Prediction of two-dimensional gas chromatography time-of-flight mass spectrometry retention times of 160 pesticides and 25 environmental organic pollutants in grape by multivariate chemometrics methods

I. Amini, K. Pal, S. Esmaeilpoor, A. Abdelkarim
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引用次数: 5

Abstract

A quantitative structure–retention relation (QSRR) study was conducted on the retention times of 160 pesticides and 25 environmental organic pollutants in wine and grape. The genetic algorithm was used as descriptor selection and model development method. Modeling of the relationship between selected molecular descriptors and retention time was achieved by linear (partial least square; PLS) and nonlinear (kernel PLS: KPLS and Levenberg-Marquardt artificial neural network; L-M ANN) methods. The QSRR models were validated by cross-validation as well as application of the models to predict the retention of external set compounds, which did not have contribution in model development steps. Linear and nonlinear methods resulted in accurate prediction whereas more accurate results were obtained by L-M ANN model. The best model obtained from L-M ANN showed a good R2 value (determination coefficient between observed and predicted values) for all compounds, which was superior to those of other statistical models. This is the first research on the QSRR of the compounds in wine and grape against the retention time using the GA-KPLS and L-M ANN.
多元化学计量学方法预测葡萄中160种农药和25种环境有机污染物的二维气相色谱-飞行时间质谱保留时间
对160种农药和25种环境有机污染物在葡萄酒和葡萄中的滞留时间进行了定量结构-滞留关系研究。采用遗传算法作为描述符选择和模型开发方法。所选择的分子描述符与保留时间之间的关系通过线性(偏最小二乘法;非线性PLS (kernel PLS): KPLS和Levenberg-Marquardt人工神经网络;L-M ANN)方法。通过交叉验证验证了QSRR模型,并将其应用于预测外部固定化合物的保留,这在模型开发步骤中没有贡献。线性和非线性方法预测精度较高,而L-M神经网络模型预测精度更高。L-M神经网络得到的最佳模型对所有化合物均具有良好的R2值(观测值与预测值之间的决定系数),优于其他统计模型。本文首次利用GA-KPLS和L-M神经网络对葡萄酒和葡萄中化合物随保留时间的QSRR进行了研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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