QSPR study for the prediction of half-wave potentials of benzoxazines by heuristic method and radial basis function neural network

The half-wave potential (E1/2) is an important electrochemical property of organic compounds. In this work, a quantitative structure-property relationship (QSPR) analysis has been conducted on the half-wave reduction potential (E1/2) of 40 substituted benzoxazines by means of both a heuristic method (HM) and a non-linear radial basis function neural network (RBFNN) modeling method. The statistical parameters provided by the HM model (R2 =0.946; F=152.576; RMSCV=0.0141) and the RBFNN model (R2=0.982; F=1034.171 and RMS =0.0209) indicated satisfactory stability and predictive ability. The obtained models showed that benzoxazines with larger Min valency of a S atom (MVSA), lower Relative number of H atom (RNHA) and Min n-n repulsion for a C-H bond (MnnRCHB) and Minimal Electrophilic Reactivity Index for a C atom (MERICA) can be more easily reduced. This QSPR approach can contribute to a better understanding of structural factors of the organic compounds that contribute to the E1/2, and can be useful in predicting the E1/2 of other compounds.

[1]  M. Dewar,et al.  Development and use of quantum molecular models. 75. Comparative tests of theoretical procedures for studying chemical reactions , 1985 .

[2]  Remo Guidieri Res , 1995, RES: Anthropology and Aesthetics.

[3]  J. Mark Introduction to radial basis function networks , 1996 .

[4]  D. B. Boyd Quantum Chemistry Program Exchange. , 1999, Journal of molecular graphics & modelling.

[5]  Milan Randic,et al.  Quantitative Structure-Activity Relationship of Flavonoid Analogues. 3. Inhibition of p56lck Protein Tyrosine Kinase , 2000, J. Chem. Inf. Comput. Sci..

[6]  Ruisheng Zhang,et al.  Quantitative Prediction of Liquid Chromatography Retention of N-Benzylideneanilines Based on Quantum Chemical Parameters and Radial Basis Function Neural Network , 2002, J. Chem. Inf. Comput. Sci..

[7]  Paolo Ruggerone,et al.  Computational Materials Science X , 2002 .

[8]  Ian Spence,et al.  Selective descriptor pruning for QSAR/QSPR studies using artificial neural networks , 2003, J. Comput. Chem..

[9]  Subhash C. Basak,et al.  Interrelationship of Major Topological Indices Evidenced by Clustering , 2004 .

[10]  Haifeng Chen,et al.  Comparative Study of QSAR/QSPR Correlations Using Support Vector Machines, Radial Basis Function Neural Networks, and Multiple Linear Regression , 2004, J. Chem. Inf. Model..

[11]  A. Balaban,et al.  QSAR study using topological indices for inhibition of carbonic anhydrase II by sulfanilamides and Schiff bases , 2004, Molecular Diversity.

[12]  Karel Nesmerak,et al.  Quantitative structure–property relationships of new benzoxazines and their electrooxidation as a model of metabolic degradation , 2005 .

[13]  Andrey A. Toropov,et al.  QSPR modeling of the half-wave potentials of benzoxazines by optimal descriptors calculated with the SMILES , 2006, Comput. Biol. Chem..

[14]  S. Yuan,et al.  Quantitative structure-property relationship studies on electrochemical degradation of substituted phenols using a support vector machine , 2006, SAR and QSAR in environmental research.

[15]  Zhide Hu,et al.  Accurate quantitative structure-property relationship model of mobilities of peptides in capillary zone electrophoresis. , 2006, The Analyst.

[16]  Nenad Trinajstić,et al.  QSPR study of polarographic half-wave reduction potentials of benzenoid hydrocarbons , 2006 .

[17]  M. Fatemi,et al.  Quantitative Structure–Property Relationship Prediction of the Half-Wave Potential for Substituted Nitrobenzenes in Five Nonaqueous Solvents , 2007 .

[18]  Farhad Gharagheizi,et al.  QSPR analysis for intrinsic viscosity of polymer solutions by means of GA-MLR and RBFNN , 2007 .

[19]  Iva B. Stoyanova-Slavova,et al.  QSPR modeling of flash points: an update. , 2007, Journal of Molecular Graphics and Modelling.

[20]  Bahram Hemmateenejad,et al.  Cyclic voltammetric, computational, and quantitative structure–electrochemistry relationship studies of the reduction of several 9,10-anthraquinone derivatives , 2007 .

[21]  Xiaoyun Zhang,et al.  Quantitative structure-activity relationship studies of a series of non-benzodiazepine structural ligands binding to benzodiazepine receptor. , 2008, European journal of medicinal chemistry.

[22]  Jahan B. Ghasemi,et al.  QSPR modeling of stability constants of diverse 15-crown-5 ethers complexes using best multiple linear regression , 2008 .

[23]  Khaled A. M. Gasem,et al.  Improved structure-property relationship models for prediction of critical properties , 2008 .