Réarrangements d'acétonides de sucres carbonylés. Communication préliminaire

**Novel types of acetylenic sugars** The coupling, following __Cadiot__'s procedure, of a 6‐bromo‐5,6‐dideoxy‐1,2‐__O__‐isopropylidène‐3‐__O__‐methyl‐α‐D‐__xylo__‐hex‐5‐yno‐1, 4‐furanose **(1)** with phenylacetylene, 2‐propyn‐1‐ol or terminal acetylenic sugars gave with excellent yields the expecte

## Abstract __S__‐Methylation of 6‐__S__‐benzyl‐6‐deoxy‐1,2‐__O__‐isopropylidene‐3‐__O__‐methyl‐α‐D‐__xylo__‐6‐thiohexofuranos‐5‐ulose (**1**) gave the expected sulfonium salt **2** which on alcaline treatment yielded the stable sulfur ylide **3**. This compound constitutes an useful synthetic inte

**Deconjugation of sugars enones. Preliminary Communication** Branched‐chain sugar enones **1** and **2** (**R** = Ac) deconjugated toposelectively (only the __E__ isomers reacting) to **3**. The same phenomenon was noted in the case of __Z__‐**4** which gave __E__‐**5**. The kinetic parameters of

## Abstract When treated with cyanide ion, 1,2:5,6‐di‐O‐isopropylidene‐α‐~D~‐__ribo__‐hexofuranos‐3‐ulose yields one or the other of the two corresponding epimeric cyanhydrines, depending on the experimental conditions. One of these epimers, reacted with ammonium cyanide, yields the corresponding a

## Abstract Two novel methods for the synthesis of terminal acetylenic sugars, both involving a chain extension by one carbon unit, are described. In the first procedure, an aldehydo‐sugar is treated with dibromomethylenetriphenyl‐phosphorane, then with __n__‐butyllithium and finally with water. Th

## Abstract Treated with 2,3‐dimethyl‐2,3‐bis‐(hydroxylamino)‐butane, aldehydo‐dialdofuranoses (**1**) gave a mixture of two compounds: a 1,3‐dihydroxyimidazolidine (**2**) and a 1‐hydroxyimidazoline (**3**). Oxidation (PbO~2~) of compounds **3** gave stable free radicals having the structure of 2‐