Titlebook: Computational Design of Membrane Proteins; Irina S. Moreira,Miguel Machuqueiro,Joana Mour?o Book 2021 Springer Science+Business Media, LLC

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整體

Lignans

Engineering of Biological Pathways: Complex Formation and Signal Transduction systems—the artificial rewiring of biological pathways. Here we describe the three-dimensional structure-based design of “rewiring” mutations using the FoldX force field. Specifically, we provide the protocol for the design and selection of interface mutations in three Ras-effector complex structur

ANIM

Homology Modeling of Class A G-Protein-Coupled Receptors in the Age of the Structure Boome target of about 30% of presently available pharmaceutical drugs. The recent boom in GPCR structures led to the structural resolution of 57 unique receptors in different states (39 receptors in inactive state only, 2 receptors in active state only and 16 receptors in different activation states). I

密切關(guān)系

Interface Prediction for GPCR Oligomerization Between Transmembrane Helicescourse of molecular evolution. The mechanisms of GPCR interactions and the reason why GPCRs interact between themselves have remained elusive. Accurate interface prediction is useful to generate guidelines for mutation and inhibition experiments and would accelerate investigations of the molecular m

密切關(guān)系

calamity

接觸

In Silico Prediction of the Binding, Folding, Insertion, and Overall Stability of Membrane-Active Peelivery, gene delivery, and antimicrobials and antibiotics. The broad appeal of MAPs is that they are infinitely variable, relatively low cost, and biocompatible. However, experimentally characterizing the specific properties of a MAP or its many variants is a low-resolution and potentially time-con

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