All biological processes arise through the coordinated actions of biochemical pathways. How such functional diversity is achieved by a finite cast of molecular players remains a central mystery in biology. Spatial compartmentation-the idea that biochemical activities are organized around discrete spatial domains within cells-was first proposed nearly 40 years ago and has become firmly rooted in our understanding of how biochemical pathways are regulated to ensure specificity. However, directly interrogating spatial compartmentation and its mechanistic origins has only really become possible in the last 20 or so years, following technological advances such as the development of genetically encoded fluorescent biosensors. These powerful molec...
Precise spatiotemporal organization and regulation of signal transduction networks are essential for...
Genetically encoded fluorescent protein-based kinase biosensors are a central tool for illumination ...
Cell signaling networks display an extraordinary range of temporal and spatial plasticity. Our progr...
Our bodies are highly dynamic and the cells within our bodies must continuously sense their ever-cha...
Compartmentalized biochemical activities are essential to all cellular processes, but there is no ge...
How cells muster a network of interlinking signaling pathways to faithfully convert diverse external...
Cellular signaling networks are the foundation which determines the fate and function of cells as th...
Growing evidence suggests that many essential intracellular signaling events are compartmentalized w...
Protein kinase signaling networks stringently regulate cellular processes, such as proliferation, mo...
AbstractInformation transmission in cells occurs through complex networks of proteins and genes and ...
Cell signaling is essential for all living systems to sense the environment, process information, an...
To understand the complex biochemistry and biophysics of biological systems, one needs to be able to...
AbstractEmerging evidence indicates that complex spatial gradients and (micro)domains of signalling ...
To understand the complex biochemistry and biophysics of biological systems, one needs to be able to...
In recent years, the development of new technologies based on the green fluorescent protein and FRET...
Precise spatiotemporal organization and regulation of signal transduction networks are essential for...
Genetically encoded fluorescent protein-based kinase biosensors are a central tool for illumination ...
Cell signaling networks display an extraordinary range of temporal and spatial plasticity. Our progr...
Our bodies are highly dynamic and the cells within our bodies must continuously sense their ever-cha...
Compartmentalized biochemical activities are essential to all cellular processes, but there is no ge...
How cells muster a network of interlinking signaling pathways to faithfully convert diverse external...
Cellular signaling networks are the foundation which determines the fate and function of cells as th...
Growing evidence suggests that many essential intracellular signaling events are compartmentalized w...
Protein kinase signaling networks stringently regulate cellular processes, such as proliferation, mo...
AbstractInformation transmission in cells occurs through complex networks of proteins and genes and ...
Cell signaling is essential for all living systems to sense the environment, process information, an...
To understand the complex biochemistry and biophysics of biological systems, one needs to be able to...
AbstractEmerging evidence indicates that complex spatial gradients and (micro)domains of signalling ...
To understand the complex biochemistry and biophysics of biological systems, one needs to be able to...
In recent years, the development of new technologies based on the green fluorescent protein and FRET...
Precise spatiotemporal organization and regulation of signal transduction networks are essential for...
Genetically encoded fluorescent protein-based kinase biosensors are a central tool for illumination ...
Cell signaling networks display an extraordinary range of temporal and spatial plasticity. Our progr...