The Effect of Aluminium on Antibacterial Properties and the Content of Some Fatty Acids in Microalgae, Chlorella vulgaris Beijernick, under Heterotrophic and Autotrophic Conditions
Subject Areas : Journal of Chemical Health Risks
Hossein Abbaspour
1
,
Sahar Soleymanian
2
1 - Department of Biology, Damghan Branch, Islamic Azad University, Damghan, Iran
2 - Department of Biology, Damghan Branch, Islamic Azad University, Damghan, Iran
Keywords:
Abstract :
1. Kay R.A., 1991. Microalgae as food and supplement, crit. Rev Food Sci Nutr. 30, 557-573.
2. Funk C.D., 2001. Prostaglandins and leukotrienes: Adv Eicosanoids Biol Sci. 294, 1871-1875.
3. Sayanova O.V., Napier J.A., 2004. Eicosapentaenoic acid: Biosynthesis routes and the potential for synthesis in transgenic plants. Phytochemistry. 65, 147-158.
4. Merchant R.E, Carmack C.A., Wise C.M., 2000. Nutritional supplementation with Chlorella pyrenoidosa for patients with fibromylagia syndrome: a pilot study. Phytother Res. 14(3), 167-173
5. Piorreck M., Baasch K.H., Pohl P., 1984. Biomass production, total protein, chlorophylls, lipids and fatty acids of freshwater green and blue-green algae under different nitrogen regimes. Phytochemistry. 23, 207-216.
6. Wen Z.Y., 2001. A High Yield and Productivity Strategy for Eicosapentaenoic Acid Production by the Diatom NitzschiaLaevis in Heterotrophic Culture.The University of Hong Kong, Hong Kong.
7. El-Sheekh M.M., Fathy A.A., 2009.Variation of some nutritional constituents and fatty acid profiles of Chlorella vulgaris beijerinck grown under auto and heterotrophic conditions. Int J Botany. 5(2), 153-159.
8. Metting B., Pyne J.W., 1986. Biologically active compounds from microalgae. Enzyme Microbiol Technol. 8, 386-394.
9. Pratt R., Daniels T.C., Eiler J.B., Gunnison J.B., Kumler W.D., 1944. Chlorellin, an antibacterial substance from Chlorella. Science. 99, 351-352.
10. Bligh E.G., Dyer W.J. 1959. A rapid method of total lipid extraction and purification. Can J Biochem Physio. 37(8), 911-917.
11. Miller J.D.A., 1962. Fats and steroids. In: Physiology and Biochemistry of the Algae. R.A. ILewin, ed. Academic Press, London and New York. 357-70.
12. Milner H.W., 1948. The fatty acids of Chlorella. J Biol Chem. 176, 813-17.
13. Nichols B., 1965. Light-induced changes in the lipids of Chlorell1 vtulgaris. Biochem Bioplhys Acta. 106, 274-79.
14. Rocchetta I., Mazzuc V., Carmen M.R., 2006. Effect of chromium on the fatty acid composition of two strains of Euglena gracili. Environ Pollut. 141, 353-358. DOI: 10.1016/j.envpol.2005.08.035
15. Afkar E., Ababna H. Fathi A.A., 2010. Toxicological Response of the Green Alga Chlorella vulgaris, to Some Heavy Metals. Am J Environ Sci. 6(3), 230-237.
16. Andersson M.E., Brunet J., 1993. Sensitivity to H and Al ions limiting growth and distribution of the woodland grass Bromus benekennii. Plant Soil. 153, 243-254.
17. Kinraide T.B., 1993. Aluminum enhancement of plant growth in acid rooting media. A case of reciprocal alleviation of toxicity by two toxic cations. Physiol Plant. 88, 619-625.
18. Clune T.S., Copeland L., 1999. E_ects of aluminium on canola roots. Plant Soil. 216, 27-33.
19. Ordog V., Stirk W.A., Lenobel R., Bancirova M., Strand M., Van Standen J., 2004. Screening microalgae for some potentially useful agricultural and pharmaceutical secondary metabolites. J Applied Phycol. 16, 309-314.
20. Ghasemi Y., Yazdi M.T., Shokravi Sh., Soltani N., Zarrini G., 2003. Antifungal and antibacterial activity of paddy fields Cyanobacteria from the North of Iran. J Sci Iran. 14, 203-209.
21. Schlegel I., Doan N.T., De Chazol N., Smith G.D., 1999. Antibiotic activity of new cyanobacterial isolates from Australia and Asia against green algae and cyanobacteria. J Applied Phycol. 10, 471-479.
22. Patterson G.M.L., Baker K.K., Baldwin C.L., Bolis C.M., Caplan F.R., 1993. Antiviral activity of cultured blue-green algae (Cyanophyta). J Phycol. 29, 125-130.
23. Flores E., Wolk C.P., 1986. Production, by filamentous, nitrogen-fixing cyanobacteria, of a bacteriocin and of other antibiotics that kill related strains. Arch Microbiol. 145, 215-219.
24. Petkov G., Garcia G., 2007. Which are fatty acids of the green alga Chlorella? Biochem Syst Ecol. 35, 281-285.
25. Dickson L.G., Galloway R.A., Patterson G.W., 1969. Environmentally-Induced Changes in the Fatty Acids of Chlorellala .Plant Pliysiol. 41, 1413-1416.
26. Spoehr H.A. Milner H.W., 1949. Theclhemical composition of Chlorella; effect of environmental conditions. Plant Physiol. 24, 12-49.
27. Sorokin C., 1965. Carbon dioxide and cell division. Nature. 206, 35-37.
