonucleotide Providers:
Comparison of enzymatic and chemically synthesized oligonucleotides for quality and reproducibility