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De novo protein design—From new structures to programmable functions

Tanja Kortemme

2024Cell305 citationsDOIOpen Access PDF

Abstract

Methods from artificial intelligence (AI) trained on large datasets of sequences and structures can now "write" proteins with new shapes and molecular functions de novo, without starting from proteins found in nature. In this Perspective, I will discuss the state of the field of de novo protein design at the juncture of physics-based modeling approaches and AI. New protein folds and higher-order assemblies can be designed with considerable experimental success rates, and difficult problems requiring tunable control over protein conformations and precise shape complementarity for molecular recognition are coming into reach. Emerging approaches incorporate engineering principles-tunability, controllability, and modularity-into the design process from the beginning. Exciting frontiers lie in deconstructing cellular functions with de novo proteins and, conversely, constructing synthetic cellular signaling from the ground up. As methods improve, many more challenges are unsolved.

Topics & Concepts

BiologyComputational biologyControllabilitySynthetic biologyComplementarity (molecular biology)Protein designModularity (biology)Protein engineeringProtein structureGeneticsBiochemistryEnzymeMathematicsApplied mathematicsProtein Structure and DynamicsEnzyme Structure and FunctionRNA and protein synthesis mechanisms
De novo protein design—From new structures to programmable functions | Litcius