Better builds.

Better biology.

Rapid, long, and complex DNA synthesis.

Early Access

Better builds.

Better biology.

Rapid, long, and complex DNA synthesis.

Early Access

Better builds.

Better biology.

Rapid, long, and complex DNA synthesis.

Early Access

Ultra-fast turnaround.

Receive custom DNA sequences in record time with our next-gen exponential synthesis platform.

3-10

Days

Up to 5kb

High fidelity, every time.

Leading the industry in coupling efficiency to directly synthesize gene length DNA without oligo assembly.

Unmatched Complexity

Inherently capable of repeats and high complexities that traditionally fail.

No Complexity Limits

Ultra-fast turnaround.

Receive custom DNA sequences in record time with our next-gen exponential synthesis platform.

3-10

Days

Up to 5kb

High fidelity, every time.

Leading the industry in coupling efficiency to directly synthesize gene length DNA without oligo assembly.

Unmatched Complexity

Inherently capable of repeats and high complexities that traditionally fail.

No Complexity Limits

Ultra-fast turnaround.

Receive custom DNA sequences in record time with our next-gen exponential synthesis platform.

3-10

Days

Up to 5kb

High fidelity, every time.

Leading the industry in coupling efficiency to directly synthesize gene length DNA without oligo assembly.

Unmatched Complexity

Inherently capable of repeats and high complexities that traditionally fail.

No Complexity Limits

Join Early Access.

Experience next-gen DNA.

Join Early Access.

Experience next-gen DNA.

Join Early Access.

Experience next-gen DNA.

How is this different?

Traditional chemical or newer TdT enzymatic synthesis is done linearly, adding one nucleotide at a time to create an oligo, which must then be assembled into a gene. DINYA's Exponential Synthesis is a hierarchical, template-independent, multi-enzyme platform that directly synthesizes double stranded DNA from a pre-built material library, resulting in exponential growth of the DNA after each subsequent synthesis cycle. This is a step change that allows us to skip oligos altogether to make long, complex DNA molecules in a matter of days.

Why is this for me?

Scientists spend far too much time designing, redesigning, and assembling DNA. We do the hard work for you so you never have to worry about failed builds, long timelines, or spending valuable time cloning.

What is the Early Access Program?

The EAP is a limited synthesis service for early adopters with the hardest builds. It will launch in 2026 and provides linear and clonal DNA up to 5kb, with minimal complexity limitations, industry leading turnaround times, and competitive pricing.

How is this different?

Traditional chemical or newer TdT enzymatic synthesis is done linearly, adding one nucleotide at a time to create an oligo, which must then be assembled into a gene. DINYA's Exponential Synthesis is a hierarchical, template-independent, multi-enzyme platform that directly synthesizes double stranded DNA from a pre-built material library, resulting in exponential growth of the DNA after each subsequent synthesis cycle. This is a step change that allows us to skip oligos altogether to make long, complex DNA molecules in a matter of days.

Why is this for me?

Scientists spend far too much time designing, redesigning, and assembling DNA. We do the hard work for you so you never have to worry about failed builds, long timelines, or spending valuable time cloning.

What is the Early Access Program?

The EAP is a limited synthesis service for early adopters with the hardest builds. It will launch in 2026 and provides linear and clonal DNA up to 5kb, with minimal complexity limitations, industry leading turnaround times, and competitive pricing.

How is this different?

Traditional chemical or newer TdT enzymatic synthesis is done linearly, adding one nucleotide at a time to create an oligo, which must then be assembled into a gene. DINYA's Exponential Synthesis is a hierarchical, template-independent, multi-enzyme platform that directly synthesizes double stranded DNA from a pre-built material library, resulting in exponential growth of the DNA after each subsequent synthesis cycle. This is a step change that allows us to skip oligos altogether to make long, complex DNA molecules in a matter of days.

Why is this for me?

Scientists spend far too much time designing, redesigning, and assembling DNA. We do the hard work for you so you never have to worry about failed builds, long timelines, or spending valuable time cloning.

What is the Early Access Program?

The EAP is a limited synthesis service for early adopters with the hardest builds. It will launch in 2026 and provides linear and clonal DNA up to 5kb, with minimal complexity limitations, industry leading turnaround times, and competitive pricing.

DINYA DNA ©2025 All rights reserved

DINYA DNA ©2025 All rights reserved

DINYA DNA ©2025 All rights reserved