Researchers at the Centre for Genomic Regulation and the Wellcome Sanger Institute have comprehensively identified the allosteric control sites found in the protein KRAS, which is one of the most ...

Casein kinase 2 (CK2) is a highly pleiotropic serine-threonine kinase, which catalyzed phosphorylation of more than 300 proteins that are implicated in regulation of many cellular functions, such as ...

According to a recently published research paper by a team of scientists, a groundbreaking approach has been developed to create artificial allosteric sites (where by binding an effector molecule, ...

A new technology that uses a protein's structure to predict the inner wiring that controls the protein's function and dynamics is now available for scientists to utilize. The tool, developed by ...

WD40 domains, and the related Kelch β-propeller domains, mediate protein interactions in many contexts and together form the largest domain family in the human genome 1. WD40 domain proteins are a ...

Drug hunters have spent years cutting chemical keys to fit the most obvious biological locks: a protein’s active site, the spot where its natural substrate clicks in to turn it on or off. Walk into ...

According to a recently published research paper by a team of scientists, a groundbreaking approach has been developed to create artificial allosteric sites (where by binding an effector molecule, ...

Researchers have comprehensively identified the allosteric control sites found in the protein KRAS. These are highly sought after targets for drug development, representing secret vulnerabilities ...

A new technique developed by scientists in Spain enables the systematic search for elusive allosteric binding sites on proteins. Applying the method to map allosteric sites of two pharmacologically ...

Researchers at the Center for Genomic Regulation in Barcelona, Spain, and the Wellcome Sanger Institute near Cambridge, UK, have comprehensively identified the allosteric control sites found in the ...