Thursday, November 4, 2010

Oxidative cleavage of α-hydroxyketones

Tetrahedron Letters 50 (2009) 5399–5402
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The oxidative cleavage of vicinal diols, a-hydroxyketones, and related functionalities is a common synthetic procedure and various reagents are available to perform this reaction, such as sodium bismuthate,1 iodo triacetate,2 manganic pyrophosphate,3 KHSO5,4 calcium hypochlorite,5 basic hydrogen peroxide,6 methylrhenium trioxide,7 Bi/O2,8 sodium percarbonate,9 and vanadium-based HPA and dioxygen.10 However, the most versatile reagents for this purpose are sodium metaperiodate,11 and lead tetraacetate.12–14
Usually sodium metaperiodate is used in aqueous solutions, because the effectiveness of this oxidant in organic solvents is very limited due to its insolubility.15 Lead tetraacetate has been used in non-aqueous media to accomplish the same types of reactions effected by periodates with water-soluble compounds.15 On the
other hand, this reagent is difficult to store and handle, non-environmentally friendly and, being more reactive, can afford undesired oxidation byproducts.
Aiming to expand the versatility of sodium metaperiodate as an oxidating reagent in organic media, and to overcome the solubilityissues, variations of a silica gel-supported sodium metaperiodate reagent have been disclosed, to promote oxidative cleavage of 1,2 diols, and oxidation of hydroquinones and sulfur-containing compounds.16–18 Usually the sodium periodate is adsorbed on silica gel, and stirred with the starting material in dichloromethane, ether, or benzene.
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One of the conditions described in the reference paper (NaIO4/SiO2/toluene) was applied to a mixture of alpha-hydroxyketone and TMS protected alpha-hydroxyketone shown below.
Surprisingly, only alpha-hydroxyketone was cleaved. The TMS protected alpha-hydroxyketone survived.
compared with HIO4 in Et2O, this condition (NaIO4/SiO2/toluene) is more neutral.

Wednesday, November 3, 2010

A Mask of the More Reactive Carbonyl

David Colby and co-workers from Purdue have just added a useful way to selectively reduce less reactive carbonyls (ie: lactone) over more reactive ones (ie:  ketone) by introducing N,O-dimethylhydroxylamine in the presence of an aluminum reducing agent (DIBAL).