We examine more combinations of amino-acids than there are drops of water in the Pacific Ocean to create in-silico proteins and enzymes with specific functional properties to address business and sustainability needs.
We examine countless combinations of amino acids to create in-silico proteins and enzymes with specific functional properties.
Using our dedicated software and lab robotics, we build the synthetic DNA that encodes the exact protein sequences designed by our algorithms.
We build synthetic DNA that encodes the exact protein sequences designed by our algorithms.
By utilizing our precision design software, as opposed to serendipitous protein engineering, we test a targeted number of new proteins. This means we can test each design in application relevant conditions, as opposed to relying on a high-throughput reporter assay that doesn’t correlate with what matters to our customers.
Utilizing our precision design software, we test a targeted number of new proteins in application-relevant conditions.
We store all data generated, from expression to functional activity, in our proprietary databases. Using deep learning, we not only use the data to inform the next round of design, but also continuously improve our protein design algorithms to optimize functional properties and efficiencies at scale.
We store all data generated in our proprietary databases and use deep learning to continuously improve our protein design algorithms to optimize function and scale.