Search results for "R1"

showing 10 items of 1016 documents

The role of NFATc2 in chronic autoimmune neuroinflammation

2014

Dimethyl fumarate (DMF), a fumaric acid ester with potential immunomodulatory and neuroprotective effect, was recently approved as treatment for relapsing–remitting multiple sclerosis (MS). DMF ameliorates the clinical course of experimental autoimmune encephalomyelitis (EAE), the murine model of MS, where it exerts a neuroprotective action, reducing demyelination and axonal loss. We hypothesized that these effects are mediated, at least in part, through its action on microglia. We used a microglial cell line (N9) activated with lipopolysaccharide (LPS) to analyze the effect of monomethyl fumarate (MMF), a bioactive metabolite of DMF, in vitro. We show that MMF reverts the molecular phenoty…

MicrogliaDimethyl fumarateChemistryImmunologyExperimental autoimmune encephalomyelitisInflammationPharmacologymedicine.diseaseNeuroprotectionchemistry.chemical_compoundmedicine.anatomical_structureNeurologyCX3CR1medicineImmunology and AllergyNeurology (clinical)medicine.symptomReceptorNeuroinflammationJournal of Neuroimmunology
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In Silico Insights into the SARS CoV-2 Main Protease Suggest NADH Endogenous Defences in the Control of the Pandemic Coronavirus Infection

2020

COVID-19 is a pandemic health emergency faced by the entire world. The clinical treatment of the severe acute respiratory syndrome (SARS) CoV-2 is currently based on the experimental administration of HIV antiviral drugs, such as lopinavir, ritonavir, and remdesivir (a nucleotide analogue used for Ebola infection). This work proposes a repurposing process using a database containing approximately 8000 known drugs in synergy structure- and ligand-based studies by means of the molecular docking and descriptor-based protocol. The proposed in silico findings identified new potential SARS CoV-2 main protease (MPRO) inhibitors that fit in the catalytic binding site of SARS CoV-2 MPRO. Several sel…

Models Molecular0301 basic medicineAgingmedicine.medical_treatmentcoronaviruslcsh:QR1-502Viral Nonstructural Proteinsmedicine.disease_causelcsh:Microbiology0302 clinical medicineSettore BIO/10 - BiochimicaCoronavirus 3C ProteasesCoronavirusvirus diseasesLopinavirHypothesisMolecular Docking SimulationCysteine EndopeptidasesDrug repositioningInfectious Diseases030220 oncology & carcinogenesisCoronavirus InfectionsOxidation-Reductionmedicine.drugDNA damageIn silicoPneumonia ViralBiologyAntiviral AgentsHIV-proteaseBetacoronavirus03 medical and health sciencesSARS-CoV-2 main proteaseVirologymedicineHumansComputer SimulationProtease InhibitorsPandemicsBinding SitesProteaseSARS-CoV-2Drug RepositioningCOVID-19HIV Protease InhibitorsDRUDIT web servicemolecular dockingNADbiology.organism_classificationVirologySettore CHIM/08 - Chimica FarmaceuticaCOVID-19 Drug Treatmentcoronaviru030104 developmental biologyNADHRitonavirBetacoronavirusDNA Damage
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The solution behavior of dopamine in the presence of mono and divalent cations: A thermodynamic investigation in different experimental conditions

2021

The interactions of dopamine [2-(3,4-Dihydroxyphenyl)ethylamine, (Dop-)] with methylmercury(II) (CH3Hg+), magnesium(II), calcium(II), and tin(II) were studied in NaCl(aq) at different ionic strengths and temperatures. Different speciation models were obtained, mainly characterized by mononuclear species. Only for Sn2+ we observed the formation of binuclear complexes (M2L2 and M2LOH (charge omitted for simplicity)

Models MolecularCations DivalentDopaminePotentiometric titrationEnthalpyIonic bondingBiochemistryMicrobiologyArticleDivalentchemistry.chemical_compoundMetal complexesTheoryofComputation_ANALYSISOFALGORITHMSANDPROBLEMCOMPLEXITYSettore CHIM/01 - Chimica AnaliticaStability constantsMolecular Biologychemistry.chemical_classificationCatechol; Chemical speciation; Metal complexes; Sequestration; Stability constantsLigandHydrolysisOsmolar ConcentrationTemperatureSequestrationHydrogen-Ion ConcentrationQR1-502SolutionsKineticschemistrySpecific ion interaction theoryIonic strengthThermogravimetryCatecholPhysical chemistryThermodynamicsChemical speciationEthylamine
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Targeting the Class A Carbapenemase GES-5 via Virtual Screening

2020

The worldwide spread of &beta

Models MolecularDrugantibiotic resistanceGES-5Antibiotic resistancemedia_common.quotation_subjectIn silicoDrug Evaluation Preclinicallcsh:QR1-502Guyana extended-spectrum-β-lactamaseMicrobial Sensitivity TestsComputational biologyBiologyBiochemistrybeta-LactamasesArticlelcsh:Microbiologyguyana extended-spectrum-β-lactamasecarbapenemase03 medical and health sciencesAntibiotic resistanceBacterial ProteinsDrug Resistance BacterialHumansAntibiotic resistance; GES-5; Guyana extended-spectrum-β-lactamase; carbapenemase; virtual screening; docking; noncovalent inhibitionges-5noncovalent inhibitionMolecular Biology030304 developmental biologymedia_common0303 health sciencesVirtual screening030306 microbiologyAntibiotic resistance; Carbapenemase; Docking; GES-5; Guyana extended-spectrum-β-lactamase; Noncovalent inhibition; Virtual screeningHit to leadvirtual screeningAntimicrobialAnti-Bacterial AgentsCarbapenemsdockingBiomolecules
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Solution Structure of the R3H Domain from Human Sμbp-2

2003

The R3H domain is a conserved sequence motif, identified in over 100 proteins, that is thought to be involved in polynucleotide-binding, including DNA, RNA and single-stranded DNA. In this work the 3D structure of the R3H domain from human Smubp-2 was determined by NMR spectroscopy. It is the first 3D structure determination of an R3H domain. The fold presents a small motif, consisting of a three-stranded antiparallel beta-sheet and two alpha-helices, which is related to the structures of the YhhP protein and the C-terminal domain of the translational initiation factor IF3. The similarities are non-trivial, as the amino acid identities are below 10%. Three conserved basic residues cluster o…

Models MolecularEGF-like domainMolecular Sequence DataProtein domainProkaryotic Initiation Factor-3Immunoglobulin domainStructure-Activity RelationshipBacterial ProteinsStructural BiologyEVH1 domainHumansAmino Acid SequenceB3 domainNuclear Magnetic Resonance BiomolecularMolecular BiologyChemistryEscherichia coli ProteinsDHR1 domainProtein Structure TertiaryDNA-Binding ProteinsSolutionsCrystallographyCyclic nucleotide-binding domainSequence AlignmentTranscription FactorsBinding domainJournal of Molecular Biology
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Phosphonic Acid Analogs of Fluorophenylalanines as Inhibitors of Human and Porcine Aminopeptidases N: Validation of the Importance of the Substitutio…

2020

International audience; A library of phosphonic acid analogs of phenylalanine substituted with fluorine, chlorine and trifluoromethyl moieties on the aromatic ring was synthesized and evaluated for inhibitory activity against human (hAPN) and porcine (pAPN) aminopeptidases. Fluorogenic screening indicated that these analogs are micromolar or submicromolar inhibitors, both enzymes being more active against hAPN. In order to better understand the mode of the action of the most active compounds, molecular modeling was used. It confirmed that aminophosphonic portion of the enzyme is bound nearly identically in the case of all the studied compounds, whereas the difference in activity results fro…

Models MolecularMolecular modelPhosphorous AcidsSwineStereochemistrylcsh:QR1-502chemistry.chemical_elementPhenylalanine[CHIM.THER]Chemical Sciences/Medicinal ChemistryCD13 AntigensRing (chemistry)Biochemistrylcsh:MicrobiologyArticle03 medical and health scienceschemistry.chemical_compound0302 clinical medicinefluorineinhibitorsChlorineSide chainAnimalsHumansMolecular BiologyEnzyme Assays030304 developmental biologyphosphonic acid analogschemistry.chemical_classification0303 health sciencesTrifluoromethyl[CHIM.ORGA]Chemical Sciences/Organic chemistrymolecular modelingReproducibility of ResultsStereoisomerismMolecular Docking SimulationEnzymechemistry030220 oncology & carcinogenesishuman and porcine aminopeptidaseEnantiomerMolecules
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Synthesis and Inhibitory Studies of Phosphonic Acid Analogues of Homophenylalanine and Phenylalanine towards Alanyl Aminopeptidases.

2020

A library of novel phosphonic acid analogues of homophenylalanine and phenylalanine, containing fluorine and bromine atoms in the phenyl ring, have been synthesized. Their inhibitory properties against two important alanine aminopeptidases, of human (hAPN, CD13) and porcine (pAPN) origin, were evaluated. Enzymatic studies and comparison with literature data indicated the higher inhibitory potential of the homophenylalanine over phenylalanine derivatives towards both enzymes. Their inhibition constants were in the submicromolar range for hAPN and the micromolar range for pAPN, with 1-amino-3-(3-fluorophenyl) propylphosphonic acid (compound 15c) being one of the best low-molecular inhibitors …

Models MolecularProtein Conformation alpha-HelicalMolecular modelStereochemistryPhosphorous AcidsSwinePhenylalaninelcsh:QR1-502PhenylalanineCD13 Antigenscomputer-aided simulationsInhibitory postsynaptic potential01 natural sciencesBiochemistrylcsh:MicrobiologyArticlePhenylalanine derivativesSubstrate SpecificitySmall Molecule Libraries03 medical and health sciencesStructure-Activity RelationshipAnimalsHumansProtein Interaction Domains and MotifsEnzyme Inhibitorsphosphonic acid inhibitorsMolecular Biology030304 developmental biologyAlaninechemistry.chemical_classification0303 health sciencesInhibitory potentialBinding Sites010405 organic chemistryChemistryAminobutyratesFluorineBromine0104 chemical sciencesIsoenzymesKineticsEnzymehuman and porcine alanine aminopeptidasefluorine and bromine substitutionThermodynamicsProtein Conformation beta-StrandProtein BindingBiomolecules
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International Union of Basic and Clinical Pharmacology. XCIV. Adhesion G Protein–Coupled Receptors

2015

The Adhesion family forms a large branch of the pharmacologically important superfamily of G protein-coupled receptors (GPCRs). As Adhesion GPCRs increasingly receive attention from a wide spectrum of biomedical fields, the Adhesion GPCR Consortium, together with the International Union of Basic and Clinical Pharmacology Committee on Receptor Nomenclature and Drug Classification, proposes a unified nomenclature for Adhesion GPCRs. The new names have ADGR as common dominator followed by a letter and a number to denote each subfamily and subtype, respectively. The new names, with old and alternative names within parentheses, are: ADGRA1 (GPR123), ADGRA2 (GPR124), ADGRA3 (GPR125), ADGRB1 (BAI1…

Models MolecularSocieties ScientificSubfamilyComputational biologyBiologyGPR110PharmacologyLigandsGPR113Second Messenger SystemsReceptors G-Protein-CoupledCell MovementTerminology as TopicCell AdhesionCyclic AMPAnimalsHumansProtein IsoformsReceptorNomenclatureG protein-coupled receptorPharmacologyCell MembraneInternational AgenciesAdhesionQPGPR56Pharmacology ClinicalIUPHAR Nomenclature ReportsMolecular MedicineQP517Cell Adhesion MoleculesSignal TransductionPharmacological Reviews
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Deciphering the Rules Underlying Xenogeneic Silencing and Counter-Silencing of Lsr2-like Proteins Using CgpS of Corynebacterium glutamicum as a Model

2020

In actinobacteria, Lsr2-like nucleoid-associated proteins function as xenogeneic silencers (XS) of horizontally acquired genomic regions, including viral elements, virulence gene clusters in Mycobacterium tuberculosis, and genes involved in cryptic specialized metabolism in Streptomyces species. Consequently, a detailed mechanistic understanding of Lsr2 binding in vivo is relevant as a potential drug target and for the identification of novel bioactive compounds. Here, we followed an in vivo approach to investigate the rules underlying xenogeneic silencing and counter-silencing of the Lsr2-like XS CgpS from Corynebacterium glutamicum. Our results demonstrated that CgpS distinguishes between…

Molecular Biology and PhysiologyGene Transfer HorizontalactinobacteriaMicrobiologyQR1-502Corynebacterium glutamicumDNA-Binding Proteinsregulatory networksBacterial Proteinslsr2ddc:570xenogeneic silencinghorizontal gene transferGene Silencingcounter-silencingat-rich dnaProtein BindingTranscription FactorsResearch ArticlemBio
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Cell signaling mechanisms of oro-gustatory detection of dietary fat: Advances and challenges

2013

CD36 and two G-protein coupled receptors (GPCR), i.e., GPR120 and GPR40, have been implicated in the gustatory perception of dietary fats in rodents. These glycoproteins are coupled to increases in free intracellular Ca²⁺ concentrations, [Ca²⁺](i), during their activation by dietary long-chain fatty acids (LCFA). The transient receptor potential type M5 (TRPM5) channel, activated by [Ca²⁺](i), participates in downstream signaling in taste bud cells (TBC). The mice, knocked-out for expression of CD36, GPR120, GPR40 or TRPM5 have a reduced spontaneous preference for fat. The delayed rectifying K⁺ (DRK) channels believed to lie downstream of these receptors are also important players in fat ta…

MouthTastemedicine.medical_specialtyPolymorphism GeneticTaste PerceptionGPR120Cell BiologyBiologyDietary FatsBiochemistryCell biologyTransient receptor potential channelEndocrinologyTaste receptorInternal medicineFree fatty acid receptor 1medicineAnimalsHumansObesityTRPM5Signal transductionSignal TransductionCalcium signalingProgress in Lipid Research
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