Search results for "ship"

showing 10 items of 6731 documents

Synthesis and antimicrobial activity of new 3-(1-R-3(5)-methyl-4-nitroso-1H-5(3)-pyrazolyl)-5-methylisoxazoles.

2000

A number of new 3-(1-R-3(5)-methyl-4-nitroso-1H-5(3)-pyrazolyl)-5-methylisoxazoles 6a-g (7b-f) were synthesized and tested for antibacterial and antifungal activity. Some of these compounds displayed antifungal activity at non-cytotoxic concentrations. Derivative 6c was 9 times more potent in vitro than miconazole and 20 times more selective against C. neoformans. 6c was also 8- and 125-fold more potent than amphotericin B and fluconazole, respectively. None of the compounds was active against bacteria. Preliminary structure-activity relationship (SAR) studies showed that the NO group at position 4 of the pyrazole ring is essential for the activity. Lipophilicity of the pyrazole moiety, N-a…

Antifungal AgentsStereochemistryClinical BiochemistryPharmaceutical ScienceMicrobial Sensitivity TestsPyrazoleGram-Positive BacteriaBiochemistryChemical synthesischemistry.chemical_compoundStructure-Activity RelationshipAnti-Infective AgentsDrug DiscoveryGram-Negative BacteriamedicineMoietyHumansCytotoxicityMolecular BiologyChemistryOrganic ChemistryFungiNitrosoIsoxazolesAntimicrobialAnti-Bacterial AgentsLipophilicityCryptococcus neoformansHIV-1Molecular MedicineMiconazolemedicine.drugBioorganicmedicinal chemistry
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Antifungal activity and tautomeric cyclization equilibria of formylphenylboronic acids

2019

2-Formylphenylboronic acid and four isomeric fluoro-2-formylphenylboronic acids have been found active against a series of fungal strains: Aspergillus, Fusarium, Penicillium and Candida. The level of antifungal activity was evaluated by agar diffusion tests as well as the determination of minimum inhibitory concentrations (MICs) by serial dilution method. Among the tested compounds, 4-fluoro-2-formylphenylboronic acid - an analogue of the known antifungal drug Tavaborole (AN2690) - proved to be the most potent antifungal agent. The tautomeric equilibrium leading to the formation of 3-hydroxybenzoxaboroles as well as the position of the fluorine substituent were revealed to play a crucial ro…

Antifungal Agentsfood.ingredientSerial dilutionStereochemistryAntifungal drugSubstituentMicrobial Sensitivity TestsFormylphenylboronic acid01 natural sciencesBiochemistryStructure-Activity Relationshipchemistry.chemical_compoundfoodFusariumDrug DiscoveryAgarAntifungal activityTautomerizationMolecular BiologyCandidaAspergillusTavaboroleDose-Response Relationship DrugMolecular Structurebiology010405 organic chemistryChemistryOrganic ChemistryPenicilliumCyclization equilibriaOrganoboron compoundsbiology.organism_classificationBoronic AcidsTautomer0104 chemical sciences010404 medicinal & biomolecular chemistryAspergillusCyclizationPenicilliumBioorganic Chemistry
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Synthesis and biological evaluation of pyridinebetaine A and B

2009

The synthesis of the marine natural products pyridinebetaine A and B is reported. The biological evaluation of pyridinebetaine A and B and several analogues as cytotoxic, antifungal and antiviral agents is also described. Unfortunately, none of the compounds tested showed relevant antifungal or cytotoxic activity. Only pyridinebetaine B reduced the Herpes simplex virus type 1 virus replication, though only weakly.

AntifungalAntifungal Agentsmedicine.drug_classHerpesvirus 1 HumanPlant ScienceBiologyVirus Replicationmedicine.disease_causeAntiviral AgentsBiochemistryAnalytical ChemistryMicrobiologyStructure-Activity RelationshipAlkaloidsChlorocebus aethiopsmedicineAnimalsHumansCytotoxic T cellVero CellsBiological evaluationMolecular StructureOrganic ChemistryFungiVirologyBetaineHerpes simplex virusViral replicationHeLa CellsNatural Product Research
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DHFR Inhibitors: Reading the Past for Discovering Novel Anticancer Agents.

2019

Dihydrofolate reductase inhibitors are an important class of drugs, as evidenced by their use as antibacterial, antimalarial, antifungal, and anticancer agents. Progress in understanding the biochemical basis of mechanisms responsible for enzyme selectivity and antiproliferative effects has renewed the interest in antifolates for cancer chemotherapy and prompted the medicinal chemistry community to develop novel and selective human DHFR inhibitors, thus leading to a new generation of DHFR inhibitors. This work summarizes the mechanism of action, chemical, and anticancer profile of the DHFR inhibitors discovered in the last six years. New strategies in DHFR drug discovery are also provided, …

AntifungalCancer chemotherapymedicine.drug_classDrug Evaluation Preclinicaldihydrofolate reductase (DHFR) enzymePharmaceutical ScienceAntineoplastic AgentsComputational biologyReview01 natural scienceshybrid compoundsAnalytical Chemistrylcsh:QD241-44103 medical and health sciencesStructure-Activity RelationshipFolic Acidlcsh:Organic chemistryheterocyclic compoundsNeoplasmsDihydrofolate reductaseparasitic diseasesDrug DiscoverymedicineAnimalsHumansPhysical and Theoretical Chemistry030304 developmental biology0303 health sciencesHeterocyclic compoundbiology010405 organic chemistryDrug discoveryOrganic ChemistryDHFR inhibitors as anticancer agentSettore CHIM/08 - Chimica Farmaceutica0104 chemical sciencesDHFR drug discoveryTetrahydrofolate DehydrogenaseMechanism of actionChemistry (miscellaneous)Settore CHIM/03 - Chimica Generale E InorganicaDHFR inhibitors as anticancer agentsbiology.proteinMolecular MedicineFolic Acid Antagonistsmedicine.symptomMolecules (Basel, Switzerland)
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Novel isoquinoline derivatives as antimicrobial agents.

2013

The wide variety of potent biological activities of natural and synthetic isoquinoline alkaloids encouraged us to develop novel antimicrobial isoquinoline compounds. We synthesized a variety of differently functionalized 1-pentyl-6,7-dimethoxy-1,2,3,4-tetrahydroisoquinolines (THIQs), including dihydroisoquinolinium salts (2 and 5), methyl pentanoate-THIQ (6), 1-pentanol-THIQ (7), ester derivatives (8-15) and carbamate derivatives (16-23). We employed classic intramolecular Bischler-Napieralski cyclodehydration to generate the isoquinoline core. All the structures were characterized by nuclear magnetic resonance and mass spectrometry. The bactericide and fungicide activities were evaluated f…

AntifungalCarbamateAntifungal Agentsmedicine.drug_classmedicine.medical_treatmentClinical BiochemistryPharmaceutical ScienceMicrobial Sensitivity TestsGram-Positive BacteriaBiochemistrychemistry.chemical_compoundStructure-Activity RelationshipAnti-Infective AgentsDrug DiscoveryGram-Negative BacteriamedicineOrganic chemistryStructure–activity relationshipIsoquinolineMolecular BiologyEster derivativesChemistryOrganic ChemistryFungiAntimicrobialIsoquinolinesAnti-Bacterial AgentsIntramolecular forceMolecular MedicineBioorganicmedicinal chemistry
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QuBiLs-MAS method in early drug discovery and rational drug identification of antifungal agents

2015

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 correc…

AntifungalQuantitative structure–activity relationshipAntifungal AgentsLinear discriminant analysismedicine.drug_classIn silicoAtom-based quadratic indicesQSAR modelQuantitative Structure-Activity RelationshipBioengineeringDrug developmentComputational biologyQuantitative structure activity relationVrtual screening antifungal agentDrug DiscoverymedicineComputer SimulationDrug identificationChemistryDrug discoveryLinear modelDiscriminant AnalysisGeneral MedicineLinear discriminant analysisCombinatorial chemistryChemistryTest setLinear ModelsMolecular MedicineQuBiLs-MAS softwareStatistical modelAntifungal agent
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Application of molecular topology to the prediction of antifungal activity for a set of dication-substituted carbazoles, furans and benzimidazoles

2003

In this paper, the endpoint is the application of molecular topology to the search of QSAR relations into a group of dicationsubstituted carbazoles, furans and benzimidazoles, all showing antifungal activity against C. albicans. Mathematical and statistical methods such as linear regression and discriminant analysis, are used to goal. The obtained results clearly show a high efficiency of the formalism on the prediction and classification of antifungal activity. 83% of the compounds showing MIC , 10 mg/ml (active group) are correctly classified, whilst 100% overall accuracy is achieved for those compounds showing MIC . 100 mg/ml (inactive group). q 2003 Elsevier Science B.V. All rights rese…

AntifungalQuantitative structure–activity relationshipmedicine.drug_classStereochemistryChemistryCondensed Matter PhysicsLinear discriminant analysisBiochemistryDicationFormalism (philosophy of mathematics)Linear regressionmedicinePhysical and Theoretical ChemistryMolecular topologyActive groupJournal of Molecular Structure: THEOCHEM
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Ag+ Complexes as Potential Therapeutic Agents in Medicine and Pharmacy

2019

Silver is a non-essential element with promising antimicrobial and anticancer properties. This work is a detailed summary of the newest findings on the bioinorganic chemistry of silver, with a special focus on the applications of Ag+ complexes and nanoparticles. The coordination chemistry of silver is given a reasonable amount of attention, summarizing the most common silver binding sites and giving examples of such binding motifs in biologically important proteins. Possible applications of this metal and its complexes in medicine, particularly as antibacterial and antifungal agents and in cancer therapy, are discussed in detail. The most recent data on silver nanoparticles are also summari…

Antifungalsilver nanoparticlesSilvermedicine.drug_classCancer therapyMetal NanoparticlesNanoparticleAntineoplastic Agents02 engineering and technologyPharmacology010402 general chemistry01 natural sciencesBiochemistrySilver(I) complexesSilver nanoparticleCoordination complexStructure-Activity RelationshipAnti-Infective AgentsCoordination ComplexesDrug DiscoverymedicineHumansAmino Acid SequenceAmino AcidsIonsPharmacologychemistry.chemical_classificationMolecular StructureChemistryOrganic Chemistryantibacterial and anticancer activity of Ag+021001 nanoscience & nanotechnologyCombinatorial chemistry0104 chemical sciencescysteine and methionine motifsMolecular Medicine0210 nano-technologyProtein BindingCurrent Medicinal Chemistry
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Different response of TH1 cells for stimulation with anti-CD3 antibodies.

1990

In this report, evidence is provided for a further subdivision of CD4+ T helper cell lines. The earlier definition of the TH1 and TH2 subtypes was confirmed by their differential response to interleukin (IL) 1. An additional subdivision of the TH1 subset was revealed when TH1 cell lines were costimulated with anti-CD3 antibodies and IL2. The IL2-induced proliferation of three of the resulting TH1 lines was blocked by anti-CD3 antibodies. By contrast, no such block was observed in a fourth TH1 cell line. In all four lines anti-CD3 triggering caused production of IL2. The block of proliferation was reversed neither by antigen-presenting cells nor by phorbol 12-myristate 13-acetate, a protein …

Antigens Differentiation T-LymphocyteCD4-Positive T-LymphocytesCD3 ComplexCell Survivalmedicine.medical_treatmentImmunologyDose-Response Relationship ImmunologicReceptors Antigen T-CellMice Inbred StrainsBiologyLymphocyte Activationchemistry.chemical_compoundMiceAntigenmedicineImmunology and AllergyAnimalsInterleukin 4Cell growthInterleukinAntibodies MonoclonalT helper cellT-Lymphocytes Helper-InducerMolecular biologyCytokinemedicine.anatomical_structurechemistryCell cultureImmunologyPhorbolInterleukin-2Tetradecanoylphorbol AcetateInterleukin-4SpleenEuropean journal of immunology
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Alternative pathway activation of T cells by binding of CD2 to its cell-surface ligand.

1987

Activation of resting T lymphocytes is initiated by the interaction of cell-surface receptors with their corresponding ligands. In addition to activation through the CD3 (T3)-Ti antigen-receptor complex1, recent experiments have demonstrated induction of T-cell proliferation through the CD2 (T11) molecule2–4, traditionally known as the erythrocyte(E)-receptor, through which T cells can bind red blood cells (RBC)5–7. This 'alternative pathway' of T-cell activation2 was observed in vitro in response to combinations of anti-CD2 monoclonal antibodies (mAbs) that bind to distinct epitopes of CD2, such as mAbs against T112 plus T113 (ref. 2). The physiological importance of this activation pathwa…

Antigens Differentiation T-LymphocyteMultidisciplinaryErythrocytesRosette FormationbiologyCD3T-LymphocytesDose-Response Relationship ImmunologicAntibodies MonoclonalLigandsLymphocyte ActivationMolecular biologyIn vitroCD2 moleculeEpitopeCell biologyCell surface receptorAntigens SurfaceAlternative complement pathwaybiology.proteinHumansIL-2 receptorReceptorNature
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