A Model for the Recognition of Protein Kinases Based on the Entropy of 3D van der Waals Interactions

Abstract: The study and prediction of kinase function (kinomics) is of major importance for proteome research due to the widespread distribution of kinases. However, the prediction of protein function based on the similarity between a functionally annotated 3D template and a query structure may fail, for instance, if a similar protein structure cannot be identified. Alternatively, function can be assigned using 3D-structural empirical parameters. In previous studies, we introduced parameters based on electrostatic entro… Show more

“…15 Applications to macromolecules have been restricted to the field of RNA without applications to proteins. [16][17][18][19] In three recent reviews, we discussed the multiple applications of MARCH-INISDE to classic QSAR, macromolecular QSAR, and specially mt-QSAR. 20,21 However, we have never used before stochastic spectral moments to develop an mt-QSAR for antiparasitic drugs.…”

Multi-target spectral moment QSAR versus ANN for antiparasitic drugs against different parasite species

“…15 Applications to macromolecules have been restricted to the field of RNA without applications to proteins. [16][17][18][19] In three recent reviews, we discussed the multiple applications of MARCH-INISDE to classic QSAR, macromolecular QSAR, and specially mt-QSAR. 20,21 However, we have never used before stochastic spectral moments to develop an mt-QSAR for antiparasitic drugs.…”

Multi-target spectral moment QSAR versus ANN for antiparasitic drugs against different parasite species

“…Computational models are one of the powerful tools to design highly active molecules 20,21 that are able to predict structures and the biological activities of anti-cancer compounds. Many QSAR studies [22][23][24][25][26] were developed and published as screening methods for design of new chemical entities (NCE′s).…”

Use of Quantitative Structure–Activity Relationship (QSAR) and ADMET prediction studies as screening methods for design of benzyl urea derivatives for anti-cancer activity

“…The functions of proteins correlate with their threedimensional (3D) structures. Based on the information of the 3D structure of proteins, González-Díaz and colleagues developed some models and web servers to discriminate between enzymes and nonenzymes [14,15,39], predict enzyme classes [13], and recognize protein kinases [26,27]. They also developed some quantitative structureactivity relationship (QSAR)-based methods [16,24,25] to classify polygalacturonases and nonpolygalacturonases [1], discriminate dyneins from nondyneins [17], and predict RNase scores [23], achieving encouraging results.…”

Prediction of ketoacyl synthase family using reduced amino acid alphabets