EPFL Team Releases BindCraft AI System for Protein Binder Design with 10-100% Success Rate Without High-Throughput Screening

EPFL Team Releases BindCraft AI System for Protein Binder Design with 10-100% Success Rate Without High-Throughput Screening

Exclusive compilation, unauthorized use will be pursued. Protein-protein interactions are at the core of all biological processes. Traditional protein binder design relies on methods such as immunization, antibody library screening, or directed evolution, which are often time-consuming and have a low success rate. Recently, the team led by Bruno E. Correia at the École Polytechnique … Read more

Nature | Open-source and Automated De Novo Protein Binder Design Process

Nature | Open-source and Automated De Novo Protein Binder Design Process

Written by | Lin WuyuThe biological functions of proteins often depend on complex protein-protein interactions (PPIs), thus the ability to design specific protein binders that regulate these interactions holds great potential for therapeutic and biotechnological applications. Traditional methods such as immunization, antibody library screening, and directed evolution can produce binders, but they are often cumbersome, … Read more