一种小蛋白质复合物的折叠与自组装。
Folding and self-assembly of a small protein complex.
作者信息
Sieradzan Adam K, Liwo Adam, Hansmann Ulrich H E
机构信息
Faculty of Chemistry, University of Gdańsk, Sobieskiego 18, 80-952 Gdańsk, Poland ; Department of Chemistry and Biochemistry, Oklahoma University, Norman, OK, 73019, U.S.A.
出版信息
J Chem Theory Comput. 2012 Sep 11;8(9):3416-3422. doi: 10.1021/ct300528r.
Abstract
The synthetic homotetrameric ββα (BBAT1) protein possesses a stable quaternary structure with a ββα fold. Because of its small size (a total of 84 residues), the homotetramer is an excellent model system with which to study the self-assembly and protein-protein interactions. We find from replica exchange molecular dynamics simulations with the coarse-grain UNRES force field that the folding and association pathway consists of three well-separated steps, where that association to a tetramer precedes and facilitates folding of the four chains. At room temperature the tetramer exists in an ensemble of diverse structures. The crystal structure becomes energetically favored only when the molecule is put in a dense and crystal-like environment. The observed picture of folding promoted by association may mirror the mechanism according to which intrinsically unfolded proteins assume their functional structure.
摘要
合成的同四聚体ββα(BBAT1)蛋白具有稳定的四级结构,呈ββα折叠。由于其尺寸较小(总共84个残基),同四聚体是研究自组装和蛋白质-蛋白质相互作用的优秀模型系统。我们通过使用粗粒度UNRES力场的副本交换分子动力学模拟发现,折叠和缔合途径由三个明显分开的步骤组成,其中四聚体的缔合先于并促进四条链的折叠。在室温下,四聚体以多种结构的集合形式存在。只有当分子处于致密且类似晶体的环境中时,晶体结构才在能量上占优势。观察到的缔合促进折叠的情况可能反映了内在无序蛋白形成其功能结构的机制。
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