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1
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2
Solution structure of the cyclosporin A/cyclophilin complex by NMR.通过核磁共振确定的环孢菌素A/亲环蛋白复合物的溶液结构
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The molecular replacement solution and X-ray refinement to 2.8 A of a decameric complex of human cyclophilin A with the immunosuppressive drug cyclosporin A.人亲环素A与免疫抑制药物环孢素A的十聚体复合物的分子置换解决方案及X射线精修至2.8埃分辨率。
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Conformational polymorphism of cyclosporin A.环孢菌素A的构象多态性
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本文引用的文献

1
Solution structure of the cyclosporin A/cyclophilin complex by NMR.通过核磁共振确定的环孢菌素A/亲环蛋白复合物的溶液结构
Nature. 1993 Jan 7;361(6407):88-91. doi: 10.1038/361088a0.
2
The 3D structure of a cyclosporin analogue in water is nearly identical to the cyclophilin-bound cyclosporin conformation.环孢菌素类似物在水中的三维结构与亲环蛋白结合的环孢菌素构象几乎相同。
FEBS Lett. 1994 Mar 7;340(3):255-9. doi: 10.1016/0014-5793(94)80149-5.
3
Crystal structures of cyclophilin A complexed with cyclosporin A and N-methyl-4-[(E)-2-butenyl]-4,4-dimethylthreonine cyclosporin A.与环孢素A及N-甲基-4-[(E)-2-丁烯基]-4,4-二甲基苏氨酸环孢素A复合的亲环蛋白A的晶体结构
Structure. 1994 Jan 15;2(1):33-44. doi: 10.1016/s0969-2126(00)00006-x.
4
The X-ray structure of (MeBm2t)1-cyclosporin complexed with cyclophilin A provides an explanation for its anomalously high immunosuppressive activity.与亲环素A复合的(MeBm2t)1-环孢菌素的X射线结构为其异常高的免疫抑制活性提供了解释。
Protein Eng. 1994 May;7(5):597-603. doi: 10.1093/protein/7.5.597.
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Conformational polymorphism of cyclosporin A.环孢菌素A的构象多态性
Structure. 1994 Oct 15;2(10):963-72. doi: 10.1016/s0969-2126(94)00098-0.
6
Molecular dynamics simulations of cyclosporin A: the crystal structure and dynamic modelling of a structure in apolar solution based on NMR data.环孢菌素A的分子动力学模拟:基于核磁共振数据的非极性溶液中一种结构的晶体结构与动力学建模
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On the dependence of molecular conformation on the type of solvent environment: a molecular dynamics study of cyclosporin A.关于分子构象对溶剂环境类型的依赖性:环孢菌素A的分子动力学研究
Biopolymers. 1990 Oct-Nov;29(12-13):1669-87. doi: 10.1002/bip.360291214.
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Structural elements pertinent to the interaction of cyclosporin A with its specific receptor protein, cyclophilin.
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Receptor-induced conformation change of the immunosuppressant cyclosporin A.
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环孢菌素A构象变化的建模

Modeling conformational changes in cyclosporin A.

作者信息

O'Donohue M F, Burgess A W, Walkinshaw M D, Treutlein H R

机构信息

Ludwig Institute of Cancer Research, P.O. Royal Melbourne Hospital, Parkville, Vic, Australia.

出版信息

Protein Sci. 1995 Oct;4(10):2191-202. doi: 10.1002/pro.5560041025.

DOI:10.1002/pro.5560041025
PMID:8535256
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2142979/
Abstract

NMR and X-ray structures for the immunosuppressant cyclosporin A (CsA) reveal a remarkable difference between the unbound (free) conformation in organic solvents and the conformation bound to cyclophilin. We have performed computer simulations of the molecular dynamics of CsA under a variety of conditions and confirmed the stability of these two conformations at room temperature in water and in vacuum. However, when the free conformation was modeled in vacuum at 600 K, a transition pathway leading to the bound conformation was observed. This involved a change in the cis MeLeu-9 peptide bond to a trans conformation and the movement of the side chains forming the dominant hydrophobic cluster (residues MeBmt-1, MeLeu-4, MeLeu-6, and MeLeu-10) to the opposite side of the plane formed by the backbone atoms in the molecular ring. The final conformation had a backbone RMS deviation from the bound conformation of 0.53 A and was as stable in dynamics simulations as the bound conformation. Our calculations allowed us to make a detailed analysis of a transition pathway between the free and the bound conformations of CsA and to identify two distinct regions of coordinated movement in CsA, both of which underwent transitions independently.

摘要

免疫抑制剂环孢菌素A(CsA)的核磁共振(NMR)和X射线结构显示,其在有机溶剂中的未结合(游离)构象与结合亲环蛋白后的构象之间存在显著差异。我们在多种条件下对CsA进行了分子动力学计算机模拟,并证实了这两种构象在室温下于水和真空中的稳定性。然而,当在600K的真空中对游离构象进行建模时,观察到了一条通向结合构象的转变途径。这涉及顺式MeLeu-9肽键转变为反式构象,以及形成主要疏水簇的侧链(残基MeBmt-1、MeLeu-4、MeLeu-6和MeLeu-10)移动到分子环中主链原子所形成平面的另一侧。最终构象的主链与结合构象的均方根偏差为0.53 Å,并且在动力学模拟中与结合构象一样稳定。我们的计算使我们能够详细分析CsA游离构象与结合构象之间的转变途径,并识别出CsA中两个不同的协同运动区域,这两个区域均独立发生转变。