Antioxidant Potential of the Extracts, Fractions and Oils Derived from Oilseeds

被引：27

作者：

Ishtiaque, Shagufta ^{[1
]}

Khan, Nasir ^{[2
]}

Siddiqui, Muhammad A. ^{[2
]}

Siddiqi, Rahmanullah ^{[2
]}

Naz, Shahina ^{[2
]}

机构：

[1] Univ Karachi, Dept Chem Engn, Karachi 75270, Pakistan

[2] Univ Karachi, Dept Food Sci & Technol, Karachi 75270, Pakistan

来源：

ANTIOXIDANTS | 2013年 / 2卷 / 04期

关键词：

antioxidant activity; polyphenols; ajwain; fenugreek; poppy; mustard; seed oil;

D O I：

10.3390/antiox2040246

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

The polyphenolic extracts and oils were obtained from ajwain, mustard, fenugreek and poppy seeds. The extracts were partitioned into acidic and neutral polyphenolic fractions and following estimation of total phenolics in the crude extract, acidic and neutral fractions and oil, all were analyzed for their DPPH (2,2-diphenyl-1-picrylhydrazyl) scavenging potential, ferric reducing ability and chelating power. The highest amount of polyphenols was found in ajwain (8330 +/- 107), then in mustard seeds (2844 +/- 56.00) and in fenugreek (1130 +/- 29.00), and least in poppy seeds (937 +/- 18.52). The higher amounts of polyphenols were estimated in neutral fraction compared to acidic (p < 0.05). % Inhibition of DPPH by the crude extract and fractions of all oilseeds was quite significant, being higher for acidic than neutral. The highest % DPPH inhibition was shown by ajwain extract than mustard > fenugreek and least by poppy seed extracts (p < 0.05). The reducing power and the chelating effect of the oilseeds followed the same order as DPPH, but higher % chelation was shown by neutral than acidic fraction (p < 0.05). Though low in polyphenols, the oil fractions were as strong antioxidants as the acidic one. Though oilseeds are used in very small quantity in food, they are potential sources of natural antioxidants and may replace synthetic ones.

引用

页码：246 / 256

页数：11

共 37 条

[11]

Uttara B., Singh A.V., Zamboni P., Mahajan R.T., Oxidative stress and neurodegenerative Diseases: A review of upstream and downstream antioxidant therapeutic options, Curr. Neuropharmacol., 7, pp. 65-74, (2009)

[12]

Pan X.D., Zhu Y.G., Lin N., Zhang J., Ye Q.Y., Huang H.P., Chen X.C., Microglial phagocytosis induced by fibrillar β-amyloid is attenuated by oligomeric β-amyloid: Implications for Alzheimer’s disease, Mol. Neurodegener., 30, pp. 45-62, (2011)

[13]

Floyd R.A., Towner R.A., He T., Hensley K., Maples K.R., Translational research involving oxidative stress and diseases of aging, Free Radic. Biol. Med., 51, pp. 931-941, (2011)

[14]

Li T., Hu W., Li J., Zhang X., Zhu J., Li X., Coating effects of tea polyphenols and rosemary extract combined with chitosan on the storage quality of large yellow croaker, Food Control, 25, pp. 101-106, (2012)

[15]

Naz S., Siddiqi R., Sayeed S.A., Effect of flavonoids on the stability of corn oil, Int. J. Food Sci. Technol., 43, pp. 1850-1854, (2008)

[16]

Baros S., Karsayova M., Jomova K., Gaspar A., Valko M., Free radical scavenging capacity of Papaver Somniferum L. And determination of pharmacologically active alkaloids using capillary electrophoresis, J. Microbiol. Biotechnol. Food Sci, 1, pp. 725-732, (2012)

[17]

Javed S., Shahid A.A., Haider M.S., Umeera A., Ahmad R., Mushtaq S., Nutritional, phytochemical potential and pharmacological evaluation of Nigella Sativa (Kalonji) and Trachyspermum Ammi (Ajwain), J. Med. Plant Res., 6, pp. 768-775, (2012)

[18]

Masood N., Chaudhry A., Tariq P., Vitro antibacterial activities of kalonji, cumin and poppy seed, Pak. J. Bot, 40, pp. 461-467, (2008)

[19]

Ranjan B., Manmohan S., Singh S.R., Singh R.B., Medicinal uses of Trachyspermum Ammi: A review, Pharma Res., 5, pp. 247-258, (2011)

[20]

Bukhari S.B., Bhanger M.I., Memon S., Antioxidative activity of extracts from fenugreek seeds (Trigonella Foenum-Graecum), Pak. J. Anal. Environ. Chem, 9, pp. 78-83, (2008)

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