Yunaimy Díaz scite author profile

Yunaimy Díaz

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5Publications

30Citation Statements Received

177Citation Statements Given

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Affiliations

Research International (United States), Central University of Las Villas

Publications

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QuBiLs-MAS method in early drug discovery and rational drug identification of antifungal agents

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et al. 2015

SAR and QSAR in Environmental Research

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The QuBiLs-MAS approach is used for the in silico modelling of the antifungal activity of organic molecules. To this effect, non-stochastic (NS) and simple-stochastic (SS) atom-based quadratic indices are used to codify chemical information for a comprehensive dataset of 2478 compounds having a great structural variability, with 1087 of them being antifungal agents, covering the broadest antifungal mechanisms of action known so far. The NS and SS index-based antifungal activity classification models obtained using linear discriminant analysis (LDA) yield correct classification percentages of 90.73% and 92.47%, respectively, for the training set. Additionally, these models are able to correctly classify 92.16% and 87.56% of 706 compounds in an external test set. A comparison of the statistical parameters of the QuBiLs-MAS LDA-based models with those for models reported in the literature reveals comparable to superior performance, although the latter were built over much smaller and less diverse datasets, representing fewer mechanisms of action. It may therefore be inferred that the QuBiLs-MAS method constitutes a valuable tool useful in the design and/or selection of new and broad spectrum agents against life-threatening fungal infections.

tomocomd‐camps and protein bilinear indices – novel bio‐macromolecular descriptors for protein research: I. Predicting protein stability effects of a complete set of alanine substitutions in the Arc repressor

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et al. 2010

The FEBS Journal

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Descriptors calculated from a specific representation scheme encode only one part of the chemical information. For this reason, there is a need to construct novel graphical representations of proteins and novel protein descriptors that can provide new information about the structure of proteins. Here, a new set of protein descriptors based on computation of bilinear maps is presented. This novel approach to biomacromolecular design is relevant for QSPR studies on proteins. Protein bilinear indices are calculated from the kth power of nonstochastic and stochastic graphtheoretic electronic-contact matrices, M k m and s M k m , respectively. That is to say, the kth nonstochastic and stochastic protein bilinear indices are calculated using M k m and s M k m as matrix operators of bilinear transformations. Moreover, biochemical information is codified by using different pair combinations of amino acid properties as weightings. Classification models based on a protein bilinear descriptor that discriminate between Arc mutants of stability similar or inferior to the wild-type form were developed. These equations permitted the correct classification of more than 90% of the mutants in training and test sets, respectively. To predict t m and DDG o f values for Arc mutants, multiple linear regression and piecewise linear regression models were developed. The multiple linear regression models obtained accounted for 83% of the variance of the experimental t m . Statistics calculated from internal and external validation procedures demonstrated robustness, stability and suitable power ability for all models. The results achieved demonstrate the ability of protein bilinear indices to encode biochemical information related to those structural changes significantly influencing the Arc repressor stability when punctual mutations are induced.Abbreviations BOOT, bootstrapping; ECI, electronic charge index; HPI, hydropathy index; ISA, isotropic surface area; LDA, linear discrimination analysis; LOO, leave-one out; MCC, Matthew's correlation coefficient; QSAR, quantitative structure-activity relationship; QSPR, quantitative structure-property relationship; SDEC, standard error in calculation.

TOMOCOMD-CARDD Method in Early Drug Discoverybased Rational Drug Selection of Antifungal Agents

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et al. 2008

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Nucleotide’s Bilinear Indices: Novel Bio-Macromolecular Descriptors for Bioinformatics Studies of Nucleic Acids. I. Prediction of Paromomycin’s Affinity Constant with HIV-1 ?-RNA Packaging Region

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et al. 2008

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Nucleotide's bilinear indices: Novel bio-macromolecular descriptors for bioinformatics studies of nucleic acids. I. Prediction of paromomycin's affinity constant with HIV-1 Ψ-RNA packaging region

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et al. 2009

Journal of Theoretical Biology

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