Your search keyword '"Beutner GL"' showing total 27 results

1. TCFH-NMI Ketone Synthesis Inspired by Nucleophilicity Scales.

Author

Ho JH, Miller GH, Chung KK, Neibert SD, Beutner GL, and Vosburg DA

Abstract

N , N , N ', N '-Tetramethylchloroformamidinium hexafluorophosphate (TCFH) and N -methylimidazole (NMI) enable the facile and practical reaction of carboxylic acids with amines, alcohols, and thiols to form amides, esters, and thioesters. To develop a mild synthesis of ketones with TCFH-NMI directly from carboxylic acids at room temperature, the Mayr nucleophilicity scale was used to compare the N values of competent nucleophiles to potential carbon-centered nucleophiles, identifying pyrroles and indoles as successful substrates when N ≥ 10.

Published

2024

2. Beyond Amide Bond Formation: TCFH as a Reagent for Esterification.

Author

Luis NR, Chung KK, Hickey MR, Lin Z, Beutner GL, and Vosburg DA

Abstract

In this Communication, an investigation of the combination of N , N , N ', N '-tetramethylchloroformamidinium hexafluorophosphate (TCFH) and N -methylimidazole (NMI) for the synthesis of esters and thioesters is described. This work revealed the unique challenges of the reactions of less nucleophilic alcohols and more reactive thiols with the N -acyl imidazolium intermediate and led to the identification of general enabling conditions that provide high yields and selectivity for a range of alcohols and thiols.

Published

2024

3. Electroreductive Synthesis of Nickel(0) Complexes.

Author

Rubel CZ, Cao Y, El-Hayek Ewing T, Laudadio G, Beutner GL, Wisniewski SR, Wu X, Baran PS, Vantourout JC, and Engle KM

Abstract

Over the last fifty years, the use of nickel catalysts for facilitating organic transformations has skyrocketed. Nickel(0) sources act as useful precatalysts because they can enter a catalytic cycle through ligand exchange, without needing to undergo additional elementary steps. However, most Ni(0) precatalysts are synthesized with stoichiometric aluminum-hydride reductants, pyrophoric reagents that are not atom-economical and must be used at cryogenic temperatures. Here, we demonstrate that Ni(II) salts can be reduced on preparative scale using electrolysis to yield a variety of Ni(0) and Ni(II) complexes that are widely used as precatalysts in organic synthesis, including bis(1,5-cyclooctadiene)nickel(0) [Ni(COD) 2 ]. This method overcomes the reproducibility issues of previously reported methods by standardizing the procedure, such that it can be performed anywhere in a robust manner. It can be transitioned to large scale through an electrochemical recirculating flow process and extended to an in situ reduction protocol to generate catalytic amounts of Ni(0) for organic transformations. We anticipate that this work will accelerate adoption of preparative electrochemistry for the synthesis of low-valent organometallic complexes in academia and industry., (© 2023 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published

2024

4. Deoxyfluorination of 1°, 2°, and 3° Alcohols by Nonbasic O-H Activation and Lewis Acid-Catalyzed Fluoride Shuttling.

Author

Moon HW, Lavagnino MN, Lim S, Palkowitz MD, Mandler MD, Beutner GL, Drance MJ, Lipshultz JM, Scola PM, and Radosevich AT

Abstract

A method for deoxyfluorination of aliphatic primary, secondary, and tertiary alcohols is reported, employing a nontrigonal phosphorus triamide for base-free alcohol activation in conjunction with an organic soluble fluoride donor and a triarylborane fluoride shuttling catalyst. Mechanistic experiments are consistent with a reaction that proceeds by the collapse of an oxyphosphonium fluoroborate ion pair with fluoride transfer. The substrate scope complements existing deoxyfluorination methods and enables the preparation of homochiral secondary and tertiary alkylfluorides by stereoinversion of the substrate alcohol.

Published

2023

5. Facile Amide Bond Formation with TCFH-NMI in an Organic Laboratory Course.

Author

M Baldwin OW, Conrad-Marut LH, Beutner GL, and Vosburg DA

Abstract

A new undergraduate organic laboratory experiment has been developed for amide bond formation between biorenewable 2-furoic acid and either of two substituted piperazines to prepare medicinally relevant amide products using a procedure with industrial significance. The reactions proceeded smoothly under ambient conditions using the combination of N,N,N',N' -tetramethylchloroformamidinium hexafluorophosphate (TCFH) and N -methylimidazole (NMI) in a minimal volume of acetonitrile with a direct crystallization upon addition of water. Students successfully collected their product by filtration and then characterized it by NMR ( 1 H, 13 C, COSY, DEPT-135, HSQC), IR, MS, and melting point. Students also explored the reaction mechanism and compared green chemistry aspects of their procedure with literature routes. A virtual version of the experiment was adapted for remote instruction., Competing Interests: The authors declare no competing financial interest., (© 2022 The Authors. Published by American Chemical Society and Division of Chemical Education, Inc.)

Published

2022

6. An Evaluation of the Occupational Health Hazards of Peptide Couplers.

Author

Graham JC, Trejo-Martin A, Chilton ML, Kostal J, Bercu J, Beutner GL, Bruen US, Dolan DG, Gomez S, Hillegass J, Nicolette J, and Schmitz M

Subjects

Humans, Peptides pharmacology, Pharmaceutical Preparations, Skin, Irritants, Occupational Health

Abstract

Peptide couplers (also known as amide bond-forming reagents or coupling reagents) are broadly used in organic chemical syntheses, especially in the pharmaceutical industry. Yet, occupational health hazards associated with this chemical class are largely unexplored, which is disconcerting given the intrinsic reactivity of these compounds. Several case studies involving occupational exposures reported adverse respiratory and dermal health effects, providing initial evidence of chemical sensitization. To address the paucity of toxicological data, a pharmaceutical cross-industry task force was formed to evaluate and assess the potential of these compounds to cause eye and dermal irritation as well as corrosivity and dermal sensitization. The goal of our work was to inform health and safety professionals as well as pharmaceutical and organic chemists of the occupational health hazards associated with this chemical class. To that end, 25 of the most commonly used peptide couplers and five hydrolysis products were selected for in vivo, in vitro , and in silico testing. Our findings confirmed that dermal sensitization is a concern for this chemical class with 21/25 peptide couplers testing positive for dermal sensitization and 15 of these being strong/extreme sensitizers. We also found that dermal corrosion and irritation (8/25) as well as eye irritation (9/25) were health hazards associated with peptide couplers and their hydrolysis products (4/5 were dermal irritants or corrosive and 4/5 were eye irritants). Resulting outcomes were synthesized to inform decision making in peptide coupler selection and enable data-driven hazard communication to workers. The latter includes harmonized hazard classifications, appropriate handling recommendations, and accurate safety data sheets, which support the industrial hygiene hierarchy of control strategies and risk assessment. Our study demonstrates the merits of an integrated, in vivo - in silico analysis, applied here to the skin sensitization endpoint using the Computer-Aided Discovery and REdesign (CADRE) and Derek Nexus programs. We show that experimental data can improve predictive models by filling existing data gaps while, concurrently, providing computational insights into key initiating events and elucidating the chemical structural features contributing to adverse health effects. This interactive, interdisciplinary approach is consistent with Green Chemistry principles that seek to improve the selection and design of less hazardous reagents in industrial processes and applications.

Published

2022

7. A Process Chemistry Benchmark for sp 2 -sp 3 Cross Couplings.

Author

Beutner GL, Simmons EM, Ayers S, Bemis CY, Goldfogel MJ, Joe CL, Marshall J, and Wisniewski SR

Subjects

Catalysis, Palladium, Benchmarking, Pharmaceutical Preparations

Abstract

As sp 2 -sp 3 disconnections gain acceptance in the medicinal chemist's toolbox, an increasing number of potential drug candidates containing this motif are moving into the pharmaceutical development pipeline. This raises a new set of questions and challenges around the novel, direct methodologies available for forging these bonds. These questions gain further importance in the context of process chemistry, where the focus is the development of scalable processes that enable the large-scale delivery of clinical supplies. In this paper, we describe our efforts to apply a wide variety of standard, photo-, and electrochemical sp 2 -sp 3 cross-coupling methods to a pharmaceutically relevant intermediate and optimize each through a combination of high throughput and mechanistically guided experimentation. With data regarding the performance, benefits, and limitations of these novel methods, we evaluate them against a more traditional two-step palladium-catalyzed process. This work reveals trends and similarities between these sp 2 -sp 3 bond-forming methods and suggests a path forward for further refinements.

Published

2021

8. C-H Arylation in the Formation of a Complex Pyrrolopyridine, the Commercial Synthesis of the Potent JAK2 Inhibitor, BMS-911543.

Author

Fox RJ, Cuniere NL, Bakrania L, Wei C, Strotman NA, Hay M, Fanfair D, Regens C, Beutner GL, Lawler M, Lobben P, Soumeillant MC, Cohen B, Zhu K, Skliar D, Rosner T, Markwalter CE, Hsiao Y, Tran K, and Eastgate MD

Subjects

Catalysis, Heterocyclic Compounds, 3-Ring chemical synthesis, Heterocyclic Compounds, 3-Ring chemistry, Humans, Janus Kinase 2 antagonists & inhibitors, Janus Kinase 2 metabolism, Ligands, Molecular Structure, Palladium chemistry, Protein Kinase Inhibitors chemical synthesis, Protein Kinase Inhibitors chemistry, Heterocyclic Compounds, 3-Ring pharmacology, Protein Kinase Inhibitors pharmacology

Abstract

The development of an improved short and efficient commercial synthesis of the JAK2 inhibitor, a complex pyrrolopyridine, BMS-911543, is described. During the discovery and development of this synthesis, a Pd-catalyzed C-H functionalization was invented which enabled the rapid union of the key pyrrole and imidazole fragments. The synthesis of this complex, nitrogen-rich heterocycle was accomplished in only six steps (longest linear sequence) from readily available materials.

Published

2019

9. Direct Lewis Acid Catalyzed Conversion of Enantioenriched N-Acyloxazolidinones to Chiral Esters, Amides, and Acids.

Author

Stevens JM, Parra-Rivera AC, Dixon DD, Beutner GL, DelMonte AJ, Frantz DE, Janey JM, Paulson J, and Talley MR

Abstract

The identification of Yb(OTf) 3 through a multivariable high-throughput experimentation strategy has enabled a unified protocol for the direct conversion of enantioenriched N-acyloxazolidinones to the corresponding chiral esters, amides, and carboxylic acids. This straightforward and catalytic method has shown remarkable chemoselectivity for substitution at the acyclic N-acyl carbonyl for a diverse array of N-acyloxazolidinone substrates. The ionic radius of the Lewis acid catalyst was demonstrated as a key driver of catalyst performance that led to the identification of a robust and scalable esterification of a pharmaceutical intermediate using catalytic Y(OTf) 3 .

Published

2018

10. TCFH-NMI: Direct Access to N-Acyl Imidazoliums for Challenging Amide Bond Formations.

Author

Beutner GL, Young IS, Davies ML, Hickey MR, Park H, Stevens JM, and Ye Q

Abstract

Challenging couplings of hindered carboxylic acids with non-nucleophilic amines to form amide bonds can be accomplished in high yields, and in many cases, with complete retention of the adjacent stereogenic centers using the combination of N, N, N', N'-tetramethylchloroformamidinium hexafluorophosphate (TCFH) and N-methylimidazole (NMI). This method allows for in situ generation of highly reactive acyl imidazolium ions, which have been demonstrated to be intermediates in the reaction. The reagent delivers high reactivity similar to acid chlorides with the ease of use of modern uronium reagents.

Published

2018

11. Zinc Acetate-Promoted Buchwald-Hartwig Couplings of Heteroaromatic Amines.

Author

Ayothiraman R, Rangaswamy S, Maity P, Simmons EM, Beutner GL, Janey J, Treitler DS, Eastgate MD, and Vaidyanathan R

Abstract

Zinc salts have been shown to promote the Buchwald-Hartwig coupling of azaindoles and azaindazoles with heteroaryl chlorides to provide the corresponding 1-aryl-1H-azaindoles and 1-aryl-1H-azaindazoles. The substrate scope and mechanistic aspects of this reaction were explored.

Published

2017

12. Nickel-Catalyzed Synthesis of Quinazolinediones.

Author

Beutner GL, Hsiao Y, Razler T, Simmons EM, and Wertjes W

Abstract

A nickel(0)-catalyzed method for the synthesis of quinazolinediones from isatoic anhydrides and isocyanates is described. High-throughput ligand screening revealed that XANTPHOS was the optimal ligand for this transformation. Subsequent optimization studies, supported by kinetic analysis, significantly expanded the reaction scope. The reaction exhibits a case of substrate inhibition kinetics with respect to the isocyanate. Preliminary results on an asymmetric synthesis of atropisomeric quinazolinediones are reported.

Published

2017

13. Scalable Synthesis of the Potent HIV Inhibitor BMS-986001 by Non-Enzymatic Dynamic Kinetic Asymmetric Transformation (DYKAT).

Author

Ortiz A, Benkovics T, Beutner GL, Shi Z, Bultman M, Nye J, Sfouggatakis C, and Kronenthal DR

Subjects

Anti-HIV Agents chemistry, Catalysis, Levamisole chemistry, Stereoisomerism, Thymidine chemical synthesis, Thymidine chemistry, Anti-HIV Agents chemical synthesis, Thymidine analogs & derivatives

Abstract

Described herein is the synthesis of BMS-986001 by employing two novel organocatalytic transformations: 1) a highly selective pyranose to furanose ring tautomerization to access an advanced intermediate, and 2) an unprecedented small-molecule-mediated dynamic kinetic resolution to access a variety of enantiopure pyranones, one of which served as a versatile building block for the multigram, stereoselective, and chromatography-free synthesis of BMS-986001. The synthesis required five chemical transformations and resulted in a 44% overall yield., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

14. Development of a Diastereoselective Phosphorylation of a Complex Nucleoside via Dynamic Kinetic Resolution.

Author

Tran K, Beutner GL, Schmidt M, Janey J, Chen K, Rosso V, and Eastgate MD

Subjects

Anisoles chemistry, Crystallization, Kinetics, Molecular Structure, Nucleosides chemistry, Phosphorylation, Prodrugs chemistry, Stereoisomerism, Amides chemistry, Nucleosides chemical synthesis, Phosphoric Acids chemistry, Prodrugs chemical synthesis

Abstract

The development of a diastereoselective nucleoside phosphorylation is described, which produces a single isomer of a complex nucleoside monophosphate pro-drug. A stable phosphoramidic acid derivative is coupled to the nucleoside, in a process mediated by HATU and quinine, to deliver the coupled product in high chemical yield and good diastereoselectivity. This unusual process was shown to proceed through a dynamic kinetic resolution of a 1:1 mixture of activated phosphonate ester diastereoisomers. The optimized conditions afforded the product with a combined [S,S(P)] and [S,R(P)] in-process yield of 89% and a ∼7:1 [S,S(P):S,R(P)] diastereomeric ratio. Isolation of the major isomer was facilitated by single crystallization from anisole, where the product was obtained in 57% isolated yield, excellent purity (>95%), and a high diastereomeric ratio (>50:1).

Published

2015

15. Mechanistic insights into the vanadium-catalyzed Achmatowicz rearrangement of furfurol.

Author

Ji Y, Benkovics T, Beutner GL, Sfouggatakis C, Eastgate MD, and Blackmond DG

Subjects

Catalysis, Crystallography, X-Ray, Kinetics, Magnetic Resonance Spectroscopy, Molecular Structure, Furans chemistry, Organometallic Compounds chemistry, Vanadium chemistry, tert-Butylhydroperoxide chemistry

Abstract

The Achmatowicz rearrangement is a powerful method for the construction of pyranones from simple furan derivatives. Here, we describe the development of improved reaction conditions and an interrogation into the fate of the metal center during this interesting transformation. The reaction to form the synthetically important lactol, 6-hydroxy-2H-pyran-3(6H)-one (3), proceeds cleanly in the presence of tert-butyl hydroperoxide (TBHP, 2) using low loadings of VO(O(i)Pr)3 as catalyst. The nonaqueous conditions developed herein allow for easy isolation of product 3 and synthetically important derivatives, a key advantage of this new protocol. Detailed experimental, spectroscopic, and kinetic studies along with kinetic modeling of the catalytic cycle support a positive-order dependence in both furfurol and TBHP concentrations, first-order dependence in catalyst (VO(O(i)Pr)3), and a negative dependence on the 2-methyl-2-propanol (4) concentration. (51)V-NMR spectroscopic studies revealed that 2-methyl-2-propanol (4) competes with substrates for binding to the metal center, rationalizing its inhibitory effect.

Published

2015

16. A highly efficient asymmetric synthesis of vernakalant.

Author

Limanto J, Ashley ER, Yin J, Beutner GL, Grau BT, Kassim AM, Kim MM, Klapars A, Liu Z, Strotman HR, and Truppo MD

Subjects

Amination, Amines chemistry, Anisoles chemistry, Catalysis, Chlorides chemistry, Cyclohexanes, Molecular Structure, Pyrrolidines chemistry, Stereoisomerism, Zinc Compounds chemistry, Anisoles chemical synthesis, Pyrrolidines chemical synthesis

Abstract

A novel synthesis of vernakalant is described. Using inexpensive and readily available reagents, the key transformations involve (1) an efficient zinc-amine-promoted etherification, (2) a highly stereoselective enzyme-catalyzed dynamic asymmetric transamination to set up the two contiguous chiral centers in the cyclohexane ring, and (3) a pyrrolidine ring formation via alkyl-B(OH)2-catalyzed amidation and subsequent imide reduction.

Published

2014

17. Lewis base catalysis of the Mukaiyama directed aldol reaction: 40 years of inspiration and advances.

Author

Beutner GL and Denmark SE

Subjects

Aldehydes chemistry, Catalysis, Molecular Structure, Aldehydes chemical synthesis, Lewis Bases chemistry

Abstract

Since the landmark publications of the first directed aldol addition reaction in 1973, the site, diastereo-, and enantioselective aldol reaction has been elevated to the rarefied status of being both a named and a strategy-level reaction (the Mukaiyama directed aldol reaction). The importance of this reaction in the stereoselective synthesis of untold numbers of organic compounds, both natural and unnatural, cannot be overstated. However, its impact on the field extends beyond the impressive applications in synthesis. The directed aldol reaction has served as a fertile proving ground for new concepts and new methods for stereocontrol and catalysis. This Minireview provides a case history of how the challenges of merging site selectivity, diastereoselectivity, enantioselectivity, and catalysis into a unified reaction manifold stimulated the development of Lewis base catalyzed aldol addition reactions. The evolution of this process is chronicled from the authors' laboratories as well as in those of Professor Teruaki Mukaiyama., (Copyright © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2013

18. Design, validation, and implementation of a rapid-injection NMR system.

Author

Denmark SE, Williams BJ, Eklov BM, Pham SM, and Beutner GL

Subjects

Calibration, Equipment Design, Ethers chemical synthesis, Ethers chemistry, Molecular Structure, Silanes chemistry, Stereoisomerism, Temperature, Magnetic Resonance Spectroscopy instrumentation, Magnetic Resonance Spectroscopy methods

Abstract

A Rapid Injection NMR (RINMR) apparatus has been designed and constructed to allow the observation of fast chemical reactions in real time by NMR spectroscopy. The instrument was designed to allow the rapid (<2 s) injection and mixing of a metered volume of a reagent into a spinning NMR tube followed by rapid acquisition of the data resulting from the evolution of the chemical process. The various design criteria for this universal system included the ability to deliver any chemical reagent at any temperature and allow for the observation of any nucleus. The various challenges associated with the construction and implementation of this instrument are documented along with the validation of the accuracy of the apparatus with respect to volume and temperature. Finally, the ultimate validation and reproducibility of the technique is presented in the form of three case studies that used the instrument to elucidate various aspects of organic reaction mechanisms. The authors urge interested parties to not embark on the construction of their own instrument and invite those whose research problems might be amenable to this kind of analysis to contact the corresponding author for access to the apparatus described herein.

Published

2010

19. Expedient synthesis of 3-alkoxymethyl- and 3-aminomethyl-pyrazolo[3,4-b]pyridines.

Author

Beutner GL, Kuethe JT, Kim MM, and Yasuda N

Subjects

Kinetics, Pyrazoles chemistry, Pyridines chemistry, Pyrazoles chemical synthesis, Pyridines chemical synthesis

Abstract

An effective strategy has been developed for the preparation of 3-alkoxymethyl-pyrazolo[3,4-b]pyridines, compounds that are currently not readily accessible by existing synthetic methods. Further manipulation of these compounds allows for access to 3-alkoxymethyl-pyrazolo[3,4-b]pyridines with a variety of substitution patterns as well as 3-aminomethyl-pyrazolo[3,4-b]pyridines.

Published

2009

20. Lewis base catalysis in organic synthesis.

Author

Denmark SE and Beutner GL

Abstract

The legacy of Gilbert Newton Lewis (1875-1946) pervades the lexicon of chemical bonding and reactivity. The power of his concept of donor-acceptor bonding is evident in the eponymous foundations of electron-pair acceptors (Lewis acids) and donors (Lewis bases). Lewis recognized that acids are not restricted to those substances that contain hydrogen (Brønsted acids), and helped overthrow the "modern cult of the proton". His discovery ushered in the use of Lewis acids as reagents and catalysts for organic reactions. However, in recent years, the recognition that Lewis bases can also serve in this capacity has grown enormously. Most importantly, it has become increasingly apparent that the behavior of Lewis bases as agents for promoting chemical reactions is not merely as an electronic complement of the cognate Lewis acids: in fact Lewis bases are capable of enhancing both the electrophilic and nucleophilic character of molecules to which they are bound. This diversity of behavior leads to a remarkable versatility for the catalysis of reactions by Lewis bases.

Published

2008

21. A concise synthesis of (S)-N-ethoxycarbonyl-alpha-methylvaline.

Author

Kuethe JT, Gauthier DR Jr, Beutner GL, and Yasuda N

Subjects

Valine chemical synthesis, Valine analogs & derivatives

Abstract

A practical and efficient protocol for the three-step synthesis of (S)-N-ethoxycarbonyl-alpha-methylvaline 3 is described which utilizes readily available commercial starting materials. The key transformations involve resolution-crystallization of tartrate salt 6 followed by a one-pot procedure for the preparation of 3 which is isolated as the dicyclohexylamine salt in 45% overall yield and in 91-95% ee.

Published

2007

22. A practical method for preparation of 4-hydroxyquinolinone esters.

Author

Beutner GL, Kuethe JT, and Yasuda N

Subjects

Esters chemistry, Molecular Structure, Esters chemical synthesis, Hydroxyquinolines chemistry

Abstract

4-Hydroxyquinolinone esters are a common motif for many medicinal agents. Several methods exist for preparation of these compounds, generally involving the use of sodium hydride, which raises significant safety issues and limits their application to large-scale synthesis. In this note a practical, safe, and general method that employs a combination of diisopropylethylamine and sodium tert-butoxide is described. This allows for the synthesis of 4-hydroxyquinolinone esters and amides in good yields.

Published

2007

23. Rhenium-catalyzed 1,3-isomerization of allylic alcohols: scope and chirality transfer.

Author

Morrill C, Beutner GL, and Grubbs RH

Subjects

Catalysis, Silanes chemistry, Stereoisomerism, Alcohols chemistry, Rhenium chemistry

Abstract

The scope of the triphenylsilyl perrhennate (O3ReOSiPh3, 1) catalyzed 1,3-isomerization of allylic alcohols has been thoroughly explored. It was found to be effective for a wide variety of secondary and tertiary allylic alcohol substrates bearing aryl, alkyl, and cyano substituents. Two general reaction types were found which gave high levels of product selectivity: those driven by formation of an extended conjugated system and those driven by selective silylation of a particular isomer. The efficiency of chirality transfer with various substrates was investigated, and conditions were found in which secondary and tertiary allylic alcohols could be formed with high levels of enantioselectivity. Consideration of selectivity trends with respect to the nature of the substituents around the allylic system revealed that this is a reliable and predictable method for allylic alcohol synthesis.

Published

2006

24. Catalytic, enantioselective, vinylogous aldol reactions.

Author

Denmark SE, Heemstra JR Jr, and Beutner GL

Subjects

Catalysis, Crystallography, X-Ray, Ethers chemistry, Models, Molecular, Molecular Structure, Stereoisomerism, Aldehydes chemistry, Ethers chemical synthesis, Ketones chemistry

Abstract

In 1935, R. C. Fuson formulated the principle of vinylogy to explain how the influence of a functional group may be felt at a distant point in the molecule when this position is connected by conjugated double-bond linkages to the group. In polar reactions, this concept allows the extension of the electrophilic or nucleophilic character of a functional group through the pi system of a carbon-carbon double bond. This vinylogous extension has been applied to the aldol reaction by employing "extended" dienol ethers derived from gamma-enolizable alpha,beta-unsaturated carbonyl compounds. Since 1994, several methods for the catalytic, enantioselective, vinylogous aldol reaction have appeared, with which varying degrees of regio- (site), enantio-, and diastereoselectivity can be attained. In this Review, the current scope and limitations of this transformation, as well as its application in natural product synthesis, are discussed.

Published

2005

25. Lewis base activation of Lewis acids: catalytic, enantioselective addition of silyl ketene acetals to aldehydes.

Author

Denmark SE, Beutner GL, Wynn T, and Eastgate MD

Abstract

The concept of Lewis base activation of Lewis acids has been reduced to practice for catalysis of the aldol reaction of silyl ketene acetals and silyl dienol ethers with aldehydes. The weakly acidic species, silicon tetrachloride (SiCl4), can be activated by binding of a strongly Lewis basic chiral phosphoramide, leading to in situ formation of a chiral Lewis acid. This species has proven to be a competent catalyst for the aldol addition of acetate-, propanoate-, and isobutyrate-derived silyl ketene acetals to conjugated and nonconjugated aldehydes. Furthermore, vinylogous aldol reactions of silyl dienol ethers are also demonstrated. The high levels of regio-, anti diastereo-, and enantioselectivity observed in these reactions can be rationalized through consideration of an open transition structure where steric interactions between the silyl cation complex and the approaching nucleophile are dominant.

Published

2005

26. Lewis base activation of Lewis acids. Vinylogous aldol reactions.

Author

Denmark SE and Beutner GL

Abstract

A highly regioselective vinylogous aldol reaction catalyzed by SiCl4 and a chiral phosphoramide (R,R)-5, providing delta-hydroxy enones for a variety of aldehyde and dienol ether structures, has been developed. Low catalyst loadings (1 mol %) can be employed, giving the products in good yields, excellent enantioselectivities, and in some cases excellent anti diastereoselectivities. Both simple ester-derived dienol ethers as well as dioxanone-derived dienol ethers are employed. The observed regioselectivity is rationalized in terms of the sensitivity of the catalyst to the steric demands of the nucleophile.

Published

2003

27. Lewis base activation of lewis acids. Addition of silyl ketene acetals to aldehydes.

Author

Denmark SE, Wynn T, and Beutner GL

Abstract

The weak Lewis acid silicon tetrachloride can be activated by catalytic amounts of the chiral bisphosphoramide (R,R)-3 to form a highly reactive, chiral trichlorosilyl cation which is an extremely effective promoter of aldol addition reactions between aldehydes and silyl ketene acetals. The tert-butyldimethylsilyl ketene acetal of methyl acetate adds nearly instantaneously to aromatic and olefinic aldehydes as well as aliphatic aldehydes (albeit more slowly) with excellent enantioselectivity. The homologous tert-butyldimethylsilyl ketene acetal of tert-butyl propanoate adds with nearly exclusive anti diastereoselectivity to a similar range of aldehydes also with excellent enantioselectivity. The origin of the slower reaction rate with aliphatic aldehydes is revealed to be the formation of chlorosilyl ether adducts.

Published

2002