69119-45-5Relevant academic research and scientific papers
Hydroxylation of ring A of flavan-3-ols: Influence of the ring A substitution pattern on the oxidative rearrangement of 6-hydroxyflavan-3-ols
Boyer, Francois-Didier,Beauhaire, Josiane,Martin, Marie Therese,Ducrot, Paul-Henri
, p. 3250 - 3260 (2008/09/16)
A general procedure for the oxidation of catechin derivatives is described, leading to the introduction of a new hydroxyl group at C-6. This procedure has been used for the synthesis of a number of 6-hydroxy flavan-3-ols, including elephantorrhizol, a natural flavan-3-ol exhibiting a fully substituted A ring. The substitution at C-8, albeit of poor influence on the course of this oxidation reaction, has been demonstrated to be preponderant for the further spontaneous oxidation and rearrangement of 6-hydroxy-flavan-3-ols into p-benzoquinones. The whole procedure allows the preparation of 6-alkyl substituted benzoquinones derived from catechin. Georg Thieme Verlag Stuttgart.
Synthesis of Condensed Tannins. Part 3. Chemical Shifts for Determining the 6- and 8-Bonding Positions of 'Terminal' (+)-Catechin Units
Hundt, Hans K. L.,Roux, David G.
, p. 1227 - 1234 (2007/10/02)
Pairs of 6- and 8-functionalised (Br, OH, OAc, CO2Me, and CH2Me groups) 3',4',5,7-tetra-O-methyl-(+)-catechins available through selective bromination and debromination reactions and hence via lithio-analogues, provide diagnostic chemical shifts of their
