Development of a Two-Step Indirect Method for Modeling Ecom₅₀

Title:Development of a Two-Step Indirect Method for Modeling Ecom₅₀

Volume: 10 Issue: 4

Author(s): Lowell H. Hall, L. Mark Hall, Dennis W. Hill, Douglas M. Hawkins, Ming-Hui Chen and David F. Grant

Affiliation:

Keywords: Collison energy at 50% reduction (CE₅₀), molconn structure descriptors, PLS models, range of data significance, PubChem structures prediction.

Abstract: A novel approach is developed for modeling situations in which the modeled property is an algebraically transformed version of the original experimental data. In many cases such a transformation results in a data set with a significantly smaller data range. Here we explore the effects of range-of-data on modeling statistics. We illustrate a twostep method using data on the mass spectrometry collision energy (CE) that is required to decompose 50% of precursor ions to fragments (CE₅₀). Earlier we showed that a nonlinear center-of-mass transformation, yielding Ecom₅₀, produces values less dependent on the specific mass spectrometric experimental conditions. For this data set the Ecom₅₀ range is 13.5% of the CE₅₀ range. We propose a two-step modeling method. First, the original experimental data, CE₅₀, (larger range-of-data) is modeled by a standard modeling method (PLS). Second, the calculated dependent variable resulting from the modeling is algebraically transformed (not modeled) according to the center-of-mass transformation, providing the generally more useful data, Ecom₅₀. As shown here, use of this two-step method for predicting Ecom₅₀ (from previously published data) produces a standard error 21% smaller and correspondingly reduces the confidence interval for prediction. Some specific implications for prediction are given for a published data set. This work is part of the ongoing development of a system of models to assist in the development of human metabolites.

Cite this article as:

Hall H. Lowell, Hall Mark L., Hill W. Dennis, Hawkins M. Douglas, Chen Ming-Hui and Grant F. David, Development of a Two-Step Indirect Method for Modeling Ecom₅₀, Current Computer-Aided Drug Design 2014; 10 (4) . https://dx.doi.org/10.2174/1573409911666141231113516