@Research Paper <#LINE#>Impact of seed dressers in management of sucking pest complex infesting Okra<#LINE#>Begum@Khaja Rumana Begum,Patil @Sarjerao ,Mohite@Pandurang <#LINE#>1-5<#LINE#>1.ISCA-RJRS-2016-002.pdf<#LINE#>Department of Entomology, College of Agriculture, Kolhapur-416 004, MS, India@Department of Entomology, College of Agriculture, Kolhapur-416 004, MS, India@Department of Entomology, College of Agriculture, Kolhapur-416 004, MS, India<#LINE#>1/1/2016<#LINE#>15/3/2017<#LINE#>Among the newer insecticides tested for their efficacy as seed dressers against sucking pests of okra viz., leafhoppers, aphids, whiteflies and thrips, results revealed that clothianidin 600 FS @ 9ml/kg seed was significantly superior in reducing population of sucking pests and was at par with imidacloprid 70 WS @ 10g/kg seed. This was followed by clothianidin 600 FS @ 7ml/kg seed and thiamethoxam 70 WS. Clothianidin 600 FS @ 9ml/kg seed recorded 90.79, 92.83, 88.1, 85.7 per cent reduction over untreated control against leafhoppers, aphids, whiteflies and thrips respectively and also recorded maximum marketable yield of okra fruits (58.9 q/ha) with 98.96 per cent increase over untreated control.<#LINE#>Chaudhary H.R. and Dadheech L.N. (1989).@Incidence of insects attacking okra and avoidable losses caused by them.@Ann. Arid zone.28(3-4), 305-307.@Yes$Neeraja G., Vijaya M., Chiranjeevi C. and Gautam B. (2004).@Screening of okra hybrids against pests and diseases.@Indian J.Pl. Protec., 32(1), 129-131.@Yes$Singh G. and S.K.Kaushik (1990.)@Comparative efficiency of sampling techniques for jassid population estimation on okra.@Indian J. Ecol., 17(1), 58-60.@No$Udikeri S.S., Patil S.B., Naik Krishna L. and Rachappa V. (2007).@Poncho-600FS- Anew seed dressing formulation for the sucking pest management in cotton.@Karnataka J.Agric.Sci., 20(1), (51-53).@Yes$Sinha. S.R. and R.K.Sharma (2008.)@Utilization of some novel insecticide schedules in insect pest management of okra (Abelmoschus esculentus). J. Pesticide Research, 20(2), 234-236.@undefined@Yes$Das S.B. and O.P. Veda (2005).@Integrated management of insect pests of cotton.@Crop care, 31(2), 67-70.@Yes$Rana S.C., Singh P.B., Pandita V.K. and Sinha S.N. (2006).@Evaluation of insecticides as seed treatment for control of early sucking pests in seed crop of okra.@Ann.Pl.Protec.Sci., 14(2), 364-367.@Yes$Patil B.V. and Rajanikanth R. (2004).@New class of insecticides mode of action and their bio-efficacy.@Paper presented in Int.Symp.Strat.Sust.Cotton Prod., A Gloal vision, 23-25.@Yes$Day P.K., Jana S.K., Chakraorthy G. and Somachoudhary A.K. (2005).@Evaluation of Imidacloprid (70WS and 20SL) against sucking pest of okra, Abelmoschus esculentus.@J. Ent. Res., 29(3), 215-218.@Yes$Chinniah C. and Ali K.A. (2000).@Relative efficacy of insecticides/acaricides against sucking pests of okra.@Pest Mangt. And Econ Zool, 8(2), 111-116.@Yes$Kale J.V., Wadnerkar D.W., Zanwar P.R. and Sangle P.D. (2005).@Bioefficacy of newer insecticides against insect pests of okra.@Pestology, 29(8), 9-12.@Yes$Krishna L. Naik, Nimbal F., Guruprasad G.S. Patil. S.B., Udikeri S.S. and Rachappa V. (2007).@Dantop: A promising new molecule for management of cotton sap feeding insects.@Karnataka J.Agric.Sci., 20(1), (47).@Yes <#LINE#>Appraisal of heavy metals concentration in ground water used for drinking purpose in Olpad Taluka, Surat, Gujarat, India<#LINE#>Patel @Monali S.,Kapila @Manoj <#LINE#>6-10<#LINE#>2.ISCA-RJRS-2017-028.pdf<#LINE#>Department of Aquatic Biology V.N.S.G.Uni, Surat. Gujarat, India@Department of Aquatic Biology V.N.S.G.Uni, Surat. Gujarat, India<#LINE#>30/11/2016<#LINE#>6/3/2017<#LINE#>Safe drinking water is as major requirement as air for humans. Ground water is one of the most valuable source of drinking water on the earth. From last few decades, the major problem of environment pollution increases because of human activities. Because of rapid industrialization and agricultural practices the groundwater quality is declining. It is also cause a root entry of heavy metals into ground water. The study was undertaken to assess the ground water status of Olpad taluka with respect to heavy metals like, Cu, Ni, Zn and Co. seven samples from four villages were collected with different sources. The heavy metals were analysed by Atomic Absorption Spectrophotometer. The values of Cu, Zn and Co were found under permissible limit but Ni recorded higher than limits specified by Indian Standards for drinking water. Toxic effects in respiratory tract and immune systems found with higher concentration of nickel. Deficiency of vital metals like Zn and Cu also affect the human health.<#LINE#>Chaudhari Usha (2009).@Studies on Drinking Water quality of Bordi area Thane District, Maharashtra.@Thesis submitted to Department of Aquatic Biology, Veer Narmad South Gujarat University, Surat.@No$Pandey Mahendra (2003).@Water Basics, “The core texbook on the most precious yet plenty life substance”.@Dominent Publishers and Distributors,1st Eddition,pp=1-7.@No$Public Drinking water systems. Facts and Figures April (2014). U.S Environmental protection Agency.@undefined@undefined@No$Public Drinking Water from household wells(2002) U.S Environmental Protection Agency.@undefined@undefined@No$Kavcar P., Sofuoglu A. and Sofuoglu S.C. (2009).@A health risk assessment for exposure to heavy metals via drinking water ingetion pathways.@J Hyg Environ Health, 212(2), 216-227.@Yes$Gray N.F. (2008).@Drinking water quality problems and solutions.@2nd Eddition, Cambridge University Press.@Yes$APHA (2012).@Standards methods for the examination of water and waste water.@(22nd Eddition), New York.@No$BIS: 10500 (2012).@Indian Standards Drinking Water Specifications.@@No <#LINE#>Studies on Copper (II), Nickel (II), and Cobalt (II) complexes of some new 2- hydroxychalcones and evaluation their antimicrobial activity<#LINE#>Ali Hussien@Abdulkareem ,Ahmed Kateb@Bushra ,Ahmed Kateb@Bushra ,Kulkarni@P.A. <#LINE#>11-21<#LINE#>3.ISCA-RJRS-2017-032.pdf<#LINE#>P.G. Research Center, Department of Chemistry, Yeshwant Mahavidyalaya, Nanded-431602 (MS), India@P.G. Research Center, Department of Chemistry, Yeshwant Mahavidyalaya, Nanded-431602 (MS), India@Hodiedah University, Education College, Yemen@P.G. Research Center, Department of Chemistry, Yeshwant Mahavidyalaya, Nanded-431602 (MS), India<#LINE#>11/3/2017<#LINE#>24/4/2017<#LINE#>After having prepared a new series of Cu(II), Co(II) and Ni(II)complexes with 2-Hydroxy chalcone as ligand, the structures of these synthesized complexes is verified by using spectroscopic methods and elemental analysis. UV-Visible and IR spectra recorded of these prepared complexes, moreover the structures of complexes were confirmed by magnetic moments and molar conductance in DMSO. All these complexes are non electrolytes as the conductivity data confirms. In addition Analytical data confirmed were 1:2 stoichiometry. According to the suggestion of electronic spectral data the geometry of Cu(II) complexes is square planar and octahedral geometry for all Ni(II) and Co(II) complexes. From the antimicrobial screening done it shows enhanced activity of metal complexes as compared to their corresponding ligands.<#LINE#>Straub Thomas S. (1995).@Epoxidation of α, β-unsaturated ketones with sodium perborate.@Tetrahedron letters., 36(5), 663-664.2.@Yes$Sandler S. and Karo W. (1972).@Organic Functional Group Preparations.@New York: Academic Press. 3, 372.3.@No$Bergmann Ernst. D, Ginsburg David and Pappo Raphael (1959).@The Michael Reaction.@Organic reactions., 10, 179.4.@Yes$Xue C.X., Cui S.Y., Liu M.C., Hu Z.D. and Fan B.T. (2004).@3D QSAR studies on antimalarial alkoxylated and hydroxylated chalcones by CoMFA and CoMSIA.@European journal of medicinal chemistry., 745-753.5.@Yes$Anto R.J., Sugumaran K., Kuttan G., Rao M.N.A., Subbaraju V. and Kuttan R. (1995).@Anticancer and antioxidant activity of synthetic chalcones and related compounds.@Cancer letters., 97(1), 33-37. 6.@Yes$Hsieh H.K., Tsao L.T., Wang J.P. and Lin C.N. (2000).@Synthesis and Anti‐inflammatory Effect of Chalcones.@Journal of pharmacy and pharmacology., 52(2), 163-171. 7.@Yes$Omid Sabzevari, Galati Giuseppe, Moridani Majid Y., Siraki Arno and O’Brien Peter J. (2004).@Molecular cytotoxic mechanisms of anticancer hydroxychalcones.@Chemico-biological interactions., 148(1), 57-67. 8.@Yes$Botta B., Monache G.D., Rosa M.C. de, Scurria R., Volali A., Vinciguerra V., Menendez P. and Misiti D. (1996).@Studies in cell suspension cultures of cassia didymobotrya. Part VI. The biotransformation of chalcones to aurones and auronols.@Heterocycles, 43(7), 1415-1421. 9.@Yes$Zhai L., Chen M., Blom J., Theander T.G., Christensen S.B., Kharazmi A. (1999).@The antileishmanial activity of novel oxygenated chalcones and their mechanism of action.@Journal of antimicrobial chemotherapy, 43(6), 793-803.10.@Yes$Zoldakova. M, Kornyei Z., Brown A., Biersack B., Madaràsz E. and Schobert R. (2010).@Effects of a combretastatin A4 analogous chalcone and its Pt-complex on cancer cells: a comparative study of uptake, cell cycle and damage to cellular compartments.@Biochemical pharmacology, 80(10), 1487-1496.11.@Yes$Mishra L., Sinha R., Itokawa H., Bastow K.F., Tachibana Y., Nakanishi Y., Kilgore N. and Lee K.H. (2001).@Anti-HIV and cytotoxic activities of Ru (II)/Ru (III) polypyridyl complexes containing 2, 6-(2′-benzimidazolyl)-pyridine/chalcone as co-ligand.@Bioorganic & medicinal chemistry, 9(7), 1667-1671.12.@Yes$Prajapati R., Dubey S.K., Gaur R., Koiri R.K., Maurya B.K., Trigun S.K. and Mishra L. (2010).@Structural characterization and cytotoxicity studies of ruthenium (II)–dmso–chloro complexes of chalcone and flavone derivatives.@Polyhedron, 29(3), 1055-1061.13.@Yes$Muthukumar M. and Viswanathamurthi P. (2010)@Spectral, catalytic, and antifungal studies of ruthenium(II) chalcone complexes.@J. Coord. Chem, 63(7), 1263-1272.14.@Yes$Sumathi S., Tharmaraj P., Sheela C.D. and Ebenezer R. (2011).@Synthesis, spectral, bioactivity, and NLO properties of chalcone metal complexes.@J. Coord. Chem, 64(10), 1707-1717.15.@Yes$Geary W.J. (1971).@The use of conductivity measurements in organic solvents for the characterisation of coordination compounds.@Coordination Chemistry Reviews, 7(1), 81-122.16.@Yes$Nakamoto K. (1978).@Infrared and Raman Spectra of Inorganic Coordination Compounds.@New York, Wiley and sons., 229.17.@Yes$Dhar D.N. and Gupta V.P. (1971).@Infrared Studies Of Some Substituted Chalkones.@Indian Journal of Chemistry, 9(8), 818.18.@Yes$Rao T.S.R., Reddy K.L. and Lingaiah P. (1988).@Synthesis and structural studies of complexes of Co (II), Ni (II), Cu (II), Zn (II) and Cd (II) with substituted chalcones.@Journal of Chemical Sciences, 100(5), 363-373. 19.@Yes$Venugopal P. and Krishnakuty K. (1997).@Synthesis and characterisation of cobalt-, nickel-, copper-and zinc (II) complexes of morin.@Journal of the Indian Chemical Society, 74(7), 562-563.20.@Yes$Palaniandavar M. and Natarajan C. (1980).@Cobalt (II), nickel (II) and copper (II) complexes of some 2@Australian Journal of Chemistry, 33(4), 737-745. 21.@Yes$Khulbe R.C., Bhoon Y.K. and Singh R.P. (1981).@Copper (Ii) And Nickel (Ii) Complexes Of Isatin-3, 2@Journal Of The Indian Chemical Society, 58(9), 840-843.22.@Yes$Sharma P.K., Sen A.K. and Dubey S.N. (1994).@Synthetic, Spectral And Thermal Studies Of Cobalt(Ii), Nickel(Ii), Zinc(Ii) And Cadmium(Ii) Complexes With Amino-Acid Schiff-Bases.@Indian journal of chemistry, Sect. A: Inorganic, physical, theoretical & analytical, 33, 1031-1033.23.@Yes$Makode J.T. and Aswar A.S. (2003).@Transition metal complexes of Bis(S-methyldithiocarbazate) resdiacetophenone (BSMZRD).@J. Indian Chem. Soc , 80(1), 44-46. 24.@Yes$Sakaguchi U. and Addison A.W. (1979).@Spectroscopic and redox studies of some copper(II) complexes with biomimetic donor atoms: implications for protein copper centres.@Journal of the Chemical Society, Dalton Transactions, 4, 600-608. 25.@Yes$Daniel V.P., Murukan B., Kumari B.S. and Mohanan K. (2008).@Synthesis, spectroscopic characterization, electrochemical behaviour, reactivity and antibacterial activity of some transition metal complexes with 2-(N-salicylideneamino)-3-carboxyethyl-4,5-dimethylthiophene.@Spectrochimica Acta, Part A, 70(2), 403-410. 26.@Yes$Romanowski S.M.D.M., Tormena F., Santos Dos V.A., Hermann M.D.F. and Mangrich A.S. (2004).@Solution studies of copper (II) complexes as a contribution to the study of the active site of galactose oxidase.@Journal of the Brazilian Chemical Society, 15(6), 897-903. 27.@Yes$Kivelson D. and Neiman R. (1961).@ESR Studies on the Bonding in Copper Complexes, The Journal of Chemical Physics, 35(1), 149-155. 28.@undefined@Yes$Procter I.M., Hathaway B.J. and Nicholls P. (1968).@The electronic properties and stereochemistry of the copper(II) ion. Part I. Bis (ethylene di amine) copper(II) complexes.@J. Chem. Soc A, 1678-1684. 29.@Yes$Barry A.L. (1991).@Procedure and theoretical consideration for testing antimicrobial agents in agar media.@5th Edn, William Wilkins Baltimore.@Yes <#LINE#>Thermal studies of lingo-cellulosic palm fiber reinforced hybrid green composites<#LINE#>Agrawal@Richa ,Saxena@N.S. <#LINE#>22-27<#LINE#>4.ISCA-RJRS-2017-041.pdf<#LINE#>G.N. Khalsa College, Matunga, Mumbai, MS, India@Polymer Science Lab, University of Rajasthan, Jaipur, Rajashthan, India<#LINE#>30/11/2016<#LINE#>4/4/2017<#LINE#>Thermal properties of the hybrid composites have been explored by differential Scanning Calorimeter (DSC) and Transient Plane Source (TPS) technique. Hybrid composites have been prepared by reinforcing lingo-cellulosic oil palm fibers and glass fibers in phenol formaldehyde resin matrix. Non-isothermal crystallization kinetics has been studied by Differential Scanning Calorimeter. Parameters like enthalpy released and thermal stability of the composites have been evaluated using the DSC data. Activation energy of the composites has been evaluated by two different methods and compared. TPS technique has been employed to measure the effective thermal diffusivity and thermal conductivity of the composites. Thermal conductivity of the fibers has been evaluated by a theoretical model and compared.<#LINE#>Jarukumjorn K. and Suppakarn N. (2009).@Effect of glass fiber hybridization on properties of sisal fiber polypropylene composites.@Composites Part B: Engineering, 40(7), 623-627.@Yes$Haque M.M., Hasan M., Islam M.S. and Ali M.E. (2009).@Physico-mechanical properties of chemically treated palm and coir fiber reinforced polypropylene composites.@Bioresource Technology, 100(20), 4903-4906.@Yes$Shinoj S., Visvanathan R., Panigrahi S. and Kochubabu M. (2011).@Oil palm fiber (OPF) and its composites: A review.@Industrial Crops and Products, 33(1), 7-22.@Yes$Brahmakumar M., Pavithran C. and Pillai R.M. (2005).@Coconut Fibre Reinforced Polyethylene Composites: effect of natural waxy surface layer of the fibre on fibre/matrix interfacial bonding and strength of composites.@Comp. Sci. Tech., 65(3), 563-569.@Yes$Jacob M., Thomas S. and Varughese K.T. (2004).@Mechanical properties of sisal/oil palm hybrid fiber reinforced natural rubber composites.@Comp. Sci. Tech., 64(7), 955-965.@Yes$Sreekala M.S., Kumaran M.G. and Thomas S. (1997).@Oil Palm Fibres: Morphology, Chemical Composition, Surface Modification, and Mechanical Properties.@J. Appl. Polym. Sci., 66(5), 821-835.@Yes$Sreekala M.S., Thomas S. and Neelakantan R.N. (1996).@Utilization of short oil palm empty fruit bunch fiber (opefb) as a reinforcement in phenol- formaldehyde resins: studies on mechanical properties.@J. Polym. Eng., 16(4), 265-294.@Yes$Joseph K., Pavithran C. and Thomas S. (1995).@Effect of ageing on the physical and mechanical properties of short sisal fibre reinforced polyethylene composites.@Com. Sci. Tech., 53(1), 99-110.@Yes$Hancox N.L. (1981).@Fiber Composites-Hybrid Materials.@Applied Science, Publishers Ltd. London.@Yes$Vinson J.R. and Chou Tsu-Wei (1975).@Composite Materials and Their Uses in Structures.@Applied Science Publishers Ltd. London.@Yes$Minges M. (1989).@Electronic Materials Handbook.@ASM Int. Publication.@Yes$Agrawal, Richa Saxena, N.S., Sharma K.B., Sreekala M.S. and Thomas S. (1999).@Thermal conductivity and thermal diffusivity of Palm fiber reinforced binary phenolformaldehyde composites.@Indian Jr. Pure& Appl. Phys., 37, 865-869.@Yes$Starink M.J. (2003).@The determination of activation energy from linear heating rate experiments: a comparision of accuracy of isiconversion methods.@Thermochim. Acta, 404(1), 163-176.@Yes$Kissinger H.E. (1956).@Variation of Peak Temperature with Heating Rate in Differential Thermal Analysis.@J Res NBS, 57(4), 217-221.@Yes$Matusita K., Komatusa T. and Yokota R. (1984).@Kinetics of non-isothermal crystallization process and activation energy for crystal growth in amorphous materials.@J. Mat. Sci., 19(1), 291-296.@Yes$Mahadevan S., Giridhar A. and Singh A.K. (1986).@Calorimetric measurements on As–Sb–Se glasses.@J. Non-Cryst Solids., 88(1), 11-34.@Yes$Hruby A. (1972).@Evaluation of glass-forming tendency by means of DTA.@Czech. J. Phys. B, 22(11), 1187-1193.@Yes$Agari Y., Ueda A., Tanaka M. and Nagai S. (1993).@Thermal conductivity of a polymer composite.@J. Appl. Polym. Sci., 49(9), 1625-1634.@Yes$Agari Y., Nagai S., Uno T. and Tanaka M. (1987).@Thermal conductivity of a polymer composite filled with mixtures of particles.@J. Appl. Polym. Sci., 34(4), 1429-1437.@Yes @Research Article <#LINE#>On the number of k-matchings of graphs<#LINE#>Asgari@F.,Namazi@R. ,Vesalian@R.,Zallaghi@M. <#LINE#>28-31<#LINE#>5.ISCA-RJRS-2016-013.pdf<#LINE#>Department of Mathematics, Mahshahr Branch, Islamic Azad University, Mahshahr, Iran@Department of Mathematics, Mahshahr Branch, Islamic Azad University, Mahshahr, Iran@Department of Mathematics, Mahshahr Branch, Islamic Azad University, Mahshahr, Iran@Department of Mathematics, Isfahan University, Isfahan, Iran<#LINE#>23/2/2016<#LINE#>12/4/2017<#LINE#>In this paper an inductive formula for the number of k-matchings in graphs is derived using this formula. We concluded the number of k-matchings in special regular graphs and complete graphs.<#LINE#>Farrel E.J., Guo J.M. and Constantine G.M. (1991).@On matching coefficients.@Discr. Math., 89(2), 203-2010.@Yes$Behmaram A. (2009).@On the number of 4-matchng in graphs.@MATCH Commun. Math. Comput. Chem. 62(2), 381-388.@Yes$Vesalian R. and Asgari F. (2013).@Number of 5-matchings in graphs.@MATCH Commun. Math. Comput. Chem., 69, 33-46.@Yes$Vesalian R., Namazi R. and Asgari F. (2015).@Number of 6-matchings in graphs.@MATCH Commun. Math. Comput. Chem., 73, 239-265.@Yes$Gutman I. and Wagner S. (2012).@The matching energy of graph.@Disc. Appl. Math., 160(15), 2177-2187.@Yes$Gutman I. and Zhang F. (1986).@On the ordering of graphs with respect to their matching numbers.@Disc. Appl. Math., 15(1), 25-33.@Yes$Ji S., Li X. and Shi Y. (2013).@Extermal matching energy of bicyclic graphs.@MATCH Commun. Math. Comput. Chem, 70(2), 697-706.@Yes$Otter R. (1948).@The number of trees.@Ann. Math., 49(3), 583-599.@Yes$Li X., Shi Y. and Gutman I. (2012).@Graph energy.@Springer, New York.@Yes$Yan W. and Ye L. (2005).@On the minimal energy of trees with a given diameter.@Appl. Math. Lett., 18(9), 1046-1052.@Yes @Review Paper <#LINE#>Ethnophormacological screening of some selected medicinal plants<#LINE#>Kumawat@Ram Bhajan ,Sharma@Ram Avatar ,Sharma@Ram Avatar ,Mali@Pratap Chand ,Mali@Pratap Chand ,Chandrawat@P. <#LINE#>32-41<#LINE#>6.ISCA-RJRS-2017-006.pdf<#LINE#>School of Basic and Applied Science, Poornima University, Jaipur-302022, India@School of Basic and Applied Science, Poornima University, Jaipur-302022, India@Department of Botany, University of Rajasthan, Jaipur - 302004, India@School of Basic and Applied Science, Poornima University, Jaipur-302022, India@Reproductive Biomedicine and Natural Products Lab, Reproductive Physiology Section, Department of Zoology, University of Rajasthan, Jaipur - 302004, India@Department of Botany, University of Rajasthan, Jaipur - 302004, India<#LINE#>27/1/2017<#LINE#>21/3/2017<#LINE#>Human from ancient times have been used plants and their products to various ailments because plant products cause minimal or no side effects. In the present paper we review five traditional Indian medicinal plants used for ethanomedicinal and pharmacological in India traditional medicinal system (Ayurveda), several researchers of have been explored different activities of these plants includes Citrullus colocynthis, Delonix regia, Kiglia pinnata, Martynia annua and Pongamia pinnata. These plants have been used for several medicinal and pharmacological activities like as anti-inflammatory, antifungal and antibacterial, antioxidant, analgesic or anti-proliferative, antifertility and abortion etc in different parts around the world.<#LINE#>Chaturvedi M, Mali PC and Dixit VP (1995).@Fertility regulation in male rats with the help of Echinops echinatus of root extract.@J Phytological Res, 8(2), 115-118.@Yes$Manohar P., Rajesham V.V., Ramesh M., Kiran K.S.., Prasanna K.J. (2011).@Pharmacognostical, Phytochemical and antimicrobial activity of Bauhinia Racemosa leaves.@J Pharmaceu Biol, 1(1), 10-14.@Yes$Singh S. and Kumar Sonia N. (2014).@A review: introduction to genus Delonix.@World J Pharmacy and Pharmaceu Sci, 3(6), 2042-2055.@Yes$Mali P.C., Singh A.R., Verma M.K., Chahar M.K. and Dobhal M.P. (2015).@Contraceptive effects of Withanolide- A in adult male albino rats Adv.@Pharmacol. Toxicol., 1(6), 31-44.@Yes$Mali P.C., Ansari A.S., Chaturedi M. (2002).@Antifertility effect of chronically administered Martynia annua root extract on male rats.@J Ethnopharmacol, 82(2), 61-67.@Yes$Chaturvedi M., Mali P.C. and Ansari A.S. (2003).@Induction of reversible antifertility with a crude ethanol extracts of Citrullus colocynthis Schrad fruit in male rats.@Pharmacology., 68(1), 38-48.@Yes$Nayab D., Ali D., Arshad N., Malik A., Choudhary M. and Ahmed Z. (2006).@Cucurbitacin glucoside from Citrullus colocynthis.@Nat Prod Res.,20(5), 409-413.@Yes$Yoshikawa M., Morikawa T., Kobayashi H., Nakamura A., Matsuhira K., Nakamura S. and Matsuda H. (2007).@Bioactive saponins and glycoside. XXVII. Structure of new Cucurbitane –type triterpen glycoside and antiallergic constituents from Citrullus colocynthis.@Chem Pharm Bull (Tokyo), 55(3), 428-434.@Yes$Gurudeeban S., Satyavani K. and Ramanathan T. (2010).@Bitter Apple (Citrullus colocynthis): An overview of chemical composition and biomedical potentials.@Asian J Plant Sci., 1-8.@Yes$Dhanotia R., Chauhan N.S., Saraf D.K. and Dixit V.K. (2011).@Effect of Citrullus colocynthis Schrad fruits ontestosterone-induced alopecia.@Nat Prod Res., 25(15), 1432-1443.@Yes$Marzouk Belsem, Marzouk Zohra, Haloui Ehsen, Turki Manel, Bouraoui Abderrahman, Aouni Mahjoub and Fenina Nadia (2011).@Anti-inflammatory evaluation of immature fruit and seed aqueous extracts from several populations of Tunisian Citrullus colocynthis Schrad.@African Journal of Biotechnology, 10(20), 4217-4225.@Yes$Khatibi R. and Jahanbakhsh T. (2011).@Anticandidal screening and antibacterial of Citrullus colocynthis in South East of Iran.@J Horti and Forest., 3(13), 392-398.@Yes$Bernard Saba A. and Olayinka A.O. (2010).@Search fora novel antioxidant, anti-inflammatory/analgesic or anti-proliferative drug: Cucurbitacins hold the ace.@J Med Plants Res, 4(25), 2821-2826.@Yes$Tannin-Spitz T., Grossman S., Dovrat S., Gottlieb H. and Bergman M. (2007).@Growth inhibitory activity of cucurbitacin glucosidesisolated from Citrullus colocynthis onhuman breast cancer cells.@Biochem Pharmacol., 73(1), 56-67.@Yes$Adjéa Félix A., Lozanoa Yves F., Gernevéb Christine Le, Lozanoa Paul R., Meudecb Emmanuelle, Adimac Augustin A. and Gaydou Emile M. (2012).@Phenolic acid and flavonol water extracts of Delonix regia red flowers.@Industrial Crops and Products, 37(1), 303-310.@Yes$Wijayasiriwardena C., Sharma P.P., Chauhan M.G. and Pillai A.P.G. (2009).@Pharmacognostical investigation of unexplored leaf drug Delonix elata (L.) Gamble from folklore practice.@AYU., 30(1), 68-72.@Yes$Roy S. and Sengupta P. (1968).@Chemical investigation of the bark of Delonix regia.@J. Ind. Chem. Soc., 45(5), 464-465.@Yes$Mukherjee D. (1975).@Keto and imino acids in Delonix regia flowers.@Phytochemistry, 14(9), 1915-1918.@Yes$Saleh N.A.M. and Ishak M.S. (1976).@Anthocyanins of some Leguminosae flowers and their effect on color variation.@Phytochemistry, 15(5), 835-836.@Yes$Baruah P. and Sarma G.C. (1984).@Qualitative and quantitative analysis of amino acids of 19 plants.@J. Palynol., 20(1), 31-36.@No$Parekh J. and Chanda S. (2007).@In vitro antimicrobial activity and phytochemical analysis of some Indian medicinal plants.@Turk J. Biol., 31(1), 53-58.@Yes$Abdullahi S.A. and Abdullahi G.M. (2005).@Effect of boiling on the proximate, anti-nutrients and amino acid composition of row Delonix regia seed.@Nigerian Food J., 23(1), 128-132.@Yes$Satish S., Mohana D.C., Raghavandra M.P. and Raveesha K.A. 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