Intramolecular addition of vinyl and aryl radicals to oxime ethers in the synthesis of five-, six- and seven-membered ring systems

Booth, Susan E.; Jenkins, Paul R.; Swain, Christopher J.; Sweeney, Joseph

doi:10.1039/p19940003499

Cited by 48 publications

(32 citation statements)

References 21 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…At that time, oxime ethers were the most commonly explored C=N radical acceptors. [22,23,24] We considered that linking an amino or amido substituent to the C=N nitrogen atom could afford the same reactivity enhancement seen in oxime ethers, and would also provide opportunities for superior rotamer control needed for stereoselectivity. Both activation and stereocontrol would be achieved through one removable N -substituent on the imine, and the substituents on the carbon of the C=N bond would then be freed from those roles, offering potential for broader scope.…”

Section: Intermolecular Radical Addition To Chiral N-acylhydrazonesmentioning

confidence: 99%

Control of Asymmetry in the Radical Addition Approach to Chiral Amine Synthesis

Friestad

2013

Stereoselective Formation of Amines

View full text Add to dashboard Cite

The state-of-the-science in asymmetric free radical additions to imino compounds is presented, beginning with an overview of methods involving stereocontrol by various chiral auxiliary approaches. Chiral N-acylhydrazones are discussed with respect to their use as radical acceptors for Mn-mediated intermolecular additions, from design to scope surveys to applications to biologically active targets. A variety of aldehydes and ketones serve as viable precursors for the chiral hydrazones, and a variety of alkyl iodides may be employed as radical precursors, as discussed in a critical review of the functional group compatibility of the reaction. Applications to amino acid and alkaloid synthesis are presented to illustrate the synthetic potential of these versatile stereocontrolled carbon–carbon bond construction reactions. Asymmetric catalysis is discussed, from seminal work on the stereocontrol of radical addition to imino compounds by non-covalent interactions with stoichiometric amounts of catalysts, to more recent examples demonstrating catalyst turnover.

show abstract

Section: Intermolecular Radical Addition To Chiral N-acylhydrazonesmentioning

confidence: 99%

Control of Asymmetry in the Radical Addition Approach to Chiral Amine Synthesis

Friestad

2013

Stereoselective Formation of Amines

View full text Add to dashboard Cite

show abstract

“…Stereocontrol has been imparted through the substituent on the imino carbon, as exemplified by camphorsultam 4 (Figure 2.2b). Attempts to use chiral O-substituents on oximes for stereocontrol have been ineffective, presumably due to poor rotamer control [8,9].…”

Section: Design Of Chiral N-acylhydrazonesmentioning

confidence: 99%

Asymmetric Methods for Radical Addition to Imino Compounds

Friestad

2010

Chiral Amine Synthesis

View full text Add to dashboard Cite

“…10,11) Although conjugated imines have been used as electrophiles and nucleophiles in inter-and intramolecular addition reactions, as well as heterodienes in cycloaddition reactions, reports pertaining to the use of conjugated imines in radical reactions are few. 12) It was envisioned that the versatility of conjugated imines would allow them to be used as substrates in radial-mediated domino reactions. Of the various different types of conjugated imine available, we selected conjugated oxime ether.…”

Section: Introductionmentioning

confidence: 99%

Radical Addition-Initiated Domino Reactions of Conjugated Oxime Ethers

Ueda

2014

CHEMICAL & PHARMACEUTICAL BULLETIN

View full text Add to dashboard Cite

The application of conjugated oxime ethers to the synthesis of complex chemical scaffolds using domino radical reactions has been described in detail. The triethylborane-mediated hydroxysulfenylation reaction allows for the regioselective construction of a carbon-sulfur bond and a carbon-oxygen bond in a single operation for the formation of β-hydroxy sulfides. This reaction proceeds via a radical pathway involving regioselective thiyl addition and the subsequent trapping of the resulting α-imino radical with O₂, where the imino group enhances the stability of the intermediate radical. Hydroxyalkylation reactions that occur via a carbon radical addition reaction followed by the hydroxylation of the resulting N-borylenamine with O₂ have also been developed. We investigated sequential radical addition aldol-type reactions in detail to explore the novel domino reactions that occur via the generation of N-borylenamine. The radical reaction of a conjugated oxime ether with triethylborane in the presence of an aldehyde affords γ-butyrolactone via sequential processes including ethyl radical addition, the generation of N-borylenamine, an aldol-type reaction with an aldehyde, and a lactonization reaction. A novel domino reaction has also been developed involving the [3,3]-sigmatropic rearrangement of N-boryl-N-phenoxyenamine. The triethylborane-mediated domino reactions of O-phenyl-conjugated oxime ethers afforded the corresponding benzofuro[2,3-b]pyrrol-2-ones via a radical addition/[3,3]-sigmatropic rearrangement/cyclization/lactamization cascade.

show abstract

Intramolecular addition of vinyl and aryl radicals to oxime ethers in the synthesis of five-, six- and seven-membered ring systems

Cited by 48 publications

References 21 publications

Control of Asymmetry in the Radical Addition Approach to Chiral Amine Synthesis

Control of Asymmetry in the Radical Addition Approach to Chiral Amine Synthesis

Asymmetric Methods for Radical Addition to Imino Compounds

Radical Addition-Initiated Domino Reactions of Conjugated Oxime Ethers

Contact Info

Product

Resources

About