Khude Varsha Sanjay

Department of Botany, Devchand College, Arjunnagar, Kolhapur, India

Received: Apr 8, 2023/ Revised: May 5, 2023/ Accepted: 6 May, 2023

(✉) Corresponding Author: drvarshakhude81@gmail.com

Abstract

The present research paper focuses on the phytochemical analysis of 10 different species of non-cultivated, wild, and traditional vegetables available in the adjoining area of Nipani City (Karnataka) during the rainy season. These wild plants are used as medicine as well as vegetables. They are used to treat different diseases like diabetes, rheumatism, dysentery, dyspepsia, gastritis, constipation, urinary disorders, etc., and are easily available in natural habitats, a cheap and excellent source of nutrients like proteins, carbohydrates, iron, essential minerals, and other secondary metabolites. Phytochemical analyzed 10 leafy vegetable extracts shows the presence of phytochemicals such as phenols, tannins, saponins, alkaloids, and flavonoids. The photochemical analysis of these plants is very important commercially and has a great interest in pharmaceutical companies for the production of new drugs for curing various diseases.

Keywords: Phytochemical, Phenols, Tannins, Saponins, Alkaloids, Flavonoids.

References

Antherden, L. M. (1969). Textbook of Pharmaceutical Chemistry. 8th ed. London: Oxford University Press. p.813-814.

Cowan, M. M. (1999). Plant products as antimicrobial agents. Clinical microbiology reviews12(4), 564-582.

Del Río, J. A., Benavente-García, O., Castillo, J., Marin, F. R. & Ortuño, A., (1997). Uses and properties of citrus flavonoids. Journal of agricultural and food chemistry45(12), 4505-4515.

Epand, R. F., Savage, P. B., & Epand, R. M. (2007). Bacterial lipid composition and the antimicrobial efficacy of cationic steroid compounds (Ceragenins). Biochimica et Biophysica Acta (BBA)-Biomembranes1768(10), 2500-2509.

Hafiza, R. E. (2000). Peptides antibiotics. Lancet349, 418-422.

Han, X., Shen, T., & Lou, H. (2007). Dietary polyphenols and their biological significance. International journal of molecular sciences8(9), 950-988.

Haslam, E. (1996). Natural polyphenols (vegetable tannins) as drugs: possible modes of action. Journal of natural products59(2), 205-215.

Hatano, T., Yazaki, K., OKONOGI, A., & Okuda, T. (1991). Tannins of Stachyurus species. II. Praecoxins A, B, C and D, four new hydrolyzable tannins from Stachyurus praecox leaves. Chemical and pharmaceutical bulletin39(7), 1689-1693.

Khandelwal, K. R. (2001). Practical Pharmacognosy, Techniques and Experiments. 8th ed. Pune: Nirali Prakshan.

Luch, A. (2009). On the impact of the molecule structure in chemical carcinogenesis. Molecular, Clinical and Environmental Toxicology: Volume 1: Molecular Toxicology, 151-179.

Nobori, T., Miura, K., Wu, D. J., Lois, A., Takabayashi, K., & Carson, D. A. (1994). Deletions of the cyclin-dependent kinase-4 inhibitor gene in multiple human cancers. Nature368(6473), 753-756.

Okuda, T., Hatano, T., Yazaki, K. & Guavin, B. (1983). An ellagitannin a novel type. Chem Pharm Bull.31:333.

Okwu, D. E., & Josiah, C. (2006). Evaluation of the chemical composition of two Nigerian medicinal plants. African Journal of Biotechnology5(4), 357-361.

Okwu, D. E. (2004). Phytochemical and vitamin content of indigenous spices of South Eastern Nigeria. J. Sustain. Agric. Environ6, 30-34.

Okwu, D. E., & Okwu, M. E. (2004). Chemical composition of Spondias mombin Linn plant parts. J Sustain Agric Environ6(2), 140-147.

Saijo, R., Nonaka, G. I., & Nishioka, I. (1989). Tannins and related compounds. Lxxxiv.: Isolation and characterization of five new hydrolyzable tannins from the bark of mallotus japonicus. Chemical and pharmaceutical bulletin37(8), 2063-2070.

Salah, N., Miller, N. J., Paganga, G., Tijburg, L., Bolwell, G. P., & Riceevans, C. (1995). Polyphenolic flavanols as scavengers of aqueous phase radicals and as chain-breaking antioxidants. Archives of biochemistry and biophysics322(2), 339-346.

Singh, R., Singh, S., Kumar, S., & Arora, S. (2007). Evaluation of antioxidant potential of ethyl acetate extract/fractions of Acacia auriculiformis A. Cunn. Food and chemical toxicology45(7), 1216-1223.

Sodipo, O. A., AKINNIYI, J. A., & Ogunbameru, J. V. (2000). Studies on certain characteristics of extracts of bark of Pausinystalia johimbe and Pausinystalia macroceras (K Schum) Pierre ex Beille. Global Journal of Pure and Applied Sciences6(1), 83-88.

Sofowora, A. (1993). Medicinal Plant and Traditional Medicine in Africa. Published by wiley and sons Limited Chichester, 256.

Stray, F. (1998). The Natural Guide to Medicinal Herbs and Plants. London: Tiger Books International. 12-16.

Yoshida, T., Ohbayashi, H., Ishihara, K., Ohwashi, W., Haba, K., Okano, Y., & Okuda, T. (1991). Tannins and Related Polyphenols of Melastomataceous Plants. I. Hydrolyzable Tannins from Tibouchina semidecandra COGN. Chemical and pharmaceutical bulletin39(9), 2233-2240.

How to cite this article

Khude, V. S. (2023). Qualitative phytochemical analysis of ten different leafy wild vegetables. Science Archives, Vol. 4(2), 99-101. https://doi.org/10.47587/SA.2023.4205

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