利用核磁共振光谱在纳米圆盘重构细胞色素b5 - 细胞色素P450复合物用于结构研究

Reconstitution of the Cytb5-CytP450 Complex in Nanodiscs for Structural Studies using NMR Spectroscopy.

作者信息

Zhang Meng, Huang Rui, Ackermann Rose, Im Sang-Choul, Waskell Lucy, Schwendeman Anna, Ramamoorthy Ayyalusamy

机构信息

Department of Chemistry, University of Michigan, Ann Arbor, MI, 48109-1055, USA.

Department of Medicinal Chemistry, The Biointerfaces Institute, University of Michigan, North Campus Research Complex, Ann Arbor, MI, 48109, USA.

出版信息

Angew Chem Int Ed Engl. 2016 Mar 24;55(14):4497-9. doi: 10.1002/anie.201600073. Epub 2016 Feb 29.

DOI:10.1002/anie.201600073

PMID:26924779

Abstract

Cytochrome P450s (P450s) are a superfamily of enzymes responsible for the catalysis of a wide range of substrates. Dynamic interactions between full-length membrane-bound P450 and its redox partner cytochrome b5 (cytb5 ) have been found to be important for the enzymatic activity of P450. However, the stability of the circa 70 kDa membrane-bound complex in model membranes renders high-resolution structural NMR studies particularly difficult. To overcome these challenges, reconstitution of the P450-cytb5 complex in peptide-based nanodiscs, containing no detergents, has been demonstrated, which are characterized by size exclusion chromatography and NMR spectroscopy. In addition, NMR experiments are used to identify the binding interface of the P450-cytb5 complex in the nanodisc. This is the first successful demonstration of a protein-protein complex in a nanodisc using NMR structural studies and should be useful to obtain valuable structural information on membrane-bound protein complexes.

摘要

细胞色素P450（P450s）是一类负责催化多种底物的酶超家族。已发现全长膜结合型P450与其氧化还原伴侣细胞色素b5（cytb5）之间的动态相互作用对P450的酶活性很重要。然而，模型膜中约70 kDa的膜结合复合物的稳定性使得高分辨率结构核磁共振（NMR）研究特别困难。为了克服这些挑战，已证明在不含去污剂的基于肽的纳米盘中重构P450-cytb5复合物，通过尺寸排阻色谱法和核磁共振光谱对其进行表征。此外，核磁共振实验用于确定纳米盘中P450-cytb5复合物的结合界面。这是首次利用核磁共振结构研究成功证明纳米盘中的蛋白质-蛋白质复合物，并且应该有助于获得有关膜结合蛋白复合物的有价值的结构信息。

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利用核磁共振光谱在纳米圆盘重构细胞色素b5 - 细胞色素P450复合物用于结构研究

Reconstitution of the Cytb5-CytP450 Complex in Nanodiscs for Structural Studies using NMR Spectroscopy.

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