Nam Ki Hyun
College of General Education, Kookmin University, Seoul, 02707, Republic of Korea.
Curr Res Struct Biol. 2024 Feb 6;7:100131. doi: 10.1016/j.crstbi.2024.100131. eCollection 2024.
Serial crystallography (SX) is an emerging technique that can be used to determine the noncryogenic crystal structure of macromolecules while minimizing radiation damage. Applying SX using pump-probe or mix-and-inject techniques enables the observation of time-resolved molecular reactions and dynamics in macromolecules. After the successful demonstration of the SX experimental technique with structure determination in serial femtosecond crystallography using an X-ray free electron laser, this method was adapted to the synchrotron, leading to the development of serial synchrotron crystallography (SSX). SSX offers new opportunities for researchers to leverage SX techniques, contributing to the advancement of structural biology and offering a deeper understanding of the structure and function of macromolecules. This review covers the background and advantages of SSX and its experimental approach. It also discusses important considerations when conducting SSX experiments.
串行晶体学(SX)是一种新兴技术,可用于确定大分子的非低温晶体结构,同时将辐射损伤降至最低。使用泵浦-探测或混合-注入技术应用SX能够观察大分子中时间分辨的分子反应和动力学。在用X射线自由电子激光在串行飞秒晶体学中成功演示了用于结构测定的SX实验技术之后,该方法被应用于同步加速器,从而推动了串行同步加速器晶体学(SSX)的发展。SSX为研究人员利用SX技术提供了新机会,有助于结构生物学的进步,并能更深入地了解大分子的结构和功能。本综述涵盖了SSX的背景、优势及其实验方法。它还讨论了进行SSX实验时的重要注意事项。