Add to ORKGIn recent years, high-throughput discovery of macromolecular protein structures and complexes has played a major role in advancing a more systems-oriented view of protein interaction and signaling networks. The design of biological systems often employs structural information or structure-based protein design to successfully implement synthetic signaling circuits or for rewiring signaling flows. Here, we summarize the latest advances in using structural information for studying protein interaction and signaling networks, and in synthetic biology approaches. We then provide a perspective of how combining structural biology with engineered cell signaling modules--using additional information from quantitative biochemistry and proteomics, gene...
Protein structure prediction and modeling provide a tool for understanding protein functions by comp...
Recent advances in quantification methods of regulatory and signaling gene networks has lead to an i...
The Iyengar laboratory is interested in understanding how signals are routed and processed through c...
In recent years, high-throughput discovery of macromolecular protein structures and complexes has pl...
In recent years, high-throughput discovery of macromolecular protein structures and complexes has pl...
Living cells integrate information from their external environments and demonstrate a wide range of ...
AbstractDuring the last decades, biology has decomposed cellular systems into genetic, functional an...
Cellular signaling is an area of intense research that transcends all fields of experimental biology...
The post-translational modification of proteins is a fundamental means of biological information pro...
Living cells respond to their environment using networks of signaling molecules that act as sensors,...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Biological Engineering Division, 2008.Includ...
The molecular architectures of intracellular signaling networks are largely unknown. Understanding t...
Cellular regulation is governed by dense biomolecular networks consisting of proteins, nucleotides, ...
Signaling transduction networks (STNs) are the key means by which a cell converts an external signal...
AbstractThe ongoing merge between engineering and biology has contributed to the emerging field of s...
Protein structure prediction and modeling provide a tool for understanding protein functions by comp...
Recent advances in quantification methods of regulatory and signaling gene networks has lead to an i...
The Iyengar laboratory is interested in understanding how signals are routed and processed through c...
In recent years, high-throughput discovery of macromolecular protein structures and complexes has pl...
In recent years, high-throughput discovery of macromolecular protein structures and complexes has pl...
Living cells integrate information from their external environments and demonstrate a wide range of ...
AbstractDuring the last decades, biology has decomposed cellular systems into genetic, functional an...
Cellular signaling is an area of intense research that transcends all fields of experimental biology...
The post-translational modification of proteins is a fundamental means of biological information pro...
Living cells respond to their environment using networks of signaling molecules that act as sensors,...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Biological Engineering Division, 2008.Includ...
The molecular architectures of intracellular signaling networks are largely unknown. Understanding t...
Cellular regulation is governed by dense biomolecular networks consisting of proteins, nucleotides, ...
Signaling transduction networks (STNs) are the key means by which a cell converts an external signal...
AbstractThe ongoing merge between engineering and biology has contributed to the emerging field of s...
Protein structure prediction and modeling provide a tool for understanding protein functions by comp...
Recent advances in quantification methods of regulatory and signaling gene networks has lead to an i...
The Iyengar laboratory is interested in understanding how signals are routed and processed through c...