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Efficient DNA transcription requires the right components.

Our machine-learning algorithm can design regulatory elements such as promoters and enhancers within a day. We currently offer trials on regulatory elements targeting human or mouse cell types.

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Supported by:

Nvidia University of Toronto Ent Hatchery Health Innovation Hub Intellectual Property Office Tech Alliance Med by Design Prime Mitacs Innovation Factory Bio Talent Tech RBC Riipen Level Up Synapse

Benefits

Our customized regulatory elements are useful to researchers that are:

Targeting specific cell types with their gene/cell therapy products

Are you seeing transgene expression from your viral/non-viral vectors in non-targeted cells?

Keep calm and carry on, by incorporating one (or more) of our customized promoters into your product, reducing off-targeting effects that are normally present with ubiquitous promoters.

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Transfecting cells with DNA plasmids

Using customized regulatory elements can:

• Reduce the size of DNA plasmid

• Increase transfection efficiency

• Reduce toxicity in cells

• Control the timing of gene expression

Results will be ready within a day

Rather than spending months designing several regulatory elements and testing each of them in cells or animals, why not get one customized design from us, which will be ready in just a day!

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Speed

Our algorithm generates output within minutes after screening through multiple databases.

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Accuracy

With multiple reliable sources of input, we can generate accurate designs for each cell type.

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Flexibility

We are constantly working to add features to our algorithm to ensure our designs meet the needs of our clients.

How it works?

Our algorithm will screen through databases for you and pick out the right components needed to construct the regulatory elements that best suit your needs!

Step 1: Let us know the regulatory element you are interested in, the cell type and species to be targeted, and size restrictions for the element.
Step 2: We will identify the gene(s) expressed in the targeted cell type and feed the input into our algorithm.
Step 3: Let the algorithm do the work!
Step 4: We will send the product document containing the synthetic DNA sequences of the regulatory element directly to your inbox.

Join other academia and companies in partnership with us

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