Your search keyword '"imines"' showing total 2,009 results

1. CATALYTIC REACTIONS INVOLVING AZOMETHINES. IV. RATES AND EQUILIBRIA OF IMINE FORMATION WITH PYRIDINE-4-ALDEHYDE AND VARIOUS AMINO ACIDS.

Author

FRENCH TC and BRUICE TC

Subjects

Alanine, Aldehydes, Amino Acids, Arginine, Asparagine, Aspartic Acid, Azo Compounds, Biochemical Phenomena, Biochemistry, Glutamates, Glycine, Imines, Leucine, Phenylalanine, Pyridines, Research, Serine, Spectrophotometry, Thiosemicarbazones, Valine

Published

1964

2. 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

3. Synthesis of Stereoenriched Piperidines via Chemo-Enzymatic Dearomatization of Activated Pyridines

Author

Vanessa Harawa, Thomas W. Thorpe, James R. Marshall, Jack J. Sangster, Amelia K. Gilio, Lucian Pirvu, Rachel S. Heath, Antonio Angelastro, James D. Finnigan, Simon J. Charnock, Jordan W. Nafie, Gideon Grogan, Roger C. Whitehead, and Nicholas J. Turner

Subjects

Colloid and Surface Chemistry, Piperidines, Pyridines, Stereoisomerism, Imines, General Chemistry, Biochemistry, Catalysis

Abstract

The development of efficient and sustainable methods for the synthesis of nitrogen heterocycles is an important goal for the chemical industry. In particular, substituted chiral piperidines are prominent targets due to their prevalence in medicinally relevant compounds and their precursors. A potential biocatalytic approach to the synthesis of this privileged scaffold would be the asymmetric dearomatization of readily assembled activated pyridines. However, nature is yet to yield a suitable biocatalyst specifically for this reaction. Here, by combining chemical synthesis and biocatalysis, we present a general chemo-enzymatic approach for the asymmetric dearomatization of activated pyridines for the preparation of substituted piperidines with precise stereochemistry. The key step involves a stereoselective one-pot amine oxidase/ene imine reductase cascade to convert N-substituted tetrahydropyridines to stereo-defined 3- and 3,4-substituted piperidines. This chemo-enzymatic approach has proved useful for key transformations in the syntheses of antipsychotic drugs Preclamol and OSU-6162, as well as for the preparation of two important intermediates in synthetic routes of the ovarian cancer monotherapeutic Niraparib.

Published

2022

4. Tilting the Balance: London Dispersion Systematically Enhances Enantioselectivities in Brønsted Acid Catalyzed Transfer Hydrogenation of Imines

Author

Johannes Gramüller, Maximilian Franta, and Ruth M. Gschwind

Subjects

Colloid and Surface Chemistry, London, Stereoisomerism, Hydrogenation, Imines, General Chemistry, Biochemistry, Catalysis

Abstract

London dispersion (LD) is attracting more and more attention in catalysis since LD is ubiquitously present and cumulative. Since dispersion is hard to grasp, recent research has concentrated mainly on the effect of LD in individual catalytic complexes or on the impact of dispersion energy donors (DEDs) on balance systems. The systematic transfer of LD effects onto confined and more complex systems in catalysis is still in its infancy, and no general approach for using DED residues in catalysis has emerged so far. Thus, on the example of asymmetric Brønsted acid catalyzed transfer hydrogenation of imines, we translated the findings of previously isolated balance systems onto confined catalytic intermediates, resulting in a systematic enhancement of stereoselectivity when employing DED-substituted substrates. As the imine substrate is present as

Published

2022

5. 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

6. 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

7. Analyses of pre-steady-state kinetics and isotope effects of the γ-elimination reaction catalyzed by Citrobacter freundii methionine γ-lyase

Author

Aleksandra A. Kuznetsova, Nicolai G. Faleev, Elena A. Morozova, Natalya V. Anufrieva, Olga I. Gogoleva, Marina A. Tsvetikova, Olga S. Fedorova, Tatyana V. Demidkina, and Nikita A. Kuznetsov

Subjects

General Medicine, Deuterium, Biochemistry, Catalysis, Phosphates, Citrobacter freundii, Carbon-Sulfur Lyases, Kinetics, Methionine, Pyridoxal Phosphate, Nitriles, Imines, Amino Acids, Protons

Abstract

Methionine γ-lyase (MGL) is a pyridoxal 5'-phosphate-dependent enzyme catalyzing γ-elimination in l-methionine. Pyridoxal 5'-phosphate-dependent enzymes have unique spectral properties that allow to monitor sequential formation and decomposition of various intermediates via the detection of absorbance changes. The kinetic mechanism of the γ-elimination reaction catalyzed by Citrobacter freundii MGL was elucidated here by fast stopped-flow kinetic analysis. Single-wavelength detection of characteristic absorbance changes enabled us to compare transformations of intermediates in the course of the reaction with different substrates. The influence of various γ-substituents in the substrate on the formation of key intermediates was estimated. Kinetic isotope effects of α- and β-protons were determined using deuterium-substituted l-methionine. Contributions of amino acid residues Tyr113 and Tyr58 located in the active site on the formation and decomposition of reaction intermediates were identified too. α-Aminocrotonate formation is the rate-limiting step of the enzymatic γ-elimination reaction. Kinetic isotope effects strongly support concerted reaction mechanisms of transformation between an external aldimine and a ketimine intermediate as well as a ketimine intermediate and an unsaturated ketimine.

Published

2022

8. 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

9. 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

10. Lewis Acid-Relayed Singlet Oxygen Reaction with Enamines: Selective Dimerization of Enamines to Pyrrolin-4-ones

Author

Tao Lei, Yuan-Yuan Cheng, Xu Han, Chao Zhou, Bing Yang, Xiu-Wei Fan, Bin Chen, Chen-Ho Tung, and Li-Zhu Wu

Subjects

Colloid and Surface Chemistry, Singlet Oxygen, Imines, General Chemistry, Dimerization, Oxidation-Reduction, Biochemistry, Catalysis, Lewis Acids

Abstract

Singlet oxygen (

Published

2022

11. 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

12. 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

13. Covalent Organic Frameworks for Carbon Dioxide Capture from Air

Author

Hao Lyu, Haozhe Li, Nikita Hanikel, Kaiyu Wang, and Omar M. Yaghi

Subjects

Colloid and Surface Chemistry, Imines, General Chemistry, Amines, Carbon Dioxide, Crystallization, Biochemistry, Metal-Organic Frameworks, Catalysis

Abstract

We report the first covalent incorporation of reactive aliphatic amine species into covalent organic frameworks (COFs). This was achieved through the crystallization of an imine-linked COF, termed COF-609-Im, followed by conversion of its imine linkage to base-stable tetrahydroquinoline linkage through aza-Diels-Alder cycloaddition, and finally, the covalent incorporation of tris(3-aminopropyl)amine into the framework. The obtained COF-609 exhibits a 1360-fold increase in CO

Published

2022

14. Biomolecule-Compatible Dehydrogenative Chan–Lam Coupling of Free Sulfilimines

Author

Tingting Meng, Lucille A. Wells, Tianxin Wang, Jinyu Wang, Shishuo Zhang, Jie Wang, Marisa C. Kozlowski, and Tiezheng Jia

Subjects

Electron Transport, Colloid and Surface Chemistry, Proteins, Imines, General Chemistry, Biochemistry, Copper, Catalysis, Hydrogen

Abstract

Inspired by the discovery of a S═N bond in the collagen IV network and its essential role in stabilizing basement membranes, sulfilimines have drawn much attention in the fields of chemistry and biology. However, their further uptake is hindered by the lack of mild, efficient, and environmentally benign protocols by which sulfilimines can be constructed under biomolecule-compatible conditions. Here, we report a terminal oxidant-free copper-catalyzed dehydrogenative Chan-Lam coupling of free diaryl sulfilimines with arylboronic acids with excellent chemoselectivity and broad substrate compatibility. The mild reaction conditions and biomolecule-compatible nature allow the employment of this protocol in the late-stage functionalization of complex peptides, and more importantly, as an effective bioconjugation method as showcased in a model protein. A combined experimental and computational mechanistic investigation reveals that an inner-sphere electron-transfer process circumvents the sacrificial oxidant employed in traditional Chan-Lam coupling reactions. An energetically viable concerted pathway was located wherein a copper hydride facilitates hydrogen-atom abstraction from the isopropanol solvent to produce dihydrogen via a four-membered transition state.

Published

2022

15. Introducing the Catalytic Amination of Silanes via Nitrene Insertion

Author

Anabel M. Rodríguez, Jorge Pérez-Ruíz, Francisco Molina, Ana Poveda, Raúl Pérez-Soto, Feliu Maseras, M. Mar Díaz-Requejo, and Pedro J. Pérez

Subjects

Colloid and Surface Chemistry, Catalysts, Inorganic compounds, Imines, General Chemistry, Silanes, Functionalization, Biochemistry, Hydrocarbons, Catalysis, Amination, Group 14 compounds

Abstract

The direct functionalization of Si−H bonds by the nitrene insertion methodology is described. A copper(I) complex bearing a trispyrazolylborate ligand catalyzes the transfer of a nitrene group from PhINTs to the Si−H bond of silanes, disilanes, and siloxanes, leading to the exclusive formation of Si−NH moieties in the first example of this transformation. The process tolerates other functionalities in the substrate such as several C−H bonds and alkyne and alkene moieties directly bonded to the silicon center. Density functional theory (DFT) calculations provide a mechanistic interpretation consisting of a Si−H homolytic cleavage and subsequent rebound to the Si-centered radical., We thank the Ministerio de Ciencia e Innovación for Grants PID2020-113797RB-C21, PID2020-112825RB-I00, and CEX2019-000925-S as well as FEDER for “Una manera de hacer Europa” funding. We also thank Junta de Andalucía (P20-00348) and Universidad de Huelva (P.O.Feder UHU202016). A.M.R. and R.P.-S. thank Ministerio de Universidades for the FPU fellowships (FPU17/02738 and FPU18/ 01138, respectively), and J.P.-R. thanks Fondo de Garantía Juvenil for a research contract. CERCA Programme/Generalitat de Catalunya is also acknowledged. We thank Prof. T. R. Belderrain for helpful discussions on 29Si NMR spectroscopy. Funding for open access charge: Universidad de Huelva / CBUA

Published

2022

16. Palladium Terminal Imido Complexes with Nitrene Character

Author

Annette Grünwald, Bhupendra Goswami, Kevin Breitwieser, Bernd Morgenstern, Martí Gimferrer, Frank W. Heinemann, Dajana M. Momper, Christopher W. M. Kay, and Dominik Munz

Subjects

Colloid and Surface Chemistry, Imines, General Chemistry, Ligands, Biochemistry, Palladium, Catalysis

Abstract

Whereas triplet-nitrene complexes of the late transition metals are isolable and key intermediates in catalysis, singlet-nitrene ligands remain elusive. Herein we communicate three such palladium terminal imido complexes with singlet ground states. UV-vis-NIR electronic spectroscopy with broad bands up to 1400 nm as well as high-level computations (DFT, STEOM-CCSD, CASSCF/NEVPT2, EOS analysis) and reactivity studies suggest significant palladium(0) singlet-nitrene character. Although the aliphatic nitrene complexes proved to be too reactive for isolation in analytically pure form as a result of elimination of isobutylene, the aryl congener could be characterized by SC-XRD, elemental analysis, IR-, NMR spectroscopy, and HRMS. The complexes' distinguished ambiphilicity allows them to activate hexafluorobenzene, triphenylphosphine, and pinacol borane, catalytically dehydrogenate cyclohexene, and aminate ethylene via nitrene transfer at or below room temperature.

Published

2022

17. Asymmetric Organocatalysis Enables Rapid Assembly of Portimine Precursor Chains

Author

Liubo Li, Anton El Khoury, Brennan O’Neil Clement, Carolyn Wu, and Patrick G. Harran

Subjects

Organic Chemistry, Spiro Compounds, Imines, Organic Chemicals, Physical and Theoretical Chemistry, Biochemistry

Abstract

Sequential organocatalytic additions of 2-furanone and dihydroxyacetone derivatives to a crotonaldehyde lynchpin provide polyhydroxylated chains reminiscent of lactonized deoxo Kdn type sugars. Further homologation via Kulinkovich ring opening of the butyrolactone and acylation of the zinc homoenolate derived from the incipient cyclopropanol allows assembly of functionalized chain precursors to portimine. Our experiments probe the stability and reactivity of monosubstituted methylidene pyrrolines and generate advanced intermediates useful for exploring the biosynthesis and

Published

2022

18. One-Pot Bioelectrocatalytic Conversion of Chemically Inert Hydrocarbons to Imines

Author

Hui Chen, Tianhua Tang, Christian A. Malapit, Yoo Seok Lee, Matthew B. Prater, N. Samali Weliwatte, and Shelley D. Minteer

Subjects

Colloid and Surface Chemistry, Imines, General Chemistry, Biochemistry, Heptanol, Hydrocarbons, Catalysis, Amination, Heptanes

Abstract

Petroleum hydrocarbons are our major energy source and an important feedstock for the chemical industry. With the exception of combustion, the deep conversion of chemically inert hydrocarbons to more valuable chemicals is of considerable interest. However, two challenges hinder this conversion. One is the regioselective activation of inert carbon-hydrogen (C-H) bonds. The other is designing a pathway to realize this complicated conversion. In response to the two challenges, a multistep bioelectrocatalytic system was developed to realize the one-pot deep conversion from heptane to

Published

2022

19. Identification of parallel medicinal chemistry protocols to expand branched amine design space

Author

Edward L. Conn, Matthew A. Perry, Kecheng Shi, Guotao Wang, Susan Hoy, Neal W. Sach, Wenying Qi, Liqiang Qu, Yu Gao, Yan Xu, and Daniel C. Schmitt

Subjects

Aldehydes, Chemistry, Pharmaceutical, Organic Chemistry, Carboxylic Acids, Imines, Amines, Physical and Theoretical Chemistry, Biochemistry

Abstract

α-Branched heteroaryl amines are prevalent motifs in drugs and are typically prepared through C-N bond formation. In contrast, C-C bond-forming approaches to branched amines may dramatically expand available chemical space but are rarely pursued in parallel format due to a lack of established library protocols. Methods for the synthesis of α-branched heteroaryl amines

Published

2022

20. Artificial intelligence-based identification of octenidine as a Bcl-xL inhibitor

Author

Anh Thi Ngoc Bui, Hyojin Son, Seulki Park, Sohee Oh, Jin-Sik Kim, Jin Hwa Cho, Hye-Jin Hwang, Jeong-Hoon Kim, Gwan-Su Yi, and Seung-Wook Chi

Subjects

Pyridines, bcl-X Protein, Biophysics, Antineoplastic Agents, Apoptosis, Cell Biology, Biochemistry, Cell Line, Molecular Docking Simulation, bcl-2 Homologous Antagonist-Killer Protein, Artificial Intelligence, Neoplasms, Humans, Imines, Molecular Biology, Cell Proliferation, Protein Binding

Abstract

Apoptosis plays an essential role in maintaining cellular homeostasis and preventing cancer progression. Bcl-xL, an anti-apoptotic protein, is an important modulator of the mitochondrial apoptosis pathway and is a promising target for anticancer therapy. In this study, we identified octenidine as a novel Bcl-xL inhibitor through structural feature-based deep learning and molecular docking from a library of approved drugs. The NMR experiments demonstrated that octenidine binds to the Bcl-2 homology 3 (BH3) domain-binding hydrophobic region that consists of the BH1, BH2, and BH3 domains in Bcl-xL. A structural model of the Bcl-xL/octenidine complex revealed that octenidine binds to Bcl-xL in a similar manner to that of the well-known Bcl-2 family protein antagonist ABT-737. Using the NanoBiT protein-protein interaction system, we confirmed that the interaction between Bcl-xL and Bak-BH3 domains within cells was inhibited by octenidine. Furthermore, octenidine inhibited the proliferation of MCF-7 breast and H1299 lung cancer cells by promoting apoptosis. Taken together, our results shed light on a novel mechanism in which octenidine directly targets anti-apoptotic Bcl-xL to trigger mitochondrial apoptosis in cancer cells.

Published

2022

21. Applications of catalysis in hydroboration of imines, nitriles, and carbodiimides

Author

Adineh Rezaei Bazkiaei, Michael Findlater, and Anne E. V. Gorden

Subjects

Carbodiimides, Kinetics, Metals, Nitriles, Organic Chemistry, Imines, Physical and Theoretical Chemistry, Biochemistry, Catalysis

Abstract

The catalytic hydroboration of imines, nitriles, and carbodiimides is a powerful method of preparing amines which are key synthetic intermediates in the synthesis of many value-added products. Imine hydroboration has perennially featured in notable reports while nitrile and carbodiimide hydroboration have gained attention recently. Initial developments in catalytic hydroboration of imines and nitriles employed precious metals and typically required harsh reaction conditions. More recent advances have shifted toward the use of base metal and main group element catalysis and milder reaction conditions. In this survey, we review metal and nonmetal catalyzed hydroboration of these unsaturated organic molecules and group them into three distinct categories: precious metals, base metals, and main group catalysts. The TON and TOF of imine hydroboration catalysts are reported and summarized with a brief overview of recent advances in the field. Mechanistic and kinetic studies of some of these protocols are also presented.

Published

2022

22. Organocatalytic formal [3 + 3] cyclization of α-(6-indolyl) propargylic alcohols

Author

Zhibin Yue, Ziyang Wang, Yunfeng Zhang, Xuling Chen, Pengfei Li, and Wenjun Li

Subjects

Indoles, Cyclization, Organic Chemistry, Imines, Physical and Theoretical Chemistry, Biochemistry, Catalysis, Pyrans

Abstract

A acetic acid mediated 1,10-conjugate addition-mediated formal [3 + 3] cyclization of alkynyl indole imine methides formed in situ from α-(6-indolyl) propargylic alcohols with 1,3-dicarbonyl compounds such as 4-hydroxycoumarins and cyclohexane-1,3-diones was developed.

Published

2022

23. Catalytic Insertion Reactions of α‐Imino Carbenoids

Author

Kuntal Pal and Chandra M. R. Volla

Subjects

Indole test, Chemistry, General Chemical Engineering, chemistry.chemical_element, General Chemistry, Biochemistry, Combinatorial chemistry, Catalysis, Rhodium, Metal, chemistry.chemical_compound, Transition metal, visual_art, Materials Chemistry, visual_art.visual_art_medium, Imines, Carbene, Carbenoid, Copper, Palladium

Abstract

Over the past decade, α-imino carbenoids generated via transition metal (such as rhodium, nickel, copper, palladium, silver) catalyzed denitrogenative ring-opening of N-sulfonyl-1,2,3-triazoles have found an extensive account of applications in synthetic organic chemistry. Particularly, they have been widely utilized as a donor/acceptor carbene complex in a range of transformations leading to diverse nitrogen containing compounds and heterocycles. Along the same direction, 3-diazoindolin-2-imines were successfully applied as an alternative source of α-imino carbenoid precursors for the development of a number of methodologies to access diverse indole derivatives. This review summarizes the insertion reactions of α-imino metal carbenes derived from N-sulfonyl-1,2,3-triazoles and 3-diazoindolin-2-imines.

Published

2021

24. A cobalt mediated nitrene transfer aza-Wittig cascade reaction to access 1,3,4-oxadiazole scaffolds

Author

Daniël S. Verdoorn, Prabhat Ranjan, Tim de Reuver, Elwin Janssen, Christophe M. L. Vande Velde, Jordy M. Saya, Bert U. W. Maes, and Romano V. A. Orru

Subjects

Chemistry, Molecular Structure, Organic Chemistry, Carboxylic Acids, Cobalt, Imines, Physical and Theoretical Chemistry, Biochemistry

Abstract

A cobalt(II) mediated three-component synthesis of 5-substituted-N-sulfonyl-1,3,4-oxadiazol-2(3H)-imines using sulfonyl azides, N-isocyaniminotriphenylphosphorane (NIITP), and carboxylic acids has been developed. This one-pot tandem reaction starts with a nitrene transfer to NIITP, followed by addition of the carboxylic acid to the in situ formed carbodiimide and subsequent intramolecular aza-Wittig reaction. Both the steric constraints of carboxylic acid and the stoichiometry of the employed cobalt salt determine the selectivity toward the two products, i.e. 5-substituted-N-sulfonyl-1,3,4-oxadiazol-2(3H)-imine versus 5-substituted-4-tosyl-2,4-dihydro-3H-1,2,4-triazol-3-one.

Published

2023

25. Addition to 'Direct Deamination of Primary Amines via Isodiazene Intermediates'

Author

Kathleen J. Berger, Julia L. Driscoll, Mingbin Yuan, Balu D. Dherange, Osvaldo Gutierrez, and Mark D. Levin

Subjects

Colloid and Surface Chemistry, Aniline Compounds, Models, Chemical, Deamination, Alkanes, General Chemistry, Imines, Amines, Biochemistry, Catalysis, Article

Abstract

We report here a reaction that selectively deaminates primary amines and anilines under mild conditions and with remarkable functional group tolerance including a range of pharmaceutical compounds, amino acids, amino sugars, and natural products. An anomeric amide reagent is uniquely capable of facilitating the reaction through the intermediacy of an unprecedented monosubstituted isodiazene intermediate. In addition to dramatically simplifying deamination compared to existing protocols, our approach enables strategic applications of iminium and amine-directed chemistries as traceless methods. Mechanistic and computational studies support the intermedicacy of a primary isodiazene which exhibits an unexpected divergence from previously studied secondary isodiazenes, leading to cage-escaping, free radical species that engage in a chain, hydrogen-atom transfer process involving aliphatic and diazenyl radical intermediates.

Published

2022

26. Photochemical Formal (4 + 2)-Cycloaddition of Imine-Substituted Bicyclo[1.1.1]pentanes and Alkenes

Author

Alexander S. Harmata, Taylor E. Spiller, Madison J. Sowden, and Corey R. J. Stephenson

Subjects

Bridged Bicyclo Compounds, Colloid and Surface Chemistry, Cycloaddition Reaction, Hydrolysis, Pentanes, Stereoisomerism, General Chemistry, Imines, Alkenes, Biochemistry, Catalysis, Article

Abstract

Amines containing bridged bicyclic carbon skeletons are desirable building blocks for medicinal chemistry. Herein, we report the conversion of bicyclo[1.1.1]pentan-1-amines to a wide range of poly-substituted bicyclo[3.1.1]heptan-1-amines through a photochemical, formal (4+2)-cycloaddition of an intermediate imine diradical. To our knowledge, this is the first reported method to convert the bicyclo[1.1.1]pentane skeleton to the bicyclo[3.1.1]heptane skeleton. Hydrolysis of the imine products gives complex, sp(3)-rich primary amine building blocks.

Published

2022

27. Rh-Catalyzed [3+2] Annulation of Cyclic Ketimines and Alkynyl Chloride: A Strategy for Accessing Unsymmetrically Substituted and Highly Functionalizable Indenes

Author

Xu Zhao, Chenrui Fan, Jianbo He, and Yunfei Luo

Subjects

Chlorides, Organic Chemistry, Rhodium, Imines, Physical and Theoretical Chemistry, Amines, Biochemistry, Catalysis

Abstract

Alkynyl chlorides were found to be extraordinarily novel electrophiles, which could afford a single regioisomer of the [3+2] annulation adducts with cyclic ketimines by rhodium catalysis. The alkenyl chloride moiety in the products provided a valuable functional handle for further diverse transformations. Therefore, this research provided not only a synthetic protocol for accessing unsymmetrically substituted indenyl amines but also a highly divergent solution for decorating the substituting group by postmanipulation of the chloride.

Published

2022

28. Catalytic N-H Bond Formation Promoted by a Ruthenium Hydride Complex Bearing a Redox-Active Pyrimidine-Imine Ligand

Author

Sangmin Kim, Junho Kim, Hongyu Zhong, Grace B. Panetti, and Paul J. Chirik

Subjects

Colloid and Surface Chemistry, Pyrimidines, Organometallic Compounds, General Chemistry, Imines, Ligands, Biochemistry, Oxidation-Reduction, Catalysis, Ruthenium, Hydrogen

Abstract

The synthesis of a piano-stool ruthenium hydride, [(η

Published

2022

29. Rapid chemical de-N-glycosylation and derivatization for liquid chromatography of immunoglobulin N-linked glycans.

Author

Kameyama, Akihiko, Dissanayake, Santha Kumara, and Thet Tin, Wai Wai

Subjects

*GLYCANS, *LIQUID chromatography, *GLYCOSYLATION, *IMMUNOGLOBULINS, *MONOCLONAL antibodies

Abstract

Glycan analysis may result in exploitation of glycan biomarkers and evaluation of heterogeneity of glycosylation of biopharmaceuticals. For N-linked glycan analysis, we investigated alkaline hydrolysis of the asparagine glycosyl carboxamide of glycoproteins as a deglycosylation reaction. By adding hydroxylamine into alkaline de-N-glycosylation, we suppressed the degradation of released glycans and obtained a mixture of oximes, free glycans, and glycosylamines. The reaction was completed within 1 h, and the mixture containing oximes was easily tagged with 2-aminobenzamide by reductive amination. Here, we demonstrated N-linked glycan analysis using this method for a monoclonal antibody, and examined whether this method could liberate glycans without degradation from apo-transferrin containing NeuAc and NeuGc and horseradish peroxidase containing Fuc α1–3 GlcNAc at the reducing end. Furthermore, we compared glycan recoveries between conventional enzymatic glycan release and this method. Increasing the reaction temperature and reaction duration led to degradation, whereas decreasing these parameters resulted in lower release. Considering this balance, we proposed to carry out the reaction at 80°C for 1 h for asialo glycoproteins from mammals and at 50°C for 1 h for sialoglycoproteins. [ABSTRACT FROM AUTHOR]

Published

2018

30. Synthesis and characterization of Ni(II) complexes bearing of 2‐(1<italic>H</italic>–benzimidazol‐2‐yl)‐phenol derivatives as highly active catalysts for ethylene oligomerization.

Author

Haghverdi, Marzieh, Tadjarodi, Azadeh, Bahri‐Laleh, Naeimeh, and Nekoomanesh‐Haghighi, Mehdi

Subjects

*NICKEL compounds synthesis, *PHENOL derivatives, *IMINES, *CATALYTIC activity, *LIGANDS (Chemistry), *BIOCHEMISTRY

Abstract

Novel Ni(II) complexes of 2‐(1H–benzimidazol‐2‐yl)‐phenol derivatives (HLx: x  =  1–5; C1–C5) have been synthesized and characterized. In the mononuclear complexes, the ligands were coordinated as bidentate, via one imine nitrogen and the phenolate oxygen atoms. The structures of the compounds were confirmed on the basis of FT‐IR, UV–Vis, 1H‐, 13C–NMR, inductively coupled plasma and elemental analyses (C, H and N). The purity of these compounds was ascertained by melting point (m.p.) and thin‐layer chromatography. The geometry optimization and vibrational frequency calculations of the compounds were performed using Gaussian 09 program with B3LYP/TZVP level of theory. All Ni(II) complexes were activated with diethylaluminum chloride (Et2AlCl), so that C2 showed the highest activity [6600 kg mol−1 (Ni) h−1], where the ligand contains a chlorine substituent. Oligomers obtained from the complexes consist mainly of dimer and trimer, and also exhibit high selectivity for linear 1‐butene and 1‐hexene. Both the steric and electronic effects of coordinative ligands affect the catalytic activity and the properties of the catalytic products. [ABSTRACT FROM AUTHOR]

Published

2018

31. Application of Rh(I)/Bicyclo[2.2.1]heptadiene Catalysts to the Enantioselective Synthesis of Chiral Amines

Author

Yu-Yi Cheng, Wei-Sian Li, and Hsyueh Liang Wu

Subjects

Bicyclic molecule, Personal account, Chemistry, General Chemical Engineering, Imine, Enantioselective synthesis, Stereoisomerism, General Chemistry, Ligands, Biochemistry, Combinatorial chemistry, Catalysis, Adduct, chemistry.chemical_compound, Reagent, Materials Chemistry, Molecule, Imines, Amines

Abstract

The development of efficient synthetic methods for accessing enantioenriched α-chiral amines is of great importance in the disciplines of medicinal and synthetic organic chemistry. Enantioselective Rh-catalyzed 1,2-addition reactions to activated imine derivatives are regarded as useful protocols for forming α-chiral amines. This personal account outlines our efforts to develop chiral bicyclo[2.2.1]heptadiene ligands for Rh-catalyzed asymmetric additions of various organoboron reagents to a wide range of imine derivatives. Transformations of the thus-obtained adducts into known natural products or molecules of pharmaceutical importance serve to confirm their synthetic usefulness.

Published

2021

32. Investigation of the Effects and Mechanisms of Anticancer Action of a Ru(II)‐Arene Iminophosphorane Compound in Triple Negative Breast Cancer Cells

Author

Karen Hubbard, Nazia Nayeem, Samantha N. Cobos, Ali Younes, Arefa Yeasmin, and María Contel

Subjects

Angiogenesis, Phosphoranes, medicine.medical_treatment, Antineoplastic Agents, Triple Negative Breast Neoplasms, Biochemistry, Article, Structure-Activity Relationship, Cell Movement, Coordination Complexes, Cell Line, Tumor, Drug Discovery, medicine, Humans, General Pharmacology, Toxicology and Pharmaceutics, Cytotoxicity, Triple-negative breast cancer, PI3K/AKT/mTOR pathway, Cell Proliferation, Pharmacology, Cell Death, Dose-Response Relationship, Drug, Molecular Structure, Chemistry, Cell Cycle, Organic Chemistry, Cell cycle, Rubidium, Cytokine, Mechanism of action, Apoptosis, Cancer research, Molecular Medicine, Imines, Drug Screening Assays, Antitumor, medicine.symptom

Abstract

Triple negative breast cancer (TNBC) is one of the breast cancers with poorer prognosis and survival rates. TNBC has a disproportionally high incidence and mortality in women of African descent. We report on the evaluation of Ru-IM (1), a water-soluble organometallic ruthenium compound, in TNBC cell lines derived from patients of European (MDA-MB-231) and African (HCC-1806) ancestry (including IC(50) values, cellular and organelle uptake, cell death pathways, cell cycle, effects on migration, invasion, and angiogenesis, a preliminary proteomic analysis, and an NCI 60 cell-line panel screen). 1 was previously found highly efficacious in MDA-MB-231 cells and xenografts, with little systemic toxicity and preferential accumulation in the tumor. We observe a similar profile for this compound in the two cell lines studied, which includes high cytotoxicity, apoptotic behavior and potential antimetastatic and antiangiogenic properties. Cytokine M-CSF, involved in the PI3/AKT pathway, shows protein expression inhibition with exposure to 1. We also demonstrate a p53 independent mechanism of action.

Published

2021

33. Structure and Reactivity of a High-Spin, Nonheme Iron(III)- Superoxo Complex Supported by Phosphinimide Ligands

Author

Charles Winslow, Jonathan Rittle, Simon J. Teat, Mackenzie J. Field, and Heui Beom Lee

Subjects

Phosphinimide ligands, Ligands, 010402 general chemistry, Ferric Compounds, 01 natural sciences, Biochemistry, Redox, Catalysis, Colloid and Surface Chemistry, Superoxides, Coordination Complexes, Oxidizing agent, Reactivity (chemistry), Density Functional Theory, 010405 organic chemistry, Chemistry, Ligand, Bioinorganic chemistry, General Chemistry, Amides, Combinatorial chemistry, 0104 chemical sciences, Catalytic oxidation, Chemical Sciences, Imines, Stoichiometry

Abstract

Nonheme iron oxygenases utilize dioxygen to accomplish challenging chemical oxidations. A further understanding of the Fe-O2 intermediates implicated in these processes is challenged by their highly transient nature. To that end, we have developed a ligand platform featuring phosphinimide donors intended to stabilize oxidized, high-spin iron complexes. O2 exposure of single crystals of a three-coordinate Fe(II) complex of this framework allowed for in crystallo trapping of a terminally bound Fe-O2 complex suitable for XRD characterization. Spectroscopic and computational studies of this species support a high-spin Fe(III) center antiferromagnetically coupled to a superoxide ligand, similar to that proposed for numerous nonheme iron oxygenases. In addition to the apparent stability of this synthetic Fe-O2 complex, its ability to engage in a range of stoichiometric and catalytic oxidation processes demonstrates that this iron-phosphinimide system is primed for development in modeling oxidizing bioinorganic intermediates and green oxidation chemistry.

Published

2021

34. Base-Promoted Tandem Synthesis of 3,4-Dihydroisoquinolones

Author

Jie Li, Huan Wang, Huimin Jin, Zhenhua Xiang, Lingfeng Chen, Patrick J. Walsh, and Guang Liang

Subjects

Aldehydes, Benzaldehydes, Organic Chemistry, Imines, Physical and Theoretical Chemistry, Biochemistry

Abstract

Using benzaldehydes, NaN(SiMe

Published

2022

35. Development of spirocyclic phosphoramidite-based hybrid diphosphorus ligands for enantioselective iridium-catalyzed hydrogenation of imines

Author

Long-Fei Nan, Xiu-Shuai Chen, Hao Chen, Xin-Hu Hu, Xin-Hong Wang, and Xiang-Ping Hu

Subjects

Organic Chemistry, Stereoisomerism, Hydrogenation, Imines, Physical and Theoretical Chemistry, Iridium, Ligands, Biochemistry, Catalysis

Abstract

Unsymmetrical hybrid chiral diphosphorus ligands bearing a spirocyclic phosphoramidite scaffold have been developed and successfully applied in the iridium-catalyzed asymmetric hydrogenation of imines. With this newly developed chiral iridium catalytic system, a wide range of imines including sterically hindered ones could be hydrogenated to give the corresponding optically active amines in high yields (up to99%) and with excellent enantioselectivities (up to99% ee). The utility of this hydrogenation has been demonstrated by the preparation of the chiral fungicide (

Published

2022

36. Parallel Allosteric Inhibition of Shuttling Motion and Catalysis in a Silver(I)-loaded [2]Rotaxane

Author

Sohom Kundu, Debabrata Mondal, Emad Elramadi, Isa Valiyev, and Michael Schmittel

Subjects

Silver, Rotaxanes, Cyclization, Organic Chemistry, Imines, Physical and Theoretical Chemistry, Biochemistry, Catalysis

Abstract

A dynamic silver(I)-loaded [2]rotaxane shuttle (

Published

2022

37. Catalytic Lewis Base Additive Enables Selective Copper-Catalyzed Borylative α-C-H Allylation of Alicyclic Amines

Author

Borja Pérez-Saavedra, Álvaro Velasco-Rubio, Eva Rivera-Chao, Jesús A. Varela, Carlos Saá, Martín Fañanás-Mastral, Universidade de Santiago de Compostela. Centro de Investigación en Química Biolóxica e Materiais Moleculares, and Universidade de Santiago de Compostela. Departamento de Química Orgánica

Subjects

Colloid and Surface Chemistry, Chemical reactions, Lewis Bases, General Chemistry, Imines, Allenes, Lewis bases, Amines, Ligands, Biochemistry, Catalysis, Copper

Abstract

Functionalized alicyclic amines are important building blocks for the synthesis of bioactive natural compounds and drugs. Existing methods of functionalization are typically limited to the synthesis of protected amines or the use of highly basic organometallic reagents that can compromise functional group tolerance. Here, we report a novel approach that enables the transformation of O-benzoyl hydroxylamines into α-functionalized cyclic secondary amines by means of a copper-catalyzed regio-, stereo-, and chemoselective coupling with allenes and bis(pinacolato)diboron. A key feature of the present transformation is the use of a catalytic Lewis base additive which inhibits the competing C–N bond forming reaction between the catalytically generated boron-substituted allylcopper intermediate with the O-benzoyl hydroxylamine, thus enabling in situ transformation of the latter into an alicyclic imine which undergoes selective C–C bond formation with the allylcopper species Financial support from the Spanish Ministry of Science and Innovation (PID2020-118237RB-I00, PID2020-118048GB-I00, and the ORFEO-CINQA network RED2018-102387-T), Xunta de Galicia (ED431C 2018/04; Centro singular de investigación de Galicia accreditation 2019-2022, ED431G 2019/03), and the European Union (European Regional Development Fund, ERDF) is gratefully acknowledged. B.P.-S., A.V.-R., and E.R.-C. thank Xunta de Galicia for predoctoral fellowships. We also acknowledge the use of RIAIDT-USC analytical facilities and CESGA (Xunta de Galicia) for computational time SI

Published

2022

38. Application of Acrolein Imines to Organic Synthesis, Biofunctional Studies, and Clinical Practice

Author

Katsunori Tanaka and Ambara R. Pradipta

Subjects

Personal account, General Chemical Engineering, Breast Neoplasms, 010402 general chemistry, 01 natural sciences, Biochemistry, chemistry.chemical_compound, Alzheimer Disease, Materials Chemistry, Humans, Organic chemistry, Reactivity (chemistry), Acrolein, Alkyl, chemistry.chemical_classification, Molecular Structure, 010405 organic chemistry, Biological activity, General Chemistry, 0104 chemical sciences, Clinical Practice, Oxidative Stress, chemistry, Clinical diagnosis, Female, Organic synthesis, Imines

Abstract

N-alkyl unsaturated imines derived from acrolein, a toxin produced during oxidative stress, and biogenic alkyl amines occur naturally and are considered biologically relevant compounds. However, despite the recent conceptual and technological advances in organic synthesis, research on the new reactivity of these compounds is lacking. This personal account discusses research on the reactivity that has been overlooked in acrolein imines, including the discovery of new methods to synthesize biologically active compounds, the determination of new functions of relevant imines and their precursors, i. e., aldehydes and amines, and the application of these methods for clinical diagnosis.

Published

2021

39. Stereodivergent Synthesis of Enantioenriched α-Deuterated α-Amino Acids via Cascade Cu(I)-Catalyzed H-D Exchange and Dual Cu- and Ir-Catalyzed Allylation

Author

Cong Fu, Xin Chang, Lu Xiao, and Chun-Jiang Wang

Subjects

Organic Chemistry, Stereoisomerism, Imines, Physical and Theoretical Chemistry, Amino Acids, Deuterium, Biochemistry, Catalysis

Abstract

A one-pot Cu-mediated H-D exchange with inexpensive heavy water as the deuterium source, followed by Cu- and Ir-catalyzed stereodivergent allylic alkylation, has been developed, providing efficient access to enantioenriched α-deuterium-labeled α-amino acids from readily available glycine imine esters in a high yield with excellent stereoselectivity. High deuterium enrichment, exquisite regioselectivity, precise stereoselectivity control, and operationally convenient procedures make this protocol appealing for the preparation of highly synthetically useful α-deuterated α-amino acids.

Published

2022

40. Deployment of Sulfinimines in Charge-Accelerated Sulfonium Rearrangement Enables a Surrogate Asymmetric Mannich Reaction

Author

Boris Maryasin, Daniel Kaiser, Ivan Mosiagin, Nuno Maulide, and Minghao Feng

Subjects

Colloid and Surface Chemistry, Sulfonium Compounds, Stereoisomerism, General Chemistry, Imines, Biochemistry, Amides, Catalysis

Abstract

β-Amino acid derivatives are key structural elements in synthetic and biological chemistry. Despite being a hallmark method for their preparation, the direct Mannich reaction encounters significant challenges when carboxylic acid derivatives are employed. Indeed, not only is chemoselective enolate formation a pitfall (particularly with carboxamides), but most importantly the inability to reliably access α-tertiary amines through an enolate/ketimine coupling is an unsolved problem of this century-old reaction. Herein, we report a strategy enabling the first direct coupling of carboxamides with ketimines for the diastereo- and enantioselective synthesis of β-amino amides. This conceptually novel approach hinges on the innovative deployment of enantiopure sulfinimines in sulfonium rearrangements, and at once solves the problems of chemoselectivity, reactivity, and (relative and absolute) stereoselectivity of the Mannich process. In-depth computational studies explain the observed, unexpected (dia)stereoselectivity and showcase the key role of intramolecular interactions, including London dispersion, for the accurate description of the reaction mechanism.

Published

2022

41. Texture and rheological features of strain and pH sensitive chitosan-imine graphene-oxide composite hydrogel with fast self-healing nature

Author

Mushtaq A. Bhat, Reyaz A. Rather, and Aabid H. Shalla

Subjects

Chitosan, Structural Biology, Hydrogels, Graphite, Oxides, General Medicine, Imines, Hydrogen-Ion Concentration, Molecular Biology, Biochemistry

Abstract

Here we report a smart Chitosan-isophthalaldehyde-Graphene oxide (CS-ISD-GO) hydrogel as a "multicomponent hydrogel". We witnessed an unprecedented pH responsive changes in viscoelasticity, stretchability, adhesiveness, self-healing and self-adaptability upon changing the pH and concentration of CS and ISD that was authenticated by texture and rheological analysis. The GO provides physical crosslinks and antibacterial properties to the hydrogel. Taking the advantage of dynamic nature of covalent and non-covalent interactions, we tuned the hydrogel adhesion and stretchability in response to the pH changes. Further self-healing of hydrogels was fully investigated by measuring thixotropic response over more than three cycles of strain sweep and real time optical imaging and video recording techniques. The recorded videos display 100 % self-healing response within a time frame of 2-6 min. These properties were observed only over small range of pH (4.5-5.5). The hydrogel becomes mechanically strong above pH 5.5 and becomes unstable above pH 7 leading to subsequent disintegration. The characterization of hydrogel was carried by FTIR, FESEM and TGA analysis. In addition, the hydrogel was reduced using NaBH

Published

2022

42. Quadruple Functionalized Pyrazole Pharmacophores by One‐pot Regioselective [3+2] Cycloaddition of Fluorinated Nitrile Imines and Dicyanoalkenes

Author

Yin Zhou, Cheng‐Feng Gao, Hai Ma, Jing Nie, Jun‐An Ma, and Fa‐Guang Zhang

Subjects

Cycloaddition Reaction, Nitriles, Organic Chemistry, Pyrazoles, Imines, General Chemistry, Biochemistry

Abstract

Here we present a quadruple functionalization approach for the modular construction of fully substituted N

Published

2022

43. Seeking Citius: Photochemical Access of Reactive Intermediates for Faster Bioorthogonal Reactions

Author

Gangam Srikanth Kumar and Qing Lin

Subjects

Cycloaddition Reaction, Nitriles, Organic Chemistry, Molecular Medicine, Imines, Molecular Biology, Biochemistry, Catalysis

Abstract

Fast bioorthogonal reactions are sought after because of their superior performance in labeling low-abundance biomolecules in native cellular environments. An attractive strategy to increase reaction kinetics is to access the reactive intermediates through photochemical activation. To this end, significant progress was made in the last few years in harnessing two highly reactive intermediates-nitrile imine and tetrazine-generated through photoinduced ring rupture and catalytic photooxidation, respectively. The efficient capture of these reactive intermediates by their cognate reaction partners has enabled bioorthogonal fluorescent labeling of biomolecules in live cells.

Published

2022

44. Organocatalyzed Modular Synthesis of Polycyclic Dihydropyridines and Pyridines through Sulfamate Linchpin

Author

Vinod Bhajammanavar, Popuri Sureshbabu, Mallu Kesava Reddy, and Mahiuddin Baidya

Subjects

Dihydropyridines, Pyridines, Organic Chemistry, Imines, General Chemistry, Sulfonic Acids, Biochemistry, Catalysis

Abstract

The cascade annulation between alkylidene malononitriles and cyclic sulfamidate imines has been controlled by leveraging the sulfamate functionality under organocatalysis, which allows selective access to polycyclic and densely functionalized dihydropyridines and pyridines in high yields. The protocol is scalable and shows broad substrate scope. The products were also engaged in the preparation of tetracyclic pyridopyrimidines, showcasing the synthetic versatility.

Published

2022

45. Syntheses of 3-Aryl Tetrahydroisoquinolines via an Intermolecular [4 + 2] Cycloaddition of Sultines with Imines

Author

Aurapat Ngamnithiporn, Padon Chuentragool, Poonsakdi Ploypradith, and Somsak Ruchirawat

Subjects

Cycloaddition Reaction, Cyclization, Tetrahydroisoquinolines, Organic Chemistry, Stereoisomerism, Imines, Physical and Theoretical Chemistry, Biochemistry

Abstract

The development of an intermolecular aza-Diels-Alder (DA) cycloaddition of sultines and imines is reported. By exploiting sultines as

Published

2022

46. Hydrosulfonylation of Alkenes with Sulfonyl Imines via Ir/Cu Dual Photoredox Catalysis

Author

Xian Du, Jing-Song Zhen, Xiao-Hong Xu, Han Yuan, Yi-Hui Li, Yeqin Zheng, Can Xue, and Yong Luo

Subjects

Sulfonamides, Organic Chemistry, Imines, Sulfones, Physical and Theoretical Chemistry, Alkenes, Biochemistry, Catalysis

Abstract

Sulfonamides exhibit the advantages of wide prevalence, excellent prefunctionalization capability, and broad functional group compatibility. We report here utilizing sulfonyl imines as sulfonyl radical precursors for hydrosulfonylation of activated alkenes via visible-light irradiation. By preinstallation of functional groups into the sulfonamides and subsequent hydrosulfonylation, a variety of complex sulfones were synthesized with good efficiency under Ir/Cu dual photoredox catalysis. Additionally, this protocol expands the research in late-stage N-S bond modification in sulfonamides.

Published

2022

47. Synthesis of α,γ-Chiral Trifluoromethylated Amines through the Stereospecific Isomerization of α-Chiral Allylic Amines

Author

García-Vázquez, Víctor, Martínez-Pardo, Pablo, Postole, Alexandru, Inge, A. Ken, and Martín-Matute, Belén

Subjects

Isomerism, trifluoromethyl, amines, chiral, organocatalysis, Organic Chemistry, Stereoisomerism, Imines, Physical and Theoretical Chemistry, Amines, Biochemistry, Catalysis

Abstract

Chiral γ-branched aliphatic amines are present in a large number of pharmaceuticals and natural products. However, enantioselective methods to access these compounds are scarce and mainly rely on the use of designed chiral transition-metal complexes. Herein, we combined an organocatalytic method for the stereospecific isomerization of chiral allylic amines with a diastereoselective reduction of the chiral imine/enamine intermediates, leading to γ-trifluoromethylated aliphatic amines with two noncontiguous stereogenic centers, in excellent yields and high diastereo- and enantioselectivities. This approach has been used with primary amine substrates. This approach also provides a new synthetic pathway to chiral trifluoromethylated scaffolds, of importance in medicinal chemistry. Additionally, a gram-scale reaction demonstrates the applicability of this synthetic procedure.

Published

2022

48. Gold(I)-Mediated Rapid Cyclization of Propargylated Peptides via Imine Formation

Author

Rajeshwer Vanjari, Deepanjan Panda, Shaswati Mandal, Ganga B. Vamisetti, and Ashraf Brik

Subjects

Colloid and Surface Chemistry, Cyclization, General Chemistry, Gold, Imines, Amines, Peptides, Biochemistry, Peptides, Cyclic, Catalysis

Abstract

In fundamental research and drug discovery, there is still a need for effective and straightforward chemical approaches for generating cyclic peptides. The divergent synthesis of cyclic peptides remains a challenge, in particular when cyclization is carried out in the presence of unprotected side chains and a nonpeptidic component within the cycle is needed. Herein, we describe a novel and efficient strategy based on Au(I)-mediated cyclization of unprotected peptides through rapid (30−60 min) amine addition on a propargyl group to generate an imine linkage. Mechanistic insights reveal that the reaction proceeds via regioselective Markovnikov’s addition of the amine on the Au(I)- activated propargyl. This strategy was successfully applied to prepare efficiently (56−94%) over 35 diverse cyclic peptides having different sequences and lengths. We have also achieved stereoselective reduction of cyclic imines employing chiral ligands. The practicality of our method was extended for the synthesis of cyclic peptides that bind Lys48-linked di-ubiquitin chains with high affinity, leading to apoptosis of cancer cells.

Published

2022

49. Members of the Rid protein family have broad imine deaminase activity and can accelerate the Pseudomonas aeruginosa D-arginine dehydrogenase (DauA) reaction in vitro.

Author

Hodge-Hanson, Kelsey M. and Downs, Diana M.

Subjects

*IMINES, *PSEUDOMONAS aeruginosa, *DEHYDROGENASES, *ARGININE, *SALMONELLA enterica, *PROTEINS, *ENZYMES

Abstract

The Rid (YjgF/YER057c/UK114) protein family is a group of small, sequence diverse proteins that consists of eight subfamilies. The archetypal RidA subfamily is found in all domains, while the Rid1-7 subfamilies are present only in prokaryotes. Bacterial genomes often encode multiple members of the Rid superfamily. The best characterized member of this protein family, RidA from Salmonella enterica, is a deaminase that quenches the reactive metabolite 2-aminoacrylate generated by pyridoxal 5’-phosphate-dependent enzymes and ultimately spares certain enzymes from damage. The accumulation of 2-aminoacrylate can damage enzymes and lead to growth defects in bacteria, plants, and yeast. While all subfamily members have been annotated as imine deaminases based on the RidA characterization, experimental evidence to support this annotation exists for a single protein outside the RidA subfamily. Here we report that six proteins, spanning Rid subfamilies 1–3, deaminate a variety of imine/enamine substrates with differing specific activities. Proteins from the Rid2 and Rid3 subfamilies, but not from the RidA and Rid1 subfamilies deaminated iminoarginine, generated in situ by the Pseudomonas aeruginosa D-arginine dehydrogenase DauA. These data biochemically distinguished the subfamilies and showed Rid proteins have activity on a metabolite that is physiologically relevant in Pseudomonas and other bacteria. [ABSTRACT FROM AUTHOR]

Published

2017

50. PEI-modified macrophage cell membrane-coated PLGA nanoparticles encapsulating Dendrobium polysaccharides as a vaccine delivery system for ovalbumin to improve immune responses

Author

Zhiqiang Zhang, Zhenhuan Guo, Shizhong Zheng, Yonglu Liu, Xia Ma, Xianghui Li, and Dan Li

Subjects

medicine.drug_class, medicine.medical_treatment, Capsules, macromolecular substances, 02 engineering and technology, Lymphocyte proliferation, Pharmacology, Biochemistry, Immunostimulant, Mice, 03 medical and health sciences, Immune system, Coated Materials, Biocompatible, Polylactic Acid-Polyglycolic Acid Copolymer, Polysaccharides, Structural Biology, medicine, Animals, Molecular Biology, 030304 developmental biology, Drug Carriers, Mice, Inbred ICR, Vaccines, 0303 health sciences, biology, Chemistry, Cell Membrane, technology, industry, and agriculture, Biological activity, General Medicine, 021001 nanoscience & nanotechnology, biology.organism_classification, Dendrobium devonianum, Macrophages, Peritoneal, biology.protein, Nanoparticles, Female, Cytokine secretion, Imines, Polyethylenes, Antibody, Dendrobium, 0210 nano-technology, Adjuvant

Abstract

Recently, nanoparticles have been widely used in drug and vaccine adjuvant delivery. Dendrobium devonianum Polygonatum (DP), a main biologically active ingredient isolated from Dendrobium devonianum, has been widely used in the clinic as an immunostimulant to stimulate and improve immune responses, contributing to its excellent biological activity. To increase the immune efficacy of DP, macrophage cell membrane-coated drug nanocrystals featuring homologous immune escape, targeting ability and low toxicity are in high demand. In this study, a new drug and vaccine adjuvant delivery system, PEI-MM-PLGA-DP/OVA, was designed and developed. This study aimed to report the macrophage immunomodulatory activity of PEI-modified macrophage cell membrane-coated PLGA nanoparticles encapsulating Dendrobium devonianum polysaccharides. PEI-MM-PLGA-DP/OVA could promote antigen uptake by macrophage and lymphocyte proliferation, increase the expression levels of MHC II, CD80 and CD86, and upregulate the ratio of CD4+ to CD8+ T cells in immunized mice. PEI-MM-PLGA-DP/OVA induced the highest TNF-α, IFN-γ, IL-4, and IL-6 cytokine secretion levels and the levels of OVA-specific antibodies (IgG) compared with the other groups. The above results indicated that PEI-MM-PLGA-DP/OVA had better adjuvant activity than PLGA-DP/OVA and MM-PLGA-DP/OVA.

Published

2020