Add to ORKGChemical genetics is the study of biological systems using small molecule (‘chemical’) intervention, instead of only genetic intervention. Cell-permeable and selective small molecules can be used to perturb protein function rapidly, reversibly and conditionally with temporal and quantitative control in any biological system. This tutorial review has been written to introduce this emerging field to a broad audience and focuses later on areas of biology where either it has made a significant impact, or it has the potential to do so: signalling, cytoskeleton, development, protein– protein interactions and gene transcription
Chemical genetics is an emerging field that can be used to study the interactions of chemical compou...
International audienceChemogenomics is the study of the interaction of functional biological systems...
AbstractChemical genetics, or the specific modulation of cellular systems by small molecules, has co...
Chemical genetics is a research approach that uses small molecules as probes to study protein functi...
Chemical genetics is a research approach that uses small molecules as probes to study protein functi...
To understand biological processes, biologists typically study how perturbations of protein function...
Chemical genetics is based on the ability of small molecules to bind reversibly to biological molecu...
Chemical genetics is a research approach that uses small molecules as probes to study protein functi...
Chemical genetics is a research approach that uses small molecules as probes to study protein functi...
Chemical genetics employs diverse small-molecule compounds to elucidate biological processes in a ma...
Chemical genetics employs diverse small-molecule compounds to elucidate biological processes in a ma...
Chemical genetics employs diverse small-molecule compounds to elucidate biological processes in a ma...
To understand biological processes, biologists typically study how perturbations of protein function...
Chemical genetics utilizes small molecules to perturb biological processes. Unlike conventional gene...
With advances in determining the entire DNA sequence of the human genome, it is now critical to syst...
Chemical genetics is an emerging field that can be used to study the interactions of chemical compou...
International audienceChemogenomics is the study of the interaction of functional biological systems...
AbstractChemical genetics, or the specific modulation of cellular systems by small molecules, has co...
Chemical genetics is a research approach that uses small molecules as probes to study protein functi...
Chemical genetics is a research approach that uses small molecules as probes to study protein functi...
To understand biological processes, biologists typically study how perturbations of protein function...
Chemical genetics is based on the ability of small molecules to bind reversibly to biological molecu...
Chemical genetics is a research approach that uses small molecules as probes to study protein functi...
Chemical genetics is a research approach that uses small molecules as probes to study protein functi...
Chemical genetics employs diverse small-molecule compounds to elucidate biological processes in a ma...
Chemical genetics employs diverse small-molecule compounds to elucidate biological processes in a ma...
Chemical genetics employs diverse small-molecule compounds to elucidate biological processes in a ma...
To understand biological processes, biologists typically study how perturbations of protein function...
Chemical genetics utilizes small molecules to perturb biological processes. Unlike conventional gene...
With advances in determining the entire DNA sequence of the human genome, it is now critical to syst...
Chemical genetics is an emerging field that can be used to study the interactions of chemical compou...
International audienceChemogenomics is the study of the interaction of functional biological systems...
AbstractChemical genetics, or the specific modulation of cellular systems by small molecules, has co...
