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引用次数: 0
摘要
导言:高通量质谱技术的样品读取速度比传统的液相色谱平台快 10 倍以上,已成为一种强大的分析技术,可对复杂的生物样品进行快速分析。质谱数据采集速度的提高对自动数据处理能力提出了更高的要求,这种能力应与数据采集速度相匹配甚至更快。这些数据处理能力应满足药物发现工作流程的不同要求:本文介绍了高通量 MS 技术自动数据处理工作流程的关键步骤。专家意见:专家观点:高通量质谱技术对自动数据处理的需求是由加快数据采集速度的需要所驱动的。处理功能与 LIMS 的无缝集成、高效的数据审查机制以及对实时反馈、自动方法优化和人工智能模型训练等未来功能的探索,对于推动药物发现领域的发展至关重要。随着技术的不断发展,高通量质谱与智能数据处理之间的协同作用无疑将在塑造高通量药物发现应用的未来中发挥举足轻重的作用。
Data processing for high-throughput mass spectrometry in drug discovery.
Introduction: High-throughput mass spectrometry that could deliver > 10 times faster sample readout speed than traditional LC-based platforms has emerged as a powerful analytical technique, enabling the rapid analysis of complex biological samples. This increased speed of MS data acquisition has brought a critical demand for automatic data processing capabilities that should match or surpass the speed of data acquisition. Those data processing capabilities should serve the different requirements of drug discovery workflows.
Areas covered: This paper introduced the key steps of the automatic data processing workflows for high-throughput MS technologies. Specific examples and requirements are detailed for different drug discovery applications.
Expert opinion: The demand for automatic data processing in high-throughput mass spectrometry is driven by the need to keep pace with the accelerated speed of data acquisition. The seamless integration of processing capabilities with LIMS, efficient data review mechanisms, and the exploration of future features such as real-time feedback, automatic method optimization, and AI model training is crucial for advancing the drug discovery field. As technology continues to evolve, the synergy between high-throughput mass spectrometry and intelligent data processing will undoubtedly play a pivotal role in shaping the future of high-throughput drug discovery applications.
期刊介绍:
Expert Opinion on Drug Discovery (ISSN 1746-0441 [print], 1746-045X [electronic]) is a MEDLINE-indexed, peer-reviewed, international journal publishing review articles on novel technologies involved in the drug discovery process, leading to new leads and reduced attrition rates. Each article is structured to incorporate the author’s own expert opinion on the scope for future development.
The Editors welcome:
Reviews covering chemoinformatics; bioinformatics; assay development; novel screening technologies; in vitro/in vivo models; structure-based drug design; systems biology
Drug Case Histories examining the steps involved in the preclinical and clinical development of a particular drug
The audience consists of scientists and managers in the healthcare and pharmaceutical industry, academic pharmaceutical scientists and other closely related professionals looking to enhance the success of their drug candidates through optimisation at the preclinical level.