Structures and free-energy landscapes of the wild type and mutants of the Abeta(21-30) peptide are determined by an interplay between intrapeptide electrostatic and hydrophobic interactions.

Tarus B; Straub JE; Thirumalai D

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Structures and free-energy landscapes of the wild type and mutants of the Abeta(21-30) peptide are determined by an interplay between intrapeptide electrostatic and hydrophobic interactions.

机译：结构和自由能景观的野生型和Abeta（21-30）肽的突变体由肽内静电和疏水相互作用之间的相互作用来确定。

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The initial events in protein aggregation involve fluctuations that populate monomer conformations, which lead to oligomerization and fibril assembly. The highly populated structures, driven by a balance between hydrophobic and electrostatic interactions in the protease-resistant wild-type Abeta(21-30) peptide and mutants E22Q (Dutch), D23N (Iowa), and K28N, are analyzed using molecular dynamics simulations. Intrapeptide electrostatic interactions were connected to calculated pK(a) values that compare well with the experimental estimates. The pK(a) values of the titratable residues show that E22 and D23 side chains form salt bridges only infrequently with the K28 side chain. Contacts between E22-K28 are more probable in "dried" salt bridges, whereas D23-K28 contacts are more probable in solvated salt bridges. The strength of the intrapeptide hydrophobic interactions increases as D23N

机译：蛋白质聚集的初始事件涉及组成单体构象的波动，这导致寡聚和原纤维组装。使用分子动力学模拟分析了人口稠密的结构，该结构受耐蛋白酶的野生型Abeta（21-30）肽和突变体E22Q（Dutch），D23N（Iowa）和K28N之间的疏水和静电相互作用之间的平衡驱动。肽内静电相互作用与计算的pK（a）值相关，该值与实验估计值相符。可滴定残基的pK（a）值表明，E22和D23侧链很少与K28侧链形成盐桥。 E22-K28之间的接触在“干燥”盐桥中更有可能，而D23-K28之间的接触在溶剂化盐桥中更可能。随着D23N

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《Journal of Molecular Biology》 |2008年第4期|共15页
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Tarus B; Straub JE; Thirumalai D;
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Alzheimer Disease; Amino Acid Substitution; Amyloid beta-Protein; Computer Simulation; 氨基酸取代; 淀粉样β蛋白; 计算机模拟; 静电学; 氢离子浓度; 模型; 分子; 诱变; 定点;

机译：Alzheimer Disease;Amino Acid Substitution;Amyloid beta-Protein;Computer Simulation;氨基酸取代;淀粉样β蛋白;计算机模拟;静电学;氢离子浓度;模型;分子;诱变;定点;

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1. Structures and free-energy landscapes of the wild type and mutants of the Abeta(21-30) peptide are determined by an interplay between intrapeptide electrostatic and hydrophobic interactions. [J] . Tarus B, Straub JE, Thirumalai D Journal of Molecular Biology . 2008,第4期

机译：结构和自由能景观的野生型和Abeta（21-30）肽的突变体由肽内静电和疏水相互作用之间的相互作用来确定。
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4. Crystal Structures of Wild-type and Mutants of Pea Ferredoxin: NADP~+ Reductase: A Productive NADP~+ Binding Mode and Its Mechanistic Significance [C] . Deng Z., Arkaki A.K., Carrillo N., International symposium on mechanisms of enzymatic catalysis . 1998

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5. Structure-based design of mutant proteins: I. Molecular docking studies of amino acid binding to wild-type aminoacyl-tRNA synthetases. II. Structure-based design of mutant aminoacyl-tRNA synthetases for non-natural amino acid incorporation. [D] . Zhang, Deqiang. 2003

机译：基于结构的突变蛋白设计：I.氨基酸与野生型氨酰基tRNA合成酶结合的分子对接研究。二。非天然氨基酸掺入的突变型氨酰基-tRNA合成酶的基于结构的设计。
6. Structures and the free energy landscapes of the wild type and mutants of the Aβ21–30-peptide are determined by an interplay between Intra-peptide electrostatic and hydrophobic interactions [O] . Bogdan Tarus, John E. Straub, D. Thirumalai -1

机译：野生型和Aβ21–30肽突变体的结构和自由能态由肽内静电相互作用和疏水相互作用之间的相互作用决定
7. Peptide adsorption on a hydrophobic surface results from an interplay of solvation, surface, and intrapeptide forces [O] . Horinek, D., Serr, A., Geisler, M., 2008

机译：肽在疏水表面上的吸附是由于溶剂化，表面和内肽力的相互作用

Structures and free-energy landscapes of the wild type and mutants of the Abeta(21-30) peptide are determined by an interplay between intrapeptide electrostatic and hydrophobic interactions.

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