Protein switches are ubiquitous in biological signal transduction systems, enabling cells to sense and respond to a variety of molecular queues in a rapid, specific, and integrated fashion. Analogously, tailor-engineered protein switches with custom input and output functions have become invaluable research tools for reporting on distinct physiological states and actuating molecular functions in real time and in situ. Here, we analyze recent progress in constructing protein-based switches while assessing their potential in the assembly of defined signaling motifs. We anticipate such systems will ultimately pave the way towards a new generation of molecular diagnostics and facilitate the construction of artificial signaling systems that oper...
All biosensing platforms rest on two pillars: specific biochemical recognition of a particular analy...
Living cells respond to their environment using networks of signaling molecules that act as sensors,...
In recent years, high-throughput discovery of macromolecular protein structures and complexes has pl...
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...
Protein-based sensors and switches provide attractive tools for the real-time monitoring and control...
Switch protein switch! Proteins that switch between distinct conformational states are ideal for mon...
Protein switches perform essential roles in many biological processes and are exciting targets for d...
Synthetic protein switches with tailored response functions are finding increasing applications as t...
The bottom-up design of protein-based signaling networks is a key goal of synthetic biology; yet, it...
The bottom-up design of protein-based signaling networks is a key goal of synthetic biology; yet, it...
Linkers play critical roles in the construction of synthetic protein switches and sensors as they fu...
AbstractMolecular switches are the fundamental building blocks in the field of synthetic biology. Th...
Biological signaling pathways are underpinned by protein switches that sense and respond to molecula...
Protein-protein interactions (PPIs) contribute to regulate many aspects of cell physiology and metab...
All biosensing platforms rest on two pillars: specific biochemical recognition of a particular analy...
Living cells respond to their environment using networks of signaling molecules that act as sensors,...
In recent years, high-throughput discovery of macromolecular protein structures and complexes has pl...
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...
Protein-based sensors and switches provide attractive tools for the real-time monitoring and control...
Switch protein switch! Proteins that switch between distinct conformational states are ideal for mon...
Protein switches perform essential roles in many biological processes and are exciting targets for d...
Synthetic protein switches with tailored response functions are finding increasing applications as t...
The bottom-up design of protein-based signaling networks is a key goal of synthetic biology; yet, it...
The bottom-up design of protein-based signaling networks is a key goal of synthetic biology; yet, it...
Linkers play critical roles in the construction of synthetic protein switches and sensors as they fu...
AbstractMolecular switches are the fundamental building blocks in the field of synthetic biology. Th...
Biological signaling pathways are underpinned by protein switches that sense and respond to molecula...
Protein-protein interactions (PPIs) contribute to regulate many aspects of cell physiology and metab...
All biosensing platforms rest on two pillars: specific biochemical recognition of a particular analy...
Living cells respond to their environment using networks of signaling molecules that act as sensors,...
In recent years, high-throughput discovery of macromolecular protein structures and complexes has pl...