INTRODUCTION: Brassica napus L. is a crop widely grown for its oil production and other nutritional components in the seed. In addition to the seed, other organs contain a wide range of phenolic metabolites although they have not been investigated to the same extent as in seeds. OBJECTIVE: To define and compare the phytochemical composition of B. napus L. organs, namely the root, stem, leaf, inflorescence and seeds. METHOD: Non-targeted metabolomic analysis via UPLC-QTOF-MS was utilised in order to localise compounds belonging to various chemical classes (i.e. oxygenated fatty acids, flavonols, phenolic acids and sinapoyl choline derivatives). RESULTS: The vast majority of identified metabolites were flavonol glycosides that accumulated in most of the plant organs. Whereas other classes were detected predominantly in specific organs, i.e. sinapoyl cholines were present uniquely in seeds. Furthermore, variation in the accumulation pattern of metabolites from the same class was observed, particularly in the case of quercetin, kaempferol and isorhamnetin flavonols. Anti-oxidant activity, based on 2,2-diphenyl-1-picrylhdrazyl analysis was observed for all extracts, and correlated to some extent with total flavonoid content. CONCLUSION: This study provides the most complete map for polyphenol composition in B. napus L. organs. By describing the metabolites profile in B. napus L., this study provides the basis for future investigations of seeds for potential health and/or medicinal use.
INTRODUCTION:Brassica napus L. is a crop widely grown for its oil production and other nutritional components in the seed. In addition to the seed, other organs contain a wide range of phenolic metabolites although they have not been investigated to the same extent as in seeds. OBJECTIVE: To define and compare the phytochemical composition of B. napus L. organs, namely the root, stem, leaf, inflorescence and seeds. METHOD: Non-targeted metabolomic analysis via UPLC-QTOF-MS was utilised in order to localise compounds belonging to various chemical classes (i.e. oxygenated fatty acids, flavonols, phenolic acids and sinapoyl choline derivatives). RESULTS: The vast majority of identified metabolites were flavonol glycosides that accumulated in most of the plant organs. Whereas other classes were detected predominantly in specific organs, i.e. sinapoyl cholines were present uniquely in seeds. Furthermore, variation in the accumulation pattern of metabolites from the same class was observed, particularly in the case of quercetin, kaempferol and isorhamnetinflavonols. Anti-oxidant activity, based on 2,2-diphenyl-1-picrylhdrazyl analysis was observed for all extracts, and correlated to some extent with total flavonoid content. CONCLUSION: This study provides the most complete map for polyphenol composition in B. napus L. organs. By describing the metabolites profile in B. napus L., this study provides the basis for future investigations of seeds for potential health and/or medicinal use.
Authors: Mohamed A Farag; Ahlam M El Fishawy; Sayed A El-Toumy; Khadiga F Amer; Ahmed M Mansour; Hala E Taha Journal: Pharmacogn Mag Date: 2016-07 Impact factor: 1.085
Authors: Mohamed A Farag; Sara E Ali; Rashad H Hodaya; Hesham R El-Seedi; Haider N Sultani; Annegret Laub; Tarek F Eissa; Fouad O F Abou-Zaid; Ludger A Wessjohann Journal: Molecules Date: 2017-05-08 Impact factor: 4.411
Authors: Abdelsamed I Elshamy; Abdel Razik H Farrag; Iriny M Ayoub; Karam A Mahdy; Rehab F Taher; Abd El-Nasser G Ei Gendy; Tarik A Mohamed; Salim S Al-Rejaie; Yasser A Ei-Amier; Ahmed M Abd-EIGawad; Mohamed A Farag Journal: Molecules Date: 2020-09-15 Impact factor: 4.411