Add to ORKGProtein switches perform essential roles in many biological processes and are exciting targets for de novo protein design, which aims to produce proteins of arbitrary shape and functionality. However, the biophysical requirements for switch function - multiple conformational states, fine-tuned energetics, and stimuli-responsiveness - pose a formidable challenge for design by computation (or intuition). A variety of methods have been developed toward tackling this challenge, usually taking inspiration from the wealth of sequence and structural information available for naturally occurring protein switches. More recently, modular switches have been designed computationally, and new methods have emerged for sampling unexplored structure space,...
Our ability to design completely de novo proteins is improving rapidly. This is true of all three ma...
The sheer size of the protein sequence space is massive: a protein of 100 residues can have 20^100 p...
AbstractRecent years have seen the first applications of computational protein design to generate no...
Synthetic protein switches with tailored response functions are finding increasing applications as t...
Protein-based sensors and switches provide attractive tools for the real-time monitoring and control...
Protein switches are ubiquitous in biological signal transduction systems, enabling cells to sense a...
Protein switches are ubiquitous in biological signal transduction systems, enabling cells to sense a...
Switch protein switch! Proteins that switch between distinct conformational states are ideal for mon...
Allosteric regulation of protein function is widespread in biology, but is challenging for de novo p...
The de novo design of molecular switching peptides is of increasing interest because it tests and ex...
Proteins are the most multifaceted macromolecules in living systems and have various important funct...
AbstractProteins are the most multifaceted macromolecules in living systems and have various importa...
Protein switches are protein fusions in which the activity of one protein is influenced by a signal ...
De novo protein design has recently emerged as an attractive approach for studying the structure and...
Small-molecule responsive protein switches are crucial components to control synthetic cellular acti...
Our ability to design completely de novo proteins is improving rapidly. This is true of all three ma...
The sheer size of the protein sequence space is massive: a protein of 100 residues can have 20^100 p...
AbstractRecent years have seen the first applications of computational protein design to generate no...
Synthetic protein switches with tailored response functions are finding increasing applications as t...
Protein-based sensors and switches provide attractive tools for the real-time monitoring and control...
Protein switches are ubiquitous in biological signal transduction systems, enabling cells to sense a...
Protein switches are ubiquitous in biological signal transduction systems, enabling cells to sense a...
Switch protein switch! Proteins that switch between distinct conformational states are ideal for mon...
Allosteric regulation of protein function is widespread in biology, but is challenging for de novo p...
The de novo design of molecular switching peptides is of increasing interest because it tests and ex...
Proteins are the most multifaceted macromolecules in living systems and have various important funct...
AbstractProteins are the most multifaceted macromolecules in living systems and have various importa...
Protein switches are protein fusions in which the activity of one protein is influenced by a signal ...
De novo protein design has recently emerged as an attractive approach for studying the structure and...
Small-molecule responsive protein switches are crucial components to control synthetic cellular acti...
Our ability to design completely de novo proteins is improving rapidly. This is true of all three ma...
The sheer size of the protein sequence space is massive: a protein of 100 residues can have 20^100 p...
AbstractRecent years have seen the first applications of computational protein design to generate no...