Retention time-independent strategy for screening pesticide residues in herbs based on a fingerprint database and all ion fragmentation acquisition with LC-QTOF MS.

IF 2.7 3区化学 Q2 CHEMISTRY, ANALYTICAL Analytical Methods Pub Date : 2024-10-21 DOI:10.1039/d4ay01273a

Xiu-Ping Chen, Yu-Han Lu, Bo Xu, Yi-Xin Wei, Xia-Lian Cui, Wen-Wen Zhang, Gang-Feng Xu, Fang Zhang, Chen-Guo Feng

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Abstract

A retention time (RT)-independent strategy for nontargeted screening of pesticide residues in herbs was exploited using liquid chromatography-quadrupole time-of-flight mass spectrometry (LC-QTOF MS). The core of this strategy is a fingerprint database coupled with a data-independent acquisition (DIA) scan mode of all ion fragmentation (AIF). In the fingerprint database, a total of 150 pesticides with quasimolecular ions and fragment ions at five-level collision energies were collected as qualified ions for screening. During the data acquisition, the AIF scan was performed via real unbiased full-spectrum MS/MS acquisition. Six herb matrices spiked with 30 banned pesticides were used to evaluate the applicability of the strategy in real samples. The use of the narrow ion mass extraction window (10 mDa) and the narrow RT window (0.1 min) enabled the effective extraction of spectra from noisy backgrounds and the discovery of suspected pesticides via similarity matching of filtered qualified ions. On average, more than 11/30 of pesticides at 1 ng mL^-1 and more than 23/30 of pesticides at 10 ng mL^-1 or lower could be screened out in each matrix using at least two qualified ions. In addition, the AIF mode exhibited superior anti-interference capability compared to data-dependent acquisition (DDA) and sequential window acquisition of all theoretical mass spectra (SWATH), as determined by comparing the limits of screening (LOSs) of 30 banned pesticides spiked into Isatidis Folium. Finally, the developed strategy was applied to screen pesticide residues in extracts of Ganoderma and Foeniculi Fructus. Phorate-sulfone and phorate-sulfoxide were found in Ganoderma, as well as terbufos-sulfone and terbufos-sulfoxide were found in Foeniculi Fructus. In conclusion, the developed RT-independent strategy based on a fingerprint database and AIF acquisition with LC-QTOF MS seems to be one of the most efficient tools for the analysis of nontargeted pesticide residues in complicated matrices.

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基于指纹数据库和液相色谱-质谱联用仪（LC-QTOF MS）的全离子碎片采集，采用与保留时间无关的策略筛查药材中的农药残留。

利用液相色谱-四极杆飞行时间质谱（LC-QTOF MS）技术，开发了一种与保留时间（RT）无关的药材中农药残留非靶向筛选策略。该策略的核心是指纹数据库与数据独立采集（DIA）的全离子碎片（AIF）扫描模式相结合。在指纹数据库中，共收集了 150 种农药的准分子离子和五级碰撞能量的碎片离子，作为筛选的合格离子。在数据采集过程中，AIF 扫描是通过真实无偏全谱 MS/MS 采集进行的。使用添加了 30 种禁用农药的六种草药基质来评估该策略在实际样品中的适用性。使用窄离子质量提取窗口（10 mDa）和窄 RT 窗口（0.1 分钟）可有效地从嘈杂背景中提取光谱，并通过筛选合格离子的相似性匹配发现可疑农药。平均而言，在每个基质中，使用至少两个合格离子可筛选出超过 11/30 种 1 纳克 mL-1 的农药和超过 23/30 种 10 纳克 mL-1 或以下的农药。此外，与数据依赖采集（DDA）和所有理论质谱的顺序窗口采集（SWATH）相比，AIF 模式具有更强的抗干扰能力。最后，将所开发的策略用于筛选灵芝和枸杞提取物中的农药残留。结果在灵芝中发现了甲拌磷-砜和甲拌磷-亚砜，在佛手瓜中发现了特丁磷-砜和特丁磷-亚砜。总之，基于指纹数据库和 AIF 采集与 LC-QTOF MS 技术开发的不依赖 RT 的策略似乎是分析复杂基质中非靶标农药残留的最有效工具之一。

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