A vision of the future of protein engineering The new approach allows the identification of near-optimal binder templates from the human proteome, facilitating the humanization of designed therapies, ...
Physical interactions between proteins influence anything from cell signaling and growth to immune responses, so the ability to control these interactions is of great interest to biologists.
In 2023, scientists in the joint School of Engineering and School of Life Sciences Laboratory of Protein Design and Immunoengineering (LPDI), led by Bruno Correia, published in Nature a deep-learning ...
For the field of drug development, hitting the right target with atomic precision to achieve therapeutic effect remains the core challenge. While traditional R&D pipelines are dependent on ...
BOSTON--(BUSINESS WIRE)--Manifold Bio, a platform therapeutics company pioneering direct-to-vivo drug discovery, today announced a joint study with NVIDIA to validate Proteina-Complexa, NVIDIA's ...
WATERTOWN, Mass.--(BUSINESS WIRE)--Dyno Therapeutics, Inc., a genetic technologies company applying AI to empower patients everywhere with genetic agency, today announced the launch of Dyno Psi-Phi ...
Proteins are biology’s molecular machines. They’re our bodies’ construction workers—making muscle, bone, and brain; regulators—keeping systems in check; and local internet—responsible for the ...
Since its release in 2024, the open-source platform BindCraft, developed at EPFL, has already disrupted the world of protein design. Physical interactions between proteins influence anything from cell ...
Dyno’s Psi-Phi generative protein design and agentic interfaces provide versatile AI models and agents that connect physical outcomes with computational workflows Dyno Therapeutics, Inc., a genetic ...