利用X射线自由电子激光的结构酶学

Structural enzymology using X-ray free electron lasers.

作者信息

Kupitz Christopher, Olmos Jose L, Holl Mark, Tremblay Lee, Pande Kanupriya, Pandey Suraj, Oberthür Dominik, Hunter Mark, Liang Mengning, Aquila Andrew, Tenboer Jason, Calvey George, Katz Andrea, Chen Yujie, Wiedorn Max O, Knoska Juraj, Meents Alke, Majriani Valerio, Norwood Tyler, Poudyal Ishwor, Grant Thomas, Miller Mitchell D, Xu Weijun, Tolstikova Aleksandra, Morgan Andrew, Metz Markus, Martin-Garcia Jose M, Zook James D, Roy-Chowdhury Shatabdi, Coe Jesse, Nagaratnam Nirupa, Meza Domingo, Fromme Raimund, Basu Shibom, Frank Matthias, White Thomas, Barty Anton, Bajt Sasa, Yefanov Oleksandr, Chapman Henry N, Zatsepin Nadia, Nelson Garrett, Weierstall Uwe, Spence John, Schwander Peter, Pollack Lois, Fromme Petra, Ourmazd Abbas, Phillips George N, Schmidt Marius

机构信息

Physics Department, University of Wisconsin-Milwaukee , 3135 N. Maryland Ave, Milwaukee, Wisconsin 53211, USA.

Department of BioSciences, Rice University , 6100 Main Street, Houston, Texas 77005, USA.

出版信息

Struct Dyn. 2016 Dec 15;4(4):044003. doi: 10.1063/1.4972069. eCollection 2017 Jul.

DOI:10.1063/1.4972069

PMID:28083542

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5178802/

Abstract

Mix-and-inject serial crystallography (MISC) is a technique designed to image enzyme catalyzed reactions in which small protein crystals are mixed with a substrate just prior to being probed by an X-ray pulse. This approach offers several advantages over flow cell studies. It provides (i) room temperature structures at near atomic resolution, (ii) time resolution ranging from microseconds to seconds, and (iii) convenient reaction initiation. It outruns radiation damage by using femtosecond X-ray pulses allowing damage and chemistry to be separated. Here, we demonstrate that MISC is feasible at an X-ray free electron laser by studying the reaction of ß-lactamase microcrystals with ceftriaxone antibiotic solution. Electron density maps of the -ß-lactamase and of the ceftriaxone bound form were obtained at 2.8 Å and 2.4 Å resolution, respectively. These results pave the way to study cyclic and non-cyclic reactions and represent a new field of time-resolved structural dynamics for numerous substrate-triggered biological reactions.

摘要

混合注入式串行晶体学（MISC）是一种用于对酶催化反应进行成像的技术，在该技术中，小蛋白质晶体在被X射线脉冲探测之前，先与底物混合。与流动池研究相比，这种方法具有几个优点。它能提供：（i）接近原子分辨率的室温结构；（ii）从微秒到秒的时间分辨率；以及（iii）方便的反应起始方式。通过使用飞秒X射线脉冲，它能克服辐射损伤，从而将损伤与化学反应分离开来。在此，我们通过研究β-内酰胺酶微晶与头孢曲松抗生素溶液的反应，证明了MISC在X射线自由电子激光下是可行的。分别在2.8Å和2.4Å分辨率下获得了β-内酰胺酶及其与头孢曲松结合形式的电子密度图。这些结果为研究循环和非循环反应铺平了道路，并代表了众多底物触发的生物反应中时间分辨结构动力学的一个新领域。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/82d1/5178802/3a2ed8a60533/SDTYAE-000004-044003_1-g001.jpg

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利用X射线自由电子激光的结构酶学

Structural enzymology using X-ray free electron lasers.

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