[1]
Pilerood AS, Prakash J. Evaluation of nutritional composition and antioxidant activity of Borage (Echium amoenum) and Valerian (Valerian officinalis). J Food Sci Technol 2014; 51: 845-54.
[2]
Rajakumar S, Chikkanna, Bindroo BB. Food and medicinal values in “silkworm” and its host plant “mulberry”-exploring new horizons. Int J Food Nutr Sci 2014; 3: 124-30.
[3]
Singh N. Pulses: an overview. J Food Sci Technol 2017; 54: 853-7.
[4]
Saikia S, Mahanta CL. Effect of steaming, boiling and microwave cooking on the total phenolics, flavonoids and antioxidant properties of different vegetables of Assam, India. Int J Food Nutr Sci 2013; 2: 47-50.
[5]
Elumalai S, Banupriya R, Sangeetha T, et al. Review on phytopharmacological activities of Andrographis paniculata (Burm.F) Nees. Int J Pharma Bio Sci 2016; 7: 183-200.
[6]
Okhuarobo A, Falodun JE, Erharuyi O, et al. Harnessing the medicinal properties of Andrographis paniculata for diseases and beyond: a review of its phytochemistry and pharmacology. Asian Pac J Trop Dis 2014; 4: 213-22.
[7]
Kamboj A, Saluja AK. Bryophyllum pinnatum (Lam.) kurz phytochemical and pharmacological profile: a review. Pharmacogn Rev 2009; 3: 364-74.
[8]
Yadav NP, Dixit VK. Hepatoprotective activity of leaves of Kalanchoe pinnata. Pers J Ethnopharmacol 2003; 86: 197-202.
[9]
Ojewole JAO. Antinociceptive, antiinflammatory and antidiabetic effects of Bryophyllum pinnatum (Crassulaceae) leaf aqueous extract. J Ethnopharmacol 2005; 99: 13-9.
[10]
Marriage PB, Wilson DG. Analysis of the organic acids of Bryophyllum calycinum. Can J Biochem 1971; 49: 282-96.
[11]
Kelemu S, Cardona C, Segura G, et al. Antimicrobial and insecticidal protein isolated from seeds of Clitoria ternatea, a tropical forage legume. Plant Physiol Biochem 2004; 42: 867-73.
[12]
Jain NN, Ohal CC, Shroff SK, et al. Clitoria ternatea and the CNS. Pharmacol Biochem Behav 2003; 75: 529-36.
[13]
Mukherjee PK, Kumar V, Kumar NS, et al. The Ayurvedic medicine Clitoria ternatea- From traditional use to scientific assessment. J Ethnopharmacol 2008; 120: 291-301.
[14]
AOAC. Official methods of analysis. 15th ed. : Association of the Official Analytical Chemists Washington, DC 1990.
[15]
Onyeike EN, Ayoologu EO, Ibegbulam CO, et al. Evaluation of the nutritional value of some crude oil polluted freshwater fishes. Glob J Pure Appl Sci 2000; 6: 227-33.
[16]
Buondonno A, Rashad AA, Coppola E, et al. Comparing tests for soil fertility II, the hydrogen peroxide/sulfuric acid treatment as and alternative to the copper/selenium catalyzed digestion process for routine determination of soil nitrogen-kjeldahl. Commun Soil Sci Plant Anal 1995; 6: 1607-19.
[17]
Pearson D. Chemical Analysis of Foods. 7th ed. Edinburgh: Churchill Livingstone 1976.
[18]
Okiei W, Ogunlesi M, Azeez L, et al. The voltammetric and titrimetric determination of ascorbic acid levels in tropical fruits samples. Int J Electrochem Sci 2009; 4: 276-87.
[19]
Murphy J, Riley JP. A modified single solution method for the determination of phosphate in natural waters. Anal Chim Acta 1962; 27: 31-6.
[20]
Harborne JB. Phytochemicals Methods. London: Chapman and Hall Ltd. 1973.
[21]
Chauhan DK, Puranik V, Mishra V, et al. Analysis of stem of Tinospora cordifolia, leaves of Andrographis paniculata and root and leaves of Boerhaavia diffusa for nutritional and phytochemical composition. Int J Food Nutr Sci 2014; 3: 104-11.
[22]
Barua CC, Bora M, Saikia BN, et al. Quantitative analysis of proximate and mineral composition of a few important medicinal plants of North East Region. Int J Appl Biol Pharm 2015; 6: 188-93.
[23]
Deshmukh S, Jadhav V. Bromatological and mineral assessment of Clitoria ternatea Linn. leaves. Int J Pharm Pharm Sci 2014; 6: 244-6.
[24]
Puranik V, Tripathi DK, Kaur D, et al. Nutritional evaluation of leaves of Boerhaavia diffusa L. and Andrographis paniculata (Burm.F.) Wall Ex Nees: implications for nutraceutical applications. Int J Pharma Bio Sci 2012; 3: 315-21.
[25]
Abasiekong BO, Osabor BN. Minerals and proximate estimations of the stem and leaves of Andrographis paniculata (King of bitters). Int J Adv Res Eng Tech Sci 2017; 4(11): 19-22.
[26]
Nwali BU, Okaka ANC, Offor CE, et al. Proximate and mineral compositions of Bryophyllum pinnatum leaves. Am J Phytomed Clin Therpeut 2014; 2(3): 286-9.
[27]
Dauda A, Garba HZ. Chemical analysis of Bryophyllum Pinnatum (Never Dies) leaves. Elixir Appl Chem 2017; 104: 45966-8.
[28]
Muhammad ER, Rabeta MS. A potential of telang tree (Clitoria ternatea) in human health. Food Res 2018; 2(5): 415-20.
[29]
Neda GD, Rabeta MS, Ong MT. Chemical composition and anti-proliferative properties of flowers of Clitoria Ternatea. Int Food Res J 2013; 20(3): 1229-34.
[30]
Manalisha D, Medhi AK, Kalita JC. Biochemical estimation of primary metabolites and mineral composition of Clitoria ternatea (L.) roots. Int J Life Sci 2013; 8(2): 713.
[31]
Alobi NO, Eja ME, Okoi AI, et al. Comparative evaluation of the nutrient composition of Andrographis paniculata and Gongronema latifolium. NY Sci J 2015; 8(12): 16-20.
[32]
Okwu DE, Josiah C. Evaluation of the chemical composition of Bryophyllum pinnatum. J Sci 2006; 6: 30-7.
[33]
Kapoor BB, Purohit V. Mineral contents from some fabaceous plant species of Rajasthan desert. Indian J Pharm Biol Res 2013; 1(4): 35-7.
[34]
Perez V, Ellen T, Chang V, et al. Sodium-to-potassium ratio and blood pressure, hypertension, and related factors. Adv Nutr 2014; 5: 712-41.
[35]
Siddhuraju P, Becker K, Makker HS, et al. Chemical composition, protein fractionation, essential amino acid potential and antimetabolic constituents of an unconventional legume, Gila bean (Entada phaseoloides Merrill.) seed kernel. J Sci Food Agric 2001; 82: 192-202.
[36]
Liu H, Yazici H, Ergun C, et al. An in vitro evaluation of the Ca/P ratio for the cytocompatibility of nano-to-micron particulate calcium phosphates for bone regeneration. Acta Biomater 2008; 4: 1472-9.
[37]
Behera PR, Nayak P, Baric DP, et al. ED-XRF spectrometric analysis of comparative elemental composition of in vivo and in vitro roots of Andrographis paniculata (Burm.f.) Wall ex nees-a multimedicinal herb. Appl Radiat Isot 2010; 68: 2229-36.
[38]
Muhammad A, Dangoggo SM, Tsafe AI, et al. Proximate, minerals and anti-nutritional factors of Gardenia aqualla (Gauden dutse) fruit pulp. Pak J Nutr 2011; 10: 577-81.
[39]
Joshi PV, Patil RH, Maheshwari VI, et al. In vitro anti-diarrhoeal activity and toxicity profile of Aegle marmelos Correa ex Roxb dried fruit pulp. Nat Prod Radian 2009; 8(15): 498-502.
[40]
Edoga HO, Okwu DE, Mbaebic BO, et al. Phytochemical constituents of some Nigerian medicinal plants. Afri J Biotechnol 2005; 49: 685-8.
[41]
Chrinius H, Gary GY, Gideon AS, et al. Phytochemical and antimicrobial screening of methanol and aqueous extracts of Agave sisalana. Acta Pol Pharm 2011; 68: 535-9.
[42]
Alagesaboopathi C. Phytochemical analysis and antimicrobial evaluation of Andrographis lineata nees leaves and stem extracts. Afr J Pharm Pharmacol 2011; 5(9): 1190-5.
[43]
Okoye EI, Anyaegbunam LC, Obi ZC, Ibemenuga KN. Pharmaceutical constituents of stem of Bryophyllum pinnatum. Magnesium 2015; 11: 1-38.
[44]
Kavitha R, Premalakshmi V. Phytochemical analysis of ethanolic extract of leaves of Clitoria ternatea L. Int J Pharma Bio Sci 2013; 4(4): 236-42.
[45]
Gupta GK, Chahal J, Bhatia M, et al. Clitoria ternatea (L.) Old and new aspects. J Pharm Res 2010; 3: 2610-4.
[46]
Ganju K, Ganju E. Phytochemical analysis of methanolic extract of leaves of Kalanchoe pinnata (Lam.). Eur J Pharma Med Res 2016; 3(5): 359-61.
[47]
Manjula P, Mohan C, Sreekanth D, et al. Phytochemical analysis of Clitoria ternatea Linn. a valuable medicinal plant. J Indian Bot Society 2013; 92(3-4): 173-8.
[48]
Tsuchiya H, Sat M, Miyazaki T, et al. Comparative study on the antibacterial activity of phytochemical flavonones against methicillin resistant Staphylococcus aureus. J Ethnopharmacol 1996; 50: 27-34.
[49]
Rai KS. Neurogenic Potential of Clitoria ternatea aqueous root extract- A basis for enhancing learning and memory. World Acad Sci Eng Technol 2010; 4: 508-13.
32
2
1
1