75 kDa神经营养因子受体的模拟结构
Modeled structure of the 75-kDa neurotrophin receptor.
作者信息
Chapman B S, Kuntz I D
机构信息
University of California, San Francisco 94143-0446, USA.
出版信息
Protein Sci. 1995 Sep;4(9):1696-707. doi: 10.1002/pro.5560040905.
Abstract
Motifs in ligand-binding domains of the neurotrophin (NTR) and lymphotoxin (TNFR-I) receptors define a family of receptors that mediates programmed cell death. We have explored relationships of architecture and function in this family through a molecular model of NTR, also called p75NGFR or LANR. Modeling by homology took advantage of four modular subdomains in the crystal structure of TNFR-I that also occur in NTR. Hypothetical complexes between the model and a ligand structure (for nerve growth factor, NGF) were then examined using docking software. NTR appears to bind in the dimer interface of NGF, making two sets of contacts. NTR subdomains III and IV provide the ligand-contact surfaces, in contrast to TNFR, in which subdomains II and III contact TNF-beta. NTR subdomain II appears to have been evolutionarily modified, potentially contributing to an interface between receptor subunits. These and other specific predictions of the model will require experimental confirmation.
摘要
神经营养因子(NTR)和淋巴毒素(TNFR-I)受体的配体结合结构域中的基序定义了一个介导程序性细胞死亡的受体家族。我们通过NTR(也称为p75NGFR或LANR)的分子模型探索了该家族中结构与功能的关系。同源建模利用了TNFR-I晶体结构中的四个模块化亚结构域,这些亚结构域在NTR中也存在。然后使用对接软件检查模型与配体结构(神经生长因子,NGF)之间的假设复合物。NTR似乎结合在NGF的二聚体界面中,形成两组接触。与TNFR不同,NTR的亚结构域III和IV提供配体接触表面,在TNFR中,亚结构域II和III接触TNF-β。NTR亚结构域II似乎在进化上发生了修饰,可能有助于受体亚基之间的界面形成。该模型的这些以及其他具体预测需要实验验证。
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