D. M. Gleave scite author profile

A general synthetic route to 2-alkyl-and 2,2-dialkyl-1,3-dioxan-5-ones, using tris(hydroxymethy1)-nitromethane as the starting material, is described. Deprotonation of these compounds was studied. It was established that these dioxanones could be deprotonated with LDA; however, the reduction of the carbonyl group via a hydride transfer from LDA, giving the corresponding dioxanols, often competed with deprotonation. The reduction could be minimized by using Corey's internal quench procedure to form silyl en01 ethers and was less pronounced in 2,2-dialkyldioxanones (ketals) than in 2-alkyldioxanones (acetals). Self-aldol products were observed when dioxanone lithium enolates were quenched with H,O. Addition reactions of lithium enolates of dioxanones to aldehydes were threo-selective as predicted by the Zimmerman-Traxler model. Dioxanones having two different alkyl groups at the 2-position were deprotonated enantioselectively by chiral lithium amide bases with enantiomeric excess (ee) of up to 70%.

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A New Method For the Construction of .alpha.-Diazo ketones

Taber¹,

Gleave²,

Herr³

et al. 1995

J. Org. Chem.

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Reduction with lithium dialkylamides

Majewski

Gleave²

1994

Journal of Organometallic Chemistry

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Synthesis and antibacterial activity of [6,5,5] and [6,6,5] tricyclic fused oxazolidinones

Gleave¹,

Brickner²,

Manninen³

et al. 1998

Bioorganic & Medicinal Chemistry Letters

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D. M. Gleave

1,3-Dioxan-5-ones: synthesis, deprotonation, and reactions of their lithium enolates

A New Method For the Construction of .alpha.-Diazo ketones

Reduction with lithium dialkylamides

Synthesis and antibacterial activity of [6,5,5] and [6,6,5] tricyclic fused oxazolidinones

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