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Bhusnure, O. G.
- Physicochemical Properties and Fatty Acid Composition in Lagerstroemia lanceolata Seed Oil
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1 Dept. of Pharmaceutical Chemistry, Maharashtra College of Pharmacy, Nilanga-413521, Dist. Latur (M.S.), IN
2 Dept. of Pharmaceutical Chemistry, K.L.E. Society's College of Pharmacy, J.N.M.C. Campous, Belgaum 5900010(K.S.), IN
1 Dept. of Pharmaceutical Chemistry, Maharashtra College of Pharmacy, Nilanga-413521, Dist. Latur (M.S.), IN
2 Dept. of Pharmaceutical Chemistry, K.L.E. Society's College of Pharmacy, J.N.M.C. Campous, Belgaum 5900010(K.S.), IN
Source
Research Journal of Pharmacology and Pharmacodynamics, Vol 2, No 3 (2010), Pagination: 252-254Abstract
In this study, the physicochemical properties and fatty acid composition of Lagerstroemia lanceolata wall (Nana) was investigated. Oil from the seeds of Lagerstroemia lanceolata wall was extracted with light petroleum ether as solvent. The ether extract was evaluated for physico-chemical properties, specific gravity, oil colour, refractive index, saponification value, unsaponifiable matter, acid value and iodine value. The fatty acid profile analysis of the oil was also carried out by Gas Liquid Chromatography (GLC), using two fatty acid methylating reagents, (trimethyl sulfonium hydroxide TMSH and sodium methylate). The stability of the oil was determined by induction period (IP) using (Rancimat test). The oil has five main fatty acids:Palmitic acid, Steric acid, Palmitolic acid, Oleic acid and Linoleic acid. Oleic acid (42.20%) is the primary component followed by Linoleic acid (24.80%), Palmitic acid (15.20%) and Stearic acid (6.10%). Oleic and linoleic acid are the principal component acids with (about 65% of the total fatty acids). Palmitolic acid was as the minor constituent which amounted only 3.80%.Keywords
Pt. Ether Extract, Oil, Physicochemical Properties, Fatty Acid Composition.References
- Barik BR., Kund AB, J.Phytochemistry.1988, Vol. 27 (11): 3679-80.
- Ecobichon DJ, The basis of toxicology testing. RC press, New York, pp.1997, 43-86.
- Goyal MM, Kumar KU, J.Sci. Ind.Res., 1987,Vol.22 (1-4): 148-51.
- Graham A. K. and Graham S. A., Brittonia 1971, Vol. 23: 335.
- Graham S. A., Tobe. H. and Baas. P., Ann. Mo. Bot Gard. 1986:73.
- Graham SA,Weiman RL, Syst. Ecolo; J. Biochem. 1978, Vol.15 (4): 433-9.
- Shorland F. B., Chern/cal Plant Taxonomy,. Academic Press. Edn 3rd New Yorlk, 1963:253.
- Stumpf. P. K., Tevini M., Uchtenthaler. H. K, 19nl in lipidS and Lipid Polymers in Higher Plams, Springer, Berlin, 1975: 75.
- AOAC. Official Methods of Analysis of the Association of Analytical Chemist. Ed.13th. William Horwitz ed. WashingtonD.C. 1980; Pp.56-132.
- Aguilera MC, Ramirez-Tortosa MC, Mesa MD, Gil A , Do MUFA and PUFA have beneficial effects on development of cardiovascular disease. In: Pandai SG (eds) Recent research developments in lipids (advances in lipid research), 2000:369-390.