Add to ORKGProtein kinases catalyze the transfer of the gamma-phosphate of ATP to a protein substrate and thereby profoundly alter the properties of the phosphorylated protein. The identification of the substrates of protein kinases has proven to be a very difficult task because of the multitude of structurally related protein kinases present in cells, their apparent redundancy of function, and the lack of absolute specificity of small-molecule inhibitors. Here, we review approaches that utilize chemical genetics to determine the functions and substrates of protein kinases, focusing on the design of ATP analogues and protein kinase binding site mutants
Chemical genetic studies with enlarged ATP binding sites and unnatural ATP analogues have been appli...
AbstractOne key area of protein kinase research is the identification of cognate substrates. The sea...
Chemical genetic studies with enlarged ATP binding sites and unnatural ATP analogues have been appli...
Protein kinases catalyze the transfer of the γ-phosphate of ATP to a protein substrate and thereby p...
Protein kinases catalyze the transfer of the γ-phosphate of ATP to a protein substrate and thereby p...
Protein kinases catalyze the transfer of the γ-phosphate of ATP to a protein substrate and thereby p...
The protein kinase superfamily is one of the most important families of enzymes in molecular biology...
The protein kinase superfamily is one of the most important families of enzymes in molecular biology...
The protein kinase superfamily is one of the most important families of enzymes in molecular biology...
The determination of specific kinase substrates in vivo is challenging due to the large number of pr...
The protein kinase superfamily is one of the most important families of enzymes in molecular biology...
This protocol describes a method for studying protein kinases and their substrates by generation of ...
This protocol describes a method for studying protein kinases and their substrates by generation of ...
Intracellular signaling by protein kinases controls many aspects of cellular biochemistry and physio...
One key area of protein kinase research is the identification of cognate substrates. The search for ...
Chemical genetic studies with enlarged ATP binding sites and unnatural ATP analogues have been appli...
AbstractOne key area of protein kinase research is the identification of cognate substrates. The sea...
Chemical genetic studies with enlarged ATP binding sites and unnatural ATP analogues have been appli...
Protein kinases catalyze the transfer of the γ-phosphate of ATP to a protein substrate and thereby p...
Protein kinases catalyze the transfer of the γ-phosphate of ATP to a protein substrate and thereby p...
Protein kinases catalyze the transfer of the γ-phosphate of ATP to a protein substrate and thereby p...
The protein kinase superfamily is one of the most important families of enzymes in molecular biology...
The protein kinase superfamily is one of the most important families of enzymes in molecular biology...
The protein kinase superfamily is one of the most important families of enzymes in molecular biology...
The determination of specific kinase substrates in vivo is challenging due to the large number of pr...
The protein kinase superfamily is one of the most important families of enzymes in molecular biology...
This protocol describes a method for studying protein kinases and their substrates by generation of ...
This protocol describes a method for studying protein kinases and their substrates by generation of ...
Intracellular signaling by protein kinases controls many aspects of cellular biochemistry and physio...
One key area of protein kinase research is the identification of cognate substrates. The search for ...
Chemical genetic studies with enlarged ATP binding sites and unnatural ATP analogues have been appli...
AbstractOne key area of protein kinase research is the identification of cognate substrates. The sea...
Chemical genetic studies with enlarged ATP binding sites and unnatural ATP analogues have been appli...