1195-42-2

Articles about 1195-42-2

Photoredox-mediated C-H functionalization and coupling of tertiary aliphatic amines with 2-chloroazoles

Herein, conditions for C-H functionalization of tertiary aliphatic amines and their subsequent coupling with a number of 2-chloroazole derivatives are reported. The reaction is facilitated by a catalytic amount of tris-fac-Ir(ppy)3, with blue light irradiation and takes place under mild and convenient conditions. Most couplings take place with excellent regioselectivity. The reaction is tolerant of a number of functional groups and allows for rapid access to α-azole carbinamines commonly found in post-translationally modified peptides.

Development of prohibitin ligands against osteoporosis

Current therapeutic approaches to osteoporosis display some potential adverse effects and a limited efficacy on non-vertebral fracture reduction. Some sulfonylamidines targeting the scaffold proteins prohibitins-1 and 2 (PHB1/2) have been showed to inhibit the formation of osteoclasts in charge of bone resorption. Herein, we report the development of a second generation of anti-osteoclastic PHB ligands. The most potent compound, IN45, showed 88% inhibition at the low concentration of 5 μM, indicates that it might serve as a basis for the development of new antiosteoporotic drugs.

Reductive amination of ketones/aldehydes with amines using BH3N(C2H5)3as a reductant

Herein, we report the first example of efficient reductive amination of ketones/aldehydes with amines using BH3N(C2H5)3 as a catalyst and a reductant under mild conditions, affording various tertiary and secondary amines in excellent yields. A mechanistic study indicates that BH3N(C2H5)3 plays a dual function role of promoting imine and iminium formation and serving as a reductant in reductive amination. This journal is

Imine reduction with me2s-bh3

Although there exists a variety of different catalysts for hydroboration of organic substrates such as aldehydes, ketones, imines, nitriles etc., recent evidence suggests that tetra-coordinate borohydride species, formed by activation, redistribution, or decomposition of boron reagents, are the true hydride donors. We then proposed that Me2S-BH3 could also act as a hydride donor for the reduction of various imines, as similar compounds have been observed to reduce carbonyl substrates. This boron reagent was shown to be an effective and chemoselective hydroboration reagent for a wide variety of imines.

Highly efficient one-pot multi-directional selective hydrogenation and N-alkylation catalyzed by Ru/LDH under mild conditions

Atomic economy, non-toxicity, harmlessness and multidirectional selectivity advocated by green chemistry have increasingly become a hot and difficult research topic. Herein, we present a highly efficient, one-pot tandem and easy-to-operate method through which we could directly produce a broad range of multi-directional selective hydrogenated amines or N-alkyl aliphatic amines using aromatic nitro compounds as raw materials. Ru/LDH with characteristics of layered mesoporous structure, well dispersed small Ru nanoparticles and LDH stabilization to the Ru NPs was employed as the catalyst. It is remarkable that multi-directional superb chemoselectivity to aromatic amines, alicyclic amines as well as N-alkyl aliphatic amines could be achieved with excellent catalytic activity and recyclability by tuning reaction conditions over 5wt%Ru/LDH-2. Additionally, this catalytic system also exhibited attractive activity and multi-directional chemoselectivity in the hydrogenation of quinoline and its derivatives with solvents of different polarity. Chemoselectivity to 5,6,7,8-tetrahydroquinoline derivatives could reach as high as 95.6 %.

Photometric Characterization of the Reductive Amination Scope of the Imine Reductases from Streptomyces tsukubaensis and Streptomyces ipomoeae

Imine reductases (IREDs) have emerged as promising enzymes for the asymmetric synthesis of secondary and tertiary amines starting from carbonyl substrates. Screening the substrate specificity of the reductive amination reaction is usually performed by time-consuming GC analytics. We found two highly active IREDs in our enzyme collection, IR-20 from Streptomyces tsukubaensis and IR-Sip from Streptomyces ipomoeae, that allowed a comprehensive substrate screening with a photometric NADPH assay. We screened 39 carbonyl substrates combined with 17 amines as nucleophiles. Activity data from 663 combinations provided a clear picture about substrate specificity and capabilities in the reductive amination of these enzymes. Besides aliphatic aldehydes, the IREDs accepted various cyclic (C4–C8) and acyclic ketones, preferentially with methylamine. IR-Sip also accepted a range of primary and secondary amines as nucleophiles. In biocatalytic reactions, IR-Sip converted (R)-3-methylcyclohexanone with dimethylamine or pyrrolidine with high diastereoselectivity (>94–96 % de). The nucleophile acceptor spectrum depended on the carbonyl substrate employed. The conversion of well-accepted substrates could also be detected if crude lysates were employed as the enzyme source.

Colloid and nanosized catalysts in organic synthesis: XII. Hydrogenation of carbonitriles catalyzed by nickel nanoparticles

Hydrogenation of carbonitriles catalyzed by nickel nanoparticles in isopropanol proceeds under atmospheric pressure of hydrogen within 6-15 h to yield mainly secondary amines. Hydrogenation of α-aminonitriles results in reductive decyanation. β-Aminonitriles undergo hydrogenolysis at the nitrogen-carbon bond.

Supported gold-palladium alloy nanoparticle catalyzed tandem oxidation routes to N-substituted anilines from non-aromatic compounds

In the presence of a supported gold-palladium alloy nanoparticle catalyst (Au-Pd/Al2O3), various kinds of N-substituted anilines can be synthesized from non-aromatic compounds. The observed catalysis is truly heterogeneous, and Au-Pd/Al2O3 can be reused without a significant loss of its catalytic performance.

Post-functionalized iridium-Zr-MOF as a promising recyclable catalyst for the hydrogenation of aromatics

The multifunctional heterogeneous catalyst iridium-Zr-based MOF is able to effectively catalyze the hydrogenation of aromatic compounds in high yields under mild conditions. The catalyst was found to be highly active and reusable, giving similar reactivity and selectivity after at least five catalytic uses. This journal is the Partner Organisations 2014.

One pot catalytic NO2 reduction, ring hydrogenation, and N-alkylation from nitroarenes to generate alicyclic amines using Ru/C-NaNO 2

A report to produce alicyclic amines and subsequent N-alkylation with alcohols using Ru/C-NaNO2 catalyzed facile transformation of nitrobenzene was investigated. Effects of solvent, temperature, pressure, reaction time, and molar-ratio of substrate/catalyst on product composition were also studied. These mechanistic studies explain that nitrobenzene undergoes hydrogenation reaction in the following order; -NO2 reduction to -NH2, aromatic ring-hydrogenation to alicyclic, and from the reaction of alcohol to give N-alkylated amines. This investigation shed lights on possible application to polyurethane chemistry since these amines are used as important precursors for diisocyanates.

Design of a bifunctional Ir-Zr based metal-organic framework heterogeneous catalyst for the N-alkylation of amines with alcohols

The direct N-alkylation of amines with alcohols was performed with an Ir-Zr-based metal-organic framework multifunctional heterogeneous catalyst. This system is efficient and environmentally benign for the synthesis of various organic amines in air in the absence of a base. The catalyst was recovered and reused without significant loss of activity, and only water was produced as a byproduct. Better be direct than elusive: The direct N-alkylation of amines with alcohols is performed with an Ir-Zr-based metal-organic framework multifunctional heterogeneous catalyst. This system is efficient and environmentally benign for the synthesis of various organic amines in air in the absence of a base. The catalyst is recovered and reused without significant loss of activity, and only water is produced as a byproduct.

Enhanced reduction of C-N multiple bonds using sodium borohydride and an amorphous nickel catalyst

Amorphous nickel powder (Ni0) was utilised as a catalyst under mild, aqueous, basic conditions for enhancing the sodium borohydride-mediated reduction of C-N multiple bonds such as oximes, imines, hydrazones and nitriles to produce the corresponding amines in good to excellent yields.

Convenient method for reduction of C-N double bonds in oximes, imines, and hydrazones using sodium Borohydride-Raney ni system

(Chemical Equation Presented) A practical method has been developed for reduction of C-N double bond in oximes, imines, and hydrazones with sodium borohydride catalyzed by Raney Ni. The reactions were carried out in basic aqueous solution, and the desired products were obtained in moderate yields after a simple procedure. This method can be applied to synthesize simpler aliphatic or aromatic amines and its analogs. Copyright Taylor & Francis Group, LLC.

Carbon dioxide-promoted selective reductive amination of aliphatic ketones with aniline and hydrogen using a Pt/C catalyst

Product selectivity in the reductive amination of aliphatic ketones with aniline and H2 using a 5% Pt/C catalyst was improved remarkably in the presence of CO2. The CO formed in situ by the reverse watergas shift reaction selectively poisoned the Pt sites active for undesired side reactions.

Alkylation of amines with alcohols catalyzed by palladium nanoparticles

Palladium nanoparticles (PdNPs) generated in situ from the complex [(dippe)PdMe2] were used as efficient catalyst for the alkylation of amines by aliphatic alcohols using neat conditions, under hydrogen atmosphere. On using short chain alcohols

Determination of the conformations and relative configurations of exocyclic amines

The conformations and relative configurations of 20 amines, classified according to the following labeling scheme, were analyzed. Series a comprised compounds derived from N-(1-phenylethyl)cyclohexanamine, b comprised derivatives of N-[1-(naphthalen-2-yl)ethyl]cyclohexanamine, c comprised derivatives of N-(diphenylmethyl)cyclohexanamine, and d comprised derivatives of N-(propan-2-yl)cyclohexanamine. The compounds were labeled as follows: 1 indicates cyclohexanamine, 2 indicates 2-methylcyclohexanamines, 3 indicates 3-methylcyclohexanamines, 4 indicates 4-methylcyclohexanamines, and 5 indicates 4-tert-butylcyclohexanamines. These compounds were prepared without the use of stereoselective induction and, therefore, all expected stereoisomers were observed. Structural assignments were established by 1H, 13C, and 15N NMR.

The reaction of nitrosodicyclohexylamine with organolithiums

The detailed study of the reaction of N-nitrosamines with organolithium compounds, under different reaction conditions, allowed the development of a useful methodology for the synthesis of substituted hydrazones and trialkyl hydrazines. The reaction proved to be very sensitive to the reaction conditions, and different main products can be obtained by ine tuning of several variables. With the purpose of searching into the reaction mechanism, a careful isolation, characterization, and quantitative determination of several minor products was carried out. N,N-dicyclohexylamine, N-cyclohexylidencyclohexyl amine, and N,N,N′-dicydohexylalkylhydrazines, were the main side products identified after the work up of the reaction mixtures. With the same aim, the kinetics of the reaction of N-nitrosodicyclohexylamine with n-BuLi, was determined at temperatures in the range 0°C room temperature. Under the conditions leading to the trialkyl hydrazine, the results show an abrupt slowdown of the reaction rate, after a short reaction time. This result, together with other observations, such as the recovering of hydrazone even when using high [RLi], is indicative of equilibrium involving different species in the reaction mixture. The isolation of reduction products, as well as additional experiments carried out with lithium dialkylamides and NO, allowed suggestion of an overall mechanistic scheme for the complex consecutive and parallel reactions, that is consistent with the afforded evidences. Copyright

Reactions of sodium borohydride in acetic acid: Reductive amination of carbonyl compounds

Scavenger assisted combinatorial process for preparing libraries of amides, carbamates and sulfonamides

This invention relates to a novel solution phase process for the preparation of amide, carbamate, and sulfonamide combinatorial libraries. These libraries have utility for drug discovery and are used to form wellplate components of novel assay kits.

A one-pot reductive amination of ketones to primary amines using borane-dimethyl sulfide complex

BESTIMMUNG DER IONENPAAR-BASIZITAT VON LITHIUM- UND KALIUMAMIDEN

Ion pair basicities of lithio and potassio salts of some secondary amines were determined by equilibration with benzyl compounds.With these bases it is possible to span a range of about 19 pK-units from pK = 27 up to 46.The structural dependence of thermodynamic as well as kinetic basicity is discussed.Some new effective amide bases for preparative purposes are recommended.For the first time the pK-value of toluene has been determined by direct equilibration.It amounts to 40.7 in tetrahydrofuran.

Alkylations Using Methyltrialkoxyphosphonium Tetrafluoroborate Salts. Synthetic and Mechanistic Aspects of Methyl, Ethyl, 2-Propyl, and 2-Octyl Group Transfers

Trialkyl phosphites, (RO)3P for R = methyl, ethyl, 2-propyl, and 2-octyl, were alkylated with Meerwein's salt (Me3O+BF4-) to yield the corresponding trialkoxymethylphosphonium tetrafluoroborate salts.These salts, which are all molten at room temperature, were reacted neat or in solvents with a series of nucleophiles.Thus, a variety of O, N, S, and halogen nucleophiles reacted by substitution at the R group C-O bond to give high yields after a trivial workup procedure.Rates of reaction were measured for substituted benzoic acids (4-XC6H4CO2H; X= CH3, t-Bu, CH3O, H, CF3, CN, NO2) with the neat salts under pseudo-first-order conditions or with the salt in CH3CN under second order conditions.The resulting Hammett plots indicate very little change in sensivity to the substituents when R = isopropyl compared with R = methyl and when the salt itself instead of CH3CN is solvent.

Tetraalkylammonium Trihydridocyanoborates. Versatile, Selective Reagents for Reductive Aminations in Nonpolar Media

Tetrabutylammonium cyanoborohydride or the combination of sodium cyanoborohydride with Aliquat 336 provides useful, convenient reagents for reductive amination of aldehydes and ketones in aprotic or protic media.

5 (6)-Benzene ring substituted benzimidazole-2-carbamate derivatives having anthelmintic activity

Benzene ring substituted benzimidazole-2-carbamate derivatives represented by the formula: STR1 where R is a lower alkyl group having 1 to 4 carbon atoms; R' is lower alkyl having 1 to 6 carbon atoms, cycloalkyl having 3 to 7 carbon atoms, lower alkenyl or lower alkynyl having 3 to 6 carbon atoms, or phenyl; R2 is hydrogen or R'; the R'R2 NC(O)- substitution being at the 5(6)-position; and the pharmaceutically acceptable salts thereof. The compounds are useful as pesticides, particularly as anthelmintic and antifungal agents.