Andrew J. Hutt scite author profile

The General Solubility Equation (GSE) is a QSPR model based on the melting point and log P of a chemical substance. It is used to predict the aqueous solubility of nonionizable chemical compounds. However, its reliance on experimentally derived descriptors, particularly melting point, limits its applicability to virtual compounds. The studies presented show that the GSE is able to predict, to within 1 log unit, the experimental aqueous solubility (log S) for 81% of the compounds in a data set of 1265 diverse chemical structures (-8.48 < log S < 1.58). However, the predictive ability of the GSE is reduced to 75% when applied to a subset of the data (1160 compounds -6.00 < log S < 0.00), which discounts those compounds occupying the sparsely populated regions of data space. This highlights how sparsely populated extremities of data sets can significantly skew results for linear regression-based models. Replacing the melting point descriptor of the GSE with a descriptor which accounts for topographical polar surface area (TPSA) produces a model of comparable quality to the GSE (the solubility of 81% of compounds in the full data set predicted accurately). As such, we propose an alternative simple model for predicting aqueous solubility which replaces the melting point descriptor of the GSE with TPSA and hence can be applied to virtual compounds. In addition, incorporating TPSA into the GSE in addition to log P and melting point gives a three descriptor model that improves accurate prediction of aqueous solubility over the GSE by 5.1% for the full and 6.6% for the reduced data set, respectively.

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The metabolic chiral inversion of 2-arylpropionic acids—a novel route with pharmacological consequences

Hutt

Caldwell

1983

392

156

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The molecular biology of the flavin-containing monooxygenases of man

Phillips

Dolphin

Clair

et al. 1995

Chemico-Biological Interactions

135

106

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Andrew J. Hutt

Drug Chirality and its Clinical Significance

The metabolic chiral inversion and dispositional enantioselectivity of the 2-arylpropionic acids and their biological consequences

Revisiting the General Solubility Equation: In Silico Prediction of Aqueous Solubility Incorporating the Effect of Topographical Polar Surface Area

The metabolic chiral inversion of 2-arylpropionic acids—a novel route with pharmacological consequences

The molecular biology of the flavin-containing monooxygenases of man

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