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Facile synthesis of 1,2-trans-O-acetyl glycosyl chloride derivatives of cellobiose, lactose, and D-glucose

1976; Elsevier BV; Volume: 46; Issue: 2 Linguagem: Inglês

10.1016/s0008-6215(00)84288-3

1873-426X

William E. Dick, David Wesleder,

Enzyme Structure and Function

Solutions of O-acetyl-α-glycosyl bromide derivatives of d-glucose, cellobiose, and lactose in hexamethylphosphoramide were converted into corresponding β-chlorides at room temperature by the action of lithium chloride. At 3:1 mM ratios of chloride ion to glycose, 5–10% w/v solutions of glycosyl bromide formed α- and β-chlorides in ratios of (or greater than) 1:19 within 2–13 min and produced crystalline β-chlorides in 70–80% yields. Anomeric compositions were determined by n.m.r. spectroscopy in hexamethylphosphoramide. Older methods of preparing 1,2-trans-O-acetylgIycosyl chlorides, with aluminum chloride or titanium tetrachloride, gave the α- and β-cellobiosyl and -Iactosyl chlorides in ratios that varied from 2:3 to 1:4 and reached 85–95% levels of β-chloride only with β-d-glucose pentaacetate. When hydrolyzed under conditions that controlled solution acidity, the β-cellobiosyl and -Iactosyl chlorides each gave 2-hydroxy derivatives in yields that could be varied from 16 to 60%. Hepta-O-acetyl-2-O-methyl-α-cellobiose was prepared to demonstrate how these hydrolysis mixtures can be used to synthesize a 2-O-substituted derivative.