Peer-Reviewed Journal Details
Mandatory Fields
McCarthy, FO,Chopra, J,Ford, A,Hogan, SA,Kerry, JP,O'Brien, NM,Ryan, E,Maguire, AR;
2005
May
Organic and Biomolecular Chemistry
Synthesis, isolation and characterisation of beta-sitosterol and beta-sitosterol oxide derivatives
Validated
()
Optional Fields
OXIDATION-PRODUCTS CHROMATOGRAPHIC SEPARATION MASS-SPECTROMETRY STEROL SYNTHESIS HIGHER-PLANTS PHYTOSTEROLS CHOLESTEROL RATS OXYPHYTOSTEROLS ATHEROSCLEROSIS
3
3059
3065

beta-Sitosterol is the most prevalent plant cholesterol derivative (phytosterol) and can undergo similar oxidation to cholesterol, leading to beta-sitosterol oxides. The biological impact of phytosterol oxides has only been evaluated in a phytosterol blend (usually of beta-sitosterol, campesterol, stigmasterol and dihydrobrassicasterol). The lack of pure phytosterols, including beta-sitosterol, hinders the collection of significant toxicity data on the individual beta-sitosterol oxides. An efficient synthetic route to multi-gram quantities of pure beta-sitosterol is described here, together with the first syntheses and characterisation of pure beta-sitosterol oxides.

DOI 10.1093/b505069c
Grant Details