89385-19-3Relevant academic research and scientific papers
Procyanidin oligomers. A new method for 4→8 interflavan bond formation using C8-boronic acids and iterative oligomer synthesis through a boron-protection strategy
Dennis, Eric G.,Jeffery, David W.,Johnston, Martin R.,Perkins, Michael V.,Smith, Paul A.
experimental part, p. 340 - 348 (2012/01/06)
Interest in the synthesis of procyanidin (catechin or epicatechin) oligomers that contain the 4→8 interflavan linkage remains high, principally due to research into their health effects. A novel coupling utilising a C8-boronic acid as a directing group was developed in the synthesis of natural procyanidin B3 (i.e., 3,4-trans-(+)-catechin-4α→8-(+)- catechin dimer). The key interflavan bond was forged using a novel Lewis acid-promoted coupling of C4-ether 6 with C8-boronic acid 16 to provide the α-linked dimer with high diastereoselectivity. Through the use of a boron protecting group, the new coupling procedure was extended to the synthesis of a protected procyanidin trimer analogous to natural procyanidin C2.
Studies in polyphenol chemistry and bioactivity. 3. Stereocontrolled synthesis of epicatechin-4α,8-epicatechin, an unnatural isomer of the B-type procyanidins
Kozikowski,Tueckmantel,Hu
, p. 1287 - 1296 (2007/10/03)
Oligomeric procyanidins containing 4α-linked epicatechin units are rare in nature and have hitherto not been accessible through stereoselective synthesis. We report herein the preparation of the prototypical dimer, epicatechin-4α,8-epicatechin (6), by reaction of the protected 4-ketones 11a,b with aryllithium reagents derived by halogen/metal exchange from the awl bromides 26a,b. Removal of the 4-hydroxyl group from the resulting tertiary benzylic alcohols 27a,b was effected by tri-n-butyltin hydride and trifluoroacetic acid in a completely stereoselective manner, resulting in hydride delivery exclusively from the β face. If benzyl was chosen for protection of the 3-hydroxyls, all protective groups could subsequently be removed in a single step by hydrogenolysis, tert-Butyldimethylsilyl groups, on the other hand, permitted selective deprotection of the 3-hydroxyls in preparation for their subsequent acylation with tri-O-benzylgalloyl chloride. Only monogalloylation at the "bottom" 3-hydroxyl took place when 28c was acylated under the previously reported conditions, reflecting the increased steric hindrance of the "top" 3-hydroxyl group in 28c compared with its 4β,8-isomer 3. The preparation of compounds 14 and 17 containing phloroglucinol trimethyl ether in the 4α and 4β linkages to epicatechin is also described. The 8-position of the bromine atom in 19, previously conjectured in analogy to the structurally characterized tetramethyl ether 20, was confirmed by transformation of both compounds into the common derivative 25.
