Notre groupe organise plus de 3 000 séries de conférences Événements chaque année aux États-Unis, en Europe et en Europe. Asie avec le soutien de 1 000 autres Sociétés scientifiques et publie plus de 700 Open Access Revues qui contiennent plus de 50 000 personnalités éminentes, des scientifiques réputés en tant que membres du comité de rédaction.
Les revues en libre accès gagnent plus de lecteurs et de citations
700 revues et 15 000 000 de lecteurs Chaque revue attire plus de 25 000 lecteurs
Kikung Hehelo
Post-translational modifications play a crucial role in modulating the structure and function of proteins. Myristoylation, the attachment of a myristoyl group to the N-terminus of a protein, is a common modification that facilitates membrane association. While the effects of myristoylation on structured proteins have been extensively studied, its impact on intrinsically disordered proteins (IDPs) remains less explored. This abstract highlights the changes in structure and hydration of myristoylated IDPs. Intrinsically disordered proteins are a class of proteins that lack a well-defined structure but possess critical biological functions. Myristoylation can induce structural changes in IDPs by promoting the formation of transient secondary structure elements or modulating local folding propensity. The myristoyl group's presence can alter the conformational dynamics of IDPs, resulting in the adoption of specific structural motifs upon membrane binding. Additionally, myristoylation can facilitate protein-protein interactions, leading to changes in the overall structure of IDPs. Hydration, an essential factor for protein stability and function, is also affected by myristoylation in IDPs. Experimental studies have shown that myristoylated IDPs exhibit distinct hydration dynamics compared to their non-myristoylated counterparts. The myristoyl group can influence the hydration of specific regions of the IDP by shielding them from solvent exposure, while other regions may experience enhanced hydration. These hydration changes have implications for the interactions of myristoylated IDPs with partner proteins and membranes.