SCIEX, Concord, Ontario L4K 4V8, Canada.
SCIEX, Singapore, 739256 Singapore.
J Am Soc Mass Spectrom. 2024 Sep 4;35(9):2230-2236. doi: 10.1021/jasms.4c00278. Epub 2024 Aug 2.
The drug discovery process increasingly relies on high-throughput sample analysis to accelerate the identification of viable drug candidates. Recently, chromatographic-free high-throughput mass spectrometry (HT-MS) technologies have emerged, significantly increasing sample readout speed and enabling the analysis of large sample sets. These HT-MS platforms continuously acquire data from various samples into a single data file, presenting challenges in applying distinctive data acquisition methods to specific samples. This study introduces a novel approach that integrates real-time sample loading status to activate sample-specific MS/MS data acquisition methods on the high-throughput acoustic ejection mass spectrometry platform. Effective method switching and high signal reproducibility were demonstrated across different data acquisition window durations in multiple reaction monitoring (MRM), high-resolution MRM (MRM), and information-dependent acquisition modes. This advancement provides a user-friendly and robust solution to the method-setting challenges of HT-MS, expanding the implementation of HT-MS platforms in drug discovery and other high-throughput analytical applications.
药物发现过程越来越依赖高通量样品分析来加速有前途的候选药物的鉴定。最近,出现了无色谱的高通量质谱(HT-MS)技术,极大地提高了样品读取速度,并能够分析大量样品集。这些 HT-MS 平台将来自各种样品的数据连续采集到单个数据文件中,这给应用独特的数据采集方法来分析特定样品带来了挑战。本研究介绍了一种新颖的方法,该方法将实时样品加载状态集成到高通量声喷射质谱平台上,以激活特定于样品的 MS/MS 数据采集方法。在多个反应监测(MRM)、高分辨率 MRM(MRM)和信息依赖性采集模式中,不同数据采集窗口持续时间都证明了有效的方法切换和高信号重现性。这一进展为 HT-MS 的方法设置挑战提供了一个用户友好且强大的解决方案,扩展了 HT-MS 平台在药物发现和其他高通量分析应用中的实施。
