Your search keyword '"imines"' showing total 2,539 results

1. A facile synthesis of α,β-unsaturated imines via palladium-catalyzed dehydrogenation.

Author

Zhao, Chunyang, Gao, Rongwan, Ma, Wenxuan, Li, Miao, Li, Yifei, Zhang, Qian, Guan, Wei, and Fu, Junkai

Subjects

DEHYDROGENATION, ORGANIC chemistry, IMINES, CARBONYL group, DERIVATIZATION

Abstract

The dehydrogenation adjacent to an electron-withdrawing group provides an efficient access to α,β-unsaturated compounds that serving as versatile synthons in organic chemistry. However, the α,β-desaturation of aliphatic imines has hitherto proven to be challenging due to easy hydrolysis and preferential dimerization. Herein, by employing a pre-fluorination and palladium-catalyzed dehydrogenation reaction sequence, the abundant simple aliphatic amides are amendable to the rapid construction of complex molecular architectures to produce α,β-unsaturated imines. Mechanistic investigations reveal a Pd(0)/Pd(II) catalytic cycle involving oxidative H–F elimination of N-fluoroamide followed by a smooth α,β-desaturation of the in-situ generated aliphatic imine intermediate. This protocol exhibits excellent functional group tolerance, and even the carbonyl groups are compatible without any competing dehydrogenation, allowing for late-stage functionalization of complex bioactive molecules. The synthetic utility of this transformation has been further demonstrated by a diversity-oriented derivatization and a concise formal synthesis of (±)-alloyohimbane. α,β-unsaturated compounds serve as versatile synthons in organic chemistry, but the α,β-desaturation of aliphatic imines is challenging due to easy hydrolysis and preferential dimerization. Herein, the authors report the synthesis of α,β-unsaturated imines by employing a pre-fluorination and palladium-catalyzed dehydrogenation reaction sequence. [ABSTRACT FROM AUTHOR]

Published

2024

2. Synthesis of Naturally Racemic Marilines B & C through Multicomponent Reactions Involving ortho -Quinone Methides and Various Nitrogen Nucleophiles

Author

Wong, Yuk Fai and Pettus, Thomas RR

Subjects

ortho-quinone methides, marilines, imines, dihydrooxazoles, anilines, isoindolin-1-ones, phthalimidines, salicylaldehydes, Analytical Chemistry, Organic Chemistry

Abstract

Abstract: Herein, we report the first total synthesis of (±)-marilines B and C, as well as a failed approach to (±)-mariline A, by using our recently developed multicomponent reaction method, which involves the interception of ortho-quinone methides with various nitrogen nucleophiles to allow easy assembly of various benzylic amine cores with diverse substituents.

Published

2023

3. Doubly Metathetic NiCl2-Catalyzed Coupling Between Bis(2-oxazolines) and Aldehydes: A Novel Access to Bis(ester-imine) Derivatives

Author

Sara Colombo, Julie Oble, Giovanni Poli, Leonardo Lo Presti, Giovanni Macetti, Alessandro Contini, Gianluigi Broggini, Marta Papis, and Camilla Loro

Subjects

nickel catalysis, bis(2-oxazolines), aldehydes, Lewis acids, malonic esters, imines, Organic chemistry, QD241-441

Abstract

The coupling between bis(2-oxazolines) and two equivalents of aromatic aldehydes in the presence of catalytic amounts of NiCl2 affords an ester-imine product in synthetically useful yields. This virtually unknown, 100% atom-economic transformation involves the formal metathesis between the C=N double bond of the bis(2-oxazoline) moiety, which undergoes ring-opening, and the C=O double bond of the aldehyde. The scope of this transformation is studied, and a mechanism is proposed based on DFT calculations.

Published

2024

4. Palladium‐Catalyzed Cascade Heck Coupling and Allylboration of Iododiboron Compounds via Diboryl Radicals.

Author

Wei, Yi, Xie, Xiao‐Yu, Liu, Jiabin, Liu, Xiaoxiao, Zhang, Bo, Chen, Xin‐Yi, Li, Shi‐Jun, Lan, Yu, and Hong, Kai

Subjects

*ALLYLBORATION, *RADICALS (Chemistry), *ORGANIC chemistry, *NUCLEOPHILES, *IMINES, *FUNCTIONAL groups

Abstract

Geminal bis(boronates) are versatile synthetic building blocks in organic chemistry. The fact that they predominantly serve as nucleophiles in the previous reports, however, has restrained their synthetic potential. Herein we disclose the ambiphilic reactivity of α‐halogenated geminal bis(boronates), of which the first catalytic utilization was accomplished by merging a formal Heck cross‐coupling with a highly diastereoselective allylboration of aldehydes or imines, providing a new avenue for rapid assembly of polyfunctionalized boron‐containing compounds. We demonstrated that this cascade reaction is highly efficient and compatible with various functional groups, and a wide range of heterocycles. In contrast to a classical Pd(0/II) scenario, mechanistic experiments and DFT calculations have provided strong evidence for a catalytic cycle involving Pd(I)/diboryl carbon radical intermediates. [ABSTRACT FROM AUTHOR]

Published

2024

5. Fluorophosphoric Acid Promoted Formation of Imines of Sulfonamides and Dihydropyridines at Room Temperature.

Author

Suryawanshi, Vikas B., Mathakari, Sujit S., Swami, Mantosh B., and Mathapati, Sushil R.

Subjects

*ENDOTHELINS, *SCHIFF bases, *DIHYDROPYRIDINE, *SULFONAMIDES, *IMINES, *ORGANIC chemistry, *ANALYTICAL chemistry, *IONIC liquids

Abstract

This article provides information on the synthesis and characterization of Schiff bases of sulfonamides and dihydropyridines using fluorophosphoric acid as a catalyst. The compounds synthesized have various applications, including the treatment of bacterial infections and conditions like hypertension and cardiac arrhythmias. The authors optimized the reaction conditions and found that the procedure could be applied to different substrates with good yields. The document includes detailed descriptions of the physical properties and spectroscopic data of each compound, as well as elemental analysis results. [Extracted from the article]

Published

2024

6. Renewable Schiff-Base Ionic Liquids for Lignocellulosic Biomass Pretreatment

Author

Choudhary, Hemant, Pidatala, Venkataramana R, Mohan, Mood, Simmons, Blake A, Gladden, John M, and Singh, Seema

Subjects

Medicinal and Biomolecular Chemistry, Organic Chemistry, Chemical Sciences, Climate Action, Affordable and Clean Energy, Aldehydes, Amines, Biomass, Hydrolysis, Imines, Ionic Liquids, Lignin, Sugars, ionic liquids, vanillin, ethylene diamine, lignocellulose, biofuel, biorefinery, lignin, Theoretical and Computational Chemistry, Medicinal and biomolecular chemistry, Organic chemistry

Abstract

Growing interest in sustainable sources of chemicals and energy from renewable and reliable sources has stimulated the design and synthesis of renewable Schiff-base (iminium) ionic liquids (ILs) to replace fossil-derived ILs. In this study, we report on the synthesis of three unique iminium-acetate ILs from lignin-derived aldehyde for a sustainable “future” lignocellulosic biorefinery. The synthesized ILs contained only imines or imines along with amines in their structure; the ILs with only imines group exhibited better pretreatment efficacy, achieving >89% sugar release. Various analytical and computational tools were employed to understand the pretreatment efficacy of these ILs. This is the first study to demonstrate the ease of synthesis of these renewable ILs, and therefore, opens the door for a new class of “Schiff-base ILs” for further investigation that could also be designed to be task specific.

Published

2022

7. Catalytic Atroposelective Synthesis of Axially Chiral Azomethine Imines and Neuroprotective Activity Evaluation.

Author

Yang, Qian‐Qian, Chen, Chen, Yao, Dahong, Liu, Wei, Liu, Bo, Zhou, Jin, Pan, Dabo, Peng, Cheng, Zhan, Gu, and Han, Bo

Subjects

*SCHIFF bases, *IMINES, *KINETIC resolution, *DORSAL root ganglia, *ORGANIC chemistry, *NEUROPROTECTIVE agents

Abstract

Azomethine imines, as a prominent class of 1,3‐dipolar species, hold great significance and potential in organic and medicinal chemistry. However, the reported synthesis of centrally chiral azomethine imines relies on kinetic resolution, and the construction of axially chiral azomethine imines remains unexplored. Herein, we present the synthesis of axially chiral azomethine imines through copper‐ or chiral phosphoric acid catalyzed ring‐closure reactions of N′‐(2‐alkynylbenzylidene)hydrazides, showcasing high efficiency, mild conditions, broad substrate scope, and excellent enantioselectivity. Furthermore, the biological evaluation revealed that the synthesized axially chiral azomethine imines effectively protect dorsal root ganglia (DRG) neurons by inhibiting apoptosis induced by oxaliplatin, offering a promising therapeutic approach for chemotherapy‐induced peripheral neuropathy (CIPN). Remarkably, the (S)‐ and (R)‐atropisomers displayed distinct neuroprotective activities, underscoring the significance of axial stereochemistry. [ABSTRACT FROM AUTHOR]

Published

2024

8. C6–H Bond Functionalization of Indoles: A New Gate.

Author

Taskesenligil, Yunus and Saracoglu, Nurullah

Subjects

*PHENANTHRIDINE, *INDOLE compounds, *IMINES, *AMINATION, *CONJUGATE addition reactions, *ORGANIC chemistry, *MATERIALS science, *ELECTROPHILIC substitution reactions

Published

2023

9. Mechanism and Origins of Stereoselectivity of the Aldol-Tishchenko Reaction of Sulfinimines

Author

Turlik, Aneta, Ando, Kaori, Mackey, Pamela, Alcock, Emma, Light, Mark, McGlacken, Gerard P, and Houk, KN

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Aldehydes, Imines, Ketones, Stereoisomerism, Sulfonium Compounds, Medicinal and Biomolecular Chemistry, Medicinal and biomolecular chemistry, Organic chemistry

Abstract

Density functional theory computations have elucidated the mechanism and origins of stereoselectivity in McGlacken's aldol-Tishchenko reaction for the diastereoselective synthesis of 1,3-amino alcohols using Ellman's t-butylsulfinimines as chiral auxiliaries. Variations of stereochemical outcome are dependent on the nature of the ketone starting materials used, and the aspects leading to these differences have been rationalized. The intramolecular hydride transfer step is the rate- and stereochemistry-determining step, and all prior steps are reversible.

Published

2021

10. Navigating the Unnatural Reaction Space: Directed Evolution of Heme Proteins for Selective Carbene and Nitrene Transfer

Author

Yang, Yang and Arnold, Frances H

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Biotechnology, 1.3 Chemical and physical sciences, Cytochrome P-450 Enzyme System, Hemeproteins, Imines, Iron Compounds, Methane, Molecular Structure, General Chemistry, Chemical sciences

Abstract

Despite the astonishing diversity of naturally occurring biocatalytic processes, enzymes do not catalyze many of the transformations favored by synthetic chemists. Either nature does not care about the specific products, or if she does, she has adopted a different synthetic strategy. In many cases, the appropriate reagents used by synthetic chemists are not readily accessible to biological systems. Here, we discuss our efforts to expand the catalytic repertoire of enzymes to encompass powerful reactions previously known only in small-molecule catalysis: formation and transfer of reactive carbene and nitrene intermediates leading to a broad range of products, including products with bonds not known in biology. In light of the structural similarity of iron carbene (Fe═C(R1)(R2)) and iron nitrene (Fe═NR) to the iron oxo (Fe═O) intermediate involved in cytochrome P450-catalyzed oxidation, we have used synthetic carbene and nitrene precursors that biological systems have not encountered and repurposed P450s to catalyze reactions that are not known in the natural world. The resulting protein catalysts are fully genetically encoded and function in intact microbial cells or cell-free lysates, where their performance can be improved and optimized by directed evolution. By leveraging the catalytic promiscuity of P450 enzymes, we evolved a range of carbene and nitrene transferases exhibiting excellent activity toward these new-to-nature reactions. Since our initial report in 2012, a number of other heme proteins including myoglobins, protoglobins, and cytochromes c have also been found and engineered to promote unnatural carbene and nitrene transfer. Due to the altered active-site environments, these heme proteins often displayed complementary activities and selectivities to P450s.Using wild-type and engineered heme proteins, we and others have described a range of selective carbene transfer reactions, including cyclopropanation, cyclopropenation, Si-H insertion, B-H insertion, and C-H insertion. Similarly, a variety of asymmetric nitrene transfer processes including aziridination, sulfide imidation, C-H amidation, and, most recently, C-H amination have been demonstrated. The scopes of these biocatalytic carbene and nitrene transfer reactions are often complementary to the state-of-the-art processes based on small-molecule transition-metal catalysts, making engineered biocatalysts a valuable addition to the synthetic chemist's toolbox. Moreover, enabled by the exquisite regio- and stereocontrol imposed by the enzyme catalyst, this biocatalytic platform provides an exciting opportunity to address challenging problems in modern synthetic chemistry and selective catalysis, including ones that have eluded synthetic chemists for decades.

Published

2021

11. No Transition Metals Required -- Oxygen Promoted Synthesis of Imines from Primary Alcohols and Amines under Ambient Conditions.

Author

Himmelbauer, Daniel, Talmazan, Radu, Weber, Stefan, Pecak, Jan, Thun-Hohenstein, Antonio, Geissler, Maxine-Sophie, Pachmann, Lukas, Pignitter, Marc, Podewitz, Maren, and Kirchner, Karl

Subjects

*TRANSITION metals, *IMINES, *ORGANIC chemistry, *ALCOHOL, *AMINES, *BENZYL alcohol

Abstract

The synthesis of imines denotes a cornerstone in organic chemistry. The use of alcohols as renewable substituents for carbonyl-functionality represents an attractive opportunity. Consequently, carbonyl moieties can be in situ generated from alcohols upon transition-metal catalysis under inert atmosphere. Alternatively, bases can be utilized under aerobic conditions. In this context, we report the synthesis of imines from benzyl alcohols and anilines, promoted by KOtBu under aerobic conditions at room temperature, in the absence of any transition-metal catalyst. A detailed investigation of the radical mechanism of the underlying reaction is presented. This reveals a complex reaction network fully supporting the experimental findings. [ABSTRACT FROM AUTHOR]

Published

2023

12. Davis–Beirut Reaction: A Photochemical Brønsted Acid Catalyzed Route to N‑Aryl 2H‑Indazoles

Author

Kraemer, Niklas, Li, Clarabella J, Zhu, Jie S, Larach, Julio M, Tsui, Ka Yi, Tantillo, Dean J, Haddadin, Makhluf J, and Kurth, Mark J

Subjects

Organic Chemistry, Chemical Sciences, Amines, Benzyl Alcohols, Catalysis, Imines, Indazoles, Nitro Compounds, Chemical sciences

Abstract

The Davis-Beirut reaction provides access to 2H-indazoles from aromatic nitro compounds. However, N-aryl targets have been traditionally challenging to access due to competitive alternate reaction pathways. Previously, the key nitroso imine intermediate was generated under alkaline conditions, but as reported here, the photochemistry of o-nitrobenzyl alcohols empowered Brønsted acid catalyzed conditions for accessing N-aryl targets. Anilines and alkyl amines give different outcomes under optimized conditions; the proposed mechanism was studied using quantum chemical calculations.

Published

2019

13. Multistep Solid-State Organic Synthesis of Carbamate-Linked Covalent Organic Frameworks

Author

Lyle, Steven J, Popp, Thomas M Osborn, Waller, Peter J, Pei, Xiaokun, Reimer, Jeffrey A, and Yaghi, Omar M

Subjects

Organic Chemistry, Chemical Sciences, Carbamates, Imines, Molecular Structure, Porosity, Surface Properties, General Chemistry, Chemical sciences, Engineering

Abstract

Herein, we demonstrate the first example of a multistep solid-state organic synthesis, in which a new imine-linked two-dimensional covalent organic framework (COF-170, 1) was transformed through three consecutive postsynthetic modifications into porous, crystalline cyclic carbamate and thiocarbamate-linked frameworks. These linkages are previously unreported and inaccessible through de novo synthesis. While not altering the overall connectivity of the framework, these chemical transformations induce significant conformational and structural changes at each step, highlighting the key importance of noncovalent interactions and conformational flexibility to COF crystallinity and porosity. These transformations were assessed using 15N multiCP-MAS NMR spectroscopy, providing the first quantitation of yields in COF postsynthetic modification reactions, as well as of amine defect sites in imine-linked COFs. This multistep COF linkage postsynthetic modification represents a significant step toward bringing the precision of organic solution-phase synthesis to extended solid-state compounds.

Published

2019

14. Catalytic Enantioselective Synthesis of Guvacine Derivatives through [4 + 2] Annulations of Imines with α‑Methylallenoates

Author

Xu, Qihai, Dupper, Nathan J, Smaligo, Andrew J, Fan, Yi Chiao, Cai, Lingchao, Wang, Zhiming, Langenbacher, Adam D, Chen, Jau-Nian, and Kwon, Ohyun

Subjects

Catalysis, Chemistry Techniques, Synthetic, Imines, Naphthalenes, Nicotinic Acids, Stereoisomerism, Substrate Specificity, Chemical Sciences, Organic Chemistry

Abstract

P-Chiral [2.2.1] bicyclic phosphines (HypPhos catalysts) have been applied to reactions between α-alkylallenoates and imines, producing guvacine derivatives. These HypPhos catalysts were assembled from trans-4-hydroxyproline, with the modular nature of the synthesis allowing variations of the exocyclic P and N substituents. Among them, exo-( p-anisyl)-HypPhos was most efficacious for [4 + 2] annulations between ethyl α-methylallenoate and imines. Through this method, ( R)-aplexone was identified as being responsible for the decrease in the cellular levels of cholesterol.

Published

2018

15. Selective [1,4]-Hydrovinylation of 1,3-Dienes with Unactivated Olefins Enabled by Iron Diimine Catalysts

Author

Schmidt, Valerie A, Kennedy, C Rose, Bezdek, Máté J, and Chirik, Paul J

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Alkenes, Catalysis, Crystallography, X-Ray, Imines, Iron, Isomerism, Models, Molecular, Oxidation-Reduction, Vinyl Compounds, General Chemistry, Chemical sciences, Engineering

Abstract

The selective, intermolecular [1,4]-hydrovinylation of conjugated dienes with unactivated α-olefins catalyzed by α-diimine iron complexes is described. Value-added "skipped" diene products were obtained with exclusive [1,4]-selectivity, and the formation of branched, ( Z)-olefin products was observed with no evidence for alkene isomerization. Mechanistic studies conducted with the well-defined, single-component iron precatalyst (MesDI)Fe(COD) (MesDI = [2,4,6-Me3-C6H2-N═CMe]2); COD = 1,5-cyclooctadiene) provided insights into the origin of the high selectivity. An iron diene complex was identified as the catalyst resting state, and one such isoprene complex, (iPrDI)Fe(η4-C5H8), was isolated and characterized. A combination of single crystal X-ray diffraction, Mößbauer spectroscopy, magnetic measurements, and DFT calculations established that the complex is best described as a high-spin Fe(I) center ( SFe = 3/2) engaged in antiferromagnetic coupling to an α-diimine radical anion ( SDI = -1/2), giving rise to the observed S = 1 ground state. Deuterium-labeling experiments and kinetic analyses of the catalytic reaction provided support for a pathway involving oxidative cyclization of an alkene with the diene complex to generate an iron metallacycle. The observed selectivity can be understood in terms of competing steric interactions in the transition states for oxidative cyclization and subsequent β-hydrogen elimination.

Published

2018

16. Davis–Beirut Reaction: Alkoxide versus Hydroxide Addition to the Key o‑Nitrosoimine Intermediate

Author

Zhu, Jie S, Duong, Matthew R, Teuthorn, Andrew P, Lu, Julia Y, Son, Jung-Ho, Haddadin, Makhluf J, and Kurth, Mark J

Subjects

Amines, Hydroxides, Imines, Indazoles, Molecular Structure, Chemical Sciences, Organic Chemistry

Abstract

Reaction options, alkoxide vs hydroxide vs amine addition to the key intermediate (o-nitrosoimine) generated in the Davis-Beirut reaction of an o-nitrobenzylamine substrate, are reported to explain the nucleophilic addition selectivity of this one-pot indazole-forming process. The hydroxide addition/deprotection pathway as well as the fate of the resulting o-nitrosobenzaldehyde were both uncovered with several o-nitrobenzylamine substrates, and design elements required for an efficient double Davis-Beirut reaction, inspired by new mechanistic insights, were defined.

Published

2018

17. Chiral Bromonium Salt (Hypervalent Bromine(III)) with N -Nitrosamine as a Halogen-Bonding Bifunctional Catalyst.

Author

Yoshida, Yasushi, Ao, Tatsuya, Mino, Takashi, and Sakamoto, Masami

Subjects

*IMINES, *BROMINE, *CATALYST structure, *ASYMMETRIC synthesis, *ORGANIC chemistry, *CATALYSTS, *MANNICH reaction

Abstract

There has been a great focus on halogen-bonding as a unique interaction between electron-deficient halogen atoms with Lewis basic moieties. Although the application of halogen-bonded atoms in organic chemistry has been eagerly researched in these decades, the development of chiral molecules with halogen-bonding functionalities and their utilization in asymmetric catalysis are still in the\ir infancy. We have previously developed chiral halonium salts with amide functionalities, which behaved as excellent catalysts albeit in only two reactions due to the lack of substrate activation abilities. In this manuscript, we have developed chiral halonium salts with an N-nitrosamine moiety and applied them to the Mannich reaction of isatin-derived ketimines with malonic esters. The study focused on our novel bromonium salt catalyst which provided the corresponding products in high yields with up to 80% ee. DFT calculations of the chiral catalyst structure suggested that the high asymmetric induction abilities of this catalyst are due to the Lewis basic role of the N-nitrosamine part. To the best of our knowledge, this is the first catalytic application of N-nitrosamines. [ABSTRACT FROM AUTHOR]

Published

2023

18. The 55th Bürgenstock Conference under the Banner of Sustainability**.

Author

Nowak‐Król, Agnieszka and Dydio, Paweł

Subjects

*AMINATION, *PHOSPHINE oxides, *CARBOXYLIC acids, *CHEMICAL processes, *IMINES, *ORBITAL hybridization, *MESOIONIC compounds, *ORGANIC chemistry, *CHEMICAL reactions

Abstract

Chem. 2022, 87, 1934 - 1940; 28 D. Xu, N. Rivas-Bascón, N. M. Padial, K. W. Knouse, B. Zheng, J. C. Vantourout, M. A. Schmidt, M. D. Eastgate, P. S. Baran, J. Am. Chem. Soc. 2020, 142, 5785 - 5792; 29 J. C. Vantourout, S. R. Adusumalli, K. W. Knouse, D. T. Flood, A. Ramirez, N. M. Padial, A. Istrate, K. Maziarz, J. N. deGruyter, R. R. Merchant, J. X. Qiao, M. A. Schmidt, M. J. Deery, M. D. Eastgate, P. E. Dawson, G. J. L. Bernardes, P. S. Baran, J. Am. Chem. Soc. 2020, 142, 17236 - 17242. 86 D. Parmar, H. Matsubara, K. Price, M. Spain, D. J. Procter, J. Am. Chem. Soc. 2012, 134, 12751 - 12757; 87 D. Parmar, K. Price, M. Spain, H. Matsubara, P. A. Bradley, D. J. Procter, J. Am. Chem. Soc. 2011, 133, 2418 - 2420. 76 J. M. Pérez, R. Postolache, M. Castiñeira Reis, E. G. Sinnema, D. Vargová, F. de Vries, E. Otten, L. Ge, S. R. Harutyunyan, J. Am. Chem. Soc. 2021, 143, 20071 - 20076; 77 L. Ge, S. R. Harutyunyan, Chem. Sci. 2022, 13, 1307 - 1312. 51 D. C. Behenna, B. M. Stoltz, J. Am. Chem. Soc. 2004, 126, 15044 - 15045; 52 A. Q. Cusumano, B. M. Stoltz, W. A. Goddard, J. Am. Chem. Soc. 2020, 142, 13917 - 13933. [Extracted from the article]

Published

2022

19. Direct Asymmetric α‐C−H Addition of N‐unprotected Propargylic Amines to Trifluoromethyl Ketones by Carbonyl Catalysis.

Author

Ji, Pengwei, Liu, Xiaopei, Xu, Jiwei, Zhang, Xu, Guo, Jianhua, Chen, Wen‐Wen, and Zhao, Baoguo

Subjects

*ORGANIC chemistry, *CATALYSIS, *KETONES, *AMINES, *CATALYSTS, *IMINES, *CARBON-hydrogen bonds

Abstract

Direct asymmetric functionalization of the inert α C−H bonds of N‐unprotected propargylic amines is a big challenge in organic chemistry, due to the low acidity (pKa≈42.6) of the α C−H bonds and interruption of the nucleophilic NH2 group. By using a chiral pyridoxal as carbonyl catalyst, we have successfully realized direct asymmetric α‐C−H addition of N‐unprotected propargylic amines to trifluoromethyl ketones, producing a broad range of chiral alkynyl β‐aminoalcohols in 54–84 % yields with excellent stereoselectivities (up to 20 : 1 dr and 99 % ee). The α C−H bonds of propargylic amines are greatly activated by the pyridoxal catalyst via the formation of an imine intermediate, resulting in the increase of acidity by up to 1022 times (from pKa 42.6 to pKa 20.1), which become acidic enough to be deprotonated under mild conditions for the asymmetric addition. This work presented an impressive example for asymmetric functionalization of inert C−H bonds enabled by an organocatalyst. [ABSTRACT FROM AUTHOR]

Published

2022

20. 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

21. Research Data from Quaid-i-Azam University Update Understanding of Antibiotics (Novel Cyclopropyl Appended 1,3-thiazole-2-imines As Multi-target Agents: Design, Synthesis, Biological Evaluation and Computational Studies).

Subjects

ORGANIC chemistry, ORGANIC compounds, SULFUR compounds, COENZYMES, CHEMICAL kinetics, AMYLASES

Abstract

A research study conducted at Quaid-i-Azam University in Islamabad, Pakistan, focused on the development of novel cyclopropyl clubbed 1,3-thiazole-2-imines as potential multi-target agents for antibacterial, alpha-amylase, and proteinase K inhibition. The study highlighted the compound (6 a) as the most potent inhibitor against proteinase K and B. subtilis, while compound (6 d) showed significant inhibition of amylase. Computational studies were also conducted to predict chemical reactivity and drug-likeness of the synthesized compounds. The research suggests further exploration of modifying substituents to enhance the efficacy of these compounds. [Extracted from the article]

Published

2025

22. Quaid-I-Azam University Researcher Illuminates Research in Antibiotics (Exploring Novel Cyclopropyl conjoined 1,3-Thiazole-2-imines Derivatives as Multi-Target Agents: Design, Synthesis, Biological Evaluation, DFT, Molecular Docking, and ADMET...).

Subjects

ORGANIC chemistry, ORGANIC compounds, COENZYMES, CHEMICAL kinetics, PROTEIN-ligand interactions

Abstract

Researchers at Quaid-I-Azam University have developed novel cyclopropyl conjoined 1,3-thiazole-2-imines derivatives as multi-target agents with potential antibacterial, a-amylase, and proteinase K inhibition properties. The synthesized compounds showed moderate to significant potency, with compound 6a exhibiting the highest inhibitory activity against proteinase K and significant antibacterial potential against B. subtilis. Computational studies were conducted to predict chemical reactivity, ligand-protein binding interactions, and drug-likeness of the compounds, highlighting them as novel inhibitors. This research was published in the Asian Journal of Organic Chemistry by Wiley. [Extracted from the article]

Published

2024

23. Influence of Endo- and Exocyclic Heteroatoms on Stabilities and 1,3-Dipolar Cycloaddition Reactivities of Mesoionic Azomethine Ylides and Imines

Author

Champagne, Pier Alexandre and Houk, KN

Subjects

Azo Compounds, Cycloaddition Reaction, Imines, Kinetics, Molecular Structure, Quantum Theory, Thermodynamics, Thiosemicarbazones, Medicinal and Biomolecular Chemistry, Organic Chemistry

Abstract

The geometries, stabilities, and 1,3-dipolar cycloaddition reactivities of 24 mesoionic azomethine ylides and imines were investigated using density functional theory calculations at the M06-2X/6-311+G-(d,p)/M06-2X/6-31G-(d) level. The computed structures highlight how the commonly used "aromatic" resonance form should be replaced by two more accurate resonance structures. Stabilities of the dipoles were assessed by various homodesmotic schemes and are consistent with these compounds being nonaromatic. The activation free energies with ethylene or acetylene range from 11.8 to 36.6 kcal/mol. Within each dipole type, the predicted cycloaddition reactivities correlate with the reaction energies and the resonance stabilization energies provided by the various substituents. Endocyclic (X) heteroatoms increase the reactivity of the 1,3-dipoles in the order of O > NH ≅ S, whereas exocyclic (Y) substituents increase it in the order of CH2 > NH > O > S. Distortion/interaction analysis indicated that the difference in reactivity between differently substituted 1,3-dipoles is driven by distortion, whereas the difference between azomethine ylides and imines is related to lower interaction energies of imines with the dipolarophiles.

Published

2017

24. Access to 2-Fluorinated Aziridine-2-phosphonates from α,α-Halofluorinated β-Iminophosphonates—Spectroscopic and Theoretical Studies

Author

Mateusz Klarek, Tomasz Siodła, Tahar Ayad, David Virieux, and Magdalena Rapp

Subjects

imines, phosphonates, aminophosphonates, halofluorination, aziridine, DFT calculations, Organic chemistry, QD241-441

Abstract

The efficient one-pot halofluorination of a β-enaminophosphonate/β-iminophosphonate tautomeric mixture resulting in α,α-halofluorinated β-iminophosphonates is reported. Subsequent imine reduction gave the corresponding β-aminophosphonates as a racemic mixture or with high diastereoselectivity. The proposed protocol is the first example of a synthesis of N-inactivated aziridines substituted by a fluorine and phosphonate moiety on the same carbon atom. Based on spectroscopic and theoretical studies, we determined the cis/trans geometry of the resulting fluorinated aziridine-2-phosphonate. Our procedure, involving the reduction of cis/trans-fluoroaziridine mixture 24, allows us to isolate chiral trans-aziridines 24 as well as cis-aziridines 27 that do not contain a fluorine atom. We also investigated the influence of the fluorine atom on the reactivity of aziridine through an acid-catalyzed regioselective ring-opening reaction. The results of DFT calculations, at the PCM/ωB97x-D/def2-TZVPD level of theory, are in good agreement with the experiments. The transition states of the SN2 intramolecular cyclization of vicinal haloamines have been modeled.

Published

2023

25. 1,2-Additions on Chiral N -Sulfinylketimines: An Easy Access to Chiral α-Tertiary Amines.

Author

Achuenu, Chukuka, Carret, Sebastien, Poisson, Jean-François, and Berthiol, Florian

Subjects

*TERTIARY amines, *IMINES, *BIOACTIVE compounds, *ORGANIC chemistry, *AMINES, *ENOLS, *NUCLEOPHILES

Abstract

Chiral α-tertiary amines, a motif present in α,α-disubstituted α-amino acids, in a wide range of natural products, and many drugs and drug candidates, are important targets in organic chemistry. Among the possible strategies, 1,2-addition to chiral N -sulfinyl-ketimines is one of the best routes to form chiral α-tertiary amines with a high level of stereoselectivity. In this review, we focus first on the addition of organometallic reagents or other nucleophiles as enols or ylides to chiral N -sulfinylketimines. Then secondly we cover a selection of applications of these additions in the synthesis of valuable biologically active compounds. 1 Introduction 2 1,2-Addition Reaction Methodologies 2.1 Organolithium Reagent Additions 2.2 Grignard Additions 2.3 Organozinc Reagent Additions 2.4 Organoindium Reagent Additions 2.5 Organoboron Reagent Additions 2.6 Strecker Reactions 2.7 Palladium-Catalyzed Reactions 2.8 Enols, Enolates, and Other Deprotonated Reagent Additions 2.9 Ylide Additions 2.10 Heteroatom Nucleophiles 2.11 Miscellaneous Reactions 3 Applications to the Synthesis of Biologically Active Molecules 4 Conclusions [ABSTRACT FROM AUTHOR]

Published

2022

26. Regiodivergent and Diastereoselective CuH‐Catalyzed Allylation of Imines with Terminal Allenes

Author

Liu, Richard Y, Yang, Yang, and Buchwald, Stephen L

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Alkadienes, Alkylation, Amines, Catalysis, Copper, Imines, Molecular Structure, Quantum Theory, Stereoisomerism, C−C coupling, amines, copper, multicomponent reactions, regioselectivity, Chemical sciences

Abstract

A copper-catalyzed, chemoselective hydrometalation process enables the use of simple allenes as allylmetal nucleophile surrogates in imine allylation reactions. By modulating the nitrogen-protecting group, either highly branched- or linear-selective addition can be achieved from the same allene. Both reactions exhibit excellent diastereoselectivity and broad functional-group tolerance. Preliminary results indicate that good enantioselectivity can also be achieved in the linear-selective reaction. Finally, a mechanistic model for the regiodivergence is proposed on the basis of density functional theory calculations.

Published

2016

27. Copper-Catalyzed Enantioselective Addition of Styrene-Derived Nucleophiles to Imines Enabled by Ligand-Controlled Chemoselective Hydrocupration

Author

Yang, Yang, Perry, Ian B, and Buchwald, Stephen L

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Amines, Catalysis, Chemistry, Pharmaceutical, Copper, Hydrocarbons, Imines, Ligands, Molecular Structure, Stereoisomerism, Styrene, Styrenes, Substrate Specificity, Temperature, General Chemistry, Chemical sciences, Engineering

Abstract

The copper-catalyzed intermolecular enantioselective addition of styrenes to imines has been achieved under mild conditions at ambient temperature. This process features the use of styrenes as latent carbanion equivalents via the intermediacy of catalytically generated benzylcopper derivatives, providing an effective means for accessing highly enantiomerically enriched amines bearing contiguous stereocenters. Mechanistic studies shed light on the origin of the preferential styrene hydrocupration in the presence of an imine with the Ph-BPE-derived copper catalyst.

Published

2016

28. An Innovative Structural Rearrangement in Imine Palladacycle Metaloligand Chemistry: From Single-Nuclear to Double-Nuclear Pseudo-Pentacoordinated Complexes

Author

Basma al Janabi, Francisco Reigosa, Gemma Alberdi, Juan M. Ortigueira, and José M. Vila

Subjects

palladacycles, imines, catalysis, Suzuki, cross coupling, Organic chemistry, QD241-441

Abstract

Treatment of the double nuclear complex 1a, di-μ-cloro-bis[N-(4-formylbenzylidene)cyclohexylaminato-C6, N]dipalladium, with Ph2PCH2CH2)2PPh (triphos) and NH4PF6 gave the single nuclear species 2a, 1-N-(cyclohexylamine)-4-N-(formyl)palladium(triphos)(hexafluorophasphate). Reaction of 2a with Ph2PCH2CH2NH2 in refluxing chloroform via a condensation reaction of the amine and formyl groups to produce the C=N double bond, gave 3a, 1-N-(cyclohexylamine)-4- N-(diphenylphosphinoethylamine)palladium(triphos)(hexafluorophasphate); a potentially bidentate [N,P] metaloligand. However, attempts to coordinate a second metal by treatment of 3a with [PdCl2(PhCN)2] were to no avail. Notwithstanding, complexes 2a and 3a left to stand in solution spontaneously self-transformed to give in either case the double nuclear complex 10, 1,4-N,N-terephthalylidene(cyclohexilamine)-3,6-[bispalladium(triphos)]di(hexafluorophosphate), after undergoing further metalation of the phenyl ring, then bearing two mutually trans [Pd(Ph2PCH2CH2)2PPh)-P,P,P] moieties: an unprecedented and serendipitous result indeed. On the other hand, reaction of the double nuclear complex 1b, di-μ-cloro-bis[N-(3-formylbenzylidene)cyclohexylaminato-C6, N]dipalladium, with Ph2PCH2CH2)2PPh (triphos) and NH4PF6 gave the single nuclear species 2b, 1-N-(cyclohexylamine)-4-N-(formyl)palladium(triphos)(hexafluorophasphate), Treatment of 2b with H2O/glacial MeCOOH gave cleavage of the C=N double bond and of the Pd···N interaction, yielding 5b, isophthalaldehyde-6-palladium(triphos)hexafluorophosphate, which then reacted with Ph2P(CH2)3NH2 to yield complex 6b, N,N-(isophthalylidene(diphenylphosphinopropylamine)-6-(palladiumtriphos)di(hexafluorophosphate), with two pairs of non-coordinated nitrogen and phosphorus donor atoms. Treatment of 6b with [PdCl2(PhCN)2], [PtCl2(PhCN)2], or [PtMe2(COD)] gave the new double nuclear complexes 7b, 8b and 9b, palladiumdichloro-, platinumdichloro- and platinumdimethyl[N,N-(isophthalylidene(diphenylphosphinopropylamine)-6-(palladiumtriphos)(hexafluorophosphate)-P,P], respectively, showing the behavior of 6b as a palladated bidentate [P,P] metaloligand. The complexes were fully characterized by microanalysis, IR, 1H, and 31P NMR spectroscopies, as appropriate. The X-ray single-crystal analyses for compounds 10 and 5b have been previously described as the perchlorate salts by JM Vila et al.

Published

2023

29. Synthesis of Novel 1-Oxo-2,3,4-trisubstituted Tetrahydroisoquinoline Derivatives, Bearing Other Heterocyclic Moieties and Comparative Preliminary Study of Anti-Coronavirus Activity of Selected Compounds

Author

Meglena I. Kandinska, Nikola T. Burdzhiev, Diana V. Cheshmedzhieva, Sonia V. Ilieva, Peter P. Grozdanov, Neli Vilhelmova-Ilieva, Nadya Nikolova, Vesela V. Lozanova, and Ivanka Nikolova

Subjects

tetrahydroisoquinolines, homophthalic anhydride, imines, anti-coronavirus activity, HCoV-OC43, HCoV-229E, Organic chemistry, QD241-441

Abstract

A series of novel 1-oxo-2,3,4-trisubstituted tetrahydroisoquinoline (THIQ) derivatives bearing other heterocyclic moieties in their structure were synthesized based on the reaction between homophthalic anhydride and imines. Initial studies were carried out to establish the anti-coronavirus activity of some of the newly obtained THIQ-derivatives against two strains of human coronavirus-229E and OC-43. Their antiviral activity was compared with that of their close analogues, piperidinones and thiomorpholinones, previously synthesized in our group, with aim to expand the range of the tested representative sample and to obtain valuable preliminary information about biological properties of a wider variety of compounds.

Published

2023

30. Silver-Catalyzed Enantioselective Propargylation Reactions of N‑Sulfonylketimines

Author

Osborne, Charlotte A, Endean, Thomas BD, and Jarvo, Elizabeth R

Subjects

Boron Compounds, Catalysis, Imines, Molecular Structure, Nitriles, Pargyline, Silver, Stereoisomerism, Sulfones, Chemical Sciences, Organic Chemistry

Abstract

The enantioselective silver-catalyzed propargylation of N-sulfonylketimines is described. This reaction proceeds in high yield and excellent enantiomeric ratio and is compatible with a wide variety of diaryl- and alkylketimines. Synthetic transformations of homopropargylic products via enyne ring-closing metathesis, Sonogashira cross-coupling, and reduction reactions proceed with high stereochemical fidelity. Both allenyl and propargyl borolane reagents can be used to obtain homopropargylic products, a distribution most consistent with a mechanism involving transmetalation of the silver catalyst with the borolane reagent.

Published

2015

31. Catalytic asymmetric desymmetrization of 1,4-cyclohexadienes for the synthesis of chiral quinolinone derivatives.

Author

Zhao, Bing-Yang, Hu, Xiao-Hua, and Deng, Jun

Subjects

*HECK reaction, *CHIRAL centers, *ORGANIC chemistry, *PHARMACEUTICAL chemistry, *QUINOLONE antibacterial agents, *ALLYLIC alkylation, *FRIEDEL-Crafts reaction, *IMINES

Abstract

[Display omitted] • A Pd-catalyzed intramolecular asymmetric Heck reaction of symmetrical 1,4-cyclohexadienes to construct quinolinone derivatives has been developed. This method provides facile access to a series of quinolinone analogs containing two consecutive chiral centers with up to 76% yield and 95% ee. Meanwhile, the enantioselective synthesis of quinolinones bearing an all-carbon quaternary center and three consecutive chiral centers was also achieved in 85% ee via Heck/alkylation reaction. Quinolinone is a prevalent nitrogen-containing heterocycle in organic and pharmaceutical chemistry. In this report, we developed an intramolecular catalytic asymmetric Heck reaction of symmetrical 1,4-cyclohexadiene to construct quinolinone derivatives. The Pd(OAc) 2 /(R)-BINAP catalytic system enabled a series of quinolinone analogs containing two consecutive chiral centers to be obtained with up to 76% yield and 95% ee. Meanwhile, the synthesis of quinolinones bearing an all-carbon quaternary center and three consecutive chiral centers was also achieved in 85% ee via PdCl 2 /(R)-BoPhoz catalyzed intramolecular asymmetric Heck/alkylation reaction. [ABSTRACT FROM AUTHOR]

Published

2024

32. Diastereoselective Synthesis of γ- and δ‑Lactams from Imines and Sulfone-Substituted Anhydrides

Author

Sorto, Nohemy A, Di Maso, Michael J, Muñoz, Manuel A, Dougherty, Ryan J, Fettinger, James C, and Shaw, Jared T

Subjects

Organic Chemistry, Chemical Sciences, Anhydrides, Imines, Lactams, Molecular Structure, Pyrrolizidine Alkaloids, Stereoisomerism, Sulfones, Medicinal and Biomolecular Chemistry, Medicinal and biomolecular chemistry, Organic chemistry

Abstract

Sulfone-substituted γ- and δ-lactams have been prepared in a single step with high diastereoselectivity. Sulfonylglutaric anhydrides produce intermediates that readily decarboxylate to provide δ-lactams with high diastereoselectivity. Substituents at the 3- or 4-position of the glutaric anhydride induce high levels of stereocontrol. Sulfonylsuccinic anhydrides produce intermediate carboxylic acids that can be trapped as methyl esters or allowed to decarboxylate under mild conditions. This method has been applied to a short synthesis of the pyrrolizidine alkaloid (±)-isoretronecanol.

Published

2014

33. Mechanochemical Synthesis of Fluorinated Imines

Author

Karolina Ciesielska, Marcin Hoffmann, Maciej Kubicki, and Donata Pluskota-Karwatka

Subjects

mechanochemistry, imines, fluorine, manual grinding, Schiff’s bases, Organic chemistry, QD241-441

Abstract

A number of imines, including 12 new compounds, previously not reported in the literature, derived from variously fluorinated benzaldehydes and different anilines or chiral benzylamines were synthesized by a solvent-free mechanochemical method, which was based on the manual grinding of equimolar amounts of the substrates at the room temperature. In a very short reaction time of only 15 min, the method produced the expected products with good-to-excellent yields. The yields were comparable or significantly higher than those reported in the literature for the imines synthesized by other methods. Importantly, the conditions used for the reactions with aniline derivatives also resulted in the high yields of imines obtained from chiral benzylamines, and can be extended to the synthesis with other similar amines. Structures of all imines were confirmed by NMR spectroscopy: 1H, 13C and 19F. For four compounds, X-ray structures were also obtained. The synthetic approach presented in this paper contributes to the prevention of environmental pollution and can be easily extended for larger-scale syntheses. The mechanochemical solvent-free method provides a convenient strategy particularly useful for the preparation of fluorinated imines being versatile intermediates or starting material in the synthesis of drugs and other fine chemicals.

Published

2022

34. Imine- and Amine-Type Macrocycles Derived from Chiral Diamines and Aromatic Dialdehydes

Author

Jerzy Lisowski

Subjects

macrocycles, chirality, imines, amines, metal binding, enantiomeric recognition, Organic chemistry, QD241-441

Abstract

The condensation of aromatic dialdehydes with chiral diamines, such as 1,2-trans-diaminocyclohexane, leads to various enantiopure or meso-type macrocyclic Schiff bases, including [2 + 2], [3 + 3], [4 + 4], [6 + 6] and [8 + 8] condensation products. Unlike most cases of macrocycle synthesis, the [3 + 3] macrocycles of this type are sometimes obtained in high yields by direct condensation without a metal template. Macrocycles of other sizes from this family can often be selectively obtained in high yields by a suitable choice of metal template, solvent, or chirality of the building blocks. In particular, the application of a cadmium(II) template results in the expansion of the [2 + 2] macrocycles into giant [6 + 6] and [8 + 8] macrocycles. These imine macrocycles can be reduced to the corresponding macrocyclic amines which can act as hosts for the binding of multiple cations or multiple anions.

Published

2022

35. Imine Palladacycles: Synthesis, Structural Analysis and Application in Suzuki–Miyaura Cross Coupling in Semi-Aqueous Media

Author

Brais Bermúdez-Puente, Luis A. Adrio, Fátima Lucio-Martínez, Francisco Reigosa, Juan M. Ortigueira, and José M. Vila

Subjects

palladacycles, imines, catalysis, Suzuki, cross coupling, Organic chemistry, QD241-441

Abstract

Treatment of the imines a–c with palladium(II) acetate in acetic acid yielded the μ-acetate dinuclear complexes 1a–c, which readily reacted with sodium chloride or bromide to provide μ-halide analogues. The reaction of the latter with nitrogen, phosphorus and oxygen donor nucleophiles yielded new imine palladacycles following the cleavage of the Pd2X2 unit. The complexes were fully characterized by microanalysis, 1H, 13C and 31P NMR spectroscopies, as appropriate. The compounds were applied as catalysts in the Suzuki–Miyaura coupling reaction in aqueous and semi-aqueous media.

Published

2022

36. Enantiospecific Total Synthesis of N‐Methylwelwitindolinone D Isonitrile

Author

Styduhar, Evan D, Huters, Alexander D, Weires, Nicholas A, and Garg, Neil K

Subjects

Biological Products, Carbon, Crystallography, X-Ray, Cyclization, Cyclobutanes, Hydrogen, Imines, Indole Alkaloids, Molecular Conformation, Nitriles, Stereoisomerism, C-H functionalization, natural products, nitrene insertion, total synthesis, welwitindolinone, Chemical Sciences, Organic Chemistry

Abstract

The total synthesis of N-methylwelwitindolinone D isonitrile (1) has been achieved in 17 steps from a readily available carvone derivative. The route features a double C-H functionalization event involving a keto oxindole substrate to introduce the tetrahydrofuran ring of the natural product.

Published

2013

37. Stereocontrol in Asymmetric γ‑Lactam Syntheses from Imines and Cyanosuccinic Anhydrides

Author

Pattawong, Ommidala, Tan, Darlene Q, Fettinger, James C, Shaw, Jared T, and Cheong, Paul Ha-Yeon

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Theoretical and Computational Chemistry, Acylation, Imines, Lactams, Models, Molecular, Molecular Structure, Stereoisomerism, Succinic Anhydrides, Chemical sciences

Abstract

Computations (SCS-MP2//B3LYP) reveal that the asymmetric synthesis of highly substituted γ-lactams with three stereogenic centers, including one quaternary center, proceeds through a Mannich reaction between the enol form of the anhydride and the E-imine, followed by a transannular acylation. This new mechanistic picture accounts for both the observed reactivity and stereoselectivity. CH-O and hydrogen bonding interactions in the Mannich step and torsional steering effects in the acylation step are responsible for stereocontrol. It is demonstrated that this new mechanistic picture applies to the related reactions of homophthalic anhydrides with imines and presents new vistas for the design of a new reaction to access complex molecular architectures.

Published

2013

38. Stereoselective Synthesis of γ‑Lactams from Imines and Cyanosuccinic Anhydrides

Author

Tan, Darlene Q, Younai, Ashkaan, Pattawong, Ommidala, Fettinger, James C, Cheong, Paul Ha-Yeon, and Shaw, Jared T

Subjects

Organic Chemistry, Chemical Sciences, Imines, Lactams, Molecular Structure, Stereoisomerism, Succinic Anhydrides, Chemical sciences

Abstract

A reaction between imines and anhydrides has been developed with chiral disubstituted anhydrides and chiral imines. The synthesis of highly substituted γ-lactams with three stereogenic centers, including one quaternary center, proceeds at room temperature in high yield and with high diastereoselectivity in most cases. Enantiomerically pure alkyl-substituted anhydrides proceed with no epimerization, thus providing access to enantiomerically pure penta-substituted lactam products.

Published

2013

39. Dicarboxylic Acid Monoesters in β- and δ-Lactam Synthesis

Author

Anna Ananeva, Olga Bakulina, Dmitry Dar’in, Grigory Kantin, and Mikhail Krasavin

Subjects

beta-lactams, delta-lactams, regioselectivity, imines, carboxylic acid activation, cyclization, Organic chemistry, QD241-441

Abstract

A N-(2-methoxy-2-oxoethyl)-N-(phenylsulfonyl)glycine monomethyl ester of the respective dicarboxylic acid was involved in a reaction with imines promoted by acetic anhydride at an elevated temperature. Instead of the initially expected δ-lactam products of the Castagnoli–Cushman-type reaction, medicinally important 3-amino-2-azetidinones were obtained as the result of cyclization, involving a methylene group adjacent to an acid moiety. In contrast, replacing alcohol residue with hexafluoroisopropyl in the same substrate made another methylene group (adjacent to the ester moiety) more reactive to furnishing the desired δ-lactam in the Castagnoli–Cushman fashion.

Published

2022

40. Data from Tianjin University Provide New Insights into Obesity, Fitness and Wellness (Copper-promoted Oxidative Amidation of Imines: a Facile Route To Amides).

Subjects

AMIDES, IMINES, AMIDATION, OBESITY, ORGANIC chemistry

Abstract

A report from Tianjin University in China discusses a new method for amidation of imines using Oxone and CuO. This method is environmentally friendly and selective, allowing for the synthesis of amides without affecting other functional groups. The research demonstrates a wide range of substrates, including pesticide and drug molecules, with yields ranging from 32-90%. The study was supported by the National Natural Science Foundation of China. [Extracted from the article]

Published

2024

41. Trifluoroethanol Promoted Castagnoli–Cushman Cycloadditions of Imines with Homophthalic Anhydride

Author

Thibault Bayles and Catherine Guillou

Subjects

Castagnoli–Cushman reaction, homophthalic anhydride, imines, lactam, trifluoroethanol, Organic chemistry, QD241-441

Abstract

Lactams are essential compounds in medicinal chemistry and key intermediates in the synthesis of natural products. The Castagnoli–Cushman reaction (CCR) of homophthalic anhydride with imines is an exciting method for accessing cyclic densely substituted lactam products. Most CCRs need to be catalyzed or heated. Herein, we report a new, efficient, metal and catalyst-free CCR for the synthesis of poly-substituted 3,4-lactams utilizing the unique properties of trifluoroethanol (TFE). This procedure provides high-speed and smooth access to a broad range of densely substituted 3,4-lactams in good yields and a 100% atom-economical fashion.

Published

2022

42. Enantioselective Construction of C3-Multifunctionalization α-Hydroxy-β-amino Pyridines via α-Pyridyl Diazoacetate, Water, and Imines for Drug Hunting

Author

Jian Xue, Zhengli Luo, Jisheng Huang, Yaqi Deng, Suzhen Dong, and Shunying Liu

Subjects

Molecular Structure, Pyridines, Organic Chemistry, Water, Hunting, Stereoisomerism, Imines, Physical and Theoretical Chemistry, Biochemistry

Abstract

An asymmetric catalytic approach for the construction of C3-multifunctionalization α-hydroxy-β-amino pyridines has been reported. The products can be accessed by the modulation of two chiral catalysts independently in high yield and with good enantioselectivity. The method features mild reaction conditions and an excellent functional group tolerance. Biological activity analysis shows that the resulting products have a selective antiosteosarcoma activity on 143B cells.

Published

2022

43. Palladium(0) Catalyzed Synthesis of (E)-4-Bromo-N-((3-bromothiophen-2-yl)methylene)-2-methylaniline Derivatives via Suzuki Cross-Coupling Reaction: An Exploration of Their Non-Linear Optical Properties, Reactivity and Structural Features

Author

Komal Rizwan, Nasir Rasool, Muhammad Ali Hashmi, Sadia Noreen, Muhammad Zubair, Mahwish Arshad, and Syed Adnan Ali Shah

Subjects

suzuki coupling, cross-coupling, palladium, transition metal, imines, anilines, Organic chemistry, QD241-441

Abstract

A series of (E)-4-bromo-N-((3-bromothiophen-2-yl)methylene)-2-methylaniline analogs synthesized in considerable yields through Suzuki cross-coupling reactions. Various electron donating and withdrawing functional moieties were successfully incorporated under the employed reaction conditions. Reaction of 4-bromo-2-methylaniline (1) with 3-bromothiophene-2-carbaldehyde (2b) in the existence of glacial acetic acid, provided (E)-4-bromo-N-((3-bromothiophen-2-yl)methylene)-2-methylaniline (3b) in excellent yield (94%). Suzuki coupling of 3b with different boronic acids in the presence of Pd(PPh3)4/K3PO4 at 90 °C led to the synthesis of the monosubstituted and bisubstituted products 5a–5d and 6a–6d in moderate yields (33–40% and 31–46%, respectively). Density functional theory (DFT) investigations were performed on different synthesized analogues 5a–5d, 6a–6d to determine their structural characteristics. The calculations provide insight into the frontier molecular orbitals (FMOs) of the imine-based analogues and their molecular electrostatic potential (MESP). Reactivity descriptors like ionization energy (I), electron affinity (A), chemical hardness (ƞ) and index of nucleophilicity have been calculated for the first time for the synthesized molecules.

Published

2021

44. Stereocontrolled Construction of Acyclic Quaternary Carbon Centers via α-Hydroxymethylation of α-Branched N-tert-Butanesulfinyl Ketimines

Author

Tao Liu, Yun Yao, Nuermaimaiti Yisimayili, and Chong-Dao Lu

Subjects

Formaldehyde, Organic Chemistry, Stereoisomerism, Imines, Physical and Theoretical Chemistry, Biochemistry, Carbon

Abstract

Hydroxymethylation of α-branchediN/i-itert/i-butanesulfinyl ketimines with formaldehyde equivalents was developed to stereoselectively construct acyclic quaternary stereocenters bearing two sterically and electronically similar substituents. The stereoselectiveit/iBuOK-promoted α-deprotonation of acyclic ketimines allowed for the stereodefined formation of fully substituted aza-enolates, followed by facially selective C-C bond formation involving formaldehyde formediin situ/i, yielding α-hydroxymethylated products with precise stereocontrol.

Published

2022

45. Enantioselective Imine Reduction of Dihydro-β-carbolines by Fe-Thiosquaramide Catalyst

Author

Manda Sathish, Fabiane M. Nachtigall, and Leonardo S. Santos

Subjects

Organic Chemistry, Stereoisomerism, Imines, Physical and Theoretical Chemistry, Biochemistry, Catalysis, Carbolines

Abstract

Enantioselective imine reduction of dihydro-β-carbolines (DHBCs) is a reliable and powerful tool to construct bioactive chiral tetrahydro-β-carbolines (THBCs). Here, we report an efficient enantioselective imine reduction employingiin situ/igenerated Fe-thiosquaramides (Fe-TSQs)b3a/bandb3b/bas asymmetric organometallic catalysts to produce chiral THBCs (b2a/b-bh/b). The catalystb3a/bat 15 mol % was found to be suitable for the substrates with alkyl and aryl groups which afford corresponding chiral THBCs with excellent enantioselectivities (up to ee 99%).

Published

2022

46. Ten-Step Total Synthesis of (−)-Andranginine

Author

Yulong Zhao, Jiaxin Li, Ruize Ma, Feifei He, Hongliang Shi, Xiaoguang Duan, Huilin Li, Xingang Xie, and Xuegong She

Subjects

Molecular Structure, Organic Chemistry, Stereoisomerism, Imines, Physical and Theoretical Chemistry, Biochemistry, Indole Alkaloids

Abstract

The total synthesis of the indole alkaloid (-)-andranginine has been achieved in 10 steps. Key reactions of the synthesis include a nucleophilic addition of acetylenyl anion to chiral

Published

2022

47. Asymmetric Synthesis of Fused-Ring Tetrahydroisoquinolines and Tetrahydro-β-carbolines from 2-Arylethylamines via a Chemoenzymatic Approach

Author

Linsong Yang, Jianjiong Li, Zefei Xu, Peiyuan Yao, Qiaqing Wu, Dunming Zhu, and Yanhe Ma

Subjects

Alkaloids, Tetrahydroisoquinolines, Organic Chemistry, Imines, Physical and Theoretical Chemistry, Oxidoreductases, Biochemistry, Carbolines

Abstract

While chiral fused-ring tetrahydroisoquinoline (THIQ) and tetrahydro-β-carboline (THβC) scaffolds have attracted considerable interest due to their wide spectrum of biological activities, the synthesis of optically pure chiral fused-ring THIQs and THβCs remains a challenging task. Herein, a group of active imine reductases were identified to convert the imine precursors into the corresponding enantiocomplementary fused-ring THIQs and THβCs with high enantioselectivity and conversion, establishing an efficient and green chemoenzymatic approach to fused-ring alkaloids from 2-arylethylamines.

Published

2022

48. Dynamic Kinetic Resolution-Enabled Highly Stereoselective Nucleophilic Fluoroalkylation to Access Chiral β-Fluoro Amines

Author

Qinghe Liu, Taige Kong, Chuanfa Ni, and Jinbo Hu

Subjects

Anions, Kinetics, Organic Chemistry, Stereoisomerism, Imines, Amines, Physical and Theoretical Chemistry, Biochemistry

Abstract

β-Fluorinated amine is highly desirable for biological and pharmaceutical science, because replacing a C-H bond with a C-F bond can change the physical and chemical properties of the parent molecule to a large extent but not significantly alter its overall geometry. Herein, the highly stereoselective nucleophilic monofluoromethylation of imines have been developed. It is proposed that the chelated transition state enables the chiral induction by the dynamic kinetic resolution of the chiral α-fluoro carbanions.

Published

2022

49. Imine-linked porous covalent organic framework used for the solid-phase extraction of estrogens from honey prior to liquid chromatography-tandem mass spectrometry

Author

Hui, Li, Gengbiao, Ren, Huijuan, Li, Xiangfeng, Chen, Zhiguo, Zhang, and Yanfang, Zhao

Subjects

Estradiol, General Chemical Engineering, Solid Phase Extraction, Organic Chemistry, Estrogens, Honey, Biochemistry, Analytical Chemistry, Tandem Mass Spectrometry, Electrochemistry, Imines, Porosity, Chromatography, High Pressure Liquid, Metal-Organic Frameworks, Chromatography, Liquid

Abstract

This study aimed to establish a method for the rapid determination of trace estrogens in honey samples by high performance liquid chromatography-tandem mass spectrometry (HPLC-MS/MS) using imine-linked porous covalent organic framework material (IL-COF-1) as the adsorbent for solid-phase extraction (SPE). Estradiol (E

Published

2022

50. Regioselective Mercury(I)/Palladium(II)-Catalyzed Single-Step Approach for the Synthesis of Imines and 2-Substituted Indoles

Author

Rsuini U. Gutiérrez, Mayra Hernández-Montes, Aarón Mendieta-Moctezuma, Francisco Delgado, and Joaquín Tamariz

Subjects

mercury(I)-catalyzed alkyne hydroamination, imines, Pd-catalyzed oxidative cyclization, one-pot indole synthesis, Organic chemistry, QD241-441

Abstract

An efficient synthesis of ketimines was achieved through a regioselective Hg(I)-catalyzed hydroamination of terminal acetylenes in the presence of anilines. The Pd(II)-catalyzed cyclization of these imines into the 2-substituted indoles was satisfactorily carried out by a C-H activation. In a single-step approach, a variety of 2-substituted indoles were also generated via a Hg(I)/Pd(II)-catalyzed, one-pot, two-step process, starting from anilines and terminal acetylenes. The arylacetylenes proved to be more effective than the alkyl derivatives.

Published

2021