Search results for "relationship"

showing 10 items of 3616 documents

Quantitative Structure–Activity Relationship of the 4,5α-Dihydrotestosterone Steroid Family

2006

Predictive Quantitative Structure - Activity Relationship (QSAR) models of Anabolic/ Androgenic (A/A) activities for the 4,5a-dihydrotestosterone steroid family were obtained by means of multilinear regression using quantum and physicochemical Molecular Descriptors (MDs) as well as a genetic algorithm for the selection of the best subset of MDs. MDs included in our QSAR models allow the structural interpretation of the biological process, evidencing the main role of the shape of molecules, hydrophobicity, and electronic properties. Attempts were made to include lipophilicity (octanol-water partition coefficient) as well as electronic (lowest unoccupied molecular orbital properties and dipol…

Quantitative structure–activity relationshipAnabolismStereochemistryChemistrymedicine.medical_treatmentOrganic ChemistryRing (chemistry)Computer Science ApplicationsSteroidMolecular descriptorDihydrotestosteroneDrug DiscoveryLipophilicitymedicineAnabolic steroidmedicine.drugQSAR & Combinatorial Science
researchProduct

Quantitative Structure-Antioxidant Activity Models of Isoflavonoids: A Theoretical Study

2015

Seventeen isoflavonoids from isoflavone, isoflavanone and isoflavan classes are selected from Dalbergia parviflora. The ChEMBL database is representative from these molecules, most of which result highly drug-like. Binary rules appear risky for the selection of compounds with high antioxidant capacity in complementary xanthine/xanthine oxidase, ORAC, and DPPH model assays. Isoflavonoid structure-activity analysis shows the most important properties (log P, log D, pKa, QED, PSA, NH + OH ≈ HBD, N + O ≈ HBA). Some descriptors (PSA, HBD) are detected as more important than others (size measure Mw, HBA). Linear and nonlinear models of antioxidant potency are obtained. Weak nonlinear relationship…

Quantitative structure–activity relationshipAntioxidantantioxidantStereochemistryDPPHDalbergiamedicine.medical_treatmentQuantitative Structure-Activity RelationshipFlavonesArticleAntioxidantsCatalysisInorganic Chemistrylcsh:Chemistrychemistry.chemical_compoundIsoflavonoidmedicineStructure–activity relationshipPhysical and Theoretical ChemistryXanthine oxidaseMolecular Biologylcsh:QH301-705.5Spectroscopychemistry.chemical_classificationChemistryQSARstructure-activity relationshippoor absorption or permeationOrganic ChemistryGeneral MedicineIsoflavonesIsoflavonesComputer Science ApplicationsADMETBiochemistrylcsh:Biology (General)lcsh:QD1-999Oxidation-ReductionabsorptionInternational Journal of Molecular Sciences
researchProduct

Machine learning-based models to predict modes of toxic action of phenols to Tetrahymena pyriformis.

2017

The phenols are structurally heterogeneous pollutants and they present a variety of modes of toxic action (MOA), including polar narcotics, weak acid respiratory uncouplers, pro-electrophiles, and soft electrophiles. Because it is often difficult to determine correctly the mechanism of action of a compound, quantitative structure-activity relationship (QSAR) methods, which have proved their interest in toxicity prediction, can be used. In this work, several QSAR models for the prediction of MOA of 221 phenols to the ciliated protozoan Tetrahymena pyriformis, using Chemistry Development Kit descriptors, are reported. Four machine learning techniques (ML), k-nearest neighbours, support vector…

Quantitative structure–activity relationshipAntiprotozoal AgentsQuantitative Structure-Activity RelationshipBioengineeringModes of toxic action010501 environmental sciencesMachine learningcomputer.software_genre01 natural sciencesMachine Learningchemistry.chemical_compoundPhenolsMolecular descriptorDrug DiscoveryPhenols0105 earth and related environmental sciencesCiliated protozoanArtificial neural networkbusiness.industryTetrahymena pyriformisGeneral Medicine0104 chemical sciencesSupport vector machine010404 medicinal & biomolecular chemistrychemistryTetrahymena pyriformisMolecular MedicineArtificial intelligenceNeural Networks ComputerbusinesscomputerSAR and QSAR in environmental research
researchProduct

Artificial neural network applied to prediction of fluorquinolone antibacterial activity by topological methods.

2000

A new topological method that makes it possible to predict the properties of molecules on the basis of their chemical structures is applied in the present study to quinolone antimicrobial agents. This method uses neural networks in which training algorithms are used as well as different concepts and methods of artificial intelligence with a suitable set of topological descriptors. This makes it possible to determine the minimal inhibitory concentration (MIC) of quinolones. Analysis of the results shows that the experimental and calculated values are highly similar. It is possible to obtain a QSAR interpretation of the information contained in the network after the training has been carried …

Quantitative structure–activity relationshipArtificial neural networkBasis (linear algebra)ChemistryMicrobial Sensitivity TestsTopologySet (abstract data type)Structure-Activity RelationshipAnti-Infective AgentsDrug DiscoveryMolecular MedicineNeural Networks ComputerAntibacterial activityTopology (chemistry)AlgorithmsAntibacterial agentFluoroquinolonesJournal of medicinal chemistry
researchProduct

<strong>Machine Learning and Atom-Based Quadratic Indices for Proteasome Inhibition Prediction </strong>

2015

The atom-based quadratic indices are used in this work together with some machine learning techniques that includes: support vector machine, artificial neural network, random forest and k-nearest neighbor. This methodology is used for the development of two quantitative structure-activity relationship (QSAR) studies for the prediction of proteasome inhibition. A first set consisting of active and non-active classes was predicted with model performances above 85% and 80% in training and validation series, respectively. These results provided new approaches on proteasome inhibitor identification encouraged by virtual screenings procedures. .

Quantitative structure–activity relationshipArtificial neural networkSeries (mathematics)Computer sciencebusiness.industryMachine learningcomputer.software_genreRandom forestSupport vector machineSet (abstract data type)Quadratic equationProteasome inhibitormedicineArtificial intelligencebusinesscomputermedicine.drugProceedings of MOL2NET, International Conference on Multidisciplinary Sciences
researchProduct

Comparing in vivo data and in silico predictions for acute effects assessment of biocidal active substances and metabolites for aquatic organisms.

2020

Abstract The purpose of this study was to determine the acute toxicity in aquatic organisms of one biocidal active substance and six metabolites derived from biocidal active substances and to assess the suitability of available QSAR models to predict the obtained values. We have reported the acute toxicity in sewage treatment plant (STP) microorganisms, in the freshwater microalgae Pseudokirchneriella subcapitata and in Daphnia magna following OECD test methods. We have also identified in silico models for acute toxicity of these trophic levels currently available in widely recognized platforms such as VEGA and the OECD QSAR ToolBox. A total of six, four and two models have been selected fo…

Quantitative structure–activity relationshipBiocideAquatic OrganismsHealth Toxicology and MutagenesisIn silicoMicroorganismDaphnia magna0211 other engineering and technologiesQuantitative Structure-Activity RelationshipFresh Water02 engineering and technology010501 environmental sciences01 natural sciencesDaphniaModels BiologicalChlorophyceaeMicroalgaeAnimalsComputer Simulation0105 earth and related environmental sciencesEC50021110 strategic defence & security studiesbiologyChemistryPublic Health Environmental and Occupational HealthGeneral Medicinebiology.organism_classificationPollutionAcute toxicityDaphniaEnvironmental chemistryWater Pollutants ChemicalDisinfectantsEcotoxicology and environmental safety
researchProduct

Biopartitioning micellar chromatoraphy to predict blood to lung, blood to liver, blood to fat and blood to skin partition coefficients of drugs

2009

[EN] Biopartitioning micellar chromatography (BMC), a mode of micellar liquid chromatography that uses micellar mobile phases of Brij35 in adequate experimental conditions, has demonstrated to be useful in mimicking the drug partitioning process into biological systems. In this paper, the usefulness of BMC for predicting the partition coefficients from blood to lung, blood to liver. blood to fat and blood to skin is demonstrated. PLS2 and multiple linear regression (MLR) models based on BMC retention data are proposed and compared with other ones reported in bibliography. The proposed models present better or similar descriptive and predictive capability. (C) 2008 Elsevier B.V. All rights r…

Quantitative structure–activity relationshipBlood to skinQuantitative Structure-Activity RelationshipPredictive capabilityPartition coefficientsBiochemistryAnalytical ChemistryPharmacokineticsBlood to lungLinear regressionQUIMICA ANALITICAmedicineAnimalsHumansEnvironmental ChemistryPharmacokineticsTissue DistributionLungMicellesSpectroscopySkinLungChromatographyChemistryComputational BiologyChromatography liquidBiopartitioning micellar chromatographyRatsPartition coefficientmedicine.anatomical_structureAdipose TissueLiverPharmaceutical PreparationsMicellar liquid chromatographyLinear ModelsBlood to fatRabbitsChromatography LiquidBlood to liver
researchProduct

Quantitative structure-activity relationships for the toxicity of organophosphorus and carbamate pesticides to the Rainbow trout Onchorhyncus mykiss.

2006

This study has investigated the development of quantitative structure-activity relationships (QSARs) for the toxicity to rainbow trout Onchorhyncus mykiss Walbaum of 75 organophosphorus and carbamate pesticides. The toxicity data were obtained from an openly available toxicological database and were selected to be representative of a single endpoint. A large number of physicochemical and structural descriptors were calculated for the pesticides. QSAR models were developed using multiple linear regression and partial least-squares analyses. Following the removal of a small number of outliers, predictive QSARs were developed on small numbers of mechanistically relevant descriptors. Applying m…

Quantitative structure–activity relationshipCarbamatemedicine.medical_treatmentQuantitative Structure-Activity RelationshipRisk AssessmentToxicologyOrganophosphorus CompoundsmedicineAnimalsPesticidesToxicity dataChemistryQuantitative structureGeneral MedicinePesticideCarbamate pesticidesInsect ScienceEnvironmental chemistryOncorhynchus mykissToxicityMultivariate AnalysisLinear ModelsRainbow troutCarbamatesCholinesterase InhibitorsAgronomy and Crop SciencePest management science
researchProduct

Novel Cancer Chemotherapy Hits by Molecular Topology: Dual Akt and Beta-Catenin Inhibitors

2015

Background and purposeColorectal and prostate cancers are two of the most common types and cause of a high rate of deaths worldwide. Therefore, any strategy to stop or at least slacken the development and progression of malignant cells is an important therapeutic choice. The aim of the present work is the identification of novel cancer chemotherapy agents. Nowadays, many different drug discovery approaches are available, but this paper focuses on Molecular Topology, which has already demonstrated its extraordinary efficacy in this field, particularly in the identification of new hit and lead compounds against cancer. This methodology uses the graph theoretical formalism to numerically chara…

Quantitative structure–activity relationshipCell SurvivalColorectal cancerScienceQuantitative Structure-Activity RelationshipAntineoplastic AgentsComputational biologyBiologyBioinformaticsProstate cancerCell Line TumorNeoplasmsDrug DiscoverymedicineHumansProtein Kinase InhibitorsProtein kinase Bbeta CateninPI3K/AKT/mTOR pathwayBiological ProductsMultidisciplinaryMolecular StructureDrug discoveryTOR Serine-Threonine KinasesQRBiological activitymedicine.diseaseMedicineTOR Serine-Threonine KinasesProto-Oncogene Proteins c-aktSignal TransductionResearch ArticlePLOS ONE
researchProduct

Use of Catalyst in a 3D-QSAR Study of the Interactions between Flavor Compounds and β-Lactoglobulin

2003

This paper reports a 3D-QSAR study using Catalyst software to explain the nature of interactions between flavor compounds and beta-lactoglobulin. A set of 35 compounds, for which dissociation constants were previously determined by affinity chromatography, was chosen. The set was divided into three subsets. An automated hypothesis generation, using HypoGen software, produced a model that made a valuable estimation of affinity and provided an explanation for the lack of correlation previously observed between the hydrophobicity of terpenes and the affinity for the protein. On the basis of these results, it appears that aroma binding to beta-lactoglobulin is caused by both hydrophobic interac…

Quantitative structure–activity relationshipChemical PhenomenaChemistry PhysicalTerpenesChemistryStereochemistryQuantitative Structure-Activity RelationshipHydrogen BondingLactoglobulinsGeneral ChemistryCatalysisDissociation constantModels ChemicalComputational chemistryOdorantsComputer SimulationDrug InteractionsGeneral Agricultural and Biological SciencesSoftwareFlavorJournal of Agricultural and Food Chemistry
researchProduct