School of Applied and Engineering Physics , Cornell University , Ithaca , New York 14853 , United States.
Anal Chem. 2019 Jun 4;91(11):7139-7144. doi: 10.1021/acs.analchem.9b00311. Epub 2019 May 22.
The emerging technique of Mix-and-Inject Serial Crystallography (MISC) at X-ray free electron laser sources provides atomically detailed structural information about biomolecules as they function. Despite early successes, MISC is currently limited by the efficiency and robustness of the mixing injectors used to initiate the reaction and propel the sample into the X-ray beam for measurement. Here, we present a new method for fabricating the injector system that leads to simpler, faster, and more effective experiments. A mixing injector can now be produced from raw components in 100 min, only 5 min of which must be spent during the experiment, saving valuable time. The system is modular, enabling parts to be quickly exchanged in the event of unanticipated experimental difficulties, such as clogging. The injector holder is designed to be flexible, allowing each device to be optimized to maximize the number of diffraction patterns measured during each experiment. This holder has been used successfully during four beamtimes at two different X-ray free electron laser sources. Its robustness and ease of use is an important step toward making the MISC technique accessible and routine.
新兴的混合注入式连续结晶学(Mix-and-Inject Serial Crystallography,MISC)技术在 X 射线自由电子激光源下提供了关于生物分子在功能状态下的原子级详细结构信息。尽管取得了早期的成功,但 MISC 目前受到用于引发反应并将样品推进 X 射线束进行测量的混合注射器的效率和稳健性限制。在这里,我们提出了一种制造注射器系统的新方法,该方法可实现更简单、更快速和更有效的实验。现在,只需 100 分钟即可从原始组件中生产出混合注射器,其中只有 5 分钟必须在实验中花费,从而节省了宝贵的时间。该系统是模块化的,允许在出现意外实验困难(例如堵塞)时快速更换部件。注射器支架设计灵活,允许每个设备进行优化,以在每次实验中测量到最大数量的衍射图案。该支架已在两个不同的 X 射线自由电子激光源的四次光束时间中成功使用。其坚固性和易用性是使 MISC 技术变得易于使用和常规的重要步骤。
