HPTLC Fingerprint Profile of Leaf Extracts of Pongamia pinnata (L.) Pierre
DOI:
https://doi.org/10.48165/Keywords:
Caesalpiniaceae, Pongamia pinnata (L.) Pierre, HPTLCAbstract
Thin layer chromatography which involves separation of different components, HPTLC is help in better resolution of compounds with lower limits of detection and quantifies separated components with the use of an integrated software platform .Pongamia pinnata (L.) Pierre is a Fabaceae tree from family Papilionaceae found in this region, all plant parts such as root leaves and stem flower and seeds used in traditional medicine. Leaves are also having medicinal properties. Attempts have been made to study complete profile of leaf extract by using High performance thin layer chromatography. The densitometric analysis shows fingerprinting, RF value, peaks of densitogram and chemical variation, this technique is useful for drug identification, adulteration, and also acts as biomarker in plant industry.
Downloads
References
. Chaudhay Ranjit R (2008) Herbal Medicine for human health Regional publication SEARO.
. Eike R. and Anne S. (2006). HPTLC for the analysis of medicinal plants. The analysis of medicinal plants. Theime Medical Publishers Inc, New York, 175-192
. Harborne, J.B. (1998) Textbook of Phytochemical Methods. A Guide to Modern Techniques of Plant Analysis. 5th Edition, Chapman and Hall Ltd, London, 21-7
. Joy P.P., Thomas J., Mathew S., and Skaria B.P. (1998). Medicinal Plants. Kerala India: Agricultural university research station publishers. p.73.
. Khandelwal K.R., (2005). Practical pharmacognosy technique and experiments. 23rd Ed. Nirali Prakashan, p.25.
. Kirtikar K.R. and Basu B.D. (1995). Indian Medicinal Plants. Vol. 1, International book distributors, Dehardun, India, pp. 830-832.
. Deepanjan M. Pandya B., Arora A., and Dhara S. (2004). Potential use of karanjin (3-methoxy furano-2′,3′,7,8- flavone) as a nitrification inhibitor in different soil types. Archives of Agronomy and Soil Science. 50 (4–5), 455.
. Maurya R., Ahmad G., and Yadav P.P. (2004) Furanoflavonoid glycosides from Pongamia pinnata fruits. Phytochemistry. 65, 921–4.
. Punitha R. and Manoharan S. (2006). Antihyperglycemic and antilipidperoxidative effects of Pongamia pinnata (linn.) Pierre owers in alloxan induced diabetic. J Ethon Pharmacol 105, 39-46.
. Pawar R.K., Sharma S., Shing K.C. & Sharma Rajeev K.V. (2011). Physico chemical standardisation and development HPTLC metho for the determination of Andrographonin in Kalmgh Navyas Loha. An Ayurvedic Formulation int. Jour. Research in Ayurvedic and Pharmacy, 2(1), 295-301.
. Sajid Z.I.., Anwar F., Shabir G., Rasul G., Alkharfy K.M., and Gilani K.H. (2012). Antioxidant, Antimicrobial Properties and Phenolics of Different Solvent Extracts from Bark, Leaves and Seeds of Pongamia pinnata (L.) Pierre. Molecules. 17, 3917–3932
. Shameel S., Usmanghani K., Ali M.S. (1996). Chemical constituents from seeds of Pongamia pinnata (L.) Pierre. Pak J Pharm Sci, 9, 11-20.
. Tanaka T., Iinuma M., Yuki K., Fujii Y., and Mizuno M. (2002). Flavonoids in root bark of Pongamia pinnata. Phytochemistry, 31, 993- 998
. WHO (1989). Quality control Method for Medicinal plants Materials WHO Geneva, pp.1-15
. Khandelwal KR. (2008). Practical Pharmacognosy, 19th ed. Nirali Prakashan, Pune, India, pp. 49–70.
. Tambekar D.H., Khante B.S., Dahikar S.B., and Banginwar Y.S. (2007). Antibacterial properties of contents of Triphala; An Traditional Indian Herbal Preparations. Continental j. Microbiol. 1(3), 8-12.
. Wagner H., Baldt S., Zgainski E.M. (1998). Plant drug analysis, Barlin: springer.
Downloads
Published
Issue
Section
How to Cite
