A synthetic strategy towards the potent cytostatic agent pluraflavin A has been developed. Formation of the enantioenriched anthrapyran core bearing a halogen atom enabled the introduction of the α C-aryl glycoside by Stille cross-coupling and subsequent hydrogenation of the aryl glycal. Chemo- and stereoselective O-glycosylations of α oliose and β 3-epi vancosamine residues afforded a fully glycosylated aromatic core. Attempts to install the dimethylamino group of the C-disaccharide suggest that introduction of an azide group by displacement and subsequent reduction may pave the way to the total synthesis of pluraflavin A.
A synthetic strategy towards the potent cytostatic agent pluraflavin A has been developed. Formation of the enantioenriched n class="Chemical">anthrapyran core bearing a halogen atom enabled the introduction of the α C-aryl glycoside by Stille cross-coupling and subsequent hydrogenation of the aryl glycal. Chemo- and stereoselective O-glycosylations of α oliose and β 3-epi vancosamine residues afforded a fully glycosylated aromatic core. Attempts to install the dimethylamino group of the C-disaccharide suggest that introduction of an azide group by displacement and subsequent reduction may pave the way to the total synthesis of pluraflavin A.
Authors: Kenneth M. Engstrom; Mario R. Mendoza; Mauricio Navarro-Villalobos; David Y. Gin Journal: Angew Chem Int Ed Engl Date: 2001-03-16 Impact factor: 15.336
Authors: L Vértesy; F P Barbone; E Cashmen; H Decker; K Ehrlich; B Jordan; M Knauf; D Schummer; M P Segeth; J Wink; G Seibert Journal: J Antibiot (Tokyo) Date: 2001-09 Impact factor: 2.649