Exscientia - Precision Project Services
Only with continual feedback between experiment and prediction can machine learning models be refined and deliver against complex therapeutic profiles.
Services Details
Project Seeding
Our advanced biophysical and x-ray techniques provide the ideal experimental underpinnings for AI-Design
Transducerome and biophysical experiments allow us to optimise designs for this key target family
High content data allows us to develop the broadest range of machine learning models and AI Design opportunities
Novel targets need high-quality seed data generated quickly for our algorithms whilst established targets may require experiment to uncover new binding sites and additional chemotypes.
Fragment-based screening is ideal for Project Seeding and can be implemented by two complementary high-precision experiments.
Faster, richer and more sensitive than traditional High throughput screening techniques, Surface Plasmon Resonance systems screen Exscientia fragment libraries to seed projects and provide a more direct route to drug-like molecules in early design cycles.
Where available, structure-based fragment screening will directly reveal which fragments occupy which pockets. Successful combination of 3D information with SPR binding kinetics provides an ideal data package to progress early stage projects
Once established, the same SPR and X-ray systems can provide rapid feedback to our Centaur Chemist® systems throughout subsequent Design-Make-Test optimise cycles
G-protein Coupled Receptors are one of the most successful families for small molecule drug discovery. Exscientia has already demonstrated the success of automated design on GPCRs and now has one of the world’s most advanced experimental platforms alongside.
Some discovery projects are best served by cell based experiments rather than a target-driven approach. Exscientia’s AI systems are entirely flexible and can support any data types including those from high content experiments.
Whether it be cell morphology or higher-level behavioural data, the conversion of high dimensionality readouts to Centaur Chemist® input is all that is required to implement phenotypic drug discovery.
With phenotypic experiments in place, our Centaur Chemist® systems focus on optimising against phenotypic endpoints rather than conventional target-based profiles.
Our functional precision oncology platform provides clinically relevant drug activity data, directly on live tissue samples from patients.
We conduct experimental research on primary patient tissue at single cell resolution. With this we screen small molecules, quantify responses in cancer cell tissue and uncover potential novel target space.
High content imaging reveals differences in cell behavior, both within an individual tumour and between individuals.
These data provide strategies for stronger clinical translation than previously possible.
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