Your search keyword '"Alkylation"' showing total 31,408 results

1. Synthetic Strategies toward Lysergic Acid Diethylamide: Ergoline Synthesis via α‑Arylation, Borrowing Hydrogen Alkylation, and C–H Insertion

Author

Tuck, Jeremy R, Dunlap, Lee E, and Olson, David E

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Ergolines, Lysergic Acid Diethylamide, Hydrogen, Alkaloids, Alkylation, Medicinal and Biomolecular Chemistry, Medicinal and biomolecular chemistry, Organic chemistry

Abstract

Lysergic acid diethylamide (LSD), a semisynthetic ergoline alkaloid analogue and hallucinogen, is a potent psychoplastogen with promising therapeutic potential. While a variety of synthetic strategies for accessing ergoline alkaloids have emerged, the complexity of the tetracyclic ring system results in distinct challenges in preparing analogues with novel substitution patterns. Methods of modulating the hallucinogenic activity of LSD by functionalization at previously inaccessible positions are of continued interest, and efficient syntheses of the ergoline scaffold are integral toward this purpose. Here, we report novel C-C bond forming strategies for preparing the ergoline tetracyclic core, focusing on the relatively unexplored strategy of bridging the B- and D-ring systems last. Following cross-coupling to first join the A- and D-rings, we explored a variety of methods for establishing the C-ring, including intramolecular α-arylation, borrowing hydrogen alkylation, and rhodium-catalyzed C-H insertion. Our results led to a seven-step formal synthesis of LSD and the first methods for readily introducing substitution on the C-ring. These strategies are efficient for forming ergoline-like tetracyclic compounds and analogues, though they each face unique challenges associated with elaboration to ergoline natural products. Taken together, these studies provide important insights that will guide future synthetic strategies toward ergolines.

Published

2023

2. Strategies for Using Quaternary Ammonium Salts as Alternative Reagents in Alkylations.

Author

Templ, Johanna and Schnürch, Michael

Subjects

*QUATERNARY ammonium salts, *ORGANIC chemistry, *ALKYLATION, *CHEMICAL synthesis, *RESEARCH personnel

Abstract

Alkylation reactions are pivotal in organic chemistry, with wide‐ranging utilization across various fields of applied synthetic chemistry. However, conventional reagents employed in alkylations often pose substantial health and exposure risks. Quaternary ammonium salts (QAS) present a promising alternative for these transformations offering significantly reduced hazards as they are non‐cancerogenic, non‐mutagenic, non‐flammable, and non‐corrosive. Despite their potential, their use in direct organic transformations remains relatively unexplored. This review outlines strategies for utilizing QAS as alternative reagents in alkylation reactions, providing researchers with safer approaches to chemical synthesis. [ABSTRACT FROM AUTHOR]

Published

2024

3. Manganese-catalyzed C–C and C–N bond formation with alcohols via borrowing hydrogen or hydrogen auto-transfer

Author

Mohd Farhan Ansari, Atul Kumar Maurya, Abhishek Kumar, and Saravanakumar Elangovan

Subjects

alcohols, alkylation, amines, borrowing hydrogen, hydrogen auto-transfer, manganese, Science, Organic chemistry, QD241-441

Abstract

Transition-metal-mediated “borrowing hydrogen" also known as hydrogen auto-transfer reactions allow the sustainable construction of C–C and C–N bonds using alcohols as hydrogen donors. In recent years, manganese complexes have been explored as efficient catalysts in these reactions. This review highlights the significant progress made in manganese-catalyzed C–C and C–N bond-formation reactions via hydrogen auto-transfer, emphasizing the importance of this methodology and manganese catalysts in sustainable synthesis strategies.

Published

2024

4. A biocatalytic platform for asymmetric alkylation of α-keto acids by mining and engineering of methyltransferases

Author

Ju, Shuyun, Kuzelka, Kaylee P, Guo, Rui, Krohn-Hansen, Benjamin, Wu, Jianping, Nair, Satish K, and Yang, Yang

Subjects

Biological Sciences, Organic Chemistry, Chemical Sciences, Regenerative Medicine, Methyltransferases, Alkylation, Biocatalysis, Engineering, Keto Acids, Methenamine, Pseudomonas aeruginosa

Abstract

Catalytic asymmetric α-alkylation of carbonyl compounds represents a long-standing challenge in synthetic organic chemistry. Herein, we advance a dual biocatalytic platform for the efficient asymmetric alkylation of α-keto acids. First, guided by our recently obtained crystal structures, we develop SgvMVAV as a general biocatalyst for the enantioselective methylation, ethylation, allylation and propargylation of a range of α-keto acids with total turnover numbers (TTNs) up to 4,600. Second, we mine a family of bacterial HMTs from Pseudomonas species sharing less than 50% sequence identities with known HMTs and evaluated their activities in SAM regeneration. Our best performing HMT from P. aeruginosa, PaHMT, displays the highest SAM regeneration efficiencies (TTN up to 7,700) among HMTs characterized to date. Together, the synergistic use of SgvMVAV and PaHMT affords a fully biocatalytic protocol for asymmetric methylation featuring a record turnover efficiency, providing a solution to the notorious problem of asymmetric alkylation.

Published

2023

5. Supported Atomically Dispersed Pd Catalyzed Direct Alkoxylation and Allylic Alkylation.

Author

Ruixuan Qin, Ziwen Chen, Qingyuan Wu, Nanfeng Zheng, and Pengxin Liu

Subjects

*ALLYLIC alkylation, *ALKOXYLATION, *ALKYLATION, *ORGANIC chemistry, *SCIENTIFIC apparatus & instruments, *PHYSICAL & theoretical chemistry, *PHYSICAL sciences

Abstract

The article focuses on supported atomically dispersed palladium (Pd) catalysis for direct alkoxylation and allylic alkylation, emphasizing the catalyst's efficiency and unique mechanism. It discusses the utilization of atomically dispersed Pd on titanium dioxide (TiO2) nanosheets for direct allylic alkylation from allylic alcohols, highlighting the role of hydrogen bonding at the organic-inorganic interface in facilitating the reaction.

Published

2024

6. Synthesis and Performance Evaluation of Metallocene Polyalphaolefins (mPAO) Base Oil with Anti-Friction and Anti-Wear Properties

Author

Qidi Hu, Kai Zeng, Sheng Han, Jian Xu, Wenjing Hu, and Jiusheng Li

Subjects

metallocene polyalphaolefin, triphenyl thiophosphate, alkylation, chemical modification, oxi-dation stability, anti-wear, Organic chemistry, QD241-441

Abstract

Anti-wear and anti-oxidation abilities are two key properties of lubricants that play a crucial role in ensuring long-term stable equipment operation. In this study, we aimed to develop a base oil with good anti-oxidation and anti-wear properties for use under extreme pressure. The as-prepared metallocene polyalphaolefin (mPAO) was chemically modified using the trifluoromethanesulfonic acid (TfOH) catalysis through an alkylating reaction with triphenyl phosphorothioate (TPPT). During the experiments, when the reaction temperature exceeded 70 °C or the concentration of TfOH exceeded 2.67%, the β-scission reaction in the alkylation process became significantly more pronounced. The physical and chemical properties of TPPT-modified mPAO (T-mPAO) were evaluated by nuclear magnetic resonance spectroscopy, Fourier trans-form infrared spectroscopy, gel–permeation chromatography, and ASTM standards. T-mPAO showed significantly improved antioxidant capacity, with the initial oxidation temperature increasing by 32 °C compared to the base oil, and it exhibited the slowest increase in acid number in the 96-h oven oxidation test. The tribological tests showed that T-mPAO had the lowest friction coefficient, wear track, and wear rate (72.7% lower than that of mPAO) as well as the highest PB (238 kg) and PD (250 kg) among all tested samples. Compared to mPAO, the average friction coefficient of TPPT-modified mPAO in the four-ball friction test was reduced by 30.5%, and by 16.4% in the TE77 reciprocating friction test. Based on the experimental results, T-mPAO had strong anti-oxidation ability and excellent lubricating performance.The successful synthesis of multifunctional mPAO has enabled lubricant base oil additization, making it possible to use it in more demanding work scenarios, greatly broadening its application scope and making lubricant formulation blending more flexible.

Published

2024

7. Synthesis of Novel Planar-Chiral Charge-Compensated nido-Carborane-Based Amino Acid

Author

Dmitry A. Gruzdev, Angelina A. Telegina, Marina A. Ezhikova, Mikhail I. Kodess, Galina L. Levit, and Victor P. Krasnov

Subjects

alkylation, amino acid, diastereomers, 7,8-dicarba-nido-undecaborane, NMR spectral assignment, planar chirality, Organic chemistry, QD241-441

Abstract

Amino acids with unusual types of chirality and their derivatives have recently attracted attention as precursors in the synthesis of chiral catalysts and peptide analogues with unique properties. In this study, we have synthesized a new nido-carborane-based planar-chiral amino acid, in the molecule of which the amino group is directly bonded to the B(3) atom, and the carboxyl group is attached to the B(9) atom through the CH2S+(Me) fragment. 3-Amino-9-dimethylsulfonio-nido-carborane, prepared in three steps from 3-amino-closo-carborane in a high yield, was a key intermediate in the synthesis of the target planar-chiral amino acid. The carboxymethyl group at the sulfur atom was introduced by the demethylation reaction of the dimethylsulfonio derivative, followed by S-alkylation. The structure of new 3,9-disubstituted nido-carboranes was studied for the first time using NMR spectroscopy. The resonances of all boron atoms in the 11B NMR spectrum of 3-amino-9-dimethylsulfonio-nido-carborane were assigned based on the 2D NMR correlation experiments. The nido-carborane-based planar-chiral amino acid and related compounds are of interest as a basis for peptide-like compounds and chiral ligands.

Published

2024

8. Synthesis of Tertiary Amines through Extrusive Alkylation of Carbamates

Author

Zhang, Guoliang, Favela, David, Chow, Winston L, Iyer, Rishab N, Pell, Alexander J, and Olson, David E

Subjects

Organic Chemistry, Chemical Sciences, Alkylation, Amines, Carbamates, Chemical sciences

Abstract

Basic amines are key elements of many biologically active natural products and pharmaceuticals. Given their inherent reactivity, it is often necessary to protect basic amines during target-directed synthesis, which results in wasteful protection/deprotection sequences. We report a step-economical approach enabling the protection of secondary amines as carbamates prior to their conversion to tertiary amines via the formal extrusion of CO2. This method is applied to the synthesis of iboga alkaloids (±)-conodusine A and (±)-conodusine B.

Published

2022

9. Synthesis of Indenones via Persulfate Promoted Radical Alkylation/Cyclization of Biaryl Ynones with 1,4-Dihydropyridines.

Author

Wang, Wanwan and Yu, Lei

Subjects

*RING formation (Chemistry), *RADICALS (Chemistry), *ALKYLATION, *ORGANIC chemistry, *ALKYL radicals, *ALKYNES, *MOLECULES

Abstract

The oxidative radical cascade cyclization of alkynes has emerged as a versatile strategy for the efficient construction of diverse structural units and complex molecules in organic chemistry. This work reports an alkyl radical initiated 5-exo-trig cyclization of biaryl ynones with 1,4-dihydropyridines to selectively synthesize indenones. [ABSTRACT FROM AUTHOR]

Published

2024

10. Continuous-Flow Regioselective Reductive Alkylation of Oxindole with Alcohols and Aldehydes in a Fast and Economical Manner.

Author

Mándoki, András, Orsy, György, Pászti, Zoltán, Porcs-Makkay, Márta, Bogdán, Dóra, Simig, Gyula, Mándity, István, and Volk, Balázs

Subjects

*ALKYLATION, *ORGANIC chemistry, *ALDEHYDES, *PHARMACEUTICAL chemistry, *CHEMICAL synthesis, *OXINDOLES, *INDOLE

Abstract

This article explores the synthesis of oxindole derivatives, which are important compounds in organic and medicinal chemistry. The authors present a method for synthesizing these compounds using continuous-flow technology, which offers advantages over traditional batch methods. Through experimentation, the authors optimized the reaction parameters and achieved high conversion rates and yields. The results suggest that continuous-flow technology has the potential for large-scale production of oxindole derivatives in a fast and cost-effective manner. The article also discusses the synthesis of 3-alkyloxindoles through reductive alkylation, providing detailed experimental procedures and characterization data for the synthesized compounds. The research was supported by grants from the European Union. [Extracted from the article]

Published

2023

11. Non-noble metal-catalyzed cross-dehydrogenation coupling (CDC) involving ether α-C(sp3)–H to construct C–C bonds

Author

Hui Yu and Feng Xu

Subjects

alkylation, cross-dehydrogenation coupling, ether, non-noble metals, Science, Organic chemistry, QD241-441

Abstract

Ether derivatives are widespread as essential building blocks in various drugs, natural products, agrochemicals, and materials. Modern economy requires developing green strategies with improved efficiency and reduction of waste. Due to its atom and step-economy, the cross-dehydrogenative coupling (CDC) reaction has become a major strategy for ether functionalization. This review covers C–H/C–H cross-coupling reactions of ether derivatives with various C–H bond substrates via non-noble metal catalysts (Fe, Cu, Co, Mn, Ni, Zn, Y, Sc, In, Ag). We discuss advances achieved in these CDC reactions and hope to attract interest in developing novel methodologies in this field of organic chemistry.

Published

2023

12. C3-Alkylation of Imidazo[1,2-a]pyridines via Three-Component Aza-Friedel–Crafts Reaction Catalyzed by Y(OTf)3

Author

Kai Yang, Cai-Bo Chen, Zhao-Wen Liu, Zhen-Lin Li, Yu Zeng, and Zhao-Yang Wang

Subjects

imidazo[1,2-a]pyridines, aza-Friedel–Crafts reaction, Lewis acid catalyst, alkylation, three-component reaction, Organic chemistry, QD241-441

Abstract

As an important class of nitrogen-containing fused heterocyclic compounds, imidazo[1,2-a]pyridines often exhibit significant biological activities, such as analgesic, anticancer, antiosteoporosis, anxiolytic, etc. Using Y(OTf)3 as a Lewis acid catalyst, a simple and efficient method has been developed for the synthesis of C3-alkylated imidazo[1,2-a]pyridines through the three-component aza-Friedel–Crafts reaction of imidazo[1,2-a]pyridines, aldehydes, and amines in the normal air atmosphere without the protection of inert gas and special requirements for anhydrous and anaerobic conditions. A series of imidazo[1,2-a]pyridine derivatives were obtained with moderate to good yields, and their structures were confirmed by 1H NMR, 13C NMR, and HRMS. Furthermore, this conversion has the advantages of simple operation, excellent functional group tolerance, high atomic economy, broad substrate scope, and can achieve gram-level reactions. Notably, this methodology may be conveniently applied to the further design and rapid synthesis of potential biologically active imidazo[1,2-a]pyridines with multifunctional groups.

Published

2024

13. Stereochemistry in All Its Shapes and Forms: The 56th Bürgenstock Conference.

Author

Gómez‐Suárez, Adrián and Neumann, Constanze N.

Subjects

*AMINATION, *STEREOCHEMISTRY, *CHEMICAL energy conversion, *GLYCOLS, *GEOMETRIC shapes, *PHYSICAL & theoretical chemistry, *CHEMICAL processes, *OXIDATIVE addition, *ALKYLATION

Abstract

M. Lancaster, M. Roemelt, P. Ettenhuber, Y. Hu, M. W. Ribbe, F. Neese, U. Bergmann, S. DeBeer, Science 2011, 334, 974 - 977; 71 Z. Mathe, O. McCubbin Stepanic, S. Peredkov, S. DeBeer, Chem. Sci. 2021, 12, 7888 - 7901; 72 Y. Pang, N. Nöthling, M. Leutzsch, L. Kang, E. Bill, M. van Gastel, E. Reijerse, R. Goddard, L. Wagner, D. SantaLucia, S. DeBeer, F. Neese, J. Cornella, Science 2023, 380, 1043 - 1048. Rev. 1955, 55, 625 - 657; 13 G. S. Hammond, P. A. Leermakers, N. J. Turro, J. Am. Chem. Soc. 1961, 83, 2396 - 2397; 14 J. Saltiel, G. S. Hammond, J. Am. Chem. Soc. 1963, 85, 2515 - 2516; 15 T. Arai, H. Sakuragi, K. Tokumaru, Chem. Keywords: Bürgenstock Conference; Catalysis; Chemical Biology; Organic Chemistry; Stereochemistry EN Bürgenstock Conference Catalysis Chemical Biology Organic Chemistry Stereochemistry 1 7 7 09/20/23 20230925 NES 230925 Acknowledging the crucial role of stereochemistry in fields as diverse as total synthesis, synthetic methodology, spectroscopy, and the study of the origin of life, the 56th SCS Conference on Stereochemistry, better known as the BÃ1/4rgenstock Conference, brought together a diverse range of chemistry expertise in Brunnen, Switzerland. 83 F. Neese, W. G. Zumft, W. E. Antholine, P. M. H. Kroneck, J. Am. Chem. Soc. 1996, 118, 8692 - 8699; 84 F. Neese, PhD thesis, Universität Konstanz, 1997; 85 F. Neese, Wiley Interdiscip. [Extracted from the article]

Published

2023

14. Design and synthesis of 2-alkylthio-5-(1,2,4-triazol-1-ylmethyl)-1,3,4-thiadiazoles and their fungicidal activity.

Author

Tsaplin, G. V., Zolotukhina, A. S., Alekseeva, E. A., Alekseenko, A. L., and Popkov, S. V.

Subjects

*THIADIAZOLES, *ORGANIC chemistry, *INDUSTRIAL chemistry, *CHEMICAL industry

Published

2023

15. Direct C2–H alkylation of indoles driven by the photochemical activity of halogen-bonded complexes

Author

Martina Mamone, Giuseppe Gentile, Jacopo Dosso, Maurizio Prato, and Giacomo Filippini

Subjects

alkylation, eda complex, halogens, indoles, photochemistry, Science, Organic chemistry, QD241-441

Abstract

A light-driven metal-free protocol for the synthesis of sulfone-containing indoles under mild conditions is reported. Specifically, the process is driven by the photochemical activity of halogen-bonded complexes formed upon complexation of a sacrificial donor, namely 1,4-diazabicyclo[2.2.2]octane (DABCO), with α-iodosulfones. The reaction provides a variety of densely functionalized products in good yields (up to 96% yield). Mechanistic investigations are reported. These studies provide convincing evidences for the photochemical formation of reactive open-shell species.

Published

2023

16. Quaternary Charge-Transfer Complex Enables Photoenzymatic Intermolecular Hydroalkylation of Olefins

Author

Page, Claire G, Cooper, Simon J, DeHovitz, Jacob S, Oblinsky, Daniel G, Biegasiewicz, Kyle F, Antropow, Alyssa H, Armbrust, Kurt W, Ellis, J Michael, Hamann, Lawrence G, Horn, Evan J, Oberg, Kevin M, Scholes, Gregory D, and Hyster, Todd K

Subjects

Organic Chemistry, Chemical Sciences, Alkenes, Alkylation, Amides, Biocatalysis, Catalytic Domain, Dinitrocresols, Flavoproteins, Light, Models, Chemical, Oxidoreductases, General Chemistry, Chemical sciences, Engineering

Abstract

Intermolecular C-C bond-forming reactions are underdeveloped transformations in the field of biocatalysis. Here we report a photoenzymatic intermolecular hydroalkylation of olefins catalyzed by flavin-dependent 'ene'-reductases. Radical initiation occurs via photoexcitation of a rare high-order enzyme-templated charge-transfer complex that forms between an alkene, α-chloroamide, and flavin hydroquinone. This unique mechanism ensures that radical formation only occurs when both substrates are present within the protein active site. This active site can control the radical terminating hydrogen atom transfer, enabling the synthesis of enantioenriched γ-stereogenic amides. This work highlights the potential for photoenzymatic catalysis to enable new biocatalytic transformations via previously unknown electron transfer mechanisms.

Published

2021

17. K2S2O8‐Mediated Radical Cascade Alkylation/Cyclization of Ynones: Access to Oxoalkyl‐Substituted Indenones.

Author

Tian, Si‐Wei, Xiong, Fang‐Ting, Xiong, Bi‐Quan, Zhong, Long‐Jin, Tang, Ke‐Wen, and Liu, Yu

Subjects

*RADICALS (Chemistry), *ALKYLATION, *RING formation (Chemistry), *ANNULATION, *ORGANIC chemistry, *KETONE derivatives, *ARYLATION

Abstract

A simple and efficient oxidative‐promoted radical cascade annulation of ynone derivatives with ketones for the construction of a series of oxoalkyl‐substituted indenones in moderate to good yields is described. The control experiment results indicate that the oxidative acetmethylation/arylation of ynone derivatives involves a radical cascade cyclization process. This is an operationally simple and efficient protocol which will be attractive in organic synthesis chemistry. [ABSTRACT FROM AUTHOR]

Published

2023

18. Non-Symmetric Bispyrrolotetrathiafulvalene Building Blocks.

Author

Neumann, Mathias S. and Jeppesen, Jan O.

Subjects

*ORGANIC chemistry, *MOLECULAR structure, *ETHANES

Abstract

Keywords: tetrathiafulvalene; pyrrole; orthogonal building block; Sonogashira- coupling; alkylation EN tetrathiafulvalene pyrrole orthogonal building block Sonogashira- coupling alkylation 2019 2026 8 06/16/23 20230704 NES 230704 Tetrathiafulvalene (TTF, B 1 b ) and its derivatives (Figure 1) have been extensively investigated for half a century. The residue was purified by column chromatography (50 mL SiO SB 2 sb , deact. with 1% Et SB 3 sb N, 3 cm , eluent: CH SB 2 sb Cl SB 2 sb /EtOAc (9:1->4:1)). The crude product was purified by column chromatography (125 mL SiO SB 2 sb , deact. with 1% Et SB 3 sb N, 5 cm , eluent: CH SB 2 sb Cl SB 2 sb /PE (2:1)). The residue was purified by column chromatography (25 mL SiO SB 2 sb , deact. with 1% Et SB 3 sb N, 3 cm , eluent: PE/CH SB 2 sb Cl SB 2 sb (2:1 -> 1:1)). [Extracted from the article]

Published

2023

19. Structural Contributions to Autocatalysis and Asymmetric Amplification in the Soai Reaction

Author

Athavale, Soumitra V, Simon, Adam, Houk, KN, and Denmark, Scott E

Subjects

Organic Chemistry, Chemical Sciences, Aldehydes, Alkylation, Catalysis, Density Functional Theory, Molecular Conformation, Nitrogen, Pyridines, Pyrimidines, Structure-Activity Relationship, Zinc, General Chemistry, Chemical sciences, Engineering

Abstract

Diisopropylzinc alkylation of pyrimidine aldehydes-the Soai reaction, with its astonishing attribute of amplifying asymmetric autocatalysis-occupies a unique position in organic chemistry and stands as an eminent challenge for mechanistic elucidation. A new paradigm of "mixed catalyst-substrate" experiments with pyrimidine and pyridine systems allows a disconnection of catalysis from autocatalysis, providing insights into the role played by reactant and alkoxide structure. The alkynyl substituent favorably tunes catalyst solubility, aggregation, and conformation while modulating substrate reactivity and selectivity. The alkyl groups and the heteroaromatic core play further complementary roles in catalyst aggregation and substrate binding. In the study of these structure-activity relationships, novel pyridine substrates demonstrating amplifying autocatalysis were identified. Comparison of three autocatalytic systems representing a continuum of nitrogen Lewis basicity strength suggests how the strength of N-Zn binding events is a predominant contributor toward the rate of autocatalytic progression.

Published

2020

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

Author

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

Subjects

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

Abstract

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

Published

2020

21. Role of the Alkylation Patterning in the Performance of OTFTs: The Case of Thiophene-Functionalized Triindoles.

Author

Bujaldón, Roger, Cuadrado, Alba, Volyniuk, Dmytro, Grazulevicius, Juozas V., Puigdollers, Joaquim, and Velasco, Dolores

Subjects

ORGANIC semiconductors, THIN films analysis, ALKYLATION, HOLE mobility, THIN films, INDOLE

Abstract

Organic semiconductors have emerged as potential alternatives to conventional inorganic materials due to their numerous assets and applications. In this context, the star-shaped triindole core stands as a promising system to design new organic materials with enticing charge-transporting properties. Herein, we present the synthesis of three thiophene-containing triindole derivatives that feature N-alkyl chains of different lengths, from methyl to decyl. The impact of the alkylation patterning on the crystallinity of the thin films and their resultant performance as semiconductor have been analyzed. All derivatives displayed p-type semiconductor properties, as demonstrated via both TOF measurements and integration in organic thin-film transistor (OTFT) devices. The attachment of longer alkyl chains and the functionalization of the silicon substrate with octadecyltrichlorosilane (OTS) prompted better OTFT characteristics, with a hole mobility value up to 5 × 10−4 cm2 V−1 s−1. As elucidated from the single crystal, this core is arranged in a convenient cofacial packing that maximizes the π-overlapping. The analysis of the thin films also corroborates that derivatives possessing longer N-alkyl chains confer a higher degree of order and a more adequate morphology. [ABSTRACT FROM AUTHOR]

Published

2023

22. Base‐Controlled Palladium‐Catalyzed Intramolecular 'One Substrate ‐ Five Reactions' of 5‐Benzyl‐1‐(2‐halobenzyl)‐2‐phenyl‐1H‐pyrazol‐3(2H)‐ones.

Author

Liu, Can, Zhu, Xianjin, Liu, Yong, Yang, Haijun, and Fu, Hua

Subjects

*HECK reaction, *ISOQUINOLINE synthesis, *ORGANIC chemistry, *ALKYLATION, *SODIUM acetate, *ARYLATION, *CHEMOSELECTIVITY

Abstract

Achieving site‐selectivity and chemoselectivity is enormously challenging for substrates with multi‐reactive sites in organic reactions. One kind of model substrates, 5‐benzyl‐1‐(2‐halobenzyl)‐2‐phenyl‐1H‐pyrazol‐3(2H)‐ones with six reactive sites were chosen as the examples to probe their intramolecular four kinds of five reactions including C(sp3)−H arylation, C(sp2)−H arylation, reductive Heck reaction, and domino Heck reaction/alkylation of aryl C(sp2)−H bonds through variation of the reaction conditions. Screening of the reaction conditions showed that the different bases controlled the palladium‐catalyzed intramolecular site‐selectivity and chemoselectivity of the substrates: (i) Cesium carbonate (Cs2CO3) promoted the benzyl C(sp3)−H arylation of the substrates providing dihydropyrazolo[1,5‐b]isoquinolin‐2(1H)‐ones at 100 °C, and isomerization of the dihydropyrazolo[1,5‐b]isoquinolin‐2(1H)‐ones gave isoquinoline derivatives at a higher temperature (140 °C); (ii) Sodium acetate (NaOAc) mediated the aryl C(sp2)−H arylation of the substrates affording seven‐membered biphenyl N‐heterocycles; (iii) Sodium dichloroacetate (Cl2HCCO2Na) facilitated occurrence of the reductive Heck reaction of the substrates affording 1H‐pyrazolo[5,1‐a]isoindol‐2(8H)‐ones; (iv) Sodium trifluoroacetate (F3CCO2Na) assisted performance of the domino Heck reaction/aryl C(sp2)−H alkylation of the substrates leading to the spiro heterocycles. The 'one substrate ‐ multiple reactions ‐ multiple products' strategy greatly reduces cost, increases diversity of products, provides more opportunity for screening of pharmaceutical molecules, and enriches modern organic synthetic chemistry. [ABSTRACT FROM AUTHOR]

Published

2023

23. Enantioselective Desymmetrization Triggered by Iminium‐Enamine Activation: Access to Complex Cyclohepta[b]indoles.

Author

Magham, Lakshmi Revati, Thopate, Satish B., Samad, Abdus, and Chegondi, Rambabu

Subjects

*INDOLE compounds, *ORGANIC chemistry, *CYCLOHEXADIENONES, *ANNULATION, *ALKYLATION

Abstract

The expeditious construction of complex molecules having multiple stereocentres is highly desirable in organic chemistry. In the present communication, we report the development of an organocatalytic asymmetric desymmetrization of prochiral enal‐tethered cyclohexadienones via the C3‐selective Friedel−Crafts alkylation of indoles triggered by LUMO‐lowering iminium activation/HOMO‐raising enamine activation. The reaction provides access to bicyclic enones, which further undergo acid‐mediated intramolecular annulation from C2‐position to afford highly strained cyclohepta[b]indoles with five contiguous stereocentres and three new C−C bonds in excellent enantioselectivity and diastereoselectivity. [ABSTRACT FROM AUTHOR]

Published

2023

24. Synthesis of Indenones via Persulfate Promoted Radical Alkylation/Cyclization of Biaryl Ynones with 1,4-Dihydropyridines

Author

Wanwan Wang and Lei Yu

Subjects

alkylation, indenones, radical, cyclization, biaryl ynones, Organic chemistry, QD241-441

Abstract

The oxidative radical cascade cyclization of alkynes has emerged as a versatile strategy for the efficient construction of diverse structural units and complex molecules in organic chemistry. This work reports an alkyl radical initiated 5-exo-trig cyclization of biaryl ynones with 1,4-dihydropyridines to selectively synthesize indenones.

Published

2024

25. 1-Hydroxyalkylphosphonium Salts—Synthesis and Properties

Author

Jakub Adamek, Anna Kuźnik, Agnieszka Październiok-Holewa, Mirosława Grymel, Dominika Kozicka, Dominika Mierzwa, and Karol Erfurt

Subjects

phosphonium salts, synthesis, stability, alkylation, alkylating agent, Organic chemistry, QD241-441

Abstract

An efficient and convenient method for the synthesis of 1-hydroxyalkylphosphonium salts is described. Reactions were carried out at room temperature, in a short time, and without chromatography for product isolation. The properties of the obtained phosphonium salts were examined and discussed. In this paper, primary attention was paid to the stability of phosphonium salts, depending on the structure of the aldehydes used as substrates in their preparation. Other conditions such as the type of solvent, temperature, and molar ratio of the substrates were also investigated. Finally, the high reactivity of 1-hydroxyalkylphosphonium salts was demonstrated in reactions with amide-type substrates and (hetero)aromatic compounds. The developed step-by-step procedure (with the isolation of 1-hydroxyphosphonium salts) was compared to the one-pot protocol (in situ formation of such phosphonium salts).

Published

2023

26. Progress towards metal-free radical alkylations of quinones under mild conditions

Author

Galloway, Jordan D and Baxter, Ryan D

Subjects

Radical, Quinones, Alkylation, Metal-free, Organic Chemistry, Medicinal and Biomolecular Chemistry

Published

2019

27. Propanol Amination over Supported Nickel Catalysts: Reaction Mechanism and Role of the Support

Author

Ho, Christopher R, Defalque, Vincent, Zheng, Steven, and Bell, Alexis T

Subjects

Inorganic Chemistry, Chemical Sciences, hydroxyapatite, HAP, dehydroamination, alkylation, C-N coupling, Organic Chemistry, Chemical Engineering, Industrial biotechnology, Organic chemistry, Physical chemistry

Abstract

Ni-supported hydroxyapatite catalyst (Ni/HAP) was characterized and evaluated for propanol amination to propylamine at 423 K. The reaction proceeds via dehydroamination, a process that involves sequential dehydrogenation, condensation, and hydrogenation. Kinetic and isotopic studies indicate that α-H abstraction from propoxide species limits the rate of the dehydrogenation step and hence the overall rate of reaction. The rate of propanol dehydrogenation depends on the composition of the support and on the concentration of Ni sites located at the interface between Ni nanoparticles and the support. Ni/HAP is an order of magnitude more active than Ni/SiO2 and displays a higher selectivity toward the primary amine. The superior performance of Ni/HAP is attributed to the high density of basic sites on HAP, which are responsible for stabilizing alkoxide intermediates and suppressing the disproportionation and secondary amination of amines.

Published

2019

28. Synthesis and HDAC inhibitory activity of pyrimidine-based hydroxamic acids

Author

Virginija Jakubkiene, Gabrielius Ernis Valiulis, Markus Schweipert, Asta Zubriene, Daumantas Matulis, Franz-Josef Meyer-Almes, and Sigitas Tumkevicius

Subjects

alkylation, aminolysis, hdac inhibitors, hydroxamic acid, pyrimidine, Science, Organic chemistry, QD241-441

Abstract

Histone deacetylases (HDACs) play an essential role in the transcriptional regulation of cells through the deacetylation of nuclear histone and non-histone proteins and are promising therapeutic targets for the treatment of various diseases. Here, the synthesis of new compounds in which a hydroxamic acid residue is attached to differently substituted pyrimidine rings via a methylene group bridge of varying length as potential HDAC inhibitors is described. The target compounds were obtained by alkylation of 2-(alkylthio)pyrimidin-4(3H)-ones with ethyl 2-bromoethanoate, ethyl 4-bromobutanoate, or methyl 6-bromohexanoate followed by aminolysis of the obtained esters with hydroxylamine. Oxidation of the 2-methylthio group to the methylsulfonyl group and following treatment with amines resulted in the formation of the corresponding 2-amino-substituted derivatives, the ester group of which reacted with hydroxylamine to give the corresponding hydroxamic acids. The synthesized hydroxamic acids were tested as inhibitors of the HDAC4 and HDAC8 isoforms. Among the synthesized pyrimidine-based hydroxamic acids N-hydroxy-6-[6-methyl-2-(methylthio)-5-propylpyrimidin-4-yloxy]hexanamide was found to be the most potent inhibitor of both the HDAC4 and HDAC8 isoforms, with an IC50 of 16.6 µM and 1.2 µM, respectively.

Published

2022

29. Regio- and Stereoselective (SN 2) N -, O -, C - and S -Alkylation Using Trialkyl Phosphates.

Author

Banerjee, Amit, Hattori, Tomohiro, and Yamamoto, Hisashi

Subjects

*CHEMICAL reactions, *ORGANIC chemistry, *ALKYL group, *HALOALKANES, *CHIRAL centers, *ALKYLATION, *ALKYLATING agents

Abstract

Bimolecular nucleophilic substitution (SN 2) is one of the most well-known fundamental reactions in organic chemistry to generate new molecules from two molecules. In principle, a nucleophile attacks from the back side of an alkylating agent having a suitable leaving group, most commonly a halide. However, alkyl halides are expensive, very harmful, toxic and not so stable, which makes them problematic for laboratory use. In contrast, trialkyl phosphates are inexpensive, readily accessible and stable at room temperature, under air, and are easy to handle, but rarely used as alkylating agents in organic synthesis. Here, we describe a mild, straightforward and powerful method for nucleophilic alkylation of various N -, O -, C - and S -nucleophiles using readily available trialkyl phosphates. The reaction proceeds smoothly in excellent yield, and quantitative yield in many cases, and covers a wide range of substrates. Further, the rare stereoselective transfer of secondary alkyl groups has been achieved with inversion of configuration of chiral centers (up to 98% ee). [ABSTRACT FROM AUTHOR]

Published

2023

30. Acid Catalyzed N-Alkylation of Pyrazoles with Trichloroacetimidates

Author

Rowan I. L. Meador, Nilamber A. Mate, and John D. Chisholm

Subjects

pyrazole, trichloroacetimidate, alkylation, acid, catalysis, Organic chemistry, QD241-441

Abstract

N-Alkyl pyrazoles are important heterocycles in organic and medicinal chemistry, demonstrating a wide range of biological activity. A new method for the N-alkylation of pyrazoles has been developed using trichloroacetimidate electrophiles and a Brønsted acid catalyst. These reactions provide ready access to N-alkyl pyrazoles which are present in a variety of medicinally relevant lead structures. Benzylic, phenethyl and benzhydryl trichloroacetimidates provide good yields of the N-alkyl pyrazole products. Unsymmetrical pyrazoles provide a mixture of the two possible regioisomers, with the major product being controlled by sterics. This methodology provides an alternative to other alkylation methods that require strong base or high temperature.

Published

2022

31. Evaluation of Catalytic Performance of Hierarchical Zeolites in Friedel‐Crafts Fixed‐bed Alkylation.

Author

Leng, Kunyue, Ren, Yu, Wang, Wei, Wang, Ruisi, Gao, Kaiye, and Li, Xiaolin

Subjects

*ZEOLITES, *CHEMICAL reactions, *ORGANIC chemistry, *INDUSTRIAL capacity, *ALKYLATION, *MESITYLENE, *MEMBRANE reactors

Abstract

Friedel‐Crafts alkylation is one of the most important catalytic reactions in organic chemistry. Recently, hierarchical zeolites have exhibited superior catalytic performance in such liquid‐phase batch reactions. However, for practical application, it is of significance to evaluate their catalytic performance in Friedel‐Crafts fixed‐bed alkylation. In this work, we prepare hierarchical zeolites by post‐treatment, of which the structures are confirmed by XRD patterns and N2 adsorption‐ desorption tests. Then, a fixed‐bed reactor is employed to investigate their catalytic performance in series of benzylation reactions. The results indicate that hierarchical zeolites have superior anti‐deactivation ability in the benzylation reactions, especially when react with p‐xylene or mesitylene, the BA conversion maintained nearly 100 % in 300 min, much better than that of micropore zeolites. These results suggest that hierarchical zeolites have a potential industrial application for Friedel‐Crafts fixed‐bed alkylation than conventional zeolites. [ABSTRACT FROM AUTHOR]

Published

2022

32. Base-free enantioselective SN2 alkylation of 2-oxindoles via bifunctional phase-transfer catalysis

Author

Mili Litvajova, Emiliano Sorrentino, Brendan Twamley, and Stephen J. Connon

Subjects

alkylation, base-free, cinchona alkaloids, crth2 antagonist, hydrogen-bonding, oxindole, phase-transfer catalysis, Science, Organic chemistry, QD241-441

Abstract

N-Protected oxindole derivatives of unprecedented malleability bearing ester moieties at C-3 have been shown to participate in enantioselective phase-transfer-catalysed alkylations promoted by ad-hoc designed quaternary ammonium salts derived from quinine bearing hydrogen-bond donating substituents. For the first time in such phase-transfer-catalysed enolate alkylations, the reactions were carried out under base-free conditions. It was found that urea-based catalysts outperformed squaramide derivatives, and that the installation of a chlorine atom adjacent to the catalyst’s quinoline moiety aided in avoiding selectivity-reducing complications related to the production of HBr in these processes. The influence of steric and electronic factors from both the perspective of the nucleophile and electrophile were investigated and levels of enantiocontrol up to 90% ee obtained. The synthetic utility of the methodology was demonstrated via the concise enantioselective synthesis of a potent CRTH2 receptor antagonist.

Published

2021

33. Regioselective Synthesis of New Family of 2-Substituted 1,2,3-Triazoles and Study of Their Fluorescent Properties

Author

Vasiliy M. Muzalevskiy, Zoia A. Sizova, and Valentine G. Nenajdenko

Subjects

1,2,3-triazole, alkylation, arylation, fluorine, CF3CO-group, Organic chemistry, QD241-441

Abstract

Modification of 5-aryl-4-trifluoroacetyltriazoles at the NH-moiety was investigated. Screening of the alkylation conditions revealed that using Na2CO3 as a base and DMF as a solvent of 2-substituted triazoles can be preferentially prepared in up to 86% yield. In the best cases, the amount of minor 1-alkyl isomer was less than 6%. SNAr reaction of the 5-aryl-4-trifluoroacetyltriazoles with aryl halides having electron-withdrawing groups led to regiospecific formation of 2-aryltriazoles isolated in good-to-high yields. Chan–Lam reaction of the 5-aryl-4-trifluoroacetyltriazoles with boronic acids afforded 2-aryltriazoles as single isomers in up to 89% yield. The subsequent reaction of the prepared 2-aryltriazoles with primary and secondary amines gave a set of amides of 4-(2,5-diaryltriazolyl)carboxylic acid. The fluorescent properties of the prepared 2-substituted derivatives of triazoles were investigated to demonstrate their utility as new efficient luminophores having more than 60% quantum yields.

Published

2023

34. Preparation of mono-substituted malonic acid half oxyesters (SMAHOs)

Author

Tania Xavier, Sylvie Condon, Christophe Pichon, Erwan Le Gall, and Marc Presset

Subjects

alkylation, esterification, malonate, saponification, smaho, Science, Organic chemistry, QD241-441

Abstract

The use of mono-substituted malonic acid half oxyesters (SMAHOs) has been hampered by the sporadic references describing their preparation. An evaluation of different approaches has been achieved, allowing to define the best strategies to introduce diversity on both the malonic position and the ester function. A classical alkylation step of a malonate by an alkyl halide followed by a monosaponification gave access to reagents bearing different substituents at the malonic position, including functionalized derivatives. On the other hand, the development of a monoesterification step of a substituted malonic acid derivative proved to be the best entry for diversity at the ester function, rather than the use of an intermediate Meldrum acid. Both these transformations are characterized by their simplicity and efficiency, allowing a straightforward access to SMAHOs from cheap starting materials.

Published

2021

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

Author

Jiang, Xingyu and Hartwig, John F

Subjects

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

Abstract

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

Published

2017

36. Functional Modification of Thioether Groups in Peptides, Polypeptides, and Proteins

Author

Deming, Timothy J

Subjects

Alkylation, Animals, Cysteine, Humans, Methionine, Oxidation-Reduction, Peptides, Proteins, Sulfides, Medicinal and Biomolecular Chemistry, Organic Chemistry, Biochemistry and Cell Biology

Abstract

Recent developments in the modification of methionine and other thioether-containing residues in peptides, polypeptides, and proteins are reviewed. Properties and potential applications of the resulting functionalized products are also discussed. While much of this work is focused on natural Met residues, modifications at other side-chain residues have also emerged as new thioether-containing amino acids have been incorporated into peptidic materials. Functional modification of thioether-containing amino acids has many advantages and is a complementary methodology to the widely utilized methods for modification at cysteine residues.

Published

2017

37. Some applications of deep eutectic solvents in alkylation of heterocyclic compounds: A review of the past 10 years

Author

Molnar Maja, Lončarić Melita, Jakovljević Martina, Komar Mario, and Lončar Mirjana

Subjects

deep eutectic solvents, alkylation, heterocyclic compounds, green chemistry, Organic chemistry, QD241-441

Abstract

This mini-review encapsulates the latest findings (past 10 years) in the field of the deep eutectic solvents (DESs) application in the alkylation/arylation of different heterocyclic compounds. These solvents have been developed to fulfill the green chemistry concept demands and have been proven excellent for the application in various fields. This review describes their application in different types of alkylation, C-, N-, O- and S-alkylation. P-alkylation has not yet been published within this scope. Not only have the authors in this study proven that DESs could be successfully applied for this specific type of reaction, but they have also offered an excellent insight into the mechanisms of their action.

Published

2021

38. Metallacarborane Synthons for Molecular Construction—Oligofunctionalization of Cobalt Bis(1,2-dicarbollide) on Boron and Carbon Atoms with Extendable Ligands

Author

Krzysztof Śmiałkowski, Carla Sardo, and Zbigniew J. Leśnikowski

Subjects

metallacarboranes, cobalt bis(1,2-dicarbollide), oligofunctionalization, alkylation, stereochemistry, Organic chemistry, QD241-441

Abstract

The exploitation of metallacarboranes’ potential in various fields of research and practical applications requires the availability of convenient and versatile methods for their functionalization with various functional moieties and/or linkers of different types and lengths. Herein, we report a study on cobalt bis(1,2-dicarbollide) functionalization at 8,8′-boron atoms with different hetero-bifunctional moieties possessing a protected hydroxyl function allowing further modification after deprotection. Moreover, an approach to the synthesis of three and four functionalized metallacarboranes, at boron and carbon atoms simultaneously via additional functionalization at carbon to obtain derivatives carrying three or four rationally oriented and distinct reactive surfaces, is described.

Published

2023

39. Chiral Phosphine Catalyzed Allylic Alkylation of Benzylidene Succinimides with Morita–Baylis–Hillman Carbonates

Author

Chang Liu, Jianwei Sun, and Pengfei Li

Subjects

alkylation, MBH carbonate, maleimide, phosphine, succinimide, Organic chemistry, QD241-441

Abstract

Owing to their unique chemical properties, α-alkylidene succinimides generally act as versatile synthons in organic synthesis. Compared with well-established annulations, nucleophilic alkylations of α-alkylidene succinimides are very limited. Accordingly, an organocatalytic allylic alkylation of α-benzylidene succinimides with Morita–Baylis–Hillman (MBH) carbonates was established. In the presence of a chiral phosphine catalyst, α-benzylidene succinimides reacted smoothly with MBH carbonates under mild conditions to furnish a series of optical active succinimides in high yields and enantioselectivities. Different from the reported results, the organocatalytic enantioselective construction of pyrrolidine-2,5-dione frameworks bearing contiguous chiral tertiary carbon centers was achieved via this synthetic strategy. Scaling up the reaction indicated that it is a practical strategy for the organocatalytic enantioselective alkylation of α-alkylidene succinimides. A possible reaction mechanism was also proposed.

Published

2023

40. Synthetic strategies of phosphonodepsipeptides

Author

Jiaxi Xu

Subjects

alkylation, mimetic, multicomponent condensation, peptide, phosphonopeptide, phosphonodepsipeptide, phosphonylation, Science, Organic chemistry, QD241-441

Abstract

Phosphonodepsipeptides are phosphorus analogues of depsipeptides and phosphonate-linked analogues of naturally occurring peptides. They are more stable than phosphonopeptides and have been widely applied as enzyme inhibitors, haptens for the production of antibodies, biological agents, and prodrugs. The synthetic strategies towards phosphonodepsipeptides are reviewed, including the phosphonylation of hydroxy esters with phosphonochloridates, the condensation of phosphonic monoesters and hydroxy esters, the alkylation of phosphonic monoesters with 1-(alkoxycarbonyl)alkyl halides or sulfonates, multicomponent condensation of amides, aldehydes, and dichlorophosphites followed by alcoholysis with hydroxy esters, the phosphinylation of hydroxy esters with phosphonochloridites followed by oxidation, and the carbene insertion of N-protected amino acids with 1-diazoalkylphosphonates. This review includes the synthesis of α-, β-, and γ-phosphonodepsipeptides and phosphonodepsipeptides with C-1-hydroxyalkylphosphonic acids.

Published

2021

41. 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

42. Synthesis of Hindered Anilines: Three-Component Coupling of Arylboronic Acids, tert-Butyl Nitrite, and Alkyl Bromides

Author

Fisher, David J, Shaum, James B, Mills, C Landon, and de Alaniz, Javier Read

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Alkanes, Alkylation, Aniline Compounds, Boronic Acids, Catalysis, Copper, Hydrocarbons, Brominated, Molecular Structure, Nitrites, Thiohydantoins, Chemical sciences

Abstract

The synthesis of sterically hindered amines has been a significant challenge in organic chemistry. Herein, we report a modular, three-component coupling that constructs two carbon-nitrogen bonds including a sterically hindered Csp3-N bond using commercially available materials. This process uses an earth-abundant copper catalyst and mild reaction conditions, allowing access to a variety of complex aromatic amines.

Published

2016

43. Roles of Aag, Alkbh2, and Alkbh3 in the Repair of Carboxymethylated and Ethylated Thymidine Lesions

Author

You, Changjun, Wang, Pengcheng, Nay, Stephanie L, Wang, Jianshuang, Dai, Xiaoxia, O’Connor, Timothy R, and Wang, Yinsheng

Subjects

Genetics, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, AlkB Homolog 2, Alpha-Ketoglutarate-Dependent Dioxygenase, AlkB Homolog 3, Alpha-Ketoglutarate-Dependent Dioxygenase, Alkylation, Animals, Cell Line, DNA Adducts, DNA Glycosylases, DNA Repair, Humans, Mice, Thymidine, Chemical Sciences, Biological Sciences, Organic Chemistry

Abstract

Environmental and endogenous genotoxic agents can result in a variety of alkylated and carboxymethylated DNA lesions, including N3-ethylthymidine (N3-EtdT), O(2)-EtdT, and O(4)-EtdT as well as N3-carboxymethylthymidine (N3-CMdT) and O(4)-CMdT. By using nonreplicative double-stranded vectors harboring a site-specifically incorporated DNA lesion, we assessed the potential roles of alkyladenine DNA glycosylase (Aag); alkylation repair protein B homologue 2 (Alkbh2); or Alkbh3 in modulating the effects of N3-EtdT, O(2)-EtdT, O(4)-EtdT, N3-CMdT, or O(4)-CMdT on DNA transcription in mammalian cells. We found that the depletion of Aag did not significantly change the transcriptional inhibitory or mutagenic properties of all five examined lesions, suggesting a negligible role of Aag in the repair of these DNA adducts in mammalian cells. In addition, our results revealed that N3-EtdT, but not other lesions, could be repaired by Alkbh2 and Alkbh3 in mammalian cells. Furthermore, we demonstrated the direct reversal of N3-EtdT by purified human Alkbh2 protein in vitro. These findings provided important new insights into the repair of the carboxymethylated and alkylated thymidine lesions in mammalian cells.

Published

2016

44. Nickel-Catalyzed Alkylation of Amide Derivatives

Author

Simmons, Bryan J, Weires, Nicholas A, Dander, Jacob E, and Garg, Neil K

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, nickel, catalysis, alkylation, amides, cross-coupling, Chemical Engineering, Industrial biotechnology, Organic chemistry, Physical chemistry

Abstract

We report the catalytic alkylation of amide derivatives, which relies on the use of nonprecious metal catalysis. Amide derivatives are treated with organozinc reagents, utilizing nickel catalysis, to yield ketone products. The methodology is performed at ambient temperature and is tolerant of variation in both coupling partners. A precursor to a nanomolar glucagon receptor modulator was synthesized using the methodology, underscoring the mild nature of this chemistry and its potential utility in pharmaceutical synthesis. These studies are expected to further promote the use of amides as synthetic building blocks.

Published

2016

45. Iridium‐Catalyzed Diastereoselective and Enantioselective Allylic Substitutions with Acyclic α‐Alkoxy Ketones

Author

Jiang, Xingyu, Chen, Wenyong, and Hartwig, John F

Subjects

Inorganic Chemistry, Organic Chemistry, Chemical Sciences, Allyl Compounds, Catalysis, Coordination Complexes, Copper, Iridium, Ketones, Stereoisomerism, alkylation, asymmetric catalysis, diastereoselectivity, iridium, ketones, Chemical sciences

Abstract

The asymmetric alkylation of acyclic ketones is a longstanding challenge in organic synthesis. Reported herein are diastereoselective and enantioselective allylic substitutions with acyclic α-alkoxy ketones catalyzed by a metallacyclic iridium complex to form products with contiguous stereogenic centers derived from the nucleophile and electrophile. These reactions occur between allyl methyl carbonates and unstabilized copper(I) enolates generated in situ from acyclic α-alkoxy ketones. The resulting products can be readily converted into enantioenriched tertiary alcohols and tetrahydrofuran derivatives without erosion of enantiomeric purity.

Published

2016

46. Chemoselective synthesis of functional homocysteine residues in polypeptides and peptides

Author

Gharakhanian, Eric G and Deming, Timothy J

Subjects

Organic Chemistry, Chemical Sciences, Alkylation, Biomimetic Materials, Homocysteine, Hydrogen-Ion Concentration, Methionine, Methylation, Peptides, Sulfonium Compounds, Chemical sciences, Engineering

Abstract

A methodology was developed for efficient, chemoselective transformation of methionine residues into stable, functional homocysteine derivatives. Methionine residues can undergo highly chemoselective alkylation reactions at low pH to yield stable sulfonium ions, which could then be selectively demethylated to give stable alkyl homocysteine residues. This mild, two-step process is chemoselective, efficient, tolerates many functional groups, and provides a means for creation of new functional biopolymers, site-specific peptide tagging, and synthesis of biomimetic and structural analogs of peptides.

Published

2016

47. Future Antimicrobials: Natural and Functionalized Phenolics

Author

Andrei Lobiuc, Naomi-Eunicia Pavăl, Ionel I. Mangalagiu, Roxana Gheorghiță, Gabriel-Ciprian Teliban, Dorina Amăriucăi-Mantu, and Vasile Stoleru

Subjects

flavonoids, tannins, lignans, minimal inhibitory concentration, esterification, alkylation, Organic chemistry, QD241-441

Abstract

With incidence of antimicrobial resistance rising globally, there is a continuous need for development of new antimicrobial molecules. Phenolic compounds having a versatile scaffold that allows for a broad range of chemical additions; they also exhibit potent antimicrobial activities which can be enhanced significantly through functionalization. Synthetic routes such as esterification, phosphorylation, hydroxylation or enzymatic conjugation may increase the antimicrobial activity of compounds and reduce minimal concentrations needed. With potent action mechanisms interfering with bacterial cell wall synthesis, DNA replication or enzyme production, phenolics can target multiple sites in bacteria, leading to a much higher sensitivity of cells towards these natural compounds. The current review summarizes some of the most important knowledge on functionalization of natural phenolic compounds and the effects on their antimicrobial activity.

Published

2023

48. Synthesis, Characterization, and Study of Catalytic Activity of Chiral Cu(II) and Ni(II) Salen Complexes in the α-Amino Acid C-α Alkylation Reaction

Author

Anna S. Tovmasyan, Anna F. Mkrtchyan, Hamlet N. Khachatryan, Mary V. Hayrapetyan, Robert M. Hakobyan, Artavazd S. Poghosyan, Avetis H. Tsaturyan, Ela V. Minasyan, Victor I. Maleev, Vladimir A. Larionov, Armen G. Ayvazyan, Norio Shibata, Giovanni N. Roviello, and Ashot S. Saghyan

Subjects

phase transfer catalysis, asymmetric catalysis, salen complexes, alkylation, amino acids, Organic chemistry, QD241-441

Abstract

A new family of Cu(II) and Ni(II) salen complexes was synthesized and fully characterized through various physicochemical methods. Their catalytic activity was evaluated in the phase transfer Cα-alkylation reaction of the Schiff bases of D,L-alanine ester and benzaldehyde derivatives. It was found that the introduction of a chlorine atom into the ortho- and para-positions of the phenyl ring of the substrate resulted in an increase in both the chemical yield and the asymmetric induction (ee 66–98%). The highest enantiomeric excess was achieved in the case of a Cu(II) salen complex based on (S,S)-cyclohexanediamine and salicylaldehyde at −20 °C. The occurrence of a bulky substituent in the ligand present in the complexes led to a drastic decrease in ee and chemical yield. For instance, the introduction of bulky substituents at positions 3 and 5 of the phenyl ring of the catalyst resulted in a complete loss of the stereoselectivity control in the alkylation reaction.

Published

2023

49. Versatile Synthesis of Stable, Functional Polypeptides via Reaction with Epoxides

Author

Gharakhanian, Eric G and Deming, Timothy J

Subjects

Organic Chemistry, Chemical Sciences, Alkylation, Epoxy Compounds, Methionine, Peptides, Biological Sciences, Engineering, Polymers, Biological sciences, Chemical sciences

Abstract

Methodology was developed for efficient alkylation of methionine residues using epoxides as a general strategy to introduce a wide range of functional groups onto polypeptides. Use of a spacer between epoxide and functional groups further allowed addition of sterically demanding functionalities. Contrary to other methods to alkylate methionine residues, epoxide alkylations allow the reactions to be conducted in wet protic media and give sulfonium products that are stable against dealkylation. These functionalizations are notable since they are chemoselective, utilize stable and readily available epoxides, and allow facile incorporation of an unprecedented range of functional groups onto simple polypeptides using stable linkages.

Published

2015

50. Enantioselective Synthesis of Dialkylated N‑Heterocycles by Palladium-Catalyzed Allylic Alkylation

Author

Numajiri, Yoshitaka, Jiménez-Osés, Gonzalo, Wang, Bo, Houk, KN, and Stoltz, Brian M

Subjects

Alkylation, Catalysis, Combinatorial Chemistry Techniques, Heterocyclic Compounds, 1-Ring, Ketones, Molecular Structure, Morpholines, Oxazepines, Oxazolidinones, Palladium, Stereoisomerism, Structure-Activity Relationship, Chemical Sciences, Organic Chemistry

Abstract

The enantioselective synthesis of α-disubstituted N-heterocyclic carbonyl compounds has been accomplished using palladium-catalyzed allylic alkylation. These catalytic conditions enable access to various heterocycles, such as morpholinone, thiomorpholinone, oxazolidin-4-one, 1,2-oxazepan-3-one, 1,3-oxazinan-4-one, and structurally related lactams, all bearing fully substituted α-positions. Broad functional group tolerance was explored at the α-position in the morpholinone series. We demonstrate the utility of this method by performing various transformations on our useful products to readily access a number of enantioenriched compounds.

Published

2015