2016
DOI: 10.1016/j.carres.2016.03.028
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Further studies on cation clock reactions in glycosylation: observation of a configuration specific intramolecular sulfenyl transfer and isolation and characterization of a tricyclic acetal

Abstract: The use of the 2-O-(2-trimethylsilylmethallyl) group as intramolecular nucleophile and cation clock reaction in the glucopyranose series depends on the nature of the glycosyl donor. As previously reported, with trichloroacetimidates the anticipated intramolecular Sakurai reaction proceeds efficiently and is an effective clock, whereas with sulfoxides complications arise. The source of these complications is now shown to be an intramolecular sulfenyl transfer reaction between the tethered allylsilane and the ac… Show more

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Cited by 10 publications
(12 citation statements)
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“…Both methods have been used by the group of Crich, but only on the relatively nucleophilic and minimally intrusive iso-propanol. [103][104][105][106][107] An extension of these methods spanning a wider range of acceptors, will provide the much needed insight how the reactivity of the acceptors determines the position of the operational reaction mechanisms along the S N 2-S N 1-continuum. 108…”
Section: Discussionmentioning
confidence: 99%
“…Both methods have been used by the group of Crich, but only on the relatively nucleophilic and minimally intrusive iso-propanol. [103][104][105][106][107] An extension of these methods spanning a wider range of acceptors, will provide the much needed insight how the reactivity of the acceptors determines the position of the operational reaction mechanisms along the S N 2-S N 1-continuum. 108…”
Section: Discussionmentioning
confidence: 99%
“…In the corresponding glucopyranose series, the use of sulfoxide-based donors was not successful owing to an intramolecular sulfenyl transfer to the allylsilane on activation, 85 but the activation of the trichloroacetimidate afforded the cyclized product in the form of a single cis -fused isomer (Scheme 10). 84 Activation of a cognate 2- O -(3-hydroxypropyl)glucopyranosyl sulfoxide at low temperature resulted in the formation of a bicyclic acetal demonstrated to have the β-configuration by NMR and crystallographic methods (Scheme 11).…”
Section: Influence Of C-o Bonds and Other Substituents On The Formamentioning
confidence: 99%
“…84 Activation of a cognate 2- O -(3-hydroxypropyl)glucopyranosyl sulfoxide at low temperature resulted in the formation of a bicyclic acetal demonstrated to have the β-configuration by NMR and crystallographic methods (Scheme 11). 85 The reversal of stereoselectivity on switching from the allylsilane to the more nucleophilic alcohol is best rationalized in terms of a change in mechanism. With the alcohol, direct nucleophilic attack on the intermediate α-glucosyl triflate formed on activation of the sulfoxide rationalizes the observed product, whereas the intramolecular Sakurai product, arising from the weaker nucleophile, is the result of an S N 1-type process on a transient oxocarbenium ion.…”
Section: Influence Of C-o Bonds and Other Substituents On The Formamentioning
confidence: 99%
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“…In continuation of our studies on the development of cyclization reactions for use as unimolecular clocks for estimating the molecularity of glycosylation reactions, 13 we report on the synthesis and cyclization of a series of o -(hydroxymethyl)benzyl (xylylene glycol monesters) of sialyl thioglycosides giving a series of spirocyclic eight-membered ring diolides. We report that the yield and stereoselectivity of these cyclizations is a function of the anomeric configuration of the initial thioglycoside and of the N5 protecting group.…”
Section: Introductionmentioning
confidence: 99%