{"title":"用于系统优化适用于高通量的单次 diaPASEF 血浆蛋白质组学工作流程的实验设计方法。","authors":"Shawn J Rice, Chandra P Belani","doi":"10.1002/prca.202300006","DOIUrl":null,"url":null,"abstract":"<p><strong>Purpose: </strong>Plasma is an abundant source of protein biomarkers. Mass spectrometry (MS) is an effective means to measure a large number of proteins in a single run. The recent development of data-independent acquisition with parallel accumulation and serial fragmentation (diaPASEF) on a trapped ion mobility spectrometer (TIMS) affords deep proteomic coverage with short liquid chromatography gradients. In this work, we utilized a process optimization approach, design of experiments (DoE), to maximize precursor identification for a plasma proteomic diaPASEF workflow.</p><p><strong>Experimental design: </strong>A partial factorial design was used to screen 11 sample preparation factors and six diaPASEF MS acquisition factors. Selected factors were optimized using the response surface method.</p><p><strong>Results: </strong>Three important sample preparation factors and the two important MS acquisition factors were identified in the screening experiments and were selected for separate optimization experiments. The optimal parameters were compared to our standard plasma proteomics workflows using either a 1-h or overnight trypsin digestion. The optimized method outperformed the 1-h digestion, and it was similar in performance to the overnight digestion, however, the optimized method could be completed in a day.</p><p><strong>Conclusion and clinical relevance: </strong>We have used DoE to report an optimized plasma proteomics workflow for diaPASEF, however, established methods are already highly optimized, and resources may be better spent on running samples than comprehensive optimization.</p>","PeriodicalId":2,"journal":{"name":"ACS Applied Bio Materials","volume":null,"pages":null},"PeriodicalIF":4.6000,"publicationDate":"2024-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Design of experiments approach for systematic optimization of a single-shot diaPASEF plasma proteomics workflow applicable for high-throughput.\",\"authors\":\"Shawn J Rice, Chandra P Belani\",\"doi\":\"10.1002/prca.202300006\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Purpose: </strong>Plasma is an abundant source of protein biomarkers. Mass spectrometry (MS) is an effective means to measure a large number of proteins in a single run. The recent development of data-independent acquisition with parallel accumulation and serial fragmentation (diaPASEF) on a trapped ion mobility spectrometer (TIMS) affords deep proteomic coverage with short liquid chromatography gradients. In this work, we utilized a process optimization approach, design of experiments (DoE), to maximize precursor identification for a plasma proteomic diaPASEF workflow.</p><p><strong>Experimental design: </strong>A partial factorial design was used to screen 11 sample preparation factors and six diaPASEF MS acquisition factors. Selected factors were optimized using the response surface method.</p><p><strong>Results: </strong>Three important sample preparation factors and the two important MS acquisition factors were identified in the screening experiments and were selected for separate optimization experiments. The optimal parameters were compared to our standard plasma proteomics workflows using either a 1-h or overnight trypsin digestion. 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引用次数: 0
摘要
目的:血浆是蛋白质生物标记物的丰富来源。质谱法(MS)是一次性测量大量蛋白质的有效方法。最近在困离子迁移率质谱仪(TIMS)上开发的独立于数据的并行累积和串行碎片采集(diaPASEF)技术,可在短液相色谱梯度下实现深度蛋白质组覆盖。在这项工作中,我们采用了一种流程优化方法--实验设计(DoE),以最大限度地鉴定血浆蛋白质组 diaPASEF 工作流程的前体:实验设计:采用部分因子设计筛选 11 个样品制备因子和 6 个 diaPASEF MS 采集因子。实验设计:采用部分因子设计筛选了 11 个样品制备因子和 6 个 diaPASEF MS 采集因子,并采用响应面法对所选因子进行了优化:结果:在筛选实验中确定了三个重要的样品制备因素和两个重要的质谱采集因素,并分别进行了优化实验。优化参数与我们使用 1 小时或过夜胰蛋白酶消化的标准血浆蛋白质组学工作流程进行了比较。优化后的方法优于1小时消化法,与过夜消化法性能相似,但优化后的方法可在一天内完成:我们利用 DoE 报告了 diaPASEF 的优化血浆蛋白质组学工作流程,然而,已有的方法已经高度优化,与其进行全面优化,不如将资源花在运行样本上。
Design of experiments approach for systematic optimization of a single-shot diaPASEF plasma proteomics workflow applicable for high-throughput.
Purpose: Plasma is an abundant source of protein biomarkers. Mass spectrometry (MS) is an effective means to measure a large number of proteins in a single run. The recent development of data-independent acquisition with parallel accumulation and serial fragmentation (diaPASEF) on a trapped ion mobility spectrometer (TIMS) affords deep proteomic coverage with short liquid chromatography gradients. In this work, we utilized a process optimization approach, design of experiments (DoE), to maximize precursor identification for a plasma proteomic diaPASEF workflow.
Experimental design: A partial factorial design was used to screen 11 sample preparation factors and six diaPASEF MS acquisition factors. Selected factors were optimized using the response surface method.
Results: Three important sample preparation factors and the two important MS acquisition factors were identified in the screening experiments and were selected for separate optimization experiments. The optimal parameters were compared to our standard plasma proteomics workflows using either a 1-h or overnight trypsin digestion. The optimized method outperformed the 1-h digestion, and it was similar in performance to the overnight digestion, however, the optimized method could be completed in a day.
Conclusion and clinical relevance: We have used DoE to report an optimized plasma proteomics workflow for diaPASEF, however, established methods are already highly optimized, and resources may be better spent on running samples than comprehensive optimization.
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