Recommanded Product: 93-97-0. Authors Matricon, P; Suresh, RR; Gao, ZG; Panel, N; Jacobson, KA; Carlsson, J in ROYAL SOC CHEMISTRY published article about in [Matricon, Pierre; Panel, Nicolas; Carlsson, Jens] Uppsala Univ, Sci Life Lab, Dept Cell & Mol Biol, SE-75124 Uppsala, Sweden; [Suresh, R. Rama; Gao, Zhan-Guo; Jacobson, Kenneth A.] Natl Inst Diabet & Digest & Kidney Dis, Mol Recognit Sect, Lab Bioorgan Chem, NIH, Bethesda, MD 20892 USA in 2021, Cited 50. The Name is Benzoic anhydride. Through research, I have a further understanding and discovery of 93-97-0
Solvent reorganization is a major driving force of protein-ligand association, but the contribution of binding site waters to ligand affinity is poorly understood. We investigated how altered interactions with a water network can influence ligand binding to a receptor. A series of ligands of the A(2A) adenosine receptor, which either interacted with or displaced an ordered binding site water, were studied experimentally and by molecular dynamics simulations. An analog of the endogenous ligand that was unable to hydrogen bond to the ordered water lost affinity and this activity cliff was captured by molecular dynamics simulations. Two compounds designed to displace the ordered water from the binding site were then synthesized and evaluated experimentally, leading to the discovery of an A(2A) agonist with nanomolar activity. Calculation of the thermodynamic profiles resulting from introducing substituents that interacted with or displaced the ordered water showed that the gain of binding affinity was enthalpy driven. Detailed analysis of the energetics and binding site hydration networks revealed that the enthalpy change was governed by contributions that are commonly neglected in structure-based drug optimization. In particular, simulations suggested that displacement of water from a binding site to the bulk solvent can lead to large energy contributions. Our findings provide insights into the molecular driving forces of protein-ligand binding and strategies for rational drug design.
Recommanded Product: 93-97-0. Welcome to talk about 93-97-0, If you have any questions, you can contact Matricon, P; Suresh, RR; Gao, ZG; Panel, N; Jacobson, KA; Carlsson, J or send Email.
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