World Literature on Medicinal Plants from Pankaj Oudhia’s Medicinal Plant Database -30

World Literature on Medicinal Plants from Pankaj Oudhia’s Medicinal Plant Database -30

World Literature on Medicinal Plants Quoted/Consulted/Modified/Improved/Discussed/Used/Corrected in Pankaj Oudhia’s Medicinal Plant Database.

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Adeewunmi, C.O., B.O. Oguntimein and P. Furu, 1990. Molluscicidal and
antischistosomal activities of  Zingiber officinale.  Planta Med.,  56:
374–6.
Akhtar, M.S., Z. Iqbal, M.N. Khan and M. Lateef, 2000. Anthelmintic
activity of medicinal plants with particular reference to their use in
animals in Indo–Pakistan subcontinent. Small Rumin. Res., 38: 99–
107.
Bradley, P.R., (Ed.,) 1992. British Herbal Compendium, Vol 1, pp: 112–4.
British Herbal Medicine Association, Bournemouth, Dorset, UK. 
Chopra, R.N., I.C. Chopra, K.L. Handa and L.D. Kapur, 1958. Chopra’s
Indigenous Drugs of India, p. 303. U.N. Dhur & Sons (P) Ltd.,
Calcutta, India.
Chopra, R.N., S.L. Nayyar and I.C. Chopra, 1956.  Glossary of Indian
Medicinal Plants, 160 pp. Council of Scientific and Industrial
Research, New Delhi.
Datta, A. and N.C. Sukul, 1987. Antifilarial effect of Zingiber officinale on
Dirofilaria immitis. J. Helminthol., 61: 268–70.
de Amorin A., H.R. Borba, J.P. Carauta, D. Lopes and M.A. Kaplan, 1999.
Anthelmintic activity of the latex of Ficus species.  J.
Ethnopharmacol., 64: 255–8.
Goto, C., S. Kasuya, K. Koga, H.  Ohtomo and N. Kagei, 1990. Lethal
efficacy of extract from  Zingiber officinale (traditional Chinese
medicine) or [6]-shogaol and [6]-gingerol in Anisakis larvae in vitro.
Parasitol. Res., 76: 653–56.
Hansson, A., G. Veliz, C. Naquira, M. Amren, M. Arroyo and G. Arevalo,
1986. Preclinical and clinical studies with latex from Ficus glabrata
HBK, a traditional intestinal anthelminthic in the Amazonian area. J.
Ethnopharmacol., 17: 105–38.
Hoppe, H.A., 1975. Drogenkunde, Vol. I, Angiosperms, 8th Ed., Walter De
Gruyter, Berlin.
Hughes, B.G. and L.D. Lawson, 1991. Antimicrobial effects of  Allium
sativum L. (garlic), Allium ampeloprasum L. (elephant garlic) and
Allium cepa L. (onion), garlic compounds and commercial garlic
supplement products. Phytother. Res., 5: 154–8.
Jackson, F., 1993. Anthelmintic resistance — the state of play. British Vet.
J., 149: 123–38.
Kalesaraj, R., 1974. Screening of some indigenous plants for anthelmintic
action against human  Ascaris lumbricoides.  Indian J. Physiol.
Pharmacol., 18: 129–31.
Kalesaraj, R., 1975. Screening of some indigenous plants for anthelmintic
action against human Ascaris lumbricoides. Part II. Indian J. Physiol.
Pharmacol., 19: 47–9.
Kaushik, R.K., J.C. Katiyar and A.B. Sen, 1981. A new in vitro screening
technique for anthelmintic activity using  Ascaridia galli as a test
parasite. Indian J. Anim. Sci., 51: 869–72.
Kirtikar, K.R. and B.D. Basu, 1981. Indian medicinal Plants, Part II, Indian
Press.
Kleijnen, J., P. Knipschild and G. Ter Riet, 1989. Garlic, onion and
cardiovascular risk factors: A review of the evidence from human
experiments with emphasis on commercially available preparations.
British J. Clin. Pharmacol., 28: 535–44.
Koch, H.P. and L.D. Lawson, (Eds.), 1996.  Garlic: The Science and
Therapeutic Application of Allium sativaum L and Related Species,
2
nd
 Ed., pp: 62–4. Williams and Wilkins, Baltimore. 
Lewis, W.H. and M.P.H. Elvin- Lewis, 1977.  Medicinal Botany Plants
Affecting Man’s Health. John Wiley and Sons, New York.
Nadkarni, A.K., 1954. Indian Materia Medica, 3
rd
 Ed. Popular Prakashan,
Bombay, India.
Nadkarni, K.M., 1976.  Indian Materia Medica, Vol. I & II. Popular
Prakashan Private Limited, Bombay, India.
Perry, L.M., 1980.  Medicinal Plants of East and Southeast Asia. M.I.T.
Press, London.
Quian, D.S. and Z.S. Liu, 1992. Pharmacologic studies of antimotion
sickness actions of ginger [Chinese]. Chung Kuo Chung His Chieh
Ho Tsa Chih, 12: 95–98. 
Rolfe, P.F., 1997. Anthelmintic resistance in Australia, its development and
management. Proc. 4
th
 Intl. Cong. Sheep Vet., Armidale, Australia,
February 1997, pp: 51–8.
Said, M., 1969.  Hamdard Pharmacopea of Eastern Medicine. Hamdard
National Foundation, Karachi, Pakistan.
Sanyal, P.K., 1996. Gastrointestinal parasites and small ruminant production
in India.  In: LeJambre, L.F. and M.R. Knox (Eds),  Sustainable
Parasite Control in Small Ruminants. Proc. Workshop Bogor,
Indonesia, 22–25 April 1996, ACIAR Proceedings No. 74, 109–112. 
Satyavati, G.V., M.K. Raina and M. Sharma, 1976.  Medicinal Plants of
India. Vol. I, pp: 201–06. Indian Council of Medical Research, New
Delhi. 
Schavenberg, P. and F. Paris, 1977. Guide to Medicinal Plants. Lutterworth
Press, London.
Sharma, L.D., H.S. Bhaga and P.S. Srivastava, 1971. In vitro anthelmintic
screening of indigenous medicinal plants against  Haemonchus
contortus (Rudolphi, 1803) Cobbold, 1898 of sheep and goats.
Indian J. Anim. Res., 5: 33–8.
Shrivastava, M.C. and S.W. Singh, 1967. Anthelmintic activity of
Cucurbita maxima seeds. Indian J. Med. Res., 55: 629–32, 746–8.
Silagy, C. and A. Neil, 1994. A meta-analysis of the effect of garlic on
blood pressure. J. Hyperten., 12: 463–8.
Steenis-Kruseman, M.J.V., 1953.  Select Indonesian Medicinal Plants.
Organiz. Sci. Res. Indonesia Bull. 18, 31.   
Tyler, V.E., 1994.  Herbs of Choice: The Therapeutic Use of
Phytomedicinals, pp: 39–42. Pharmaceutical Products Press,
Binghamton, NY.  
van Wyk, J.A., F.S. Malan and J.L. Randles, 1997. How long before
resistance makes it impossible to control some field strains of
Haemonchus contortus  in South Africa with any of the modern
anthelmintics? Vet. Parasitol., 70: 111–22.
Waller, P.J., 1997. The global perspective of anthelmintic resistance in
nematode parasites of sheep — excluding Australasia. Proc. 4
th
 Intl.
Cong. Sheep Vet., Armidale, Australia, February 1997, pp: 59–63.
Waller, P.J., 1999. International approaches to the concept of integrated
control of nematode parasites of livestock. Int. J. Parasitol., 29: 155–
64.
1. Choudhary GP. Evaluation of ethanolic extract of
Ficus religiosa bark on incision and excision
wounds in rats, Planta Indica , 2006 , 2(3) ,17-9.
2. Sreelekshmi R, Latha PG, Arafat MM, Shyamal S,
Shine VJ, Anuja GI, Suja SR and Rajasekharan S.
Anti-inflamatory, analgesic and anti-lipid
peroxidation studies on stem bark of  Ficus
religiosa Linn,  Natural Product Radiance,2007,
6(5) , 377-81.
3. Warrier PK, Nambiar VPK, Ramankutty C. Indian
Medicinal Plants. Vol-, Madras: Orient Longman
Ltd; 1995, 38p.
4. Morton JJP, Malone MH. Evaluation of vulnerary
activity by an open wound procedure in rats, Arch
Int Pharmacodyne , 1997, 196 ,  117-26.
5. Ehrilch HP, Hunt TK. Effect of cortisone anabolic
steroids on the tensile strength of healing wounds,
Br J Surg 1969 ,  170 , 203-06.
6. Phillips RA, Whitehe and Kinghton R. Initiation
and pattern of angiogenesis in wound healing in the
rat. American Journal of Anatomy,  1991,  192 , 
257-62 . 
7. Hatapakki BC, Hukkeri V, Patil DN, Chavan MJ.
Wound healing activity of aerial parts of Merremia
tridentata . Indian Drugs,  2004 ,  41 , 532.  
8. Mankani KL, Krishna V, Singh JSD, Manjunath
BK, Vidya SM, Manohara YN. Evaluation of
wound healing activity of the stem bark of
Diospyros cordifolia . Indian Drugs 2004 , 41 , 628
9. Khan M, Patil PA, Shobha JC. Influence of
Bryophyllum pinnatum leaf extract on wound
healing in albino rats, J Natural Remedies,  2004 , 
4 ,  41.
Anoop A, Jegadeesan M (2003). Biochemical studies on the antiulcerogenic potential of Hemidesmus indicus R. Br. Var. indicus. J.
Ethnopharmacol., 84: 149-156.
Bandyopadhyay D, Biswas K, Bhattacharyya m, Reiter RJ, Banerjee RK
(2002). Involvement of reactive oxygen species in gastric ulceration:
Protection by melatonin. Indian J. Exp. Biol., 40: 693-705.
Bighetti AE, Antonio MA, Kohn LK, Rehder VLG, Foglio MA, Possenti A,
Vilela L, Carvalho JE (2005). Antiulcerogenic activity of a crude
hydroalcoholic extract and coumarin isolated from Mikania laevigata
Schultz Bip. Phytomed., 12: 72-77.
Borrelli F, Izzo AA (2000). The plant kingdom as a source of anti-ulcer
remedies. Phytother. Res., 14: 581-591.
Cheng CL, Koo MWL (2000). Effect of Centella asiatica on ethanol
induced gastric mucosal lesions in rats. Life Sci., 67: 2647-2653.
Choudhary GP (2006). Evaluation of ethanolic extract of Ficus religiosa
bark on incision and excision wounds in rats. Planta Indica, 2(3): 17-
19.
Dharmani P, Mishra PK, Maurya R, Chauhan VS, Palit G (2005).
Allophylus serratus: A plant with potential anti-ulcerogenic activity. J.
Ethnopharmacol., 99: 361-366.
Dharmani P, Palit G (2006). Exploring Indian medicinal plants for
antiulcer activity. Indian J. Pharmacol., 35: 95-99.
Feldman M, Burton ME (1990). Histamine2-Receptor Antagonists —
Standard Therapy for Acid-Peptic Diseases. N. Engl. J. Med., 323:
1672-1680.
Franko TG, Richter JE (1998). Proton-pump inhibitors for gastric acidrelated disease. Cleve. Clin. J. Med., 65: 27-34.
Gregory M, Vithalrao KP, Franklin G, Kalaichelavan V (2009). Anti-ulcer
(ulcer-preventive) activity of Ficus arnottiana Miq. (Moraceae) leaf
methanolic extract. Am. J. Pharmacol. Toxicol., 4(3): 89-93.
Gülcin I, Küfrevioglu ÖI, Oktay M, Büyükokuroglu ME (2004).
Antioxidant, antimicrobial, antiulcer and analgesic activities of nettle
(Urtica dioica L.). J. Ethnopharmacol., 90(2-3): 205-215.
Gupta SK (2005). Drug Screening Methods. Jaypee Brothers Medical
Publishers, New Delhi, India, pp. 175-176.
Iqbal Z, Nadeem QK, Khan MN, Akhtar MS, Waraich FN (2001). In vitro
anthelmintic activity of Allium sativum, Zingiber officinale, Curcurbita
mexicana and Ficus religiosa. Int. J. Agric. Biol., 3(4): 454-457.
Jain NK, Kulkarni SK, Singh A (2002). Modulation of NSAID-induced
antinociceptive and anti-inflammatory effects by 2- adrenoceptor
agonists with gastro protective effects. Life Sci., 70: 2857-2869.
Joy PP, Thomas J, Matthew S, Skaria BP (1998). Medicinal Plants.
Kerala Agricultural University, Kerala, India, pp. 3-8.
Jung HW, Son HY, Minh CV, Kim YH, Park YK (2008). Methanol extract
of Ficus leaf inhibits the production of nitric oxide and
proinflammatory cytokines in LPS-stimulated microglia via the MAPK
pathway. Phytother. Res., 22(8): 1064-1069.
Kaur H, Singh D, Singh B, Goel RK (2010). Anti-amnesic effect of Ficus
religiosa in scopolamine-induced anterograde and retrograde
amnesia. Pharmaceut. Biol., 48(2): 234-240.
Khare S, Asad M, Dhamanigi SS, Satya Prasad V (2008). Antiulcer
activity of cod liver oil in rats. Ind. J. Pharmacol., 40(5): 209-214.
Kirana H, Agrawal SS, Srinivasan BP (2009). Aqueous extract of Ficus
religiosa Linn. Reduces oxidative stress in experimentally induced
type 2 diabetic rats. Indian J. Exp. Biol., 47: 822-826.
Krishanti MP, Rathinam X, Kasi M, Ayyalu D, Surash R, Sadasivam K,
Subramaniam S (2010). A comparative study on the antioxidant
activity of methanolic leaf extracts of Ficus religiosa L, Chromolaena
odorata (L.) King & Rabinson, Cynodon dactylon (L.) Pers. and
Tridax procumbens L. Asian Pac. J. Trop. Med., 3(5): 348-350.
Kulkarni SK (2005). Hand Book of Experimental Pharmacology, 3rd
Edition, Vallabh Prakashan, Hilton and Company, Kolkata, p. 149.
Madhava Chetty K, Sivaji K, Tulasi Rao K (2008). Flowering plants of
Chittor District, Andhra. Pradesh, India, pp. 330-333.
Muralidharan P, Srikanth J (2009). Antiulcer activity of Morinda Citrifolia
Linn fruit extract. J. Sci. Res., 1(2): 345-352.
Nair R, Chanda SV (2007). Antibacterial Activities of Some Medicinal
Plants of the Western Region of India. Turk. J. Biol., 31: 231-236.
OECD Guidelines for the Testing of Chemicals (2010). Test no. 423:
Acute oral toxicity –Acute Toxic Class Method, 1(4): 1-14.
Oktay M, Gülcin I, Küfrevioglu OI (2003). Determination of in vitro
antioxidant activity of fennel (Foeniculum vulgare) seed extracts.
Food Sci. Technol. LEB, 36(2): 263-271.
Pandit R, Phadke A, Jagtap A (2010). Antidiabetic effect of Ficus
religiosa extract in streptozotocin-induced diabetic rats. J.
Ethnopharmacol., 128(2): 462-466.
Phillipson M, Atuma C, Henriksnas J, Holm A (2002). The importance of
mucus layers and bicarbonate transport in preservation of gastric
juxtamucosal pH. Am. J. Physiol. Gastrointest. Liver. Physiol., 282:
G211-G219.
Ravishankar B, Shukla VJ (2007). Indian systems of medicine: A brief
profile. Afr. J. Trad. CAM, 4(3): 319-337.
Rates SM (2001). Plants as source of drugs. Toxicon., 39: 603-613.
Reilly JP (1999). Safety profile of the proton-pump inhibitors. Am. J.
Health Syst. Pharm., 56(23): S11-S17.
Roy K, Shivakumar H, Sarkar S (2009). Wound healing potential of leaf
extracts of Ficus religiosa on Wistar albino strain rats. Int. J.
PharmTech. Res., 1(3): 506-508.
Shetty BV, Arjuman A, Jorapur A, Samanth R, Yadav SK, Valliammai N,
Tharian AD, Sudha K, Rao GM (2008). Effect of extract of Benincasa
hispida on oxidative stress in rats with indomethacin-induced gastric
ulcers. Indian J. Physiol. Pharmacol., 52(2): 178-182.
Shokunbi OS, Odetola AA (2008). Gastroprotective and antioxidant
activities of Phyllanthus amarus extracts on absolute ethanol-induced
ulcer in albino rats. J. Med. Plant. Res., 2(10): 261-267.
Singh D, Goel RK (2009). Anticonvulsant effect of Ficus religiosa: role
of serotonergic pathways. J. Ethnopharmacol., 123(2): 330-334.
Sreelekshmi R, Latha PG, Arafat MM, Shyamal S, Shine VJ, Anuja GI,
Suja SR, Rajasekharan S (2007). Anti-inflamatory, analgesic and
anti-lipid peroxidation studies on stem bark of Ficus religiosa Linn.
Nat. Prod. Radiance, 6(5): 377-381.
Swarnakar S, Ganguly K, Kundu P, Banerjee A, Maity P, Sharma AV
(2005). Curcumin regulates expression and activity of matrix
metalloprotinases 9 and 2 during prevention and healing of
indomethacin-induced gastric ulcer. J. Biol. Chem., 280: 9409-9415.
Taskeen A, Naeem I, Mubeen H, Mehmood T (2009). Reverse phase
high performance liquid chromatographic analysis of flavonoids in two
Ficus species. New York Sci. J., 2(5): 32-35.
Ubaka MC, Ukwe VC, Okoye CT, Adibe OM (2010). Investigation into
the anti-ulcer activity of the aqueous leaf extract of Aspilia africana
C.D. Adams. Asian J. Med. Sci., 2(2): 40-43.
Uma B, Prabhakar K, Rajendran S (2009). In vitro antimicrobial activity
and phytochemical analysis of Ficus religiosa L. and Ficus
bengalensis L. against diarrhoeal enterotoxigenic E. coli.
Ethnobotanical Leaflets, 13: 472-474.
Wallace JL (2008). Prostaglandins, NSAIDs, and gastric mucosal
protection: Why doesn't the stomach digest itself? Physiol. Rev., 88:
1547-1565.
1. Bacon, C.W. and D.M. Hinton, 2002. Endophytic
and biological control potential of Bacillus
mojavensis and related species. Biological Control,
23(3): 274-284.
2. Broughton, W.J. and M.J. Dilworth, 1971. Control
of leghaemoglobin synthesis in snake beans.
Biochem. J., 125: 1075–1080.
3. Cappuccino, J.G. and N. Sherman, 1992.
Microbiology: A Laboratory Manual. Benjamin/
cummings Pub. Co.
4. Carelli, M., S. Gnocchi, S. Fancelli, A. Mengoni,
D. Paffetti, C. Scotti and M. Bazzicalupo, 2000.
Genetic diversity and dynamics of Sinorhizobium
meliloti populations nodulating different alfalfa
cultivars in Italian soils. Appl. Environ. Microbiol.,
66(11): 4785-4789.
5. Conn, V.M. and C.M.M. Franco, 2004. Effect of
mic ro b ia l ino culants o n the ind igeno us
actinobacterial endophyte population in the roots of
wheat as determined by terminal restriction
fragment length polymorphism. Appl. Environ.
Microbiol., 70(11): 6407-6413.
6. Costacurta, A., V. Keijers and J. Vanderleyden,
1994. Molecular cloning and sequence analysis of
an Azospirillum brasilense indole-3-pyruvate
decarboxylase gene. Mol. Gen. Genet., 243:
463-472.
7. da Mota, F.F., A. Nobrega, I.E. Marriel, E. Paiva
and L. Seldin, 2002. Genetic diversity of
Paenibacillus polymyxa populations isolated from
the rhizosphere of four cultivars of maize (zea
mays) planted in Cerrado soil. Appl. Soil Ecol.,
20(2): 119-132.
8. Davies, P.J., 1995. The plant hormone concept:
concentration, sensitivity, and transport. In Plant
hormones: physiology, biochemistry and molecular
biology, Ed., Davies, P.J. Kluwer Academic
Publishers, 13-18.
9. de Bruijn, F.J., 1992. Use of repetitive (repetitive
extragenic palindromic and enterobacterial
intergenetic consensus) sequences and the
polymerase chain reaction to fingerprint the
genomes of Rhizobium meliloti isolates and other
soil bacteria. Appl. Environ. Microbiol., 58(7):
2180-2187.
10. Dong, Y., A.L. Iniguez, B.M.M. Ahmer and E.W.
Triplett, 2003. Kinetics and strain specificity of
rhizosphere and endophytic colonization by enteric
bacteria on seedlings of Medicago sativa and
Medicago truncatula. Appl. Environ. Microbiol.,
69(3): 1783-1790.
11. Elliot, E.T., R.V. Anderson, D.C. Coleman and
C.V. Cole, 1980. Habitable pore space and
microbial trophic interactions. Oikos, 35(3):
327-335.
12. Engelhard, M., T. Hurek and B. Reinhold-Hurek,
2000. Preferential occurrence of diazotrophic
endophytes, Azoarcus spp., in wild rice species and
land races of Oryza sativa in comparison with
modern races. Environ. Microbiol., 2(2): 131–141.
13. Fett, W.F., S.F. Osman and M.F. Dunn, 1987.
A u x i n p r o d u c tio n b y p l a n t- p a t h o g e n i c
pseudomonads and xanthomonads. Appl. Environ.
Microbiol., 53(8): 1839-1845.
14. Gordon, S.A. and R.P. Weber, 1951. Colorimetric
estimation of indole-acetic acid. Plant Physiol.,
26: 192-195.
15. Hunter, W.J., 1989. Indole-3-acetic acid production
by bacteroids from soybean root nodules.
Physiologia Plantarum, 76(1): 31-36.
16. Jameson, P.E., 2000. Cytokinins and auxins in
plant-pathogen interactions-an overview. Plant
Growth Regulation, 32(2-3): 369-380.
17. Kaksonen, A.H., M.M. Jussila, K. Lindström and
L. Suominen, 2006. Rhizosphere effect of Galega
orientalis in oil-contaminated soil. Soil Biol.
Biochem., 38(4): 817-827.
18. Kanazawa, S. and Z. Filip, 1986. Distribution of
microorganisms, total biomass, and enzyme
activities in different particles of brown soil.
Microbiol. Ecol., 12(2): 205-215.
19. Kandeler, E., D. Tscherko, K.D. Bruce, M.
Stemmer, P.J. Hobbs, R.D. Bardgett and W.
Amelung, 2000. Structure and function of the soil
microbial community in microhabitats of a heavy
metal polluted soil. Biol. Fertil. Soils, 32(5):
390-400.
20. Keele Jr. B.B., P.B. Hamilton and G.H. Elkan,
1969. Glucose catabolism in Rhizobium japonicum.
J. Bacteriol., 97(3): 1184-1191.
21. Kettler, T.A., J.W. Doran and T.L. Glibert, 2001.
Simp lified method for soil pa rtic le -siz e
determination to accompany soil-quality analyses.
Soil Sci. Soc. Am. J., 65: 849-852.
22. Killham, K., 1994. Soil Ecology. Cambridge
University Press.
23. Laguerre, G., P. Mavingui, M. Allard, M. Charnay,
P. Louvrier, S. Mazurier, L. Rigottier-Gois and N.
Amarger, 1996. Typing of rhizobia by PCR DNA
fingerprinting and PCR-restriction fragment length
polymorphism analysis of chromosomal and
symbiotic gene regions: Application to Rhizobium
leguminosarum and its different biovars. Appl.
Environ. Microbiol., 62(6): 2029-2036.
24. Lambrecht, M., Y. Okon, A.V. Broek and J.
Vanderleyden, 2000. Indole-3-acetic acid: a
reciprocal signaling molecule in bacteria-plant
interactions. Trends Microbiol., 8(7): 298-300.
25. Lane, D.J., 1991. 16S/23S rRNA sequencing. In
Nucleic acid techniques in bacterial systematics,
Eds., E. Stackebrandt. and M. Goodfellow. Wiley,
115-175.
26. Lupwayi, N.Z., G.W. Clayton, K.G. Hanson, W.A.
Rice and V.O. Biederbeck, 2004. Endophytic
rhizobia in barley, wheat and canola roots. Can J.
Plant Sci., 84(1): 37-45.
27. Miller, H.J., G. Henken and J.A. van Veen, 1989.
Variation and composition of bacterial population
in the rhizospheres of maize, wheat and grass
cultivars. Can J. Microbiol., 35(6): 656–660.
28. Morris, R.O., 1995. Molecular aspects of hormone
synthesis and action – genes specifying auxin and
cytokinin biosynthesis in prokaryotes. In Plant
hormones: physiology, biochemistry and molecular
biology, Ed., Davies, P.J. Kluwer Academic
Publishers, 318-339.
29. Niemann, S., A. Puhler, H.V. Tichy, R. Simon and
W. Selbitschka, 1997. Evaluation of the resolving
power of three different DNA fingerprinting
methods to discriminate among isolates of a
natural Rhizobium meliloti population. J. Appl.
Microbiol., 82(4): 477-484.
30. Nishiyama, M., Y. Shiomi, S. Suzuki and T.
Marumoto, 1999. Suppression of growth of
Ralstonia solanacearum, tomato bacterial wilt
agent, on/in tomato seedlings in a suppressive soil
in Japan. Soil Sci. Plant Nutr., 45: 79–87.
31. Nuntagij, A., M. Abe, T. Uchiumi, Y. Seki, N.
Boonkerd and S. Higashi, 1997. Characterization of
Bradyrhizobium strains isolated from soybean
cultivation in Thailand. J. Gen. Appl. Microbiol.,
43: 183-187.
32. Paffetti, D., C. Scotti, S. Gnocchi, S. Fancelli and
M. Bazzicalupo, 1996. Genetic diversity of an
Italian Rhizobium meliloti population from different
Medicago sativa varieties. Appl. Environ.
Microbiol., 62(7): 2279-2285.
33. Patten, C.L. and B.R. Glick, 1996. Bacterial
biosynthesis of indole-3-acetic acid. Can. J.
Microbiol., 42(3): 207-220.
34. Patten, C.L. and B.R. Glick, 2002. Role of
Pseudomonas putida indole acetic acid in
development of the host plant root system. Appl.
Environ. Microbiol., 68(8): 3795-3801.
35. Pongsilp, N. and A. Nuntagij, 2007. Selection and
characterization of mungbean root nodule bacteria
based on their growth and symbiotic ability in
alkaline conditions. Suranaree J. Sci. Technol.,
14(3): 277-286.
36. Pongsilp, N., N. Teaumroong, A. Nuntagij, N.
Boonkerd and M.J. Sadowsky, 2002. Genetic
structure of indigenous non-nodulating and
nodulating populations of Bradyrhizobium in
soils from Thailand. Symbiosis, 33: 39-58.
37. Postma J. and J.A. van Veen, 1990. Habitable pore
space and survival of Rhizobium leguminosarum
biovar trifolii introduced into soil. Microbiol. Ecol.,
19(2): 149-161.
38. Sabry, S.R.S., S.A. Saleh, C.A. Batchelor, J. Jones,
J. Jotham, G. Webster, S.L. Kothari, M.R. Davey
and E.C. Cocking, 1997. Endophytic establishment
of Azorhizobium caulinodans in wheat. Proceedings
of Royal Society of London B., 264: 341-346.
39. Sessitsch, A., A. Weilharter, M.H. Gerzabek, H.
Kirchmann and E. Kandeler, 2001. Microbial
population structures in soil particle size fractions
of a long-term fertilizer field experiment. Appl.
Environ. Microbiol., 67(9): 4215-4224.
40. Sharma, P.K., S. Sarita and J. Prell, 2005. Isolation
and characterization of an endophytic bacterium
related to Rhizobium/ Agrobacterium from wheat
(Triticum aestivum L.) roots. Curr. Sci., 89(4):
608-610.
41. Siciliano, S.D., H. Goldie, J.J. Germida, 1998.
Enzymatic activity in root exudates of Dahurian
wild rye (Elymus dauricus) that degrades 2-
chlorobenzoic acid. J. Agric. Food Chem., 46(1):
5–7.
42. Singh, R.K., R.P.N. Mishra and H.K. Jaiswal,
2006. Isolation and identification of natural
endophytic rhizobia from rice (Oryza sativa L.)
through rDNA PCR-RFLP and sequence analysis.
Curr. Microbiol., 52(2): 117–122.
43. Somasegaran, P. and H.J. Hoben, 1994. Handbook
for rhizobia: methods in legume-Rhizobium
technology. NIFTAL Project, University of Hawaii,
Paia.
44. van Gestel, M., R. Merckx and K. Vlassek, 1996.
Spatial distribution of microbial biomass in
microaggregates of a silty-loam soil and the
relation with the resistance of microorganisms to
soil drying. Soil Biol. Biochem., 28(4/5): 503-510.
45. van Peer, R., H.L.M. Punte, L.A. de Weger and B.
Schippers, 1990. Characterization of root surface
and endorhizosphere Pseudomonads in relation to
their colonization of roots. Appl. Environ.
Microbiol., 56(8): 2462-2470.
46. Versalovic, J., T. Koeuth and J.R. Lupski, 1991.
Distribution of repetitive DNA sequences in
eubacteria and application to fingerprinting of
bacterial genomes. Nucleic Acids Res., 19(24):
6823–6831.
47. Versalovic, J., M. Schneider, F.J. de Bruijn and
J.R. Lupski, 1994. Genomic fingerprinting of
bacteria using repetitive sequence-based polymerase
chain reaction. Meth. Mol. Cell Biol., 5: 25–40.
48. Yanni, Y.G., R.Y. Rizk, V. Corich, A. Squartini,
K. Ninke, S. Philip-Hollingsworth, G. Orgambide,
F.J. de Bruijn, J. Stoltzfus, D. Buckley, T.M.
Schmidt, P.F. Mateos, J.K. Ladha and F.B. Dazzo,
1997. Natural endophytic association between
Rhizobium leguminosarum bv. trifolii and rice roots
and assessment of its potential to promote rice
growth. Plant and Soil, 194(1): 99-114.
1. Choudhary GP: Evaluation of ethanolic extract of
Ficus religiosa bark on incision and excision wounds in
rats. Planta Indica 2006; 2(3) ,17-9.
2. Sreelekshmi R, Latha PG, Arafat MM, Shyamal S,
Shine VJ, Anuja GI, Suja SR and Rajasekharan S: Antiinflamatory, analgesic and anti-lipid peroxidation
studies on stem bark of Ficus religiosa Linn. Natural
Product Radiance 2007; 6(5), 377-81.
3. Warrier PK, Nambiar VPK, Ramankutty C: Indian
Medicinal Plants. Vol-1, Madras: Orient Longman Ltd;
1995, 38.
4. Kalyon Roy, H. Shivakumar, Sibaji Sarkar:  Wound
Healing Potential of Leaf Extracts of Ficus Religiosa on
Wistar albino strain rats. International Journal of
Pharm Tech Research, Vol.1, No.3, pp 506-508.
5. Prasad D. Rao CM: Wound healing activity of cyperus
rotundus linn. Indian J Pharm Sci 1995; 33:845.
6. Chitra P. Sajithal GB: Influence of Aloe vera on
Collagen turnover in healing of dermal wounds in
rats. Indian J Exp Biology 1998; 36:896.
7. Jaswanth A. Akilandeswari LV. Rukmani:  Wound
healing activity of Aegle marmelos. Indian J Pharm Sci
2001; 63:41.
8. Rang HP. Text book of pharmacology, International
Student edition, Churchill living stone 1995: 246.
9. Rekka E. Kourounakis PN: Effect of hydroxyethyl
rutosides and related compounds on lipid
peroxidation and free radical scavenging activity
Some structural aspects. J Pharm Pharmacol 1991;
43:486.
10. Morton JJP. Melon HM: Archives Internationales de
Pharmcodynamic et de Therapie 1972; 176:117.
11. Suguna L. Siva Kumar P. Chandrakaran G : Effect of
Centella asiatica extract in dermal wound healing in
rats. Indian J Exp Biology 1996; 34:1208-1211.
12. Lee KH: Studies on mechanism of action of
salycilates II, Effect of vitamin A on wound healing. J.
Pharmaceutical Sciences 1968; 1238-1240.
13. Ehrlich HP, Hunt TK: The effects of cortisone and
anabolic steroids on the tensile strength of healing
wounds. Ann Surg 1969; 170:203-6.
14. Dipasquale G, Meli A: Effect of body weight changes
on the formation of cotton pellet-induced
granuloma. J Pharm Pharmacol 1965; 17:379-82..
15. Woessner JF: The determination of hydroxyproline
in tissue samples. Arch Biochem 1961; 93:440. .
16. Yeo JH. Lee KW. Kim HC.  Lyuny K: Biology and
Pharmaceutical Bulletin 2000; 23:1220-1223.
17. Rao GV. Shiv Kuamr HG Parathasa RG: Indian J
Pharamcology 1996; 28:249-253.
18. Thomas CA, Rama Sarma GV: Analgesic and antiinflammatory activities of  Melia dubia bark. Indian
Drugs 1999; 6:203-5.
19. Duke JA.  Bogen Schutz-Godwain M. Ducellier JD:
Handbook of Medicinal herbs CRC press, London
2002.
20. Thripathy KP.  Rajasekaran A: Indian Drugs 2001;
38:426.
21.Tenni R. J:  Biochem 1988; 37:169-177
22.Sunitha S, Nagaraj M, Varalakshmi P:
Hepatoprotective effect of lupeol and lupeol
linoleate on tissue antioxidant defence system in
cadmium-induced hepatotoxicity in rats. Fitoterapia
2001, 72(5): 516-523.3.
1. Bhattacharjee SK. Handbook of Medicinal Plants. Pointer Pub,
Jaipur-03, India; 1998; pp. 1-6.
2. Zafar M, Iqbal A, Faiz M et al. Indian medicinal plants: a potential
source for anticandidal drugs.  J Ethnopharmacol 37: 237-242,
1999.
3. Vilegs JH, DeMarchi E, Lancas FM. Extraction of low polarity
compounds from Milania glomerata leaves. J  Phytochem Anal 8:
266-270, 1997.
4. Cheesbrough M. Medical Laboratory Manual for Tropical
Countries, Butterworth, Oxford, pp. 260, 2000.
5. Gordon MC, David JN. Natural product drug discovery in the next
millennium.   Pharm Biol   39: 8-17, 2001.
6. Nair R, Chanda S. Antibacterial activity of some medicinal plants
of Saurashtra region.  J Tissue Res 4: 117-120, 2004.
7. Martinez MJ, Betancourt J, Alonso-Gonzalez N et al. Screening of
some medicinal plants for antimicrobial activity. J
Ethnopharmacol 52: 171-174, 1996.
8. Kumarsamy Y, Cox PJ, Jaspars M et al. Screening seeds of
Scottish plants for antibacterial activity.  J Ethnopharmacol   83:
73-77, 2002.
9. Parekh J, Chanda S. Screening of aqueous and alcoholic extracts
of some Indian medicinal plants for antibacterial activity. Ind J
Pharma Sci 68: 835-838, 2006.
10. Sudharameshwari K, Radhika J. Antibacterial screening of Aegle
marmelos, Lawsonia inermis  and Albizzia libbeck. Afr J Trad
Comp Alt Med 4: 199-204, 2007.
11.  Samy PR, Ignacimuthu S. Antibacterial effects of the bark of
Terminalia arjuna: justification of folklore beliefs.  Pharm Biol 39:
417-420, 2001.
12. Shahidi Bonjar GH. Evaluation of antimicrobial properties of
Iranian medicinal plants against  Micrococcus luteus, Serratia
marcescens, Klebsiella pneumoniae and Bordetella bronchiseptica.
Asian J Plant Sci 3: 82-86, 2004.
13. Albinu I, Adenipekun T, Adelowotan T et al. Evaluation of the
antimicrobial properties of different parts of Citrus aurantifolia
(lime fruit) as used locally. Afr J Trad Comp Alt Med 4: 185-190,
2007.
14. Parekh J, Chanda S. In vitro antibacterial activity of the crude
methanol extract of  Woodfordia fruticosa Kurz flower
(Lythraceae).  Braz J Micro 38: 204-207, 2007.
15. Parekh J, Chanda S. In vitro antimicrobial activity of Trapa natans
L. fruit rind extracted in different solvents. Afrin J Biotech 6:
766-770, 2007.
16. Parekh J, Jadeja D, Chanda S. Efficacy of aqueous and methanol
extracts of some medicinal plants for potential antibacterial
activity.  Turk J Biol 29: 203-210, 2005.
17. Bauer AW, Kirby WMM, Sheriss JC et al. Antibiotic susceptibility
testing by a standardized single disk method.  Ame J Clin Pathol
45: 493-496, 1966.
18. Vaghasiya Y, Nair R, Chanda S. Investigation of some  Piper
species for antibacterial and anti-inflammatory property. Int J
Pharma (In Press), 2007.
19. Perez C, Paul M, Bazerque P. Antibiotic assay by agar well
diffusion method.  Acta  Bio Med Exp 15: 113-115, 1990.
20. Parekh J, Chanda S.  In vitro antimicrobial activity and
phytochemical analysis of some Indian medicinal plants.  Turk J
Biol 31: 53-58, 2007.
21. Nair R, Chanda S.   In vitro antimicrobial activity of  Psidium
guajava L. leaf extracts against clinically important pathogenic
microbial strains.  Braz J Microbiol 38: 452-458, 2007.
22. Yaghoubi SMJ, Ghorbani GR, Soleimanian Zad S. Antimicrobial
activity of Iranian propolis and its chemical composition.   DARU
15: 45-48, 2007.
23. Nair R, Chanda S. Assessment of antibacterial activity of Emblica
officinalis Gaertn leaf extract.  J Cell Tissue Res 6: 715-717,
2006.
[1] Arulmozhi. S. and Sathiya, N.L., Phcog. Rev., 2007, 1, 163-170.                                                     
[2] Ghani, A., Medicinal plants of Bangladesh with  chemical constituents and uses, Asiatic
Society of Bangladesh, Dhaka, 1998, 236.              
[3] Singh, D. and Goel, R.K., J. Ethanopharmacol., 2009, 123, 330-334.                                                
[4] Prasad, P.V., Subhaktha, P.K., Narayana, A. and Rao, M.M., Bull. Indian Inst. Hist. Med.
Hyderabad, 2006, 36, 1-20.
[5] Govindarajan, R., Pushpangadan, P. and Vijayakumar, M.,  J. Ethnopharmacol.,  2005, 99,
165.                                                                                                                                                           
[6] Arora, D., Dubey, S.D. and Ojha, J.K., J. Diab. Assoc., 1999, 39, 47.                                               
[7] Warrier, P.K., Indian medicinal plants-A compendium of 500 species, Orient Longman Ltd.,
Chennai, Vol. III, 1996, 38-39.                                                                                                                 
[8] Kapoor, L.D., Handbook of Ayurvedic Medicinal Plants, CRC Press, BocaRaton, 1990, 149-
150.                                                                                                                                                                 
[9] Kunwar, R.M. and Bussmann, W.R., Lyonia–J. Ecol. Appl., 2006, 11, 85-97.                             
[10] Khanom, F., Kayahara, H. and Tadasa, K., Biosci. Biotechnol. Biochem.,  2000, 64, 837–
840.                                                                                                                                                                                                    
[11] Sivarajan, V.V. and Balachandran,  I., Ayurvedic drugs and their sources, Oxford & IBH
Publishing Co. Pvt. Ltd., New Delhi, 1994, 374-376.                                                                                 
[12] Simha, K.R.G. and Laxminarayana, V.,  Indian J. Trad. Know.,  2007, 6, 648-652.                                                
[13] Babu, K., Shankar, S.G. and Rai. S.,  Turk. J. Bot., 2010, 34, 215-224.                                               
[14] Jiwala, S.A., Bagul, M.S., Parabia, M. and Rajani, M., Indian J. Pharm. Sci., 2008, 70, 31-
35.                                                                                                                                                                  
[15] Swami, K.D. and Bisht, N.P.S., J. Indian Chem. Soc., 1996, 73, 631.                                                     
[16] Swami, K.D., Malik, G.S. and Bisht, N.P.S., J. Indian Chem. Soc., 1989, 66, 288–289.                 
[17] Varshney, I.P. and Bhatnagar, S.P., Indian J. Pharmcol., 1965, 27, 235.                                           
[18] Ambike, S.H. and Rao, M.R., Indian J. Pharmcol., 1967, 29, 91-92.                                                      
[19] Husain, A., Virmani, O.P., Popli, S.P., Misra,  L.N., Gupta, M.M., Srivastava, G.N.,
Abraham, Z., Singh, A.K., Dictionary of Indian Medicinal Plants, CIMAP, Lucknow, India,
1992, 546.                                                                                                                                                                                      
[20] Panda, S.K., Panda, N.C. and Sahue, B.K., Indian Vet. J., 1976, 60, 660-664.                                    
[21] Verma, R.S. and Bhatia, K.S., Indian J. Hosp. Pharm., 1986, 23, 231–232.                                      
[22] Behari, M., Rani, K., Usha, M.T., Shimiazu, N., Curr. Agric., 1984, 8, 73.                                                                   
[23] Grison, L., Hossaert, M., Greeff, J.M. and Bessiere, J.M., Phytochemistry, 2002, 61, 61–
71.
[24] Ali, M. and Qadry, J.S., J. Indian Chem. Soc., 1987, 64, 230–231.
[25] Kumari, M., Sharma, A. and Jagannadham, M.V., J. Agric. Food Chem., 2010, 58, 8027-
8034.                                                                                                                                                         
[26] Taskeen, A., Naeem, I., Mubeen, H. and Mehmood, T., New York Sci. J., 2009, 2, 20-26.   
[27] Pandit, R., Phadke, A. and Jagtap, A.,  J. Ethnopharmacol., 2010, 128, 462-466.                             
[28] Jung, H.W., Son, H.Y., Minh, C.V., Kim, Y.H. and Park, Y.K., Phytother. Res., 2008, 22,
1064–1069.                                                                                                                                                      
[29] Sreelekshmi, R., Latha, P.G., Arafat, M.M., Shyamal, S., Shine, V.J., Anuja, G.I., Suja,
S.R., Rajasekharan, S., Natural product radiance, 2007, 6, 377-381.                                                
[30] Viswanathan, S.P., Thirugnanasambantham, M., Reddy, K.S., Narasimhan, G. and
Subramaniam, A., Ancient Sci. Life, 1990, 10, 122-125. 
[31] Irana, H., Agarwal, S.S., Indian J. Exp Bio., 2009, 47, 822-826.                                                  
[32] Charde, R.M., Dhongade, M.J., Charde, M.S. and Kasture, A.V., Indian. J. Pharma. Sci.
Res., 2010, 1, 73-82.     
[33] Smitha, R.B., Bennans, T., Mohan K.C. and Benjamin, S., J. Photochem. Photobiol B, 2009,
95, 17-25.                                                                                                                                                     
[34] Valsaraj, R., Pushpanagadan, P., Smitt, U.W.,  Adsersen, A. and Nyman, U.,                        
J. Ethnopharmacol., 1997, 58, 75-83.                                                                                                        
[35] Uma, B., Prabhakar, K. and Rajendran, S.,  Ethnobotanical leaflets,  2009, 13, 472-474.               
[36] Farrukh, A. and Ahmad, I., J. Microbiol. Biotechnol., 2003, 19,  653–657,                        
[37] Zaidi, S.F.H., Yamadab, K., Kadowakia, M., Usmanghanic, K. and Sugiyamab, T.,                         
J. Ethnopharmacol., 2009, 121, 286–291.                                                                                                        
[38] Iqbal, Z., Nadeem, Q.K., Khan, M.N., Akhtar, M.S., Waraich, F.N., Int. J. Agr. Biol., 2001,
3, 454-457.                                                                                                                                                      
[39] Dwivedi, S.C., Asian J. Exp. Sci., 2001, 16, 29-34.                                                                                             
[40] Hemaiswarya, S., Poonkothai, M., Raja, R. and Anbazhagan, C., Egyptian J. Bio., 2009, 11,
52-57.                                                                                                                                                       
[41] Charde, R.M., Dhongade, H.J., Charde, M.S. and Kasture, A.V., Int. J. Pharm. Sci. Res.,
2010, 1, 72- 82.                                                                                                                                                                                       
[42] Roy, K., Shivakumar, H. and Sarkar, S., Int. J. Pharm. Tech. Res., 2009, 1, 506-508.                                
[43] Kaur, H., Singh, D., Singh, B. and Goel, R.K., Pharm Biol., 2010, 48, 234–240.                                
[44] Vinutha, B., Prashanth, D., Salma, K., Sreeja, S.L., Pratiti, D., Padmaja, R., Radhika, S.,
Amit, A., Venkateshwarlu, K., Deepak, M., J. Ethnopharmacol., 2007, 109, 359–363.                       
[45] Williams, D.C., Plant Physiol., 1968, 43, 1083-1088.                                                                    
[46] Cooper, E.L., eCAM., 2004, 1, 1-4.                                                                                              
[47] Muller, W.E.G., Batel, R., Schroder, H.C. and Muller, S.M., eCAM., 2004, 1, 71-82.                  
[48] Muller, W.E.G., Schroder HC, Wiens, M., Ottstadt, S.P., Batel, R. and Muller, S.M.,
eCAM., 2004, 1, 133-134.                                                                                                                      
[49] Patwardhan, B., Warude, D., Pushpangadan, P. and Bhatt, N., eCAM., 2005, 2, 465-473.
1. Kosambi D.D. Myth and Reality.
Popular Press, Bombay, India.
1962.
2. Gadgil M. and Vartak V.D. Sacred
groves of Western Ghats of India.
Economic Botany 1976; 30:152–
160. 
3. Haridasan K. and Rao R.R.
Forest .ora of Meghalaya, Vol. 1.
Bishen Singh and Mahendrapal
Singh, Dehra Dun. 1985.
4. Khan M.L., Menon S. and Bawa
K.S. 1997. E.ectiveness of the
protected area network in biodiversity conservation: a case
study of Meghalaya state. Biodiv.
Conserv. 6: 853–868. 
5. Vartak V.D. and Gadgil M. 1973.
Dev Rahati: an ethnobotanical
study of the forests preserved on
grounds of religious beliefs.
Abstract, Proc. Indian Sci. Cong.
60: 341. 
6. Gadgil M. and Vartak V.D. 1975.
Sacred groves of India – a plea of
the continuous conservation.  J.
Bombay Nat. Hist. Soc. 72(2):
313–320. 
7. Hughes D.J. and Chandran
Subash M.D. 1997. Sacred Groves
around the earth: an overview.
Paper presented in the workshop
on The role of sacred groves in
conservation and management of
Biological Resources, KFRI,
Pechi. 
8. MAB 1995. Sacred places and
vernacular conservation. MAB
23. UNESCO, Man and Biosphere
Programme, Paris, pp. 20–21. 
9. Brandis D. 1897. Indian Forestry,
Working. Oriental Institute,
Working. 
10. Burman R.J.J. 1992. The
institution of sacred grove. J.
Indian Anthropol. Soc. 27: 219–
238. 
11. Ramakrishan P.S. 1996.
Conserving the sacred: from
species to Landscapes. Nature
Resour. UNESCO 32: 11–19. 
12.Boojh R. and Ramakrishan P.S.
1983. Sacred Groves and their
Role in Environmental
Conservation. In: Strategies for
Environmental Management.
Souvenir Vol.. Dept. of Science
and Environmental of Uttar
Pradesh, Lucknow, pp. 6–8. 
14.Rodgers W.A. 1994. The sacred
groves of Meghalaya. Man in
India 74: 339–348. 
15.King-Oliver I.E.D., Chitra V. and
Narasimha D. 1997. Sacred
groves: traditional ecological
heritage. Int. J. Ecol. Environ.
Sci. 23: 463–470.  
16.Sinha B. and Maikhuri R.K. 1998.
Conservation through ‘sociocultural-religious practice’ in
Garhwal Himalaya: a case study
of Hariyali sacred grove’. In:
Ramakrishan P.S., Saxena K.G.
and Chandrasekhar U. (eds),
Conserving the Sacred: For
Biodiversity Management.
UNESCO and Oxford IBH
Publishing Co. Pvt. Ltd, New
Delhi, pp. 289–299. 
17.Sunitha S. and Rao R.P.B. 1999.
Sacred groves in Kurnool
District, Andhra Pradesh. In:
Sivadasan M. and Philip Mathew
(eds), Biodiversity, Taxonomy
and Conservation of Flowering
Plants. Mentor books, Calicut,
pp. 367–373. 
Armitage, P. and G. Berry: Statistical methods in medical research. III
rd
Edn. ISBN 0-632-03695-8, Oxford, Blackwell Scientific
Publication, New Yark, pp. 103-115 and 207-214 (1994).
Bhaskaran, A. and R.D. Rajan: Software for ambient air quality index
calculation.  J. Chem.  Environ., 5 (4), 47-50 (2001).
Byres, D.P., T.J. Dean and J.D. Johson: Long term effects of ozone
and stimulated acid rain on the foliage dynamics of slash pine.
(Pinus ellioti var. ellioti. Englem). New Phytol. 120, 61-67 (1992).
CPCB (Central Pollution Control Board): Ambient air quality-status and
statistics – 1996, CPCB Report, Ambient Air Quality Monitoring
Series: NAAQSMS/10/19998-99. 1996.
Davis, T.: Grasses more sensitive to SO2 pollution in condition of low
irraditive and short days. Nature, 32, 93-101 (1980).
Dmuchowski, W. and A. Bytnerowicz: Monitoring environmental
pollution in Polland by chemical analysis of scots  pineneedles.
Environ. Pollut. 87, 87-104 (1995).
Jayaraman, J.: Laboratory manual of biochemistry, New Age
International Publishers, New Delhi, pp. 171-172 (2000).
Khanam, N., M. Agrawal and D.N. Rao: Evaluation of  air pollution
impact around Dala cement factory.  In: Environmental
degredation of Obra-Renukoot-Singrauli area and its impact on
natural and derived ecosystems, (Eds: Singh  et al.) Final
Technical report of a MAB project, sponsored by the Ministry of
Environment and Forest, Govt. of India 14/ 167/ 84-MAB/ EN-
2/RE, pp. 305-335 (1990).
Kulump, A., G. Klumpp and M. Domingos: Plants as bioindicators of air
pollution at the serra Do Mar near the industrial complex of
Cubatao, Brazil. Environ. Pollut. 85, 109-116 (1994).
LeBlanc, F. and D.N. Rao: Effects of air pollutants on lichen brophytes.
In: Response of air pollution (Eds: J.B. Mudd and T. T.
Kozlowski). Academic Press. New York, pp. 237-272 (1975).
Lowry, O.H., N.J. Rosebrough, A.L. Farr and R.J. Randall: Protein
measurement by folin-phenol reagent. Biol. Chem. 193, 265-275
(1951).
Posthumus, A.C.: Monitoring levels and effects of air pollutants. In: Air
pollution and plant life (Eds: M. Treshow), John Wiley and Sons.
New York, U.S.A., pp. 73-95 (1984).
Posthumus, A.C.: Plants as a bioindicators for atmospheric pollution.
In: Pollutants and their ecotoxicological significance,  (Ed: HW.
Nurnberg), John Wiley and Sons. New York, U.S.A., pp. 55-56
(1985).
Rao, D.N.: Use of plants as an indicators and monitors of SO2 pollution.
Chem. Age India, 28, 655-671(1977).
Steubing, L. and A. Fangmeier:  SO2 sensitivity of plant communities in
a beach forest. Environ. Pollut., 44, 297-306 (1987).
Agrawal, A. and S.B. Agrawal: Phytomonitoring of air pollution around
a thermal power plant. Atm. Environ., 23, 763-769 (1989).
Chou, T. & S.H. T. Chiang. 1973. Seasonal
changes of cambial activity in the young
branch of Psidium quajava L. Taiwania
18: 35-41.
Chowdhury, K.A. 1940. The formation of
growth rings in Indian trees II. (a) champ,
(b) koldco, (c) sissoo. (d) toon. Indian
For. Rec. 2: 41-57.
Chowdhury, K.A. 1968. History of Botanical Researches in India, Burma and
Ceylon X. Wood Anatomy, A.M.U.
Press, Aligarh.
Chowdhury, K.A. 1969. Cambial activities
in temperate and tropical trees. Abs. 32,
XI International Botanical Congress,
Seanle.
Davis. J.D. & R.F. Evert. 1970. Seasonal
cycle of phloem development in woody
vines. Bot Gaz. 131: 128-138.
Deshpande, B. P. 1967. Initiation of cambial
activity and its relation to primary growth
in Tilia americana. Ph.D. Thesis. Univ.
Wisconsin, Wisconsin.
Evert, R.F. 1%2. Some aspects of phloem
development in Tilia americana. Am. J.
Bot. 49: 659 (Abst.).
Fahn, A. & E. Werker. 1990. SeaSOltal cambial activity. In: The vascular cambium.
(ed. M. Iqbal): 139-158. Research Studies Press, Taunton, U.K.
Foster, A.S. 1934. The use of tannic acid
and iron chloride for staining cell walls
of meristematic tissues. Stain Techno!. 9:
91-92.
Ghouse, A.K. M. & S. Hashmi. 1979a.
Longevity of phloem in Delonix regia
Ratin. Proc. Indian Acad. Sci. (Plant
Sci.) 89: 67V'J2.
Ghouse, A. K. M. & S. Hashmi. 1979b.
Longevity of phloem in Polyalthia longifolia Benth. and Hook. Bull. Torrey
Bot. Club 106: 182-184.
Ghouse, A. K. M. & S. Hashmi. 1980. Seasonal production ofsecondary phloem and
its longevity in Mimusops elengi L. Flora
170: 175-179.
Ghouse. A. K. M. & M. Yunus. 1974. The
ratio of ray and fusiform initials in some
woody species of the Ranallan complex.
Bull. Torrey Bot. Club 101: 363-366.
Ghouse, A.K.M. & M. Yunus. 1976. Ratio
of ray and fusiform initials in the vascular cambium of certain leguminous trees.
Flora 165: 23-28.
Hashmi, S. 1977. Studies on the production
of secondary phloem in some tropical
trees. Ph. D. Thesis, Aligarh Muslim University, Aligarh.
Iqbal, M. 1990. The vascular cambium. Research Studies Press, Taunton, U.K.
Iqbal, M. 1991. Structural and behavioral
specialities of the vascular cambium of
seed plants. In: Growth pattern of vascular plants (ed. M. Iqbal). Dioscorides
Press, Portland, U.S.A.
Iqbal. M. & A. K. M. Ghouse. 1985a. Impact of climatic variation on the structure
and activity of vascular cambium in Prosopis spicigera. Flora 177: 147-156.
Iqbal. M. & A.K.M. Ghouse. 1985b. Cell
events of radial growth with special
reference to vascular cambium in tropical
trees. In: Widening horizons of plant sciences (ed. C.P. Malik): 217-252. Cosmo
Publications, New Delhi.
Iqbal, M. & A.K.M. Ghouse. 1987. Analomy of the vascular cambium of Acacia
nilotica (L.) var. telia Troup (Mimosaceae) in relation to age and season. Bot. J.
Linn. Soc. 94: 385-397.
Iqbal, M. & A. K.M. Ghouse. 1990. Cambial concept and organisation. In: The vascular cambium (ed. M. Iqbal): 1-36. Research Studies Press, Taunton, U.K.
1. Nadkarni, A.K. Indian Materia Medica, Popular book depot, Bombay – 7 (1954) pp 1047.
2. Malhotra, C.L. Das, P.K. and Dhalla, N.S. Ind. J. Med. Res. (1960) 48, 734.

3. Balambal, R. and Balakrishnan, S. International Conference on Traditional Medicine, Jan. 23
– 25 (1986) Madras.
4. Winter, C.A. Riseley, E.A. and Nuss, G.W. Proc. Soc. Exp. Biol. Med. (1962) 111, 544 –
547.
5. Winter, C.A. and Porter, C.C. J. Amer. Pharm. Ass. (1957) 46, 515 – 520.
6. Kaley, G. and Weiner, R.Y. In. Annals of N.Y. Acad. Sci. (1971) 180. 347 – 348 Eds. Peter
Ramwel and Jan Jane E. Shaw. Ac. Press, N.Y.
[1]  Kala CP, Dhyani PP, Sajwan BS. Developing the medicinal plants
sector in northern India: challenges and opportunities. J Ethnobiol
&  Ethnomed 2006; 2: 32-46.
[2]  Prasad PV, Subhaktha PK, Narayana A, Rao MM. Medicohistorical study of “asvattha” (sacred fig tree). Bull Ind Inst
History Med (Hyderabad) 2006; 36: 1-20.
[3]  Ripu MK, Rainer WB. Ficus (fig) species in Nepal: a review of
diversity and indigenous uses. Lyonia 2006; 11: 85-97.
[4]  Van Noort S, Gardiner AJ, Tolley KA. New records of Ficus
(Moraceae) species emphasize the conservation significance of
inselbergs in Mozambique. South Afr J Botany 2007; 73: 642-649.
[5]  Chandrasekar SB, Bhanumathy M, Pawar AT, Somasundaram
T. Phytopharmacology of Ficus religiosa. Phcog Rev 2010; 4:
195-199.
[6]  Anonymous. Ayurvedic pharmacopoeia of India. New Delhi:
Department of Ayush, Ministry of Health and Family Welfare;
2001, p. 17-20. 
[7]  Brahmachari HD, Augusti KT. Orally effective hypoglycemic
agents. J Pharm &Pharmacol 1962; 14:  254- 257.
[8]  Damanpreet S, Rajesh KG. Anticonvulsant effect of Ficus
religiosa: Role of serotonergic pathways. J Ethnopharmacol 2009;
123: 330-334.
[9]  Naira N, Rohini RM, Syed MB, Amit KD. Wound healing activity
of the hydro alcoholic extract of Ficus religiosa leaves in rats.
Internet J Altern Med 2009; 6: 2-7.
[10]Bipul D, Maiti RN, Joshi VK, Goel RK. Effect of some Sitavirya
drugs on gastric secretion and ulceration, Ind J Experimental Biol
1997; 35: 1084-1089.
[11]Hyo WJ, Hye YS, Chau V, Young HK, Young KP. Methanol
extract of Ficus leaf inhibits the production of nitric oxide and
proinflammatory cytokines in LPS stimulated microglia via the
MAPK pathway. Phytother Res 2008; 22: 1064-1069.
[12]Mallurvar VR, Pathak AK. Studies on immunomodulatory
activity of Ficus religiosa. Indian J Pharm Educ Res 2008; 42(4):
343-347.
[13]Swami KD, Bisht NPS. Phytoconstituents of Ficus religiosa and
Ficus infectoria and their biological activity, J Indian Chemical
Society 1996; 73(11): 631-637.
[14]Ananda RJ, Kunjani J. Indigenous knowledge and uses of
medicinal plants by local communities of the kali Gandaki
Watershed Area, Nepal. J Ethnopharmacol 2000; 73:175-183.
[15]Singh AK, Raghubanshi AS, Singh JS. Medical ethnobotany of the
tribals of sonaghati of sonbhadra district, Uttar Pradesh, India. J
Ethnopharmacol 2002; 81: 31-41.
[16]Harborne JB. Phytochemical methods. 3rd edition. London:
Chapmanand Hall Publishers; 1998.
[17]Sheth UK, Dadkar NK, Kamat NG. Selected topics in experimental
pharmacology. India: Kothari Book Depot Bombay; 1972.
[18]Norton S. Quantitative determination of mast cell fragmentation by
compound 48/80. Brit J Pharmacol 1954; 9: 494-497.
[19]Lansky EP, Paavilainen HM, Pawlus AD, Newman RA. Ficus
spp. (fig): ethnobotany and potential as anticancer and antiinflammatory agents. J Ethnopharmacol 2008; 119: 195-213.
[20]Saha S, Goswami G. Study of anti-ulcer activity of Ficus religiosa
L. on experimentally induced gastric ulcers in rats. Asian Pac J
Trop Med  2010; 791-793.
[21]Mitra SK, Gopumadhavan S, Venkataraganna MV, Anturlikar SD.
Antiasthmatic and antianaphylactic effect of E-721B, a herbal
formulation. Ind J Pharmacol 1999; 31: 133-137.
[22]Shah GB, Parmar NS. Antiasthmatic property of polyherbal
preparation E-721B. Phytother Res 2003; 17: 1092-1097.

1.         Subramanian PM, Misra GS. Chemical constituents of Ficus bengalensis. Polish J Pharmacol Pharma 1978;30:559-62.     
2.         The wealth of India, Volume-(F-G). In: A dictionary of Indian Raw materials and industrial products. New Delhi: Council of Scientific and Industrial Research; 2005. p. 24-6.     
3.         Mukherjee PK, Saha K, Murugesan T, Mandal SC, Pal M, Saha BP. Screening of anti-diarrhoeal profile of some plant extracts of a specific region of West Bengal, India. J Ethnopharmacol 1998;60:85-9.    [PUBMED]  [FULLTEXT]
4.         Husain A, Virmani OP, Popli SP, Misra LN, Gupta MM, Srivastava GN, et al . Dictionary of Indian Medicinal Plants. Lucknow, India; CIMAP; 1992. p. 546.     
5.         Aiyer MN, Namboodiri AN, Kolammal M. Pharmacognosy of Ayurvedic drugs. Trivandrum: 1957.     
6.         Warrier PK, Nambiar VP, Ramankutty C. Indian Medicinal Plants. Vol. 1-5. Madras: Orient Longman Ltd; 1993-1995.     
7.         Gabhe SY, Tatke PA, Khan TA. Evaluation of the immunomodulatory activity of the methanol extract of Ficus benghalensis roots in rats. Indian J Pharmacol 2006;38:271-5.     
8.         Shrotri DS, Aiman R. The relationship of the post-operative state to the hypoglycemic action studies on Ficus benghalensis and Ficus glomerata . Indian J Med Res 1960;48:162-    [PUBMED] 
9.         Deshmukh VK, Shrotri DS, Aiman R. Isolation of a hypoglycemic principle from the bark of Ficus bengalensis. Indian J Physiol Pharmacol 1960;4:182-5.    [PUBMED] 
10.       Augusti KT. Hypoglycemic action of bengalenoside: A glucoside isolated from Ficus benghalensis Linn., in normal and alloxan diabetic rabbits. Indian J Physiol Pharmacol 1975;19:218-20.      
11.       Augusti KT, Daniel RS, Cherian S, Sheela CG, Nair CR. Effect of leucopelargonin derivative from Ficus benghalensis Linn: On diabetic dogs. Indian J Med Res 1994;99:82-6.    [PUBMED] 
12.       Achrekar S, Kaklaji GS, Pote MS, Kelkar SM. Hypoglycemic activity of Eugenia jambolana and Ficus benghalensis : Mechanism of action. In vivo 1991;5:143-7.     
13.       Mousa O, Vuorela P, Kiviranta J, Wahab SA, Hiltohen R, Vuorela H. Bioactivity of certain Egyptian Ficus species. J Ethnopharmacol 1994;41:71-6.     
14.       Daniel RS, Mathew BC, Devi KS, Augusti KS. Antioxidant effects of two flavonoids from the bark of Ficus bengalensis in hyperlipidemic rats. Indian J Exp Biol 1996;36:902-6.     
15.       Shukla R, Gupta S, Gambhir JK, Prabhu KM, Murthy PS. Antioxidant effect of aqueous extract of the bark of Ficus bengalensis in hypercholesterolaemic rabbits. J Ethnopharmacol 2004;92:47-51.    [PUBMED]  [FULLTEXT]
16.       Taur DJ, Nirmal SA, Patil RY, Kharya MD. Antistress and antiallergic effects of Ficus bengalensis bark in asthma. Nat Prod Res 2007;21:1266-70.    [PUBMED]  [FULLTEXT]
17.       de Amorin A, Borba HR, Carauta JP, Lopes D, Kaplan MA. Anthelmintic activity of the latex of Ficus species. J Ethnopharmacol 1999;64:255-8.    [PUBMED]  [FULLTEXT]
18.       Iqbal Z, Nadeem QK, Khan MN, Akhtar MS, Waraich FN. In vitro anthelmintic activity of Allium sativum, Zingiber officinale, Curcurbita mexicana and Ficus religiosa . Int J Agr Biol 2001;3:454-7.     
19.       Nirmal SA, Malwadkar G, Laware RB. Anthelmintic activity of Pongamia glabra . Songklanakarin J Sci Technol 2007;29:755-7.     
1. Ministry of health and family welfare, department of Ayush. New Delhi: 2001. Ayurvedic pharmacopeia of India; pp. 17–20.
2. Prasad PV, Subhakthe PK, Narayana A, Rao MM. Medico historical study of “asvattha” (sacred fig tree) Bull Indian Inst Hist Med Hyderabad. 2006;36:1–20. [PubMed]
3. Kalpana G, Rishi RB. Ethnomedicinal Knowledge and healthcare practices among the Tharus of Nwwalparasi district in central Nepal. For Ecol Manage. 2009;257:2066–72.
4. Chopra RN, Chopra S. Indigenous Drugs of India. 2nd ed. Calcutta: Dhur and Sons; 1958. p. 606.
5. Uddin SJ, Grice ID, Tiralongo E. Cytotoxic effects of Bangladeshi medicinal plant extracts. Evid Based Complement Alternat Med. 2009 In press.
6. Shah NC. Herbal folk medicines in northern India. J Ethnopharmacol. 1982;6:293–301. [PubMed]
7. Singh AK, Raghubanshi AS, Singh JS. Medical ethnobotany of the tribals of sonaghati of sonbhadra district, uttat Pradesh, India. J Ethnopharmacol. 2002;81:31–41. [PubMed]
8. Ananda RJ, Kunjani J. Indigenous knowledge and uses of medicinal plants by local communities of the kali Gandaki Watershed Area, Nepal. J Ethnopharmacol. 2000;73:175–83. [PubMed]
9. Sajwan VS, Nilima H, Paliwal GS. Developmental anatomy of the leaf of L.Ficus religiosa. Ann Bot. 1977;41:293–302.
10. Sheetal A, Bagul MS, Prabia M, Rajani M. Evaluation of free radicals scavenging activity of an Ayurvedic formulation, panchvankala. Indian J Pharm Sci. 2008;70:31–8. [PMC free article] [PubMed]
11. Oliver bever B. Oral hypoglycaemic plants in West Africa. J Ethnopharmacol. 1977;2:119–27.
12. Khare CP. Encyclopedia of Indian medicinal plants. Berlin Heidelberg, New York: Springer-Verlag; 2004. pp. 50–8.
13. Bushra S, Farooq A. Flavonols (kaempeferol, quercetin, myricetin) contents of selected fruits, vegetables and medicinal plants. Food Chem. 2008;108:879–84.
14. Ruby J, Nathan PT, Balasingh J, Kunz TH. Chemical composition of fruits and leaves eaten by short- nosed fruit bat, Cynopterus sphinx. J Chem Ecol. 2000;26:2825–41.
15. Swami KD, Bisht NP. Constituents of Ficus religiosa and Ficus infectoria and their biological activity. J Indian Chem Soc. 1996;73:631.
16. Valsaraj R, Pushpangadan P, Smitt UW, Adersen A, Nyman U. Antimicrobial screening of selected medicinal plants from India. J Ethnopharmacol. 1997;58:75–83. [PubMed]
17. Mousa O, Vuorela P, Kiviranta J, Abdelwahab S, Hiltunen R, Vuorela H. Bioactivity of certain Egyptian Ficus species. J Ethnopharmacol. 1994;41:71–6. [PubMed] (Contd.)

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