References
- Anonymous, In the Wealth of India. A Dictionary of Indian Raw Materials and Industrial Products, Publication and Information Directorate, CSIR, New Delhi; 1998;8:120.
- Pant S, Samant SS. Ethanobotanical observation in the Mornaula Reserve Forest of Kumoun, West Himalaya, India Ethanobotanical Leaflets. 2010;14:193.
- Upadhye AS, Rajopadly AA. Pharmacogonostic and phytochemical evaluation of leaf galls of Kakadshringi used in Indian system of medicine. Journal of Scientific and Industrial Research 2010;69:700.
- Uddin G, Rauf A, Rehman T, Qaisar M. Phytochemical Screening of Pistacia chinensis var. integerrima. Middle-East Journal of Scientific Research 2011;7:5:707–711.
- Ahmad NS, Farman M, Najmi MH, Mian KB, Hasan A. Pharmacological basis for use of Pistacia integerrima leaves in hyperuricemia and gout. j Ethnopharmacol 2008;117:478–482.
- Ahmad NS, Waheed A, Farman M, Qayyum A. Analgesic and anti-inflammatory effects of Pistacia integerrima extracts in mice. J Ethnopharmacol 2010;129:250–253.
- Chopra RN, Chopra IC, Handa KL, Kapoor LD. In Indigenous Drugs of India; 2 ed.; Academic Publishers: Delhi 1982;377.
- Ansari SH, Ali M, Qadry JS. Essential oils of Pistacia integerrima galls and their effects on the central nervous system. International Journal of Pharmacognosy 1993;31:89–95.
- Ansari SH, Ali M, Qadry JS, Siddiqui N. Update Ayurveda 1994a;94:73.
- Kolar D, Wimmerova L, Kadek R. Acetylcholinesterase and butyrylcholinesterase inhibitory activities of Berberis vulgaris. Phytopharmacol 2010;1:7–11.
- White G, Bourbonnais-Spear N, Garner F. Antibacterial constituents from Uncaria tomentosa. Phytopharmacol 2011;1:16–19.
- Song MJ, Lee SM, Kim DK. Antidiabetic effect of Chenopodium ambrosioides. Phytopharmacol 2011;1:12–15.
- Johns T, Windust A, Jurgens T, Mansor SM. Antimalarial alkaloids isolated from Annona squamosa. Phytopharmacol 2011;1:49–53.
- Araruna K, Carlos B. Anti-inflammatory activities of triterpene lactones from Lactuca sativa. Phytopharmacol, 2010;1:1–6.
- Arfan M, Rauf A, Tahir MN, Ali M, Uddin G. 3-Methyl-6-(4,4,10,13,14-pentamethyl-3-oxo 2,3,4,5,6,7,10,11,12,13,14,15,16,-17-tetradecahydro-1H-cyclopenta[a] phenanthren-17-yl)hept-2-enoic acid. Acta Cryst 2011;E67:711.
- Khan MF Rehman FU, Khan I, Khan GM, Khan H. Antibacterial, antimalarial and leishmanicidal activities of Binuclear Ni(II) and Cu(II) Complexes of Diclofenac. Journal of the Pakistan Chemical Society 2010;32:462–466.
- Saeed M, Khan H, Khan MA, Simjee SU, Muhammad N, Khan SA. Phytotoxic, insecticidal and leishmanicidal activities of aerial parts of Polygonatum verticillatum. African Journal of Biotechnology 2010;9:1241–1244.
- Khademvatan S, Gharavi MJ, Rahim F, Saki J. Miltefosine-induced apoptotic cell death on Leishmania major and L. tropica strains. Korean j Parasitol 2011;49:17–23.
- Khan I, Nisar M, Khan N, Saeed M, Nadeem S, Fazal-ur-Rehman et al. Structural insights to investigate Conypododiol as a dual cholinesterase inhibitor from Asparagus adscendens. Fitoterapia 2010;81:1020–1025.
- Rahman AU, Samreen AW, Choudhary MI. Discovery of leishmanicidal agents from medicinal plants. Pure and Applied Chemistry 2008;80:1783–1790.
- Tiwari S, Bala M. Hippophae leaves prevent immunosuppression and inflammation in 60Co-γ-irradiated mice. Phytopharmacology 2011;1:36–48.