Your search keyword '"ESTERS"' showing total 7,978 results

1. Enantioselective (3+2)-Annulation of β-Keto Esters with Azoalkenes towards Bicyclic Dihydropyrroles via Cooperative Palladium and Brønsted Acid Catalysis.

Author

Friedmann, Till, Mireles-Chávez, Daniel A., Walter, Frederik L., and Schneider, Christoph

Subjects

*ANNULATION, *BRONSTED acids, *ESTERS, *PALLADIUM, *CATALYSIS, *ORGANIC chemistry

Abstract

This article discusses the synthesis of nitrogen-containing heterocycles, which are important in organic chemistry and medicinal chemistry. The authors focus on the enantioselective (3+2)-annulation of β-keto esters with azoalkenes to form bicyclic dihydropyrroles. They propose a cooperative catalysis strategy using a chiral Pd-aqua complex and a Brønsted acid to activate both the nucleophile and the electrophile. The authors successfully demonstrate the synthesis of these heterocycles with high yields and excellent enantioselectivity. [Extracted from the article]

Published

2024

2. Efficient Synthesis of (2 Z,5 Z)-3-Benzyl/alkyl-5-(2-oxo-5-aryl-3 (2 H)-furanylidene)-2-(phenylimino)-1,3-thiazolidin-4-ones via a One-Pot Three-Component Reaction.

Author

Alizadeh, Abdolali and Moterassed, Reihaneh

Subjects

*LIFE sciences, *RING formation (Chemistry), *AMMONIUM acetate, *ORGANIC chemistry, *INDUSTRIAL chemistry, *ESTERS

Abstract

This article discusses the synthesis of (2 Z,5 Z)-3-benzyl/alkyl-5-(2-oxo-5-aryl-3 (2 H)-furanylidene)-2-(phenylimino)-1,3-thiazolidin-4-ones through a one-pot three-component reaction. Thiazolidine compounds have various applications in fields such as biological science and medicinal chemistry. The article presents a method for the synthesis of these compounds and discusses their potential biological features. The document provides information on the synthesis and characterization of various compounds, including their chemical structures, physical properties, and spectroscopic data. It is a valuable resource for researchers and scientists in the field of chemistry. [Extracted from the article]

Published

2024

3. O‑Acetyl Migration within the Sialic Acid Side Chain: A Mechanistic Study Using the Ab Initio Nanoreactor

Author

Oh, Lisa, Ji, Yang, Li, Wanqing, Varki, Ajit, Chen, Xi, and Wang, Lee-Ping

Subjects

Biological Sciences, Organic Chemistry, Chemical Sciences, Acetylation, Esters, Glycerol, N-Acetylneuraminic Acid, Nanotechnology, Sialic Acids, Medicinal and Biomolecular Chemistry, Biochemistry and Cell Biology, Medical Biochemistry and Metabolomics, Biochemistry & Molecular Biology, Biochemistry and cell biology, Medical biochemistry and metabolomics, Medicinal and biomolecular chemistry

Abstract

Many disease-causing viruses target sialic acids on the surface of host cells. Some viruses bind preferentially to sialic acids with O-acetyl modification at the hydroxyl group of C7, C8, or C9 on the glycerol-like side chain. Studies of proteins binding to sialosides containing O-acetylated sialic acids are crucial in understanding the related diseases but experimentally difficult due to the lability of the ester group. We recently showed that O-acetyl migration among hydroxyl groups of C7, C8, and C9 in sialic acids occurs in all directions in a pH-dependent manner. In the current study, we elucidate a full mechanistic pathway for the migration of O-acetyl among C7, C8, and C9. We used an ab initio nanoreactor to explore potential reaction pathways and density functional theory, pKa calculations, and umbrella sampling to investigate elementary steps of interest. We found that when a base is present, migration is easy in any direction and involves three key steps: deprotonation of the hydroxyl group, cyclization between the two carbons, and the migration of the O-acetyl group. This dynamic equilibrium may play a defensive role against pathogens that evolve to gain entry to the cell by binding selectively to one acetylation state.

Published

2022

4. A Review on the Use of Deep Eutectic Solvents in Protection Reactions.

Author

Scarpelli, Rosa, Bence, Renata, Cano, Natividad Carolina Herrera, Procopio, Antonio, Wunderlin, Daniel, and Nardi, Monica

Subjects

*ORGANIC chemistry, *SOLVENTS, *FUNCTIONAL groups, *CARBONYL group, *SUSTAINABLE chemistry, *EUTECTICS

Abstract

Given the recent research on the application of eco-sustainable methods in organic chemistry, we have focused our attention on the derivatization processes for fundamental functional groups in organic chemistry, such as amino, hydroxyl and carbonyl groups. Protection reactions are needed to temporarily block a certain reactive site on a molecule. The use of green solvents in this context has made an excellent contribution to the development of eco-sustainable methods. In recent years, deep eutectic solvents (DESs) have had great success as a new class of green solvents used in various chemical applications, such as extraction or synthetic processes. These solvents are biodegradable and nontoxic. In this framework, a list of relevant works found in the literature is described, considering DESs to be a good alternative to classic toxic solvents in the protection reactions of important functional groups. [ABSTRACT FROM AUTHOR]

Published

2024

5. Visible Light-Promoted Oxidative Cross-Coupling of Alcohols to Esters.

Author

Dellisanti, Andrea, Chessa, Elisa, Porcheddu, Andrea, Carraro, Massimo, Pisano, Luisa, De Luca, Lidia, and Gaspa, Silvia

Subjects

*ORGANIC chemistry, *ESTERS, *CARBOXYLIC acids, *VISIBLE spectra, *FUNCTIONAL groups, *ALCOHOL

Abstract

Ester is one of the most significant functional groups in organic chemistry and is enclosed in several valued molecules. Usually, esters are prepared through the acid-catalyzed esterification reaction of carboxylic acids with alcohols, transesterification of esters with alcohols, or via activation of carboxylic acids followed by the addition of alcohols. However, these procedures typically imply the excess use of reactants and harsh reaction conditions. Visible light-mediated photoreactions have been disclosed to display a safe, sustainable, and accessible alternative to traditional methods, and to lead new reactivity modes in organic procedures. In this context, we propose a transition metal-based and organic-based photocatalyst-free synthesis of esters from alcohols induced by visible light. The methodology can be carried out using sunlight or artificial visible light as a solar simulator or a blue LED source. [ABSTRACT FROM AUTHOR]

Published

2024

6. Photoredox-catalyzed carbonylative acylation of styrenes with Hantzsch esters.

Author

Li, Qiangwei, Wang, Le-Cheng, Bao, Zhi-Peng, and Wu, Xiao-Feng

Subjects

*STYRENE, *ORGANIC chemistry, *ACYLATION, *ESTERS, *BLUE light

Abstract

Ketones exist widely in naturally occurring products and are indispensable building blocks in organic synthesis. Carbonylation represents one of the most straightforward methods for ketone preparation and has become an attractive field in modern organic chemistry as well. Among the strategies, photocatalytic carbonylation is also worthy of further exploration. Herein, we developed a three-component carbonylation that provides a new method for the synthesis of ketones from Hantzsch esters, CO and styrenes. The reaction was performed under a blue light environment and yields a series of ketones with moderate to good yields. [ABSTRACT FROM AUTHOR]

Published

2024

7. Study of Ground State Interactions of Enantiopure Chiral Quaternary Ammonium Salts and Amides, Nitroalkanes, Nitroalkenes, Esters, Heterocycles, Ketones and Fluoroamides

Author

Bencivenni, Grazia, Illera, Diana Salazar, Moccia, Maria, Houk, KN, Izzo, Joseph A, Novacek, Johanna, Grieco, Paolo, Vetticatt, Mathew J, Waser, Mario, and Adamo, Mauro FA

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Amides, Catalysis, Esters, Ketones, Quaternary Ammonium Compounds, Salts, Stereoisomerism, heterocycles, hydrogen bonds, NMR spectroscopy, organocatalysis, phase-transfer catalysis, General Chemistry, Chemical sciences

Abstract

Chiral phase-transfer catalysis provides high level of enantiocontrol, however no experimental data showed the interaction of catalysts and substrates. 1 H NMR titration was carried out on Cinchona and Maruoka ammonium bromides vs. nitro, carbonyl, heterocycles, and N-F containing compounds. It was found that neutral organic species and quaternary ammonium salts interacted via an ensemble of catalyst + N-C-H and (sp2 )C-H, specific for each substrate studied. The correspondent BArF salts interacted with carbonyls via a diverse set of + N-C-H and (sp2 )C-H compared to bromides. This data suggests that BArF ammonium salts may display a different enantioselectivity profile. Although not providing quantitative data for the affinity constants, the data reported proofs that chiral ammonium salts coordinate with substrates, prior to transition state, through specific C-H positions in their structures, providing a new rational to rationalize the origin of enantioselectivity in their catalyses.

Published

2021

8. Enantioselective Addition of α‐Nitroesters to Alkynes

Author

Davison, Ryan T, Parker, Patrick D, Hou, Xintong, Chung, Crystal P, Augustine, Sara A, and Dong, Vy M

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Alkynes, Amino Acids, Catalysis, Coordination Complexes, Esters, Hydrogen, Rhodium, Stereoisomerism, alkynes, amino acids, nitroester, rhodium hydride, tandem catalysis, Chemical sciences

Abstract

By using Rh-H catalysis, we couple α-nitroesters and alkynes to prepare α-amino-acid precursors. This atom-economical strategy generates two contiguous stereocenters, with high enantio- and diastereocontrol. In this transformation, the alkyne undergoes isomerization to generate a RhIII -π-allyl electrophile, which is trapped by an α-nitroester nucleophile. A subsequent reduction with In powder transforms the allylic α-nitroesters to the corresponding α,α-disubstituted α-amino esters.

Published

2021

9. Ester modification at the 3′ end of anti-microRNA oligonucleotides increases potency of microRNA inhibition

Author

Pham, Kevin M, Suter, Scott R, Lu, Shannon S, and Beal, Peter A

Subjects

Medicinal and Biomolecular Chemistry, Chemical Sciences, Prevention, Biotechnology, Vaccine Related, Genetics, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Argonaute Proteins, Cell Line, Click Chemistry, Drug Evaluation, Preclinical, Esters, Exonucleases, Humans, MicroRNAs, Molecular Docking Simulation, Oligonucleotides, Oligonucleotides, Antisense, Phosphoric Diester Hydrolases, Protein Conformation, Small Molecule Libraries, Structure-Activity Relationship, Triazoles, RNA interference, MicroRNA, Anti-microRNA, Click chemistry, Molecular docking, Argonaute2, Organic Chemistry, Pharmacology and Pharmaceutical Sciences, Medicinal & Biomolecular Chemistry, Biochemistry and cell biology, Medicinal and biomolecular chemistry, Organic chemistry

Abstract

MicroRNAs (miRNAs) are short noncoding RNAs that play a fundamental role in gene regulation. Deregulation of miRNA expression has a strong correlation with disease and antisense oligonucleotides that bind and inhibit miRNAs associated with disease have therapeutic potential. Current research on the chemical modification of anti-miRNA oligonucleotides (anti-miRs) is focused on alterations of the phosphodiester-ribose backbone to improve nuclease resistance and binding affinity to miRNA strands. Here we describe a structure-guided approach for modification of the 3'-end of anti-miRs by screening for modifications compatible with a nucleotide-binding pocket present on human Argonaute2 (hAgo2). We computationally screened a library of 190 triazole-modified nucleoside analogs for complementarity to the t1A-binding pocket of hAgo2. Seventeen top scoring triazoles were then incorporated into the 3' end of anti-miR21 and potency was evaluated for each in a cell-based assay for anti-miR activity. Four triazole-modified anti-miRs showed higher potency than anti-miR21 bearing a 3' adenosine. In particular, a triazole-modified nucleoside bearing an ester substituent imparted a nine-fold and five-fold increase in activity for both anti-miR21 and anti-miR122 at 300 and 5 nM, respectively. The ester group was shown to be critical as a similar carboxylic acid and amide were inactive. Furthermore, anti-miR 3' end modification with triazole-modified nucleoside analogs improved resistance to snake venom phosphodiesterase, a 3'-exonuclease. Thus, the modifications described here are good candidates for improvement of anti-miR activity.

Published

2021

10. Expansion of Gamma-Butyrolactone Signaling Molecule Biosynthesis to Phosphotriester Natural Products

Author

Kudo, Yuta, Awakawa, Takayoshi, Du, Yi-Ling, Jordan, Peter A, Creamer, Kaitlin E, Jensen, Paul R, Linington, Roger G, Ryan, Katherine S, and Moore, Bradley S

Subjects

Microbiology, Biological Sciences, Genetics, Infectious Diseases, 4-Butyrolactone, Biological Products, Bridged Bicyclo Compounds, Heterocyclic, Esters, Genes, Bacterial, Signal Transduction, Streptomyces, Chemical Sciences, Organic Chemistry, Biological sciences, Chemical sciences

Abstract

Bacterial hormones, such as the iconic gamma-butyrolactone A-factor, are essential signaling molecules that regulate diverse physiological processes, including specialized metabolism. These low molecular weight compounds are common in Streptomyces species and display species-specific structural differences. Recently, unusual gamma-butyrolactone natural products called salinipostins were isolated from the marine actinomycete genus Salinispora based on their antimalarial properties. As the salinipostins possess a rare phosphotriester motif of unknown biosynthetic origin, we set out to explore its construction by the widely conserved 9-gene spt operon in Salinispora species. We show through a series of in vivo and in vitro studies that the spt gene cluster dually encodes the salinipostins and newly identified natural A-factor-like gamma-butyrolactones (Sal-GBLs). Remarkably, homologous biosynthetic gene clusters are widely distributed among many actinomycete genera, including Streptomyces, suggesting the significance of this operon in bacteria.

Published

2020

11. Reconsidering the feruoylation of arabinoxylan by Mitsunobu reaction with a di-arabinofuranosyl-xylotriose model.

Author

Elschner, Thomas and Fischer, Steffen

Subjects

MITSUNOBU reaction, ORGANIC chemistry, PHOSPHORUS compounds, ESTERS, ACID derivatives, PHENOLIC acids, HYDROXYCINNAMIC acids

Abstract

Keywords: Arabinoxylan ferulate; Biomass; Carbohydrates; Mitsunobu reaction; Synthetic methods; Xylotriose model; Reducing end-groups EN Arabinoxylan ferulate Biomass Carbohydrates Mitsunobu reaction Synthetic methods Xylotriose model Reducing end-groups 7389 7392 4 08/16/23 20230801 NES 230801 Maintext In our recent article (Elschner et al. [4]), we reported about the Mitsunobu esterification of arabinoxylan with ferulic acid at position 5 of the arabinose side chain. The standard Mitsunobu reaction for the esterification of carboxylic acids with alcohols takes place according to a dehydrative S SB N sb 2 process enabled by reductive triphenylphosphine and diisopropyl azodicarboxylate as oxidant. [Extracted from the article]

Published

2023

12. Recent Advances in Asymmetric [1,2]-Stevens-Type Rearrangement via Metal Carbenes.

Author

Shi, Chong-Yang, Zhou, Bo, Teng, Ming-Yu, and Ye, Long-Wu

Subjects

*METAL carbenes, *BIOACTIVE compounds, *ORGANIC chemistry, *SILYL group, *AMMONIUM salts, *COMPLEX compounds, *AZIRIDINATION, *ESTERS

Published

2023

13. Gold-Catalyzed Synthesis of Chiral Cyclopentadienyl Esters via Chirality Transfer

Author

Zhao, Ke, Hsu, Yu-Chen, Yang, Ziguang, Liu, Rai-Shung, and Zhang, Liming

Subjects

Alkylation, Catalysis, Cyclopentanes, Esters, Gold, Molecular Structure, Stereoisomerism, Chemical Sciences, Organic Chemistry

Abstract

Efficient access to chiral cyclopentadienyl esters from readily accessible chiral enynyl ester substrates is developed. Typically high levels of chirality transfer realized in this homogeneous gold catalysis are attributed to the intermediacy of a chiral bent allene gold complex. Cyclopentadienyl esters can be prepared in good yields and with excellent enantiomeric excesses. The synthetic utilities of the chiral cyclopentadienyl esters are demonstrated by the Diels-Alder reactions, fluorination, alkylation, and epoxidation without any notable erosion of enantiopurity.

Published

2020

14. A Review on the Use of Deep Eutectic Solvents in Protection Reactions

Author

Rosa Scarpelli, Renata Bence, Natividad Carolina Herrera Cano, Antonio Procopio, Daniel Wunderlin, and Monica Nardi

Subjects

deep eutectic solvents, green chemistry, protection reactions, esters, amides, Organic chemistry, QD241-441

Abstract

Given the recent research on the application of eco-sustainable methods in organic chemistry, we have focused our attention on the derivatization processes for fundamental functional groups in organic chemistry, such as amino, hydroxyl and carbonyl groups. Protection reactions are needed to temporarily block a certain reactive site on a molecule. The use of green solvents in this context has made an excellent contribution to the development of eco-sustainable methods. In recent years, deep eutectic solvents (DESs) have had great success as a new class of green solvents used in various chemical applications, such as extraction or synthetic processes. These solvents are biodegradable and nontoxic. In this framework, a list of relevant works found in the literature is described, considering DESs to be a good alternative to classic toxic solvents in the protection reactions of important functional groups.

Published

2024

15. Catalytic Ketonization over Oxide Catalysts (Part XIV): The Ketonization and Cross-Ketonization of Anhydrides, Substituted Acids and Esters

Author

Marek Gliński, Małgorzata Gidzińska, Łukasz Czerwiński, Kasper Drozdowski, Ewa M. Iwanek (nee Wilczkowska), Andrzej Ostrowski, and Dariusz Łomot

Subjects

ketonization, anhydrides, carboxylic acids, esters, ketones, metal oxide catalysts, Organic chemistry, QD241-441

Abstract

A series of 20 wt.% MO2/S catalysts (where M = Ce, Mn or Zr and S = SiO2 or Al2O3) were prepared using various precursors of the active phases. The resulting catalysts were characterized using different methods (XRD, TPR and SBET). For the first time, anhydrides were used as potential starting materials for ketone synthesis. This novel reaction was performed on various aliphatic anhydrides in the presence of catalysts within a temperature range of 523–723 K. For all anhydrides, except for pivalic anhydride, the appropriate ketones were obtained with good or very good yields. The vapor-phase catalytic ketonization of esters of benzene-1,x-dicarboxylic acids (x = 2, 3 or 4) with acetic acid were studied in the range of 673–723 K in order to obtain 1,x-diacetylbenzenes. Their yields strongly increased with an increase in the x value (0, 8 and 43% for x = 2, 3 and 4, respectively). The presence of acetophenone as a side product was always noted. In the case of ω-phenylalkanoic acids, their vapor-phase ketonization with acetic acid led to the formation of appropriate ketones with 47–49% yields. Much lower yields of ketones (3–19%) were obtained for acids and ethyl esters containing heterocycle substituents (with O or S atoms) and/or vinyl groups. In the reaction between ethyl 4-nitrophenylacetate and acetic acid, only the products of ester decomposition (p-toluidine and p-nitrotoluene) were determined.

Published

2024

16. Modifying the Thioester Linkage Affects the Structure of the Acyl Carrier Protein

Author

Sztain, Terra, Patel, Ashay, Lee, D John, Davis, Tony D, McCammon, J Andrew, and Burkart, Michael D

Subjects

Carrier Proteins, Esters, Hydrogen Bonding, Magnetic Resonance Spectroscopy, Molecular Dynamics Simulation, Molecular Structure, Sulfhydryl Compounds, Acyl carrier protein, molecular dynamics, NMR, protein structures, protein interactions, Chemical Sciences, Organic Chemistry

Abstract

At the center of many complex biosynthetic pathways, the acyl carrier protein (ACP) shuttles substrates to appropriate enzymatic partners to produce fatty acids and polyketides. Carrier proteins covalently tether their cargo via a thioester linkage to a phosphopantetheine cofactor. Due to the labile nature of this linkage, chemoenzymatic methods have been developed that involve replacement of the thioester with a more stable amide or ester bond. We explored the importance of the thioester bond to the structure of the carrier protein by using solution NMR spectroscopy and molecular dynamics simulations. Remarkably, the replacement of sulfur with other heteroatoms results in significant structural changes, thus suggesting more rigorous selections of isosteric substitutes is needed.

Published

2019

17. Palladium-Catalyzed Methylation of Aryl, Heteroaryl, and Vinyl Boronate Esters

Author

Haydl, Alexander M and Hartwig, John F

Subjects

Boronic Acids, Catalysis, Coordination Complexes, Esters, Heterocyclic Compounds, Hydrocarbons, Iodinated, Methylation, Molecular Structure, Palladium, Vinyl Compounds, Chemical Sciences, Organic Chemistry

Abstract

A method for the direct methylation of aryl, heteroaryl, and vinyl boronate esters is reported, involving the reaction of iodomethane with aryl-, heteroaryl-, and vinylboronate esters catalyzed by palladium and PtBu2Me. This transformation occurs with a remarkably broad scope and is suitable for late-stage derivatization of biologically active compounds via the boronate esters. The unique capabilities of this method are demonstrated by combining carbon-boron bond-forming reactions with palladium-catalyzed methylation in a tandem transformation.

Published

2019

18. Neolymphostin A Is a Covalent Phosphoinositide 3‑Kinase (PI3K)/Mammalian Target of Rapamycin (mTOR) Dual Inhibitor That Employs an Unusual Electrophilic Vinylogous Ester

Author

Castro-Falcón, Gabriel, Seiler, Grant S, Demir, Özlem, Rathinaswamy, Manoj K, Hamelin, David, Hoffmann, Reece M, Makowski, Stefanie L, Letzel, Anne-Catrin, Field, Seth J, Burke, John E, Amaro, Rommie E, and Hughes, Chambers C

Subjects

Enzyme Inhibitors, Esters, Molecular Docking Simulation, Phosphatidylinositol 3-Kinases, Phosphoinositide-3 Kinase Inhibitors, Protein Conformation, Quinolines, TOR Serine-Threonine Kinases, Medicinal and Biomolecular Chemistry, Organic Chemistry, Pharmacology and Pharmaceutical Sciences, Medicinal & Biomolecular Chemistry

Abstract

Using a novel chemistry-based assay for identifying electrophilic natural products in unprocessed extracts, we identified the PI3-kinase/mTOR dual inhibitor neolymphostin A from Salinispora arenicola CNY-486. The method further showed that the vinylogous ester substituent on the neolymphostin core was the exact site for enzyme conjugation. Tandem MS/MS experiments on PI3Kα treated with the inhibitor revealed that neolymphostin covalently modified Lys802 with a shift in mass of +306 amu, corresponding to addition of the inhibitor and elimination of methanol. The binding pose of the inhibitor bound to PI3Kα was modeled, and hydrogen-deuterium exchange mass spectrometry experiments supported this model. Against a panel of kinases, neolymphostin showed good selectivity for PI3-kinase and mTOR. In addition, the natural product blocked AKT phosphorylation in live cells with an IC50 of ∼3 nM. Taken together, neolymphostin is the first reported example of a covalent kinase inhibitor from the bacterial domain of life.

Published

2018

19. Grignard Reagent-Catalyzed Hydroboration of Esters, Nitriles, and Imines

Author

Hyun Ji Han, Suh Youn Park, So Eun Jeon, Jae Seok Kwak, Ji Hye Lee, Ashok Kumar Jaladi, Hyonseok Hwang, and Duk Keun An

Subjects

hydroboration, esters, nitriles, imines, Grignard reagents, Organic chemistry, QD241-441

Abstract

The reduction in esters, nitriles, and imines requires harsh conditions (highly reactive reagents, high temperatures, and pressures) or complex metal-ligand catalytic systems. Catalysts comprising earth-abundant and less toxic elements are desirable from the perspective of green chemistry. In this study, we developed a green hydroboration protocol for the reduction in esters, nitriles, and imines at room temperature (25 °C) using pinacolborane as the reducing agent and a commercially available Grignard reagent as the catalyst. Screening of various alkyl magnesium halides revealed MeMgCl as the optimal catalyst for the reduction. The hydroboration and subsequent hydrolysis of various esters yielded corresponding alcohols over a short reaction time (~0.5 h). The hydroboration of nitriles and imines produced various primary and secondary amines in excellent yields. Chemoselective reduction and density functional theory calculations are also performed. The proposed green hydroboration protocol eliminates the requirements for complex ligand systems and elevated temperatures, providing an effective method for the reduction in esters, nitriles, and imines at room temperature.

Published

2023

20. Enantioselective Synthesis of Thailanstatin A Methyl Ester and Evaluation of in Vitro Splicing Inhibition

Author

Ghosh, Arun K, Veitschegger, Anne M, Nie, Shenyou, Relitti, Nicola, MacRae, Andrew J, and Jurica, Melissa S

Subjects

Medicinal and Biomolecular Chemistry, Organic Chemistry, Chemical Sciences, Chemistry Techniques, Synthetic, Esters, Pyrans, RNA Splicing, Stereoisomerism, Medicinal and biomolecular chemistry, Organic chemistry

Abstract

Thailanstatin A has been isolated recently from the fermentation broth of B. thailandensis MSMB43. We describe here an enantioselective convergent synthesis of thailanstatin A methyl ester and evaluation of its splicing activity. Synthesis of both highly functionalized tetrahydropyran rings were carried out from commercially available tri- O-acetyl-d-glucal as the key starting material. Our convergent synthesis involved the synthesis of both tetrahydropyran fragments in a highly stereoselective manner. The fragments were then coupled using cross-metathesis as the key step. The synthesis of the diene subunit included a highly stereoselective Claisen rearrangement, a Cu(I)-mediated conjugate addition of MeLi to set the C-14 methyl stereochemistry, a reductive amination reaction to install the C16-amine functionality, and a Wittig olefination reaction to incorporate the diene unit. The epoxy alcohol subunit was synthesized by a highly selective anomeric allylation, a Peterson olefination, and a vanadium catalyzed epoxidation that installed the epoxide stereoselectively. Cross-metathesis of the olefins provided the methyl ester derivative of thailanstatin A. We have carried out in vitro splicing studies of the methyl ester derivative, which proved to be a potent inhibitor of the spliceosome.

Published

2018

21. Isolation of bastadin-6-O-sulfate and expedient purifications of bastadins-4, -5 and -6 from extracts of Ianthella basta

Author

Gartshore, Christopher J, Salib, Mariam N, Renshaw, August A, and Molinski, Tadeusz F

Subjects

Analytical Chemistry, Chemical Sciences, Animals, Esters, Guam, Halogenated Diphenyl Ethers, Molecular Structure, Porifera, Western Australia, Plant Biology, Complementary and Alternative Medicine, Medicinal & Biomolecular Chemistry, Organic chemistry

Abstract

Bastadin-6-34-O-sulfate ester (8) was isolated from methanol extracts of Ianthella basta. The structure of 8 was characterized by analysis of MS and NMR data, and conversion through acid hydrolysis, to the parent compound, bastadin-6, which was identical by HPLC, MS and NMR with an authentic sample. An improved procedure for procurement of pure samples of bastadins-4 (4), -5 (5) and -6 (6) is described.

Published

2018

22. Enantioselective Synthesis of Spliceostatin G and Evaluation of Bioactivity of Spliceostatin G and Its Methyl Ester

Author

Ghosh, Arun K, Reddy, Guddeti Chandrashekar, MacRae, Andrew J, and Jurica, Melissa S

Subjects

Organic Chemistry, Chemical Sciences, Amination, Esters, Molecular Structure, RNA Splicing, Spiro Compounds, Stereoisomerism, Chemical sciences

Abstract

An enantioselective total synthesis of spliceostatin G has been accomplished. The synthesis involved a Suzuki cross-coupling reaction as a key step. The functionalized tetrahydropyran ring was constructed from commercially available optically active tri-O-acetyl-d-glucal. Other key reactions include a highly stereoselective Claisen rearrangement, a Cu(I)-mediated 1,4 addition of MeLi to install the C8 methyl group, and a reductive amination to incorporate the C10 amine functionality of spliceostatin G. Biological evaluation of synthetic spliceostatin G and its methyl ester revealed that it does not inhibit splicing in vitro.

Published

2018

23. Simultaneous Enantiodivergent Synthesis of Diverse Lactones and Lactams via Sequential One-Pot Enzymatic Kinetic Resolution–Ring-Closing Metathesis Reactions.

Author

Brodzka, Anna, Koszelewski, Dominik, and Ostaszewski, Ryszard

Subjects

*METATHESIS reactions, *KINETIC resolution, *LACTONES, *BIOACTIVE compounds, *ORGANIC chemistry, *ESTERS, *LACTAMS, *LEAD compounds

Abstract

One of the goals of diversity-oriented synthesis is to achieve the structural diversity of obtained compounds. As most biologically active compounds are chiral, it is important to develop enantioselective methods of their synthesis. The application of kinetic resolution in DOS is problematic because of low efficiency (max. 50% yield) and many purification steps. The further derivatization of kinetic resolution products in DOS leads to the formation of a narrow library of compounds of the same stereochemistry. To overcome these limitations, we present a new concept in which the kinetic resolution is combined, the subsequent reaction of which in a one-pot protocol leads to the simultaneous formation of two skeletally and enantiomerically diverse platform molecules for DOS. Their further derivatization can gain access to a double-sized library of products in respect to a classical approach. The validity of our concept was evidenced in enzymatic kinetic resolution followed by a ring-closing metathesis cascade. From racemic carboxylic acid ester, a simultaneous formation of enantiopure lactones and lactams was achieved. These compounds are important building blocks in organic and medicinal chemistry and until now were synthesized in separate procedures. [ABSTRACT FROM AUTHOR]

Published

2022

24. An Unexpended Stereocontrolled Rearrangement of Ethyl 4‐Hydroxy‐4‐(substituted phenyl)‐2‐butynoate to Tetrasubstituted Alkenes with MeSOCl2.

Subjects

*ORGANIC chemistry, *ALKENES, *ALKENE derivatives, *CHEMICAL synthesis, *ESTERS

Abstract

Tetrasubstituted alkene derivatives are synthetically important compounds and one of the important research areas in organic chemistry. Stereoselective synthesis of all‐carbon tetrasubstituted alkenes is a challenging problem in chemical synthesis because of the uncontrolled Z/E stereoselectivity. Here we described an unexpended stereocontrolled rearrangement for the synthesis of tetrasubstituted alkenes, each group different from the other. The reaction of ethyl 4‐hydroxy‐4‐(substituted phenyl)‐2‐butynoate derivatives with methanesulfonyl chloride and triethylamine gave in an interesting manner syn‐selective tetrasubstituted alkene, containing the sulfonate ester and the chlorine atom. The Z‐configuration of the chlorovinyl sulfonate esters was determined by X‐ray crystal analysis. The parameters (such as amount of equivalent, solvent, and temperature) that will affect product formation were examined and the optimum conditions for formation were determined. [ABSTRACT FROM AUTHOR]

Published

2022

25. An Unexpended Stereocontrolled Rearrangement of Ethyl 4‐Hydroxy‐4‐(substituted phenyl)‐2‐butynoate to Tetrasubstituted Alkenes with MeSOCl2.

Subjects

ORGANIC chemistry, ALKENES, ALKENE derivatives, CHEMICAL synthesis, ESTERS

Abstract

Tetrasubstituted alkene derivatives are synthetically important compounds and one of the important research areas in organic chemistry. Stereoselective synthesis of all‐carbon tetrasubstituted alkenes is a challenging problem in chemical synthesis because of the uncontrolled Z/E stereoselectivity. Here we described an unexpended stereocontrolled rearrangement for the synthesis of tetrasubstituted alkenes, each group different from the other. The reaction of ethyl 4‐hydroxy‐4‐(substituted phenyl)‐2‐butynoate derivatives with methanesulfonyl chloride and triethylamine gave in an interesting manner syn‐selective tetrasubstituted alkene, containing the sulfonate ester and the chlorine atom. The Z‐configuration of the chlorovinyl sulfonate esters was determined by X‐ray crystal analysis. The parameters (such as amount of equivalent, solvent, and temperature) that will affect product formation were examined and the optimum conditions for formation were determined. [ABSTRACT FROM AUTHOR]

Published

2022

26. A New HPLC-UV Method Using Hydrolyzation with Sodium Hydroxide for Quantitation of Trans-p-Hydroxycinnamic Acid and Total Trans-p-Hydroxycinnamic Acid Esters in the Leaves of Ligustrum robustum

Author

Shi-Hui Lu, Xiao-Na Liang, Xiao-Jin Nong, Ran Chen, and Xiu-Xia Li

Subjects

trans-p-hydroxycinnamic acid, esters, Ligustrum robustum, HPLC-UV, hydrolyzation, sodium hydroxide, Organic chemistry, QD241-441

Abstract

Trans-p-hydroxycinnamic acid and its esters in the leaves of Ligustrum robustum might be a new resource to prevent diabetes and its complications. In the present study, a new HPLC-UV method using hydrolyzation with sodium hydroxide for quantitation of trans-p-hydroxycinnamic acid and total trans-p-hydroxycinnamic acid esters in the leaves of L. robustum was developed, since it was difficult and troublesome to analyze no less than 34 trans-p-hydroxycinnamic acid esters by usual HPLC. The extract of L. robustum was hydrolyzed with sodium hydroxide at 80 °C for 2 h, and then, hydrochloride was added. HPLC analysis was performed in reverse phase mode using a C-18 column, eluting with methanol-0.1% acetic acid aqueous solution (40:60, v/v) in isocratic mode at a flow rate of 1.0 mL·min−1 and detecting at 310 nm. The linear range for trans-p-hydroxycinnamic acid was 11.0–352.0 μg·mL−1 (r2 = 1.000). The limit of detection and limit of quantification were 2.00 and 6.07 μg·mL−1, respectively. The relative standard deviations of intra-day and inter-day variabilities for trans-p-hydroxycinnamic acid were less than 2%. The percentage recovery of trans-p-hydroxycinnamic acid was 103.3% ± 1.1%. It is the first HPLC method using hydrolyzation for quantification of many carboxylic esters. Finally, the method was used successfully to determine trans-p-hydroxycinnamic acid and total trans-p-hydroxycinnamic acid esters in various extracts of the leaves of L. robustum. The 60–70% ethanol extracts of L. robustum showed the highest contents of free trans-p-hydroxycinnamic acid (3.96–3.99 mg·g−1), and the 50–80% ethanol extracts of L. robustum displayed the highest contents of total trans-p-hydroxycinnamic acid esters (202.6–210.6 mg·g−1). The method can be applied also to the quality control of the products of L. robustum.

Published

2023

27. Synthesis of Small Libraries of Natural Products: Part II: Identification of a New Natural Product from the Essential Oil of Pleurospermum austriacum (L.) Hoffm. (Apiaceae)

Author

Niko S. Radulović, Marko Z. Mladenović, Milan S. Dekić, and Fabio Boylan

Subjects

synthetic library, esters, NMR, GC-MS, structure elucidation, Pleurospermum austriacum, Organic chemistry, QD241-441

Abstract

Herein, comprehensive data of NMR, MS, IR, and gas chromatography (RI) obtained by GC-MS on commonly used capillary columns of different polarity (non-polar DB-5MS and polar HP-Innowax) of a series of esters of all constitutional isomers of hexanoic acid with a homologous series of ω-phenylalkan-1-ols (phenylmethanol, 2-phenylethanol, 3-phenylpropan-1-ol, 4-phenylbutan-1-ol, and 5-phenylpentan-1-ol) and phenol, in total 48 chemical entities, were collected. The created synthetic library allowed the identification of a new constituent of the P. austriacum essential oil (3-phenylpropyl 2-methylpentanoate). The accumulated spectral and chromatographical data, as well as the established correlation between RI values and structures of regioisomeric hexanoates, provide (phyto)chemists with a tool that will make future identification of related natural compounds a straightforward task.

Published

2023

28. Nickel (II) complex supported on amino-functionalized magnetic nanoparticles: A active magnetically recoverable catalyst for the synthesis of esters and thioesters.

Author

Yan, Chuanyong, Wei, Qing, Chen, Qunyu, and Zhang, Lei

Subjects

*IRON oxides, *ORGANIC chemistry, *THIOESTERS, *MAGNETIC separation, CATALYSTS recycling

Abstract

• High catalytic-performance. • High reusability. • High yields. • Ecofriendly system. • Magnetic separation. • NMR for all products. Esters and thioesters are of great interest to chemists from a biological and medicinal point of view, that's why the synthesis of these compounds is always a popular research field in organic chemistry. In this method, we first synthesized Fe 3 O 4 @BA/Pyrim-Carboxamide-NiCl 2 nanocatalyst, then studied its catalytic application in the preparation of esters and thioesters through carbonylation and thiocarbonylation of aryl iodides. The results of these experiments showed that the Fe 3 O 4 @BA/Pyrim-Carboxamide-NiCl 2 catalyst in the presence of KOAc in ChCl-Urea solvent can easily conducted a wide range of reactions and the desired ester and thioester products were synthesized with very good yields. The structure of the Fe 3 O 4 @BA/Pyrim-Carboxamide-NiCl 2 catalyst before use and after recovery was well confirmed by a series of techniques. Among the features of this method, the following can be mentioned: the synthesis of esters and thioesters with very good yields, using mild conditions, simple separation of the catalyst, high reusability of the catalyst, providing NMR analysis for all the obtained products. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

29. Iridium‐Catalyzed Enantioselective Allylic Substitution of Aliphatic Esters with Silyl Ketene Acetals as the Ester Enolates

Author

Jiang, Xingyu and Hartwig, John F

Subjects

Organic Chemistry, Chemical Sciences, Acetals, Allyl Compounds, Catalysis, Esters, Ethylenes, Iridium, Ketones, Molecular Structure, Silanes, Stereoisomerism, alkylation, asymmetric catalysis, enantioselectivity, esters, iridium, Chemical sciences

Abstract

Enantioselective allylic substitution with enolates derived from aliphatic esters under mild conditions remains challenging. Herein we report iridium-catalyzed enantioselective allylation reactions of silyl ketene acetals, the silicon enolates of esters, to form products containing a quaternary carbon atom at the nucleophile moiety and a tertiary carbon atom at the electrophile moiety. Under relatively neutral conditions, the allylated aliphatic esters were obtained with excellent regioselectivity and enantioselectivity. These products were readily converted into primary alcohols, carboxylic acids, amides, isocyanates, and carbamates, as well as tetrahydrofuran and γ-butyrolactone derivatives, without erosion of enantiomeric purity.

Published

2017

30. Stereodivergent Allylic Substitutions with Aryl Acetic Acid Esters by Synergistic Iridium and Lewis Base Catalysis

Author

Jiang, Xingyu, Beiger, Jason J, and Hartwig, John F

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Acetates, Allyl Compounds, Amides, Carboxylic Acids, Catalysis, Esters, Iridium, Lewis Bases, Molecular Structure, Organometallic Compounds, Stereoisomerism, General Chemistry, Chemical sciences, Engineering

Abstract

The preparation of all possible stereoisomers of a given chiral molecule bearing multiple stereocenters by a simple and unified method is a significant challenge in asymmetric catalysis. We report stereodivergent allylic substitutions with aryl acetic acid esters catalyzed synergistically by a metallacyclic iridium complex and benzotetramisole. Through permutations of the enantiomers of the two chiral catalysts, all four stereoisomers of the products bearing two adjacent stereocenters are accessible with high diastereoselectivity and enantioselectivity. The resulting chiral activated ester products can be converted readily to enantioenriched amides, unactivated esters, and carboxylic acids in a one-pot manner.

Published

2017

31. Enantioselective semireduction of allenes

Author

Chen, Zhiwei and Dong, Vy M

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Alkadienes, Catalysis, Esters, Ligands, Molecular Structure, Rhodium, Stereoisomerism

Abstract

Rh-hydride catalysis solves a synthetic challenge by affording the enantioselective reduction of allenes, thereby yielding access to motifs commonly used in medicinal chemistry. A designer Josiphos ligand promotes the generation of chiral benzylic isomers, when combined with a Hantzsch ester as the reductant. This semireduction proceeds chemoselectively in the presence of other functional groups, which are typically reduced using conventional hydrogenations. Isotopic labelling studies support a mechanism where the hydride is delivered to the branched position of a Rh-allyl intermediate.Reduction of allenes poses several challenges in terms of chemo-, regio- and enantio-selectivity. Here, the authors report a rhodium-Josiphos catalytic system that reduces a variety of aryl allenes to chiral benzylic compounds with excellent selectivity and functional group tolerance.

Published

2017

32. Epoxidation of Methyl Esters as Valuable Biomolecules: Monitoring of Reaction

Author

Martin Hájek, Tomáš Hájek, David Kocián, Karel Frolich, and András Peller

Subjects

vegetable oils, epoxidation, esters, gas chromatography, infrared spectroscopy, liquid chromatography, Organic chemistry, QD241-441

Abstract

The paper is focused on the epoxidation of methyl esters prepared from oil crops with various profiles of higher fatty acids, especially unsaturated, which are mainly contained in the non-edible linseed and Camelina sativa oil (second generation). The novelty consists in the separation and identification of all products with oxirane ring formed through a reaction and in the determination of time course. Through the epoxidation, many intermediates and final products were formed, i.e., epoxides with different number and/or different position of oxirane rings in carbon chain. For the determination, three main methods (infrared spectroscopy, high-pressure liquid chromatography and gas chromatography with mass spectrometry) were applied. Only gas chromatography enables the separation of individual epoxides, which were identified on the base of the mass spectra, molecule ion and time course of products. The determination of intermediates enables: (i) control of the epoxidation process, (ii) determination of the mixture of epoxides in detail and so the calculation of selectivity of each product. Therefore, the epoxidation will be more environmentally friendly especially for advanced applications of non-edible oil crops containing high amounts of unsaturated fatty acids.

Published

2023

33. Nickel‐Catalyzed Esterification of Aliphatic Amides

Author

Hie, Liana, Baker, Emma L, Anthony, Sarah M, Desrosiers, Jean‐Nicolas, Senanayake, Chris, and Garg, Neil K

Subjects

Organic Chemistry, Chemical Sciences, Amides, Catalysis, Esters, Molecular Conformation, Nickel, Organometallic Compounds, aliphatic amides, cross-coupling, esterification, homogeneous catalysis, nickel, Chemical sciences

Abstract

Recent studies have demonstrated that amides can be used in nickel-catalyzed reactions that lead to cleavage of the amide C-N bond, with formation of a C-C or C-heteroatom bond. However, the general scope of these methodologies has been restricted to amides where the carbonyl is directly attached to an arene or heteroarene. We now report the nickel-catalyzed esterification of amides derived from aliphatic carboxylic acids. The transformation requires only a slight excess of the alcohol nucleophile and is tolerant of heterocycles, substrates with epimerizable stereocenters, and sterically congested coupling partners. Moreover, a series of amide competition experiments establish selectivity principles that will aid future synthetic design. These studies overcome a critical limitation of current Ni-catalyzed amide couplings and are expected to further stimulate the use of amides as synthetic building blocks in C-N bond cleavage processes.

Published

2016

34. Synthesis of Linear (Z)‐α,β‐Unsaturated Esters by Catalytic Cross‐Metathesis. The Influence of Acetonitrile

Author

Yu, Elsie C, Johnson, Brett M, Townsend, Erik M, Schrock, Richard R, and Hoveyda, Amir H

Subjects

Acetonitriles, Catalysis, Esters, Kinetics, Macrolides, Molecular Structure, alkenes, catalysis, cross-metathesis, enoates, molybdenum, Chemical Sciences, Organic Chemistry

Abstract

Kinetically controlled catalytic cross-metathesis reactions that generate (Z)-α,β-unsaturated esters selectively are disclosed. A key finding is that the presence of acetonitrile obviates the need for using excess amounts of a more valuable terminal alkene substrates. On the basis of X-ray structure and spectroscopic investigations a rationale for the positive impact of acetonitrile is provided. Transformations leading to various E,Z-dienoates are highly Z-selective as well. Utility is highlighted by application to stereoselective synthesis of the C1-C12 fragment of biologically active natural product (-)-laulimalide.

Published

2016

35. Potent α-amino-β-lactam carbamic acid ester as NAAA inhibitors. Synthesis and structure–activity relationship (SAR) studies

Author

Nuzzi, Andrea, Fiasella, Annalisa, Ortega, Jose Antonio, Pagliuca, Chiara, Ponzano, Stefano, Pizzirani, Daniela, Bertozzi, Sine Mandrup, Ottonello, Giuliana, Tarozzo, Glauco, Reggiani, Angelo, Bandiera, Tiziano, Bertozzi, Fabio, and Piomelli, Daniele

Subjects

Medicinal and Biomolecular Chemistry, Chemical Sciences, Pain Research, Chronic Pain, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Amidohydrolases, Carbamates, Dose-Response Relationship, Drug, Enzyme Inhibitors, Esters, Humans, Molecular Structure, Structure-Activity Relationship, beta-Lactams, N-acylethanolamine acid amidase, Cysteine hydrolase, Inhibitors, beta-lactams, Structure-activity relationships, Structure–activity relationships, β-lactams, Organic Chemistry, Pharmacology and Pharmaceutical Sciences, Medicinal & Biomolecular Chemistry, Pharmacology and pharmaceutical sciences, Medicinal and biomolecular chemistry, Organic chemistry

Abstract

4-Cyclohexylbutyl-N-[(S)-2-oxoazetidin-3-yl]carbamate (3b) is a potent, selective and systemically active inhibitor of intracellular NAAA activity, which produces profound anti-inflammatory effects in animal models. In the present work, we describe structure-activity relationship (SAR) studies on 3-aminoazetidin-2-one derivatives, which have led to the identification of 3b, and expand these studies to elucidate the principal structural and stereochemical features needed to achieve effective NAAA inhibition. Investigations on the influence of the substitution at the β-position of the 2-oxo-3-azetidinyl ring as well as on the effect of size and shape of the carbamic acid ester side chain led to the discovery of 3ak, a novel inhibitor of human NAAA that shows an improved physicochemical and drug-like profile relative to 3b. This favourable profile, along with the structural diversity of the carbamic acid chain of 3b, identify this compound as a promising new tool to investigate the potential of NAAA inhibitors as therapeutic agents for the treatment of pain and inflammation.

Published

2016

36. Synthesis and Utility of Dihydropyridine Boronic Esters

Author

Panda, Santanu, Coffin, Aaron, Nguyen, Q Nhu, Tantillo, Dean J, and Ready, Joseph M

Subjects

Organic Chemistry, Chemical Sciences, Boronic Acids, Dihydropyridines, Esters, Molecular Structure, Quantum Theory, allylic compounds, boron, heterocycles, samarium iodide, synthetic methods, Chemical sciences

Abstract

When activated by an acylating agent, pyridine boronic esters react with organometallic reagents to form a dihydropyridine boronic ester. This intermediate allows access to a number of valuable substituted pyridine, dihydropyridine, and piperidine products.

Published

2016

37. Nickel-Catalyzed Activation of Acyl C-O Bonds of Methyl Esters.

Author

Hie, Liana, Fine Nathel, Noah F, Hong, Xin, Yang, Yun-Fang, Houk, Kendall N, and Garg, Neil K

Subjects

Carbon, Oxygen, Nickel, Esters, Catalysis, Models, Molecular, C−O activation, density functional calculations, methyl esters, nickel catalysis, oxidative addition, C-O activation, Chemical Sciences, Organic Chemistry

Abstract

We report the first catalytic method for activating the acyl C-O bonds of methyl esters through an oxidative-addition process. The oxidative-addition adducts, formed using nickel catalysis, undergo in situ trapping to provide anilide products. DFT calculations are used to support the proposed reaction mechanism, to understand why decarbonylation does not occur competitively, and to elucidate the beneficial role of the substrate structure and the Al(OtBu)3 additive on the kinetics and thermodynamics of the reaction.

Published

2016

38. Iridium-Catalyzed, Hydrosilyl-Directed Borylation of Unactivated Alkyl C–H Bonds

Author

Larsen, Matthew A, Cho, Seung Hwan, and Hartwig, John

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Boronic Acids, Catalysis, Esters, Iridium, Molecular Structure, Organometallic Compounds, Silanes, General Chemistry, Chemical sciences, Engineering

Abstract

We report the iridium-catalyzed borylation of primary and secondary alkyl C-H bonds directed by a Si-H group to form alkylboronate esters site selectively. The reactions occur with high selectivity at primary C-H bonds γ to the hydrosilyl group to form primary alkyl bisboronate esters. In the absence of such primary C-H bonds, the borylation occurs selectively at a secondary C-H bond γ to the hydrosilyl group, and these reactions of secondary C-H bonds occur with high diastereoselectivity. The hydrosilyl-containing alkyl boronate esters formed by this method undergo transformations selectively at the carbon-boron or carbon-silicon bonds of these products under distinct conditions to give the products of amination, oxidation, and arylation.

Published

2016

39. Synthetic Cinnamides and Cinnamates: Antimicrobial Activity, Mechanism of Action, and In Silico Study

Author

Mayara Castro de Morais, Edeltrudes de Oliveira Lima, Yunierkis Perez-Castillo, and Damião Pergentino de Sousa

Subjects

cinnamic acid, natural product, medicinal plant, esters, amides, molecular docking, Organic chemistry, QD241-441

Abstract

The severity of infectious diseases associated with the resistance of microorganisms to drugs highlights the importance of investigating bioactive compounds with antimicrobial potential. Therefore, nineteen synthetic cinnamides and cinnamates having a cinnamoyl nucleus were prepared and submitted for the evaluation of antimicrobial activity against pathogenic fungi and bacteria in this study. To determine the minimum inhibitory concentration (MIC) of the compounds, possible mechanisms of antifungal action, and synergistic effects, microdilution testing in broth was used. The structures of the synthesized products were characterized with FTIR spectroscopy, 1 H-NMR, 13 C-NMR, and HRMS. Derivative 6 presented the best antifungal profile, suggesting that the presence of the butyl substituent potentiates its biological response (MIC = 626.62 μM), followed by compound 4 (672.83 μM) and compound 3 (726.36 μM). All three compounds were fungicidal, with MFC/MIC ≤ 4. For mechanism of action, compounds 4 and 6 directly interacted with the ergosterol present in the fungal plasmatic membrane and with the cell wall. Compound 18 presented the best antibacterial profile (MIC = 458.15 μM), followed by compound 9 (550.96 μM) and compound 6 (626.62 μM), which suggested that the presence of an isopropyl group is important for antibacterial activity. The compounds were bactericidal, with MBC/MIC ≤ 4. Association tests were performed using the Checkerboard method to evaluate potential synergistic effects with nystatin (fungi) and amoxicillin (bacteria). Derivatives 6 and 18 presented additive effects. Molecular docking simulations suggested that the most likely targets of compound 6 in C. albicans were caHOS2 and caRPD3, while the most likely target of compound 18 in S. aureus was saFABH. Our results suggest that these compounds could be used as prototypes to obtain new antimicrobial drugs.

Published

2023

40. 5-Chloroisoxazoles: A Versatile Starting Material for the Preparation of Amides, Anhydrides, Esters, and Thioesters of 2H-Azirine-2-carboxylic Acids

Author

Anastasiya V. Agafonova, Mikhail S. Novikov, and Alexander F. Khlebnikov

Subjects

isoxazoles, azirines, acylation, amides, esters, Organic chemistry, QD241-441

Abstract

Amides, anhydrides, esters, and thioesters of 2H-azirine-2-carboxylic acids were prepared by a rapid procedure at room temperature involving FeCl2-catalyzed isomerization of 5-chloroisoxazoles to 2H-azirine-2-carbonyl chlorides, followed by reaction with N-, O-, or S-nucleophiles mediated by an ortho-substituted pyridine. With readily available chloroisoxazoles and a nucleophile, 2-picoline can be used as an inexpensive base. When a high yield of the acylation product is important, the reagent 2-(trimethylsilyl)pyridine/ethyl chloroformate is more suitable for the acylation with 2H-azirine-2-carbonyl chlorides.

Published

2022

41. Conversion of amides to esters by the nickel-catalysed activation of amide C–N bonds

Author

Hie, Liana, Fine Nathel, Noah F, Shah, Tejas K, Baker, Emma L, Hong, Xin, Yang, Yun-Fang, Liu, Peng, Houk, KN, and Garg, Neil K

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Alcohols, Amides, Benzamides, Benzoates, Carbon, Catalysis, Chemistry Techniques, Synthetic, Esters, Nickel, Nitrogen, Thermodynamics, General Science & Technology

Abstract

Amides are common functional groups that have been studied for more than a century. They are the key building blocks of proteins and are present in a broad range of other natural and synthetic compounds. Amides are known to be poor electrophiles, which is typically attributed to the resonance stability of the amide bond. Although amides can readily be cleaved by enzymes such as proteases, it is difficult to selectively break the carbon-nitrogen bond of an amide using synthetic chemistry. Here we demonstrate that amide carbon-nitrogen bonds can be activated and cleaved using nickel catalysts. We use this methodology to convert amides to esters, which is a challenging and underdeveloped transformation. The reaction methodology proceeds under exceptionally mild reaction conditions, and avoids the use of a large excess of an alcohol nucleophile. Density functional theory calculations provide insight into the thermodynamics and catalytic cycle of the amide-to-ester transformation. Our results provide a way to harness amide functional groups as synthetic building blocks and are expected to lead to the further use of amides in the construction of carbon-heteroatom or carbon-carbon bonds using non-precious-metal catalysis.

Published

2015

42. High activity of an indium alkoxide complex toward ring opening polymerization of cyclic esters

Author

Quan, Stephanie M and Diaconescu, Paula L

Subjects

4-Butyrolactone, Caproates, Cyclization, Dioxanes, Esters, Ferrous Compounds, Indium, Lactic Acid, Lactones, Metallocenes, Organometallic Compounds, Oxides, Polymerization, Pyrones, Schiff Bases, Stereoisomerism, Chemical Sciences, Organic Chemistry

Abstract

An indium complex supported by a ferrocene-derived Schiff base ligand has an unprecedented high activity toward ε-caprolactone, δ-valerolactone, and β-butyrolactone. l-Lactide, d,l-lactide, and trimethylene carbonate polymerizations also showed moderate to high activity.

Published

2015

43. Nickel‐Catalyzed Dehydrogenative Cross‐Coupling: Direct Transformation of Aldehydes into Esters and Amides

Author

Whittaker, Aaron M and Dong, Vy M

Subjects

Aldehydes, Amides, Carbon, Catalysis, Esters, Hydrogen, Nickel, Oxidation-Reduction, Stereoisomerism, amides, cross-coupling, dehydrogenation, esters, nickel, Chemical Sciences, Organic Chemistry

Abstract

By exploring a new mode of nickel-catalyzed cross-coupling, a method to directly transform both aromatic and aliphatic aldehydes into either esters or amides has been developed. The success of this oxidative coupling depends on the appropriate choice of catalyst and organic oxidant, including the use of either α,α,α-trifluoroacetophenone or excess aldehyde. Mechanistic data that supports a catalytic cycle involving oxidative addition into the aldehyde C-H bond is also presented.

Published

2015

44. Synthesis, Biological Evaluation, and 3D QSAR Study of 2‑Methyl-4-oxo-3-oxetanylcarbamic Acid Esters as N‑Acylethanolamine Acid Amidase (NAAA) Inhibitors

Author

Ponzano, Stefano, Berteotti, Anna, Petracca, Rita, Vitale, Romina, Mengatto, Luisa, Bandiera, Tiziano, Cavalli, Andrea, Piomelli, Daniele, Bertozzi, Fabio, and Bottegoni, Giovanni

Subjects

5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Amidohydrolases, Animals, Carbamates, Enzyme Inhibitors, Esters, Humans, Models, Molecular, Quantitative Structure-Activity Relationship, Structure-Activity Relationship, Medicinal and Biomolecular Chemistry, Organic Chemistry, Pharmacology and Pharmaceutical Sciences, Medicinal & Biomolecular Chemistry

Abstract

N-(2-Oxo-3-oxetanyl)carbamic acid esters have recently been reported to be noncompetitive inhibitors of the N-acylethanolamine acid amidase (NAAA) potentially useful for the treatment of pain and inflammation. In the present study, we further explored the structure-activity relationships of the carbamic acid ester side chain of 2-methyl-4-oxo-3-oxetanylcarbamic acid ester derivatives. Additional favorable features in the design of potent NAAA inhibitors have been found together with the identification of a single digit nanomolar inhibitor. In addition, we devised a 3D QSAR using the atomic property field method. The model turned out to be able to account for the structural variability and was prospectively validated by designing, synthesizing, and testing novel inhibitors. The fairly good agreement between predictions and experimental potency values points to this 3D QSAR model as the first example of quantitative structure-activity relationships in the field of NAAA inhibitors.

Published

2014

45. New Data from Xi'an Jiaotong University Illuminate Findings in Photocatalytics (Photoredox-catalyzed Selective Deuterodefluorination of A,a-difluoroarylacetic Esters and Amides).

Subjects

AMIDES, ESTERS, TECHNOLOGICAL innovations, CLEAN energy, ORGANIC chemistry

Abstract

Researchers from Xi'an Jiaotong University in China have developed a highly selective photocatalytic deuterodefluorination method for fluorinated esters. By tailoring the catalytic system, they were able to achieve good yields and excellent deuteration rates for 2-fluoro-2-arylacetate-d and 2-arylacetate-d2. The protocol was successfully applied to deuterate drug molecules such as felbinacethyl-d2 and felbilnac-d2. The use of a catalytic amount of disulfide was found to be crucial for both C-F bond activation and C-D bond formation. This research has been peer-reviewed and published in Organic Chemistry Frontiers. [Extracted from the article]

Published

2024

46. Unusual Formation of 1,2,4-Oxadiazine Core in Reaction of Amidoximes with Maleic or Fumaric Esters

Author

Sofia I. Presnukhina, Marina V. Tarasenko, Kirill K. Geyl, Svetlana O. Baykova, Sergey V. Baykov, Anton A. Shetnev, and Vadim P. Boyarskiy

Subjects

amidoximes, heterocycles, esters, nucleophilic addition, cyclization, basic medium, Organic chemistry, QD241-441

Abstract

We have developed a simple and convenient method for the synthesis of 3-aryl- and 3-hetaryl-1,2,4-oxadiazin-5-ones bearing an easily functionalizable (methoxycarbonyl)methyl group at position 6 via the reaction of aryl or hetaryl amidoximes with maleates or fumarates. The conditions for this reaction were optimized. Different products can be synthesized selectively in good yields depending on the base used and the ratio of reactants: substituted (1,2,4-oxadiazin-6-yl)acetic acids, corresponding methyl esters, or hybrid 3-(aryl)-6-((3-(aryl)-1,2,4-oxadiazol-5-yl)methyl)-4H-1,2,4-oxadiazin-5(6H)-ones. The reaction is tolerant to substituents’ electronic and steric effects in amidoximes. As a result, a series of 2-(5-oxo-3-(p-tolyl)-5,6-dihydro-4H-1,2,4-oxadiazin-6-yl)acetic acids, their methyl esters, and 1,2,4-oxadiazoles based on them were prepared and characterized by HRMS, 1H, and 13C NMR spectroscopy. The structures of three of them were elucidated with X-ray diffraction.

Published

2022

47. Cellular Scent of Influenza Virus Infection.

Author

Aksenov, Alexander A, Sandrock, Christian E, Zhao, Weixiang, Sankaran, Shankar, Schivo, Michael, Harper, Richart, Cardona, Carol J, Xing, Zheng, and Davis, Cristina E

Subjects

Biochemistry and Cell Biology, Medicinal and Biomolecular Chemistry, Chemical Sciences, Biological Sciences, Emerging Infectious Diseases, Influenza, Pneumonia & Influenza, Infectious Diseases, Biodefense, 2.2 Factors relating to the physical environment, Aetiology, Infection, B-Lymphocytes, Biomarkers, Cell Line, Gas Chromatography-Mass Spectrometry, Humans, Influenza A Virus, H1N1 Subtype, Influenza A Virus, H9N2 Subtype, Influenza, Human, Volatile Organic Compounds, breath analysis, esters, gas chromatography, influenza, mass spectrometry, volatile organic compounds, Organic Chemistry, Biochemistry and cell biology, Medicinal and biomolecular chemistry

Abstract

Volatile organic compounds (VOCs) emanating from humans have the potential to revolutionize non-invasive diagnostics. Yet, little is known about how these compounds are generated by complex biological systems, and even less is known about how these compounds are reflective of a particular physiological state. In this proof-of-concept study, we examined VOCs produced directly at the cellular level from B lymphoblastoid cells upon infection with three live influenza virus subtypes: H9N2 (avian), H6N2 (avian), and H1N1 (human). Using a single cell line helped to alleviate some of the complexity and variability when studying VOC production by an entire organism, and it allowed us to discern marked differences in VOC production upon infection of the cells. The patterns of VOCs produced in response to infection were unique for each virus subtype, while several other non-specific VOCs were produced after infections with all three strains. Also, there was a specific time course of VOC release post infection. Among emitted VOCs, production of esters and other oxygenated compounds was particularly notable, and these may be attributed to increased oxidative stress resulting from infection. Elucidating VOC signatures that result from the host cells response to infection may yield an avenue for non-invasive diagnostics and therapy of influenza and other viral infections.

Published

2014

48. Quinine Esters with 1,2-Azole, Pyridine and Adamantane Fragments

Author

Gulim K. Mukusheva, Aigerym R. Zhasymbekova, Roza B. Seidakhmetova, Oralgazy A. Nurkenov, Ekaterina A. Akishina, Sergey K. Petkevich, Evgenij A. Dikusar, and Vladimir I. Potkin

Subjects

quinine, esters, isoxazole, isothiazole, pyridine, adamantane, Organic chemistry, QD241-441

Abstract

An efficient method of producing quinine derivatives via reaction of acylation with 4,5-dichloroisothiazole-3-, 5-arylisoxazole-3-, adamantane- and hydrochlorides of pyridine-3- and pyridine-4-carbonyl chlorides was developed. All synthesized compounds were tested for antiviral, antimicrobial and analgesic activity. The most pronounced antibacterial activity was shown by the compounds 2e, 3b, 3c and 3e with isoxazole and pyridine fragments. It was found that most of the tested compounds showed significant analgesic activity reducing the pain response of animals to the irritating effect of acetic acid.

Published

2022

49. Effects of Organic Acids on the Release of Fruity Esters in Water: An Insight at the Molecular Level

Author

Yu Liu, Hui Xi, Yingjie Fu, Peng Li, Shihao Sun, and Yongli Zong

Subjects

esters, organic acids, aroma release, density functional theory, intermolecular interaction, odour detection threshold, Organic chemistry, QD241-441

Abstract

It is well known that organic acids (OAs) could affect the flavour of fruit juices and beverages. However, the molecular mechanism of aroma release is still unclear. In this study, the effects of citric acid (CA), L-(-)-malic acid (MA) and L-lactic acid (LA) on the release of six selected esters and their sensory perception were investigated by means of HS-GC-MS analyses and odour detection threshold determination, respectively. Meanwhile, the density functional theory (DFT) calculation was employed to explore the interaction modes between esters and OAs. HS-GC-MS analyses showed that the concentration and the type of OAs regulated the release of esters. The results were basically consistent with the detection threshold change of those esters. The DFT calculation suggested that the main intermolecular interaction was hydrogen bonds, and several esters could form a ternary ring structure with OAs through hydrogen bonds. The interactions can induce the different release behaviours of esters in OAs water solution. The number of carboxyl functional groups in OAs and the spatial conformation of esters appeared to influence the magnitude of the interaction. The above results demonstrated the mechanism of OAs affecting the release of esters and indicated a possible flavour control way by using different OAs and OA concentrations.

Published

2022

50. Palladium-Catalyzed α‑Arylation of Zinc Enolates of Esters: Reaction Conditions and Substrate Scope

Author

Hama, Takuo, Ge, Shaozhong, and Hartwig, John F

Subjects

Catalysis, Esters, Molecular Structure, Organometallic Compounds, Palladium, Zinc, Medicinal and Biomolecular Chemistry, Organic Chemistry

Abstract

The intermolecular α-arylation of esters by palladium-catalyzed coupling of aryl bromides with zinc enolates of esters is reported. Reactions of three different types of zinc enolates have been developed. α-Arylation of esters occurs in high yields with isolated Reformatsky reagents, with Reformatsky reagents generated from α-bromo esters and activated zinc, and with zinc enolates generated by quenching alkali metal enolates of esters with zinc chloride. The use of zinc enolates, instead of alkali metal enolates, greatly expands the scope of the arylation of esters. The reactions occur at room temperature or at 70 °C with bromoarenes containing cyano, nitro, ester, keto, fluoro, enolizable hydrogen, hydroxyl, or amino functionality and with bromopyridines. The scope of esters encompasses acyclic acetates, propionates, and isobutyrates, α-alkoxyesters, and lactones. The arylation of zinc enolates of esters was conducted with catalysts bearing the hindered pentaphenylferrocenyl di-tert-butylphosphine (Q-phos) or the highly reactive dimeric Pd(I) complex {[P(t-Bu)3]PdBr}2.

Published

2013