利用X射线自由电子激光按需滴样实现金属酶的室温X射线吸收光谱分析。

Room temperature X-ray absorption spectroscopy of metalloenzymes with drop-on-demand sample delivery at XFELs.

作者信息

Bogacz Isabel, Makita Hiroki, Simon Philipp S, Zhang Miao, Doyle Margaret D, Chatterjee Ruchira, Fransson Thomas, Weninger Clemens, Fuller Franklin, Gee Leland, Sato Takahiro, Seaberg Matthew, Alonso-Mori Roberto, Bergmann Uwe, Yachandra Vittal K, Kern Jan, Yano Junko

机构信息

Molecular Biophysics and Integrated Bioimaging Division, Lawrence Berkeley National Laboratory, 1 Cyclotron Road, 94720, Berkeley, CA, USA.

Department of Theoretical chemistry and Biology, KTH Royal Institute of Technology, Stockholm, Sweden.

出版信息

Pure Appl Chem. 2023 Apr 19;95(8):891-897. doi: 10.1515/pac-2023-0213. eCollection 2023 Aug.

DOI:10.1515/pac-2023-0213

PMID:38013689

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10505480/

Abstract

X-ray crystallography and X-ray spectroscopy using X-ray free electron lasers plays an important role in understanding the interplay of structural changes in the protein and the chemical changes at the metal active site of metalloenzymes through their catalytic cycles. As a part of such an effort, we report here our recent development of methods for X-ray absorption spectroscopy (XAS) at XFELs to study dilute biological samples, available in limited volumes. Our prime target is Photosystem II (PS II), a multi subunit membrane protein complex, that catalyzes the light-driven water oxidation reaction at the MnCaO cluster. This is an ideal system to investigate how to control multi-electron/proton chemistry, using the flexibility of metal redox states, in coordination with the protein and the water network. We describe the method that we have developed to collect XAS data using PS II samples with a Mn concentration of <1 mM, using a drop-on-demand sample delivery method.

摘要

利用X射线自由电子激光进行的X射线晶体学和X射线光谱学，在通过金属酶的催化循环来理解蛋白质结构变化与金属活性位点化学变化之间的相互作用方面发挥着重要作用。作为这项工作的一部分，我们在此报告我们最近在X射线自由电子激光装置上进行X射线吸收光谱（XAS）研究稀生物样品方法的进展，这些样品体积有限。我们的主要目标是光系统II（PS II），它是一种多亚基膜蛋白复合物，在MnCaO簇处催化光驱动的水氧化反应。这是一个理想的系统，可用于研究如何利用金属氧化还原态的灵活性，结合蛋白质和水网络来控制多电子/质子化学反应。我们描述了我们开发的方法，该方法使用按需滴加样品输送方法，以Mn浓度<1 mM的PS II样品收集XAS数据。

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