Search results for "Indole test"

showing 10 items of 126 documents

The Reactions of Electron-Rich Heterocycles with Derivatives of Orthocarboxylic Acids; VIII. Proton Acid-Catalyzed Acylation of Indoles by 2-Alkoxy-1…

1987

In acid-catalyzed reactions with 3-unsubstituted indoles 1, 2-alkoxy-1,3-dioxolanes 2a-c behave as acyl equivalents. Depending on the substitution patterns of the reaction partners, the 1,3-dioxolanium ions 3a-c, generated in situ from the cyclic ortho esters by the action of sulfosalicylic acid, react to form tris-(3-indolyl)alkanes 6 and 9, bis-(3-indolyl)ethenes 7, or 3-benzoylindoles 8. Analogous reactivity was observed with related acyclic ortho esters. Reaktionen elektronenreicher Heterocyclen mit Orthocarbonsaure-Derivaten; VIII. Protonsaurekatalysierte Acylierung von Indolen mit 2-Alkoxy-1,3-dioxolanen 2-Alkoxy-1,3-dioxolane 2a-c reagieren als Acylaquivalente mit 3-unsubstituierten …

Indole testSulfosalicylic acidBicyclic moleculeStereochemistryPharmaceutical ScienceMedicinal chemistryAcylationchemistry.chemical_compoundAcid catalysischemistryDrug DiscoveryAlkoxy groupReactivity (chemistry)OrthoesterArchiv der Pharmazie
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Redox intermediates of plant and mammalian peroxidases: a comparative transient-kinetic study of their reactivity toward indole derivatives.

2002

Abstract A comparative study on the reactivity of five indole derivatives (tryptamine, N-acetyltryptamine, tryptophan, melatonin, and serotonin), with the redox intermediates compound I (k2) and compound II (k3) of the plant enzyme horseradish peroxidase (HRP) and the two mammalian enzymes lactoperoxidase (LPO) and myeloperoxidase (MPO), was performed using the sequential-mixing stopped-flow technique. The calculated bimolecular rate constants (k2, k3) revealed substantial differences regarding the oxidizability of the substrates by redox intermediates at pH 7.0 and 25°C. With HRP it was shown that k2 and k3 are mainly determined by the reduction potential (E°′) of the substrate with k2 bei…

Indole testTryptamineMammalsIndolesbiologyStereochemistryLactoperoxidaseBiophysicsTryptophanSubstrate (chemistry)PlantsBiochemistryHorseradish peroxidaseRedoxchemistry.chemical_compoundKineticschemistryPeroxidasesbiology.proteinAnimalsLactoperoxidaseMolecular BiologyOxidation-ReductionHorseradish PeroxidasePeroxidaseArchives of biochemistry and biophysics
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Development of an efficient system for the separation of indole alkaloids by high performance liquid chromatography and its applications

2001

An efficient system for the analysis of indole alkaloids by HPLC on a reversed-phase column using an ion pair technique is described. The optimised chromatographic conditions allowed the successful separation of 22 standard monoterpenoid indole alkaloids (including some isomers) and tryptamine. The described HPLC system was applied to the analysis of alkaloids in intergeneric somatic hybrid cell cultures of Rauvolfia serpentina x Rhazya stricta.

Indole testTryptamineMonoterpenoid Indole AlkaloidsChromatographybiologyApocynaceaeChemistryPlant ScienceGeneral MedicineIon pairsRhazya strictabiology.organism_classificationBiochemistryHigh-performance liquid chromatographyAnalytical Chemistrychemistry.chemical_compoundComplementary and alternative medicineRauvolfia serpentinaDrug DiscoveryMolecular MedicineFood SciencePhytochemical Analysis
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ChemInform Abstract: Catalytic Enantioselective Friedel—Crafts Alkylation at the 2-Position of Indole with Simple Enones.

2008

Abstract A procedure for the enantioselective alkylation of indole at the 2-position with simple non-chelating enones is described for the first time. Reaction between 4,7-dihydroindole and enones in the presence of zirconium(IV)–BINOL complexes, followed by a p -benzoquinone oxidation gives indoles alkylated at the 2-position with good yields and moderate enantioselectivities.

Indole testZirconiumChemistryEnantioselective synthesischemistry.chemical_elementGeneral MedicineAlkylationBenzoquinoneMedicinal chemistryFriedel–Crafts reactionCatalysisChemInform
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Catalytic enantioselective Friedel–Crafts alkylation at the 2-position of indole with simple enones

2007

Abstract A procedure for the enantioselective alkylation of indole at the 2-position with simple non-chelating enones is described for the first time. Reaction between 4,7-dihydroindole and enones in the presence of zirconium(IV)–BINOL complexes, followed by a p -benzoquinone oxidation gives indoles alkylated at the 2-position with good yields and moderate enantioselectivities.

Indole testZirconiumChemistryOrganic ChemistryDrug DiscoveryEnantioselective synthesisOrganic chemistrychemistry.chemical_elementAlkylationBiochemistryBenzoquinoneFriedel–Crafts reactionCatalysisTetrahedron Letters
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Alkylation of ambident indole anion in ionic liquids

2007

AbstractAlkylation of indole salts in different ionic liquids is reported. Ionic liquids increase the alkylation reaction rate of ambident indole anion and reduce the effects of counter ions and/or additives, the alkylation reaction rates being independent of the presence of small amounts of protic solvents or water.

Indole testambident anionChemistryInorganic chemistryGeneral ChemistryAlkylationIonReaction rateionic liquidschemistry.chemical_compoundChemistryalkylation reactionsindoleIonic liquidMaterials ChemistryOrganic chemistryQD1-999Open Chemistry
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Studies on the synthesis of pentacyclic strychnos indole alkaloids. photocyclization of n-chloroacetyl-1,2,3,4,5,6-hexahydro-1,5-methanoazocino[4,3-b…

1985

Abstract Photocyclization of 2-chloroacetyl-1,2,3,4,5,6-hexahydro-1, 5-methanoazocino[4,3-b]indole ( 5 ) takes place at the indole 4-position to give a 1 ,2 ,3 ,4 , 5 ,6-hexahydro-2 ,11-ethano-1 ,5-methanoazocino [4 , 3-6] indole system. Consequently, the method appears to be unsuitable for constructing the pyrrolidine ring of pentacyclic Strychnos indole alkaloids.

Indole testbiologyChemistryStereochemistrymedicine.drug_classAlkaloidOrganic ChemistryStrychnosCarboxamideRing (chemistry)biology.organism_classificationBiochemistryPyrrolidinechemistry.chemical_compoundDrug DiscoveryLactammedicineTetrahedron
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ChemInform Abstract: Palladium-Catalyzed Dehydrogenative β′-Functionalization of β-Keto Esters with Indoles at Room Temperature.

2012

The dehydrogenative β′-functionalization of α-substituted β-keto esters with indoles proceeds with high regioselectivities (C3-selective for the indole partner and β′-selective for the β-keto ester) and good yields under mild palladium catalysis at room temperature with a variety of oxidants. Two possible mechanisms involving either late or early involvement of indole are presented.

Indole testchemistrychemistry.chemical_elementSurface modificationGeneral MedicineCombinatorial chemistryPalladiumCatalysisChemInform
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Conformation of the umifenovir cation in the molecular and crystal structures of four carboxylic acid salts

2014

The umifenovir salts of maleic, salicylic, glutaric, and gentisic acid as well as the chloroform solvate of the salicylate were prepared. Single crystals of the five compounds were obtained and their molecular and crystal structures determined by X-ray diffraction. In each structure the conformation of phenyl ring with respect to the indole group of the umifenovir moiety is different. The water solubility and melting points of the studied umifenovir salts have been determined.

Indole testchemistry.chemical_classificationChloroformAqueous solutionChemistryCarboxylic acidOrganic ChemistryCrystal structureAnalytical ChemistryInorganic Chemistrychemistry.chemical_compoundPolymer chemistryMelting pointMoietyOrganic chemistryGentisic acidSpectroscopyJournal of Molecular Structure
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Screening of oxazepine indole enantiomers by means of high performance liquid chromatography with imprinted polymer stationary phase.

2004

Chromatographic enantiomer separations of different oxazepine indole derivatives were performed using a molecularly imprinted polymer. A 5aR,12R,13S-trans-6,6-dimethyl-12,13-dihydro-6H-5a, 1 3-methanoindolo[2,1-b][1,3]naphthoxazepine-12-carboxamide enantiomerderivative was used as a template and the resultant polymer has shown enantiomer recognition for series of template related compounds. The mechanistic description of the chiral discrimination process is scrutinised, comparing the discrimination between the different conformations and substituents of the oxazepine indoles.

Indole testchemistry.chemical_classificationModels MolecularMolecularly imprinted polymerFiltration and SeparationStereoisomerismPolymerHigh-performance liquid chromatographyAnalytical Chemistrychemistry.chemical_compoundOxazepineschemistryStationary phaseOrganic chemistryOxazepineIndicators and ReagentsEnantiomerMolecular imprintingChromatography High Pressure LiquidJournal of separation science
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