Alternate medicine practices using natural plant extract may be of great importance in combating public health challenges. Medicinal plants are the bases for the development of modern drugs; accepted to treat infectious diseases globally. This study investigated the phytochemical constituents, proximate composition, and antibacterial activity of Allium sativum (garlic), Chromolaena odorata (Siam weed), and Talinum triangulare (Waterleaf) due to their reported medicinal properties. The phytochemical constituents and proximate composition were analysed using standard protocols. Agar diffusion technique was used to evaluate the antibacterial activities of the plants. All three plants included innumerable quantities of phytochemicals such as alkaloids, tannins, phlobatannins, saponins, flavonoids, anthraquinones, steroids, phenol, and cardiac glycoside. Proximate analysis indicated that the moisture (9.88%), fiber (4.57%), crude fat (2.89%), crude protein (3.67%), ash (3.78%), and carbohydrate (75.21%) present in Allium sativum; moisture (9.26%), fiber (15.28%), crude fat (3.56%), crude protein (18.86%), ash (11.76%), and carbohydrate (41.28%) present in Chromolaena odorata; moisture (10.37%), fiber (16.43%), crude fat (2.23%), crude protein (11.88%), ash (13.29%), and carbohydrate (45.80%) present in Talinum triangulare. The crude extract of Chromolaena odorata had the highest zone of inhibition against Pseudomonas aeruginosa (12.5mm). These bioactive substances, such as phenol, alkaloids, flavonoids, saponins, and tannins, augment the therapeutic characteristics of these plants, making them a common component of traditional remedies. They may serve as primes to drug discovery and be integrated into the health care delivery system. The investigations proved these plants' medicinal potential and further demonstrated Chromolaena odorata and Talinum triangulare's nutritional potential. They are good sources of income for individuals and bioprospecting.

Antibacterial; Clarias gariepinus; Medicinal plants; Phytochemicals; Pseudomonas aeruginosa

Airaodion, A.I., Ogbuagu, E.O., Ekenjoku, J.A., Ogbuagu, U. and Airaodion, E.O., 2019. Haematopoietic Potential of ethanolic leaf extract of Talinum triangulare in wistar rats. Asian J. of Research in Biochemistry, 5(2), pp.1-7

Akinmoladun, A.C. & Akinloye, O. 2007. Proc. Akure-Humbold Kellog/3rd SAAT Annual

Conference, FUTA, Nigeria, 287-290.

Akiyama, H, Yamasaki O, Oono T & Iwatsuki, K. 2001. Antibacterial action of several tannins against Staphylococcus aureus. J. Antimicrob. Chemother; 48 (4):487-91.

AOAC International Official Methods of Analysis. 2005. 18th ed. AOAC International, Gaithersburg, M.D.

Ates, D.A. & O.T. Erdogrul, 2003. Antimicrobial activities of various medicinal and commercial plant extracts. Turk. J. Biol. 27: 157-162

Bamisaye, F.A. Ajani, E.O. Nurain I.O. & Minari, J.B. 2014. Medico-botanical investigation of siam weed (chromolaena odorata) used among the “Ijebu” people of Ogun state, Nigeria. J of Medicine and Medical Sciences 5(1) 20-24

Bongiorno, PB, Fratellone PM, & LoGiudice P. 2008. Potential health benefits of garlic (Allium sativum): a narrative review. J of Complementary and Integrative Medicine.5 (1)

Borokini, T. I.and Omotayo, F. O. 2012. Comparative Phytochemical Analysis of selected Medicinal Plants in Nigeria International. J of Adv Chemical Research 1(1): 011-018

Cushnie, T.P. & Lamb, A. J.2005. Antimicrobial activity of Flavonoids. Int J Antimicrob Agents. 26 (5): 343-356.

Douye, V. Z, Elijah, I. O & Medubari, B. N. 2013. Antibacterial Activity of Ethanol, Crude and Water Extract of Chromolaena Odorata Leaves on S Typhi and E Coli. Greener Jl of Microbiology and Antimicrobials. 1(2):016-019.

Edeoga, H. O, Okwu D. E & Mbaebie BO. 2005. Phytochemical constituents of some Nigerian medicinal plants. African J. of Biotechnology, 4(7): 685-688

Fratianni, F., Ombra, M.N., Cozzolino, A., Riccardi, R., Spigno, P., Tremonte, P., Coppola, R. and Nazzaro, F., 2016. Phenolic constituents, antioxidant, antimicrobial and anti-proliferative activities of different endemic Italian varieties of garlic (Allium sativum L.). J of Functional Foods, 21, pp.240-248.

Forester, J, & Hartmut T. 2006 “MetaCyc Pathway: saponin biosynthesis I”. Adv in experimental medicine and biology, 405, 377-385

Galeotti, F, Barile E, Curir P, Dolci M, Lanzotti V. 2008. “Flavonoids from carnation (Dianthus caryophyllus) and their antifungal activity”.Phytochemistry Letters. 1: 44.

Heldt, H. 2005. Plant Biochemistry (First edition), AcademicPress/Elsevier, New Delhi, 353-489

Kolodziej H, & Kiderien AF. 2005. Antijeishmanial activity and immune Modulatory effects of tannins and related compounds on Leishmania Parasitised RAW 264.7 cells. Phytochemistry. 66(17):2056 -71

Kumar, A., Singhal, K. C., Sharma, R. A., Vyas, G. K. and Kumar, V. 2012. Asian J.l of Experimental Biology and Sciences. 3(4): 706-713.

Liu, CT, Wong PL, Lii CK, Hse H, Sheen LY. 2006. Antidiabetic effect of garlic oil but not diallyl disulfide in rats with streptozotocin-induced diabetes. Food Chem Toxicol. (8):1377-84.

Lü L, Liu SW, Jiang SB, Wu SG. 2004. "Tannin inhibits HIV-1 entry by targeting gp 41". Acta Pharmacol. Sin. 25 (2): 213–8

Michael, H. C. 2008. Western poison-oak: Taxicodendron diversilobum, Global Twitcher ed,

Ogunnowo, A.A. and Alao-Sanni, O., 2010. Comparative antioxidant, phytochemical and proximate analysis of aqueous and methanolic extracts of Vernonia amygdalina and Talinum triangulare. Pakistan J Nutr, 9(3), pp.259-64

Okigbo, R.N, Anuagasi C. & Amadi J.E. 2009. Advances in selected medicinal and aromatic plants indigenous to Africa. J. Med. Plants Res. 3(2): 86 – 95

Okwu, D. E & Josiah, C. 2006. Evaluation of the chemical composition of two Nigerian medicinal plants. African J of Biotechnology, 5(4):357-361.

Okwu D.E 2004. Phytochemicals and vitamin content of indigenous spices of South Eastern Nigeria. J. Sustain. Agric Environ. 6:30 – 34.

Olajide, O. A., Taiwo, O.B., Soyannwo, O.O. 2000 Pharma. Biol. 38(5), 367-370

Osadebe, P. O & Ukwueze, S. E. 2004. A Comparative Study of the Phytochemical and Anti-Microbial Properties of the Eastern Nigeria Specie of African Mistletoe (Loranthus micranthus) Sourced From different Host trees. J of Biological Research and Biotechnology 2.1: 18-23.

Pavithra, M., Sridhar, K.R. & Greeshma, A.A., 2017. 17. Bioactive attributes of traditional leafy vegetable Talinum triangulare. of nutrition in heart health, p.357

Prasad, K. V., Yadav, K. N., Vidya, N. S., Sumeet, B. K. and Manohar, P. J.. 2012. International J of Pharmaceutical and Phytopharmacology Research, 1(6):350- 353.

Rios, J. L & Recio, M. C. 2005. Medicinal plants and antimicrobial activity. J. Ethnopharmacol. 100: 80-84.

Robert, K. O, Nwaneb FC, Ndubuisi-Nnaji UU, Onuoha LN and Chiegboka N. 2011 International Journal of Comprehensive Pharmacy Ethanolic Extraction and Phytochemical Screening Of Two Nigerian Herbs On Pathogens Isolated From Wound Infections. Pharmacie Globale (IJCP), 2(10).

Rout, S., Rout, S. and Ghadai, A. 2012. International Jof Microbiology Research, 4(5):227- 230.

Schnier, M, Sies H, Illek B, Fischer, H. Cocoa-related flavonoids inhibit CFTR- mediated chloride transport acrossT84 human colon epithelia. J. Nutri. 2005; 135(10): 2320-5

Sofowora, A: 1993. Medicinal Plants and Traditional Medicines in Africa. Chichester John Willey & Sons New York256

Tiamiyu, A. M. and Soladoye, M. O. 2015. Antibiotics Resistance in Bacteria Strains Isolated From Fish: Potential Health Risk. J of Biology, Agriculture and Healthcare.5 (10), 65

Umamaheswari, M, Chatterjee TK, In vitro antioxidant activities of the fractions of coccinia grandis l. leaf extract. African J of Traditional, Complementary and Alternative Medicines, 2008; 5 (1): 61-73Vijayalakshmi,

Yen GC, Duh PD, Tsai CL. Relationship between antioxidant activity and maturity of peanut hulls. J of Agricultural and Food Chemistry, 1993; 41: 67-70.