Search results for "medicinal"

showing 10 items of 2966 documents

Rearrangement of N-(3-pyridyl)nitramine

2009

AbstractContrary to other N-(pyridyl)nitramines, the title compound cannot be rearranged to 3-amino-2-nitropyridine or other isomers. Hypothetical products of its transformation under influence of concentrated sulphuric acid, viz. 3-hydroxypyridine, 3,3′-azoxypyridine and 3,3′-azopyridine, were obtained from 3-nitro- and 3-aminopyridine in oxidation and reduction reactions. N-(3-Pyridyl)nitramine was prepared and rearranged in concentrated sulphuric acid. 3-Hydroxypyridine and 3,3′-azoxypyridine were isolated from the reaction mixture, other products were identified by the HPLC and GCMS methods. The results indicate that N-(3-pyridyl)hydroxylamine is an intermediate formed from N-(3-pyridyl…

nitramine rearrangementGeneral Chemical EngineeringContext (language use)General Chemistrynitro-to-nitrito transformationazoxypyridinesBiochemistryMedicinal chemistryHigh-performance liquid chromatographyRedoxIndustrial and Manufacturing Engineeringchemistry.chemical_compoundHydroxylaminechemistryazopyridinesMaterials ChemistryOrganic chemistryReaction pathChemical Papers
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Acidity and basicity of primaryN-phenylnitramines: catalytic effect of protons on the nitramine rearrangement

2002

Para-substituted N-phenylnitramines were prepared either by oxidation of diazonium salts or by nitration under alkaline or acidic conditions. Isotopic [15N-NO2] labelling indicated that the bands characteristic of the N-nitro group appear in the 1318–1323 and 1585–1607 cm−1 regions. In the nitrogen NMR spectra, the nitramino group gives two resonances at −193 ± 3 (NH) and −32 ± 3 ppm (NO2). The chemical shifts in proton and carbon NMR spectra are predictable, based on increments and the additivity rule. The spectral data indicate the lack of conjugation between the nitramino group and another substituent bound to the ring. It seems to contradict the well-known fact that substituents strongl…

nitraminesReaction mechanismChemical shiftrearrangementOrganic ChemistryInorganic chemistrySubstituentProtonationNuclear magnetic resonance spectroscopyCarbon-13 NMRMedicinal chemistryNMR spectra databasechemistry.chemical_compoundNMR spectroscopychemistryNitrationamphiprotic compoundsreaction mechanismPhysical and Theoretical ChemistryJournal of Physical Organic Chemistry
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Apolar versus polar solvents: a comparison of the strength of some organic acids against different bases in toluene and in water

2010

The constants of ion-pair formation with 3-nitroaniline (3NO(2)A) for eight halogenoacetic acids (HAAs, 3a-h: TFA, TCA, TBA, DFA, DCA, DBA, MCA, and MBA), and five 2,2-dichloroalkanoic acids containing 3-8 carbon atoms (HAs, 5a-e: DCPA, DCBA, DCMBA, DCVA, and DCOA) have been determined in TOL at 298.1 K. The results obtained brought to evidence for HAAs the formation of ion-pairs with two different stoichiometries (base-acid, 1:1 or 1:2), while in contrast the HAs furnish only the 1:1 pairs. The different steric and electronic requirements of HAAs and HAs seem to be responsible for such an unlikely behavior. At the same time, the acid-catalyzed MRH of the (Z)-phenylhydrazone of 5-amino-3-be…

nitroanilinechemistry.chemical_classificationSteric effectsBase (chemistry)reazione di Boulton-Katritzskyacidi dicloroalcanoicichemistry.chemical_elementSettore CHIM/06 - Chimica Organicaacidi alogenoaceticiMedicinal chemistryTolueneMRH kinetic ion pairschemistry.chemical_compoundchemistryUreaPolarOrganic chemistryPhysical and Theoretical ChemistryCarbonreazione di Boulton-Katritzsky; nitroaniline; acidi alogenoacetici; acidi dicloroalcanoiciStoichiometry
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Diels–Alder reaction of β-fluoro-β-nitrostyrenes with cyclic dienes

2021

The Diels–Alder reaction of β-fluoro-β-nitrostyrenes with cyclic 1,3-dienes was investigated. A series of novel monofluorinated norbornenes was prepared in up to 97% yield. The reaction with 1,3-cyclohexadiene permits the preparation of monofluorinated bicyclo[2.2.2]oct-2-enes. The kinetic data of the reactions with 1,3-cyclopentadiene and 1,3-cyclohexadiene were used to calculate activation parameters. Furthermore, the synthetic utility of the cycloadducts obtained was demonstrated.

nitrostyreneBicyclic moleculeChemistryOrganic Chemistrystereochemistrychemistry.chemical_elementnorborneneMedicinal chemistryFull Research Paperlcsh:QD241-441Chemistrychemistry.chemical_compoundlcsh:Organic chemistryDiels–Alder reactionfluorineYield (chemistry)Fluorinelcsh:Qlcsh:ScienceNorborneneDiels–Alder reactionBeilstein Journal of Organic Chemistry
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Ceiba speciosa (A. St.-Hil.) Seeds Oil: Fatty Acids Profiling by GC-MS and NMR and Bioactivity

2020

This study aimed to evaluate the chemical composition by gas chromatography-mass spectrometry (GC-MS) and Nuclear Magnetic Resonance (NMR) analyses, the antioxidant activities evaluated by different in vitro assays namely 2,2-diphenyl-1-picrylhydrazyl (DPPH), 2,2&prime

obesityAntioxidantantioxidantDPPHLinoleic acidmedicine.medical_treatmentMalvalic acidPharmaceutical Science01 natural sciencesArticleAnalytical ChemistryPalmitic acidlcsh:QD241-441chemistry.chemical_compound0404 agricultural biotechnologylcsh:Organic chemistryfixed oilDrug DiscoverymedicineSettore BIO/15 - Biologia FarmaceuticaPhysical and Theoretical ChemistryLipaseChromatographyABTSbiologydiabetesOrganic Chemistry04 agricultural and veterinary sciencesSettore CHIM/06 - Chimica Organicabiology.organism_classification040401 food scienceNMR0104 chemical sciences010404 medicinal & biomolecular chemistrychemistryChemistry (miscellaneous)diabetebiology.proteinMolecular MedicineGC-MSCeiba speciosaMolecules
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Ferulago nodosa Subsp. geniculata (Guss.) Troia & Raimondo from Sicily (Italy): Isolation of Essential Oil and Evaluation of Its Bioactivity

2020

Ferulago nodosa (L.) Boiss. (Apiaceae) is a species occurring in the Balkan-Tyrrhenian area. The object of the present study is Sicilian F. nodosa subsp. geniculata (Guss.) Troia & Raimondo, classified as an endemic F. nodosa subspecies. Aerial parts of this plant species were subjected to hydrodistillation to obtain an essential oil. A total of 93 compounds were identified with 2,3,6-trimethyl benzaldehyde (19.0%), spathulenol (9.0%), (E)-caryophyllene (5.4%), and caryophyllene oxide (5.4%) as the main components. The biological activities of F. nodosa essential oil were also investigated. This oil showed an interesting antioxidant potential in a 2,2′-Azino-bis(3-ethylbenzothiazoline-6-sul…

obesityantioxidantPharmaceutical ScienceFerulago nodosaSubspeciesAntioxidant potential030226 pharmacology & pharmacy01 natural sciencesArticleessential oilAnalytical Chemistrylaw.inventionlcsh:QD241-44103 medical and health scienceschemistry.chemical_compound0302 clinical medicinelcsh:Organic chemistrylawDrug DiscoverySettore BIO/15 - Biologia FarmaceuticaPhysical and Theoretical ChemistryEssential oilApiaceaeABTSdiabetesbiologyTraditional medicineOrganic ChemistrySettore CHIM/06 - Chimica Organicabiology.organism_classificationgas chromatography-mass spectrometry0104 chemical sciences010404 medicinal & biomolecular chemistrychemistryCaryophyllene oxidediabeteChemistry (miscellaneous)Settore BIO/03 - Botanica Ambientale E ApplicataPlant speciesMolecular MedicineMolecules
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Asymmetric Organocatalytic Synthesis of 4-Aminoisochromanones via a Direct One-Pot Intramolecular Mannich Reaction

2016

Synthesis 48(24), 4451 - 4458(2016). doi:10.1055/s-0035-1562522

one-pot reaction010405 organic chemistryChemistryOrganic Chemistryasymmetric synthesisEnantioselective synthesis010402 general chemistry54001 natural sciencesMedicinal chemistryCatalysis0104 chemical sciencesCatalysisIntramolecular forceOne pot reactionOrganocatalysisddc:540isochromanonesMannich reactionOrganic chemistryAmine gas treatingStereoselectivityorganocatalysisMannich reactionorganocatalysis; one-pot reaction; asymmetric synthesis; isochromanones; Mannich reaction
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Synthesis of Amino-1,2,4-triazoles by Reductive ANRORC Rearrangements of 1,2,4-Oxadiazoles

2010

The reaction of various 1,2,4-oxadiazoles with an excess of hydrazine in DMF has been investigated. 3-Amino- 1,2,4-triazoles are produced through a reductive ANRORC pathway consisting of the addition of hydrazine to the 1,2,4-oxadiazole followed by ring-opening, ring-closure, and final reduction of the 3-hydroxylamino-1,2,4-triazole intermediate. The general applicability of 1,2,4-oxadiazoles ANRORC reactivity is demonstrated also in the absence of C(5)-linked electron-withdrawing groups.

oxadiazole triazole heterocycles rearrangementchemistry.chemical_classificationOrganic ChemistryHydrazineSettore CHIM/06 - Chimica OrganicaElectron acceptorMedicinal chemistryChemical synthesischemistry.chemical_compoundHydroxylaminechemistryChemical reductionAmine gas treatingReactivity (chemistry)The Journal of Organic Chemistry
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An efficient method for selective oxidation of (oxime)Pt(II) to (oxime)Pt(IV) species using N,N-dichlorotosylamide

2016

The oxidation of (oxime)PtII species using the electrophilic chlorine-based oxidant N,N-dichlorotosylamide (4-CH3C6H4SO2NCl2) was studied. The reactions of trans-[PtCl2(oxime)2] (where oxime = acetoxime, cyclopentanone oxime, or acetaldoxime) with this oxidant led to trans-[PtCl4(oxime)2] products. The oxidation of trans-[Pt(o-OC6H4CH = NOH)2] at room temperature gave trans-[PtCl2(o-OC6H4CH = NOH)2], whereas the same reaction upon heating was accompanied by electrophilic substitution of the benzene rings. peerReviewed

oxidation010405 organic chemistryoxime ligandsMetals and Alloyschemistry.chemical_elementoxidative chlorination010402 general chemistryOxime01 natural sciencesMedicinal chemistry0104 chemical sciencesCatalysisInorganic ChemistryElectrophilic substitutionchemistry.chemical_compoundchemistryElectrophileMaterials ChemistryChlorineOrganic chemistryAcetaldoximeBenzeneOrganometallic chemistryplatinum complexesTransition Metal Chemistry
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Reactions of m-Terphenyl-Stabilized Germylene and Stannylene with Water and Methanol: Oxidative Addition versus Arene Elimination and Different React…

2015

Reactions of the divalent germylene Ge(ArMe6)2 (ArMe6 = C6H3-2,6-{C6H2-2,4,6-(CH3)3}2) with water or methanol gave the Ge(IV) insertion product (ArMe6)2Ge(H)OH (1) or (ArMe6)2Ge(H)OMe (2), respectively. In contrast, its stannylene congener Sn(ArMe6)2 reacted with water or methanol to produce the Sn(II) species {ArMe6Sn(μ-OH)}2 (3) or {ArMe6Sn(μ-OMe)}2 (4), respectively, with elimination of ArMe6H. Compounds 1–4 were characterized by IR and NMR spectroscopy as well as by X-ray crystallography. Density functional theory calculations yielded mechanistic insight into the formation of (ArMe6)2Ge(H)OH and {ArMe6Sn(μ-OH)}2. The insertion of an m-terphenyl-stabilized germylene into the O–H bond was…

oxidative additionMetathesisPhotochemistryDFT calculationsMedicinal chemistryReductive eliminationInorganic Chemistrychemistry.chemical_compoundTerphenylreaktiomekanismiReactivity (chemistry)metallylenesarene eliminationPhysical and Theoretical Chemistryta116Chemistryareenin eliminaatioArylOrganic ChemistryNuclear magnetic resonance spectroscopyOxidative additionmetallyleenitDFT laskutMethanolreaction mechanismhapettava additioOrganometallics
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