Folding simulation of protein models on the structure-based cubo-octahedral lattice with the Contact Interactions algorithm.

Toma L; Toma S

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Folding simulation of protein models on the structure-based cubo-octahedral lattice with the Contact Interactions algorithm.

机译：使用接触相互作用算法在基于结构的立方八面体晶格上蛋白质模型的折叠模拟。

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Computer simulations of protein models on lattices have been widely used as an aid in the study of protein folding process. Following the suggestion of Raghunathan and Jernigan (1997, Protein Sci. 6:2072-2083) that the cubooctahedral lattice can allow a more realistic representation of proteins than other lattices, we propose here the use of a new set of internal coordinates theta for the description of a protein model on this lattice. An easy procedure for the conversion of the theta coordinates to the Cartesian coordinates is also described. When the Contact Interaction approach, already proposed by us for simulations on square or cubic lattices, was applied to the cubo-octahedral lattice, the system obeyed the correct thermodynamics derived from the definition of energy. Thus, lattice simulations of protein models, in which secondary structure elements such as alpha-helices or beta-strands can be easily identifiable, can be performed.

机译：晶格上蛋白质模型的计算机模拟已广泛用于研究蛋白质折叠过程。根据Raghunathan和Jernigan（1997，Protein Sci。6：2072-2083）的建议，八面体晶格可以比其他晶格更真实地表示蛋白质，我们在此建议使用一组新的内部坐标theta该晶格上的蛋白质模型的描述。还描述了将theta坐标转换为笛卡尔坐标的简单过程。当我们已经提出的用于模拟方形或立方晶格的接触相互作用方法应用于立方八面体晶格时，系统遵循了从能量定义中得出的正确热力学。因此，可以进行蛋白质模型的晶格模拟，在其中可以容易地识别出诸如α-螺旋或β-链之类的二级结构元素。

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《Protein Science: A Publication of the Protein Society》 |1999年第1期|共7页
作者
Toma L; Toma S;
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正文语种 eng
中图分类蛋白质;
关键词
Algorithms; Models; Chemical; Protein Folding; Protein Structure; 算法; 模型; 化学; 蛋白质折叠; 蛋白质结构;

机译：Algorithms;Models;Chemical;Protein Folding;Protein Structure;算法;模型;化学;蛋白质折叠;蛋白质结构;

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1. Folding simulation of protein models on the structure-based cubo-octahedral lattice with the Contact Interactions algorithm. [J] . Toma L, Toma S Protein Science: A Publication of the Protein Society . 1999,第1期

机译：使用接触相互作用算法在基于结构的立方八面体晶格上蛋白质模型的折叠模拟。
2. Solvent-amino acid interaction energies in three-dimensional-lattice Monte Carlo simulations of a model 27-mer protein: Folding thermodynamics and kinetics. [J] . Leonhard K, Prausnitz JM, Radke CJ Protein Science: A Publication of the Protein Society . 2004,第2期

机译：27-mer模型蛋白质的三维晶格蒙特卡洛模拟中的溶剂-氨基酸相互作用能：折叠热力学和动力学。
3. Lattice model simulation of interchain protein interactions and the folding dynamics and dimerization of the GCN4 Leucine zipper [J] . Liu Y, Chagagain PP, Parra JL, The Journal of Chemical Physics . 2008,第4期

机译：链间蛋白相互作用的晶格模型模拟以及GCN4亮氨酸拉链的折叠动力学和二聚化
4. Lattice Model of Membrane Protein Folding: Monte CarloSimulation of Hydrophobic Polypeptides [C] . CCAST-WL Workshop Series: vol 121; Cross-Straits Symposium on Biology-Inspired Theoretical Problems and China Center of Advanced Science and Technology(CCAST) (World Laboratory) Workshop; 20000515-19; Beijing(CN) . 2000

机译：膜蛋白折叠的格子模型：疏水性多肽的蒙特卡罗模拟
5. Protein folding with coarse-grained off-lattice models of the polypeptide chain. [D] . Nanias, Marian. 2006

机译：使用多肽链的粗粒非晶格模型进行蛋白质折叠。
6. Folding simulation of protein models on the structure-based cubo-octahedral lattice with the Contact Interactions algorithm. [O] . L. Toma, S. Toma 1999

机译：使用接触相互作用算法在基于结构的立方八面体晶格上蛋白质模型的折叠模拟。
7. Folding simulation of protein models on the structure-based cubo-octahedral lattice with the Contact Interactions algorithm. [O] . Toma, L., Toma, S. 2008

机译：使用接触相互作用算法在基于结构的立方八面体晶格上蛋白质模型的折叠模拟。

Folding simulation of protein models on the structure-based cubo-octahedral lattice with the Contact Interactions algorithm.

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