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Glycals reaction with

Reaction with glycals.1 (E)-l reacts with glycals in the presence of BF, eth-erate to give pyrans substituted at C2 with a 3-methylpropenyl group that is trans to a substituent at C6. [Pg.105]

The glycals are easily converted into the 1,2-dihalo-derivatives, which in principle can act as glycosyl donors. However, these derivatives have not found wide application in glycoside synthesis, mainly because of the low facial selectivity in the initial addition of the electrophilic species [143-145]. In an example of a successful application, 2-deoxy-2-bromo-a-D-glucopyranosyl bromide [146] has been shown to give predominantly the 2-deoxy-P-D-glucopyranosides in silver-triflate-promoted reactions with alcohols. [Pg.369]

Scheme 4 Tin-lithium exchange, on 1-stannyl glycals, followed by reaction with carbon electrophiles. Scheme 4 Tin-lithium exchange, on 1-stannyl glycals, followed by reaction with carbon electrophiles.
C-Allyl glycosides can be prepared by the reaction of glycal epoxides with allyltributyltin in the presence of tributyltin triflate as a Lewis acid,281 and aldonitrones can be allylated with trimethylsilyl triflate as a catalyst (Equations (101) and (102)).282... [Pg.838]

The most attractive approach for the 2-deoxy-p-glycosides starts with 2-bromo-2,6-dideoxyhexopyranosyl bromides (2 ) such as These are available regio- and stereo-specifically from readily accessible and simple precursors by reaction with dibromomethyl methyl ether (DBE) (22, 2 ). In principle, the formation of related compounds may be anticipated by the addition of bromine to glycal precursors. Previous studies (24-27). however, proved these processes to yield several isomers which renders this approach of little preparative value. [Pg.133]

The added advantage of the C (1 )-stannylated glycals is their abUity to participate in palladium-catalyzed coupling reactions with organic halides, a process independently reported by Beau [75] and Friesen [81]. Vinyl stannane 237 can be benzylated, allylated or acylated provided that appropriate catalysts are used [75,77] and representative examples are given in Scheme 59. The C-arylation of... [Pg.36]

Treatment of 148 <2002EJ0113> with TMSBt resulted in the formation of the 10/ -bromide 149 (not isolated) and subsequent reaction with arylmagnesium halides gave the (7-aryl glycosides 150 in acceptable yield (Scheme 19 Table 14). It was not possible to suppress formation of the glycal 25 <2003EJ02098>. [Pg.874]

See other pages where Glycals reaction with is mentioned: [Pg.162]    [Pg.162]    [Pg.542]    [Pg.197]    [Pg.354]    [Pg.111]    [Pg.661]    [Pg.99]    [Pg.250]    [Pg.267]    [Pg.309]    [Pg.375]    [Pg.71]    [Pg.75]    [Pg.289]    [Pg.289]    [Pg.293]    [Pg.293]    [Pg.296]    [Pg.230]    [Pg.235]    [Pg.235]    [Pg.19]    [Pg.102]    [Pg.56]    [Pg.137]    [Pg.396]    [Pg.407]    [Pg.29]    [Pg.29]    [Pg.31]    [Pg.293]    [Pg.287]    [Pg.877]    [Pg.267]    [Pg.119]    [Pg.29]    [Pg.29]    [Pg.31]    [Pg.293]   


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Acetic acid, reaction with glycals

Alcohols reaction with glycals

Glycal

Glycals reaction with hydrogen fluoride

Glycals reactions

Lithiated glycal reactions with

Nitrosyl chloride, reaction with glycals

Phenols reaction with glycals

Water, reaction with glycals

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