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Qualitative characterization of phenolic profile of the fruits and leaves of Solanum torvum Swart naturally growing in Côte d’Ivoire

By: Sopie Edwige-Salomé Yapo, Obou Constantin Okou, Seu Jonathan Gogbeu, Tanoh Hilaire Kouakou, Teguo Pierre Waffo

Key Words: Phenolic compounds, Solanum torvum, Côte d’Ivoire, HPLC

Int. J. Agron. Agri. Res. 15(4), 1-9, October 2019.

Certification: ijaar 2019 0197 [Generate Certificate]

Abstract

The polyphenol phytochemical constituents have a positive impact on health and in the prevention of various diseases. The current study aimed at qualititative phytochemical analysis of Solanum torvum from Côte d’Ivoire, in order to knowledge phenolic potential of plant for futurs reseachs. The leaves and fruits of Solanum torvum were collected in Daloa province of Côte d’Ivoire, dried, ground to powder and extracted using differents solvents. The dry extract purified was dissolved in methanol and filtered through a Millipore membrane with 0.22μm porosity. Then, each of extracts was further subjected to TLC and HPLC. Total phenolic and flavonoid contents were evaluated using Folin-Ciocalteu method and aluminium trichloride test, respectively. The results revealed that leaves extracts accumulated significantly higher phenolic content 86.07±1.49mg GAE/g DW and flavonoid content 2.51±0.14mg GAE/g DW than extracts fruits. The chromatography analyse showed eigteen compounds in fruits fraction and twenty compounds in leaves fraction. Chromatography identification conducted on ethyl acetate fraction revealed the presence of phenolics acid, flavonoids and coumaric acid. Most of identified compounds are already were isolated by previous phytochemical investigations on Solanum except arbutin, tannic acid and p-coumaric acid. These major active compounds have various biological activities and play a known role in maintaining good health. The results show Solanum from Côte d’Ivoire have the same abilities as other species in the world. The knowledge of phenolic profile of Solanum torvum from Côte d’Ivoire are very important for their authentication, conservation and utilization of biological resources.

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Qualitative characterization of phenolic profile of the fruits and leaves of Solanum torvum Swart naturally growing in Côte d’Ivoire

Abdulaziz RA, Nashriyah M, Md M. Hasanmmd, Jahan SMd. 2016. In vitro antioxidant activity of the ethanolic extract from fruit, stem, and leaf of Solanum torvum. Science Asia 42, 184-189.

Akoto O, Borquaye SL, Howard SA, Konwuruk N. 2015. Nutritional and Mineral Composition of the Fruits of Solanum torvum from Ghana. International Journal of Chimical and Biomolocular Science 1(4), 222- 226.

Arif M, Fareed S. 2011. Pharmacognostical studies and evaluation of total phenolic and flavonoid contents of traditionally utilized fruits of Solanum torvum Sw. Indian Journal of Natural Products and Resources 2(2), 218-224.

Asmah R, Fadzelly AM, Abdah MA, Eliana AN, Hafzan Y. 2007. Antioxidant activity, 
total phenolic content and cytotoxic activity of various types of eggplants. Journal Tropical Agriculture And Food Sciences 35, 91.

Colmenares AP, Rojas LB, Mitaine-Offer AC, Pouységu L, Quideau S, Miyamoto T, Tanaka C, Paululat T, Usubillaga A, Lacaille-Dubois MA. 2013. Steroidal saponins from the fruits of Solanum torvum. Phytochemistry 86, 137-143.

El-Hacl IA, Atik-Bekkara F, Didi A, Gherib M, Didi MA. 2012. Teneurs en polyphénols et pouvoir antioxydant d’une plante médicinale endémique du Sahara Algérien. Phytothérapie 10(5), 280-285.

Gahlot M, Pooja Bhatt P, Joshi J. 2018. Study on Yield of Plant Extracts Using Different Solvents and Methods. Bulletin of Environment, Pharmacology and Life Sciences.

George S, Brat P, Alter P, Amiot MJ. 2005. Rapid determination of polyphénols and vitamin C in plant-derived products. Journal of Agricultural and Food Chemistry 53, 1370-1373.

Gololo S, Mapfumari SN, Mogale AM. 2018. Comparative quantitative phytochemical analysis of the leaves of Senna italica collected from different areas in limpopo province, South Africa. International Journal of Pharmacy and Pharmaceutical Sciences 10(2), 67-71.

Hopkins WG. 2003. Physiologie végétale. De Boeck & Larcier (eds), Bruxelles, Belgique p 514.

Kaunda SJ, Zhang YJ. 2019. The Genus Solanum: An Ethnopharmacological, Phytochemical and Biological Properties Review. Natural Products and Bioprospecting 9, 77-137.

Kuti JO, Konuru HB. 2005. Effects of genotype and cultivation environment on lycopene content in redripe tomatoes. Journal of the Science of Food and Agriculture 85(12), 2021-2026.

Lev E. 2006. Ethno-diversity within current ethnopharmacology as part of Isradi traditional mediline. Journal of Ethnobiology and ethnomedicine 2, 4.

Luthria DL, Mukhopadhyay S. 2006. Influence of sample preparation on assay of phenolic acids from eggplant. Journal of Agricultural and Food Chemistry 54, 41-47.

Naima R, Dumam M, Hannache H, Sesbou A, Charrier B, Pizzi A, Charrier-ElBF. 2015. Comparison of the impact of different extraction methods on polyphenols yields and tannins extracted from Moroccan Acacia mollissima barks. Industrial Crops and Products 70, 245-252.

Okou OC, Yapo SES, Kouassi KC, Komenan NR, Monthaut SV, Djaman AKM. 2019. Évaluation de l’activité antibactérienne des extraits de fruits de Solanum torvum Swartz (Solanaceae) sur la croissance in vitro de sept (07) souches d’entérobactéries de différents profils (résistantes ou sensibles). International Journal of Biological and Chemical Sciences 13(3), 1510-1526.

Padmaja M, Sravanthi M, Hemalatha KPJ. 2011. Evaluation of antioxidant activity of two Indian medicinal plants. Journal of Phytobiology 3(3), 86-91.

Rodríguez-Rojo S, Visentin A, Maestri D, Cocero MJ. 2012. Assisted extraction of rosemary antioxidants with green solvents. Journal of Food Engineering 109(1), 98-103.

Yapo SE, Kouakou TH, kouakou KL, Yatty KJ, Kouamé P, Mérillon JM. 2011. Phenolic profiles of pineapple fruits (Ananas comosus L. Merrill) Influence of the origin of suckers. Australian Journal of Basic and Applied Sciences 5(6), 1372-1378.

Yousaf Z, Wang Y, Baydoun E. 2013. Phytochemistry and Pharmacological Studies on Solanum torvum Swartz. Journal of Applied Pharmaceutical Science 3(4), 152-160.

Yuan Yuan LU, Jian Guang LUO, Ling YK. 2011. Chemical constituents from Solanum torvum. Chinese Journal of Natural Medicines 9(1), 30-32.

Sopie Edwige-Salomé Yapo, Obou Constantin Okou, Seu Jonathan Gogbeu, Tanoh Hilaire Kouakou, Teguo Pierre Waffo.
Qualitative characterization of phenolic profile of the fruits and leaves of Solanum torvum Swart naturally growing in Côte d’Ivoire.
Int. J. Agron. Agri. Res. 15(4), 1-9, October 2019.
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