A new two-dimensional approach to quantitative prediction for collision cross-section of more than 110 singly protonated peptides by a novel moecular electronegativity-interaction vector through quantitative structure-spectrometry relationship studies

doi:10.1007/s11458-007-0012-x

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Front. Chem. China ›› 2007, Vol. 2 ›› Issue (1) : 55-63. DOI: 10.1007/s11458-007-0012-x

A new two-dimensional approach to quantitative prediction for collision cross-section of more than 110 singly protonated peptides by a novel moecular electronegativity-interaction vector through quantitative structure-spectrometry relationship studies

ZHOU Peng, MEI Hu, TIAN Feifei, WANG Jiaona, WU Shirong, LI Zhiliang

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Abstract

Based on two-dimensional topological characters, a novel method called molecular electronegativity-interaction vector (MEIV) is proposed to parameterize molecular structures. Applying MEIV into quantitative structure-spectrometry relationship studies on ion mobility spectrometry collision cross-sections of 113 singly proto nated peptides, three models were strictly obtained, with correlative coefficient r and leave-one-out cross-validation q of 0.983, 0.979, 0.981, 0.979 and 0.980, 0.978, respectively. Thus, the MEIV is confirmed to be potent to structural characteri zations and property predictions for organic and biologic molecules.

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ZHOU Peng, MEI Hu, TIAN Feifei, WANG Jiaona, WU Shirong, LI Zhiliang. A new two-dimensional approach to quantitative prediction for collision cross-section of more than 110 singly protonated peptides by a novel moecular electronegativity-interaction vector through quantitative structure-spectrometry relationship studies. Front. Chem. China, 2007, 2(1): 55‒63 https://doi.org/10.1007/s11458-007-0012-x