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3CPT

MP1-p14 Scaffolding complex

3CPT の概要
エントリーDOI10.2210/pdb3cpt/pdb
関連するPDBエントリー2ZL1
分子名称Mitogen-activated protein kinase kinase 1-interacting protein 1, Mitogen-activated protein-binding protein-interacting protein (3 entities in total)
機能のキーワードscaffold, complex, alpha/beta, endosome, membrane, lysosome, protein binding
由来する生物種Homo sapiens (Human)
詳細
細胞内の位置Late endosome membrane; Peripheral membrane protein; Cytoplasmic side (By similarity): Q9UHA4
Late endosome membrane; Peripheral membrane protein; Cytoplasmic side: Q9JHS3
タンパク質・核酸の鎖数2
化学式量合計30140.26
構造登録者
Schrag, J.D.,Cygler, M.,Munger, C.,Magloire, A. (登録日: 2008-04-01, 公開日: 2008-07-01, 最終更新日: 2024-05-29)
主引用文献Cui, Q.,Sulea, T.,Schrag, J.D.,Munger, C.,Hung, M.N.,Naim, M.,Cygler, M.,Purisima, E.O.
Molecular dynamics-solvated interaction energy studies of protein-protein interactions: the MP1-p14 scaffolding complex.
J.Mol.Biol., 379:787-802, 2008
Cited by
PubMed Abstract: Using the MP1-p14 scaffolding complex from the mitogen-activated protein kinase signaling pathway as model system, we explored a structure-based computational protocol to probe and characterize binding affinity hot spots at protein-protein interfaces. Hot spots are located by virtual alanine-scanning consensus predictions over three different energy functions and two different single-structure representations of the complex. Refined binding affinity predictions for select hot-spot mutations are carried out by applying first-principle methods such as the molecular mechanics generalized Born surface area (MM-GBSA) and solvated interaction energy (SIE) to the molecular dynamics (MD) trajectories for mutated and wild-type complexes. Here, predicted hot-spot residues were actually mutated to alanine, and crystal structures of the mutated complexes were determined. Two mutated MP1-p14 complexes were investigated, the p14(Y56A)-mutated complex and the MP1(L63A,L65A)-mutated complex. Alternative ways to generate MD ensembles for mutant complexes, not relying on crystal structures for mutated complexes, were also investigated. The SIE function, fitted on protein-ligand binding affinities, gave absolute binding affinity predictions in excellent agreement with experiment and outperformed standard MM-GBSA predictions when tested on the MD ensembles of Ras-Raf and Ras-RalGDS protein-protein complexes. For wild-type and mutant MP1-p14 complexes, SIE predictions of relative binding affinities were supported by a yeast two-hybrid assay that provided semiquantitative relative interaction strengths. Results on the MP1-mutated complex suggested that SIE predictions deteriorate if mutant MD ensembles are approximated by just mutating the wild-type MD trajectory. The SIE data on the p14-mutated complex indicated feasibility for generating mutant MD ensembles from mutated wild-type crystal structure, despite local structural differences observed upon mutation. For energetic considerations, this would circumvent costly needs to produce and crystallize mutated complexes. The sensitized protein-protein interface afforded by the p14(Y56A) mutation identified here has practical applications in screening-based discovery of first-generation small-molecule hits for further development into specific modulators of the mitogen-activated protein kinase signaling pathway.
PubMed: 18479705
DOI: 10.1016/j.jmb.2008.04.035
主引用文献が同じPDBエントリー
実験手法
X-RAY DIFFRACTION (1.9 Å)
構造検証レポート
Validation report summary of 3cpt
検証レポート(詳細版)ダウンロードをダウンロード

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件を2024-11-06に公開中

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