化学
分析物
质谱法
灵敏度(控制系统)
基质(化学分析)
生物系统
干扰(通信)
选择性反应监测
质谱
分析化学(期刊)
数据挖掘
算法
检出限
四极
色谱法
搜索引擎
软件
频谱分析仪
模式识别(心理学)
三级四极质谱仪
实验设计
自动化
作者
Zecang You,Ao Guo,Changzhi Shi,Jiahu Deng,Jingzhi Yao,Jia Tu,Junjie Yang,Shipei Xing,Mingliang Fang
标识
DOI:10.1021/acs.analchem.6c00179
摘要
High-throughput targeted analysis in exposomics relies on multiple reaction monitoring (MRM) using liquid chromatography-triple quadrupole mass spectrometry (LC-TQMS), yet its method development remains limited by dependence on chemical standards, labor-intensive parameter generation, and complex matrix interferences (INTF). Here, we introduce FlashMRM, a web-based platform for the automated generation and optimization of MRM parameters by leveraging high-resolution mass spectrometry (HRMS) databases and experimentally preacquired biosample HRMS data. The pseudotranslation from the large-scale HRMS database to the TQMS database (TQDB) was achieved through mass unit normalization, retention time prediction, and cross-instrument collision energy conversion algorithms. FlashMRM integrated Pseudo TQDB containing over 25,000 candidate analytes and INTF TQDB, which encompasses ∼44,000 potential interference MS features in biological matrices, utilizing a dual-weighted scoring model to balance the sensitivity and specificity. Leveraging a library of pesticides with highly diverse chemical structures as a representative model, FlashMRM generated transitions for 255 pesticides with sensitivity comparable to experimentally developed MRM transitions while increasing the specificity score from 0.60 to 0.68. At a spiked concentration of 10 ng/L in urine, the number of Top 5 detectable transitions increased from 194 in experiments to 233 using FlashMRM with optimized specificity weighting, enhancing trace-level detection under biomatrix interference. In the analysis of human urine samples, FlashMRM achieved high-confidence TQMS detection for 55 of 99 targeted exposure biomarkers. FlashMRM enables sensitive and accurate large-scale targeted screening on TQMS without standards and extensive preanalysis injections, integrating optimized scoring algorithms and built-in databases within a user-friendly web platform.
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