Understanding the dynamic roles that proteins play in cell biology requires tools to selectively label these biomolecules in living systems. Yin and colleagues [1] showcase the power of a novel chemical labeling technology for tracking receptor-ligand interactions in native cellular environments
Proteins are the workhorses of the cell, playing crucial roles in virtually every biological process...
In this issue of Cell Chemical Biology, new methods are reported to interrogate histone interactions...
Our knowledge of protein-protein interactions comes primarily from experimentation with reconstitute...
AbstractGenetically encoded fluorescent labels, such as green fluorescent protein, make it possible ...
Fluorescence microscopy imaging enables receptor proteins to be investigated within their biological...
The development of molecular probes to visualize cellular processes is an important challenge in che...
A cell’s biochemistry is now known to be the biochem-istry of molecular machines, that is, protein c...
The development of molecular probes to visualize cellular processes is an important challenge in che...
To understand the complex biochemistry and biophysics of biological systems, one needs to be able to...
To understand the complex biochemistry and biophysics of biological systems, one needs to be able to...
Emerging technologies, utilizing a combination of chemistry, physics and molecular biology, are crea...
The chemical labeling of biomolecules continues to be an important tool for the study of their funct...
We present results from a novel strategy that enables concurrent identification of protein-protein i...
Abstract Cellular behavior is complex. Successfully understanding systems at ever-increasing complex...
Characterization of the chemical environment, movement, trafficking and interactions of proteins in ...
Proteins are the workhorses of the cell, playing crucial roles in virtually every biological process...
In this issue of Cell Chemical Biology, new methods are reported to interrogate histone interactions...
Our knowledge of protein-protein interactions comes primarily from experimentation with reconstitute...
AbstractGenetically encoded fluorescent labels, such as green fluorescent protein, make it possible ...
Fluorescence microscopy imaging enables receptor proteins to be investigated within their biological...
The development of molecular probes to visualize cellular processes is an important challenge in che...
A cell’s biochemistry is now known to be the biochem-istry of molecular machines, that is, protein c...
The development of molecular probes to visualize cellular processes is an important challenge in che...
To understand the complex biochemistry and biophysics of biological systems, one needs to be able to...
To understand the complex biochemistry and biophysics of biological systems, one needs to be able to...
Emerging technologies, utilizing a combination of chemistry, physics and molecular biology, are crea...
The chemical labeling of biomolecules continues to be an important tool for the study of their funct...
We present results from a novel strategy that enables concurrent identification of protein-protein i...
Abstract Cellular behavior is complex. Successfully understanding systems at ever-increasing complex...
Characterization of the chemical environment, movement, trafficking and interactions of proteins in ...
Proteins are the workhorses of the cell, playing crucial roles in virtually every biological process...
In this issue of Cell Chemical Biology, new methods are reported to interrogate histone interactions...
Our knowledge of protein-protein interactions comes primarily from experimentation with reconstitute...
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