ANALISIS KADAR SENYAWA FLAVONOID DARI EKSTRAK ETANOL DAUN KAKAO (Theobroma cacao L.) DENGAN PERBANDINGAN DAERAH TEMPAT TUMBUH

  • Nurul Faiza Mahmud Fakultas Farmasi Universitas Muslim Indonesia
  • St Maryam Universitas Muslim Indonesia, Makassar, Sulawesi Selatan
  • Asriani Suhaenah Universitas Muslim Indonesia, Makassar, Sulawesi Selatan
Keywords: Cocoa leaf (Theobroma cacao L.); Flavonoids; UV-Vis spectrophotometry

Abstract

Cocoa leaves (Theobroma cacao L.) contain active compounds that have many health benefits. Flavonoids are one of the active compounds contained therein that can prevent the formation of free radicals and reduce tissue damage due to inflammation. This study aims to determine the flavonoid content of ethanol extract of cacao leaves (Theobroma cacao L.) based on the comparison of growing regions using the UV-Vis spectophotometric method. Samples were taken from three regions namely Jeneponto, Wajo and Malino. This research method begins with the preparation of samples by maceration with 96% ethanol solvent, then qualitative analysis is carried out by Thin Layer Chromatography (KLT) method and quantitative analysis is carried out measuring quercetin standards and determining flavonoid levels with a UV-Vis spectrophotometer at a maximum wavelength of 430 nm. The results showed that the ethanol extract of cocoa leaves (Theobroma cacao L.) positively contained flavonoids and had flavonoid levels in the Jeneponto, Wajo, Malino regions of 45.812 mgQE/g extract; 41.556 mgQE/g extract, and; 38.343 mgQE/g extract, respectively. Where the ethanol extract of cocoa leaves (Theobroma cacao L.) from the Jeneponto region has higher flavonoid levels than the other two regions.

References

[1] Sahardi, Fadjry Djufry. 2015. Keragaman Karakteristik Morfologis Dan Agronomis Plasma Nutfah Klon Harapan Kakao Lokal Sulawesi Selatan. Jurnal Littri 21 (3), 145-252.
[2] Rani, Z., Ridwanto, R., Miswanda, D., Yuniarti, R., Sutiani, A., Syahputra, R. A., & Irma, R. (2022). Cytotoxicity Test of Cocoa Leaf Ethanol Extract (Theobroma Cacao L.) With Brine Shrimp Lethality Test (BSLT) Method. Indonesian Journal of Chemical Science and Technology (IJCST), 5(2), 80.
[3] Panche, A. N., Diwan, A. D., & Chandra, S. R. (2016). Flavonoids: An overview. Journal of Nutritional Science, 5.
[4] Husna, P. A. U., Kairupan, C. F., & Lintong, P. M. (2022). Tinjauan Mengenai Manfaat Flavonoid pada Tumbuhan Obat Sebagai Antioksidan dan Antiinflamasi. EBiomedik, 10(1), 76–83.
[5] Sholekah, F. F. (2017). Kandungan Flavonoid Dan Beta Karoten Buah Karika ( Carica pubescens ) Daerah Dieng Wonosobo. 75–82.
[6] Setyo Utomo, D., Kristiani, E. B. E., & Mahardika, A. (2020). Pengaruh Lokasi Tumbuh Terhadap Kadar Flavonoid, Fenolik, Klorofil,Karotenoid Dan Aktivitas Antioksidan Pada Tumbuhan Pecut Kuda(Stachytarpheta Jamaicensis). Bioma, 22(2), 143–149.
[7] Abdillah, Dede, Raden Soedradjad, and Tri Agus Siswoyo. 2015. “Pengaruh Cekaman Kekeringan Terhadap Kandungan Fenolik Dan Antioksidan Tanaman Sorgum ( Sorghum Bicolor L . Moench ) Pada Fase Awal Vegetatif.” Berkala Ilmiah Pertanian 1 (1): 1–4.
[8] Shamloo, Maryam, Elizabeth A. Babawale, Robert J. Agnelo Furtodo, Peter K. Eck Henry, and Peter J. H. Jones. 2017. “Effect of Genotype and Temperature on Accumulation of Plant Secondary Metabolites in Canadian and Australian Wheat Grown Under Controlled Enviroments. University of Manitoba.” Scientific Report 7 (9133): 1–13.
[9] Sari, A. K., Ayuchecaria, N., & Febrianti, D. R. (2019). Analisis Kuantitatif Kadar Flavonoid Ekstrak Etanol Daiun Belimbing Wuluh (Averrhoa bilimbi L.) Di Banjarmasin Dengan Metode Spektrofotometri UV-Vis. Jurnal Insan Farmasi Indonesia, 2(1), 7–17.
[10] Lindawati, N. Y., & Ma’ruf, S. H. (2020). Penetapan Kadar Total Flavonoid Ekstrak Etanol Kacang Merah (Phaseolus vulgaris L.) Secara Spektrofotometri Visibel. Jurnal Ilmiah Manuntung, 6(1), 83–91.
[11] Stankovic, M.S., 2011. Total phenolic content, flavonoid concentration and antioxidant activity of Marrubium peregrinum L. extracts. Kragujevac J Sci, 33(2011), pp.63-72.
[12] Asmoro Bangun, P. P. (2021). Analisis kadar total flavonoid pada daun dan biji pepaya (Carica Papaya l.) Menggunakan metode spektrofotometer Uv-Vis. Jurnal Ilmiah Farmasi Attamru, 2(1), 1–5.
[13] Nurul Aulia K, Abd. Malik, Andi Amaliah D, 2023. Isolasi dan Identifikasi Senyawa Flavonoid Daun Dengen (Dillenia serrata Thunb.).1 [2] (9), 77.
[14] Dyera Forestryana, Arnida, 2020. Phytochemical Screenings And Thin Layer Chromatography Analysis Of Ethanol Extract Jeruju Leaf (Hydrolea spinosa L.). Jurnal Ilmiah Farmako Bahari. 11 (2), 120.
[15] Fitrah Azzahrah, Abd. Malik, Andi Amaliah D, 2023. Isolasi dan Identifikasi Senyawa Golongan Flavonoid Ekstrak Etanol Kulit Buah Markisa Ungu (Passiflora edulis Sims). 1 [2] (8), 62-63.
[16] Erma Yunita, Zihan Khodijah, 2020. Pengaruh Konsentrasi Pelarut Etanol saat Maserasi terhadap Kadar Kuersetin Ekstrak Daun Asam Jawa (Tamarindus indica L.) secara Spektrofotometri UV-Vis. PHARMACY: Jurnal Farmasi Indonesia. 17 (02), 287
[17] Aminah, Nurhayati Tomayahu, Zainal Abidin, 2017. Penetapan Kadar Flavonoid Total Ekstrak Etanol Kulit Buah Alpukat (Persea americana Mill.) Dengan Metode Spektrofotometri UV-Vis. Jurnal Fitofarmaka Indonesia, 4 (2), 229.
[18] Mayerhöfer, Thomas Günter; JürgenPopp. 2018. Why Absorbance Depends (Almost) Linearly on Concentration. ChemPhysChemVol. 20 Hal. 511 – 515.
[19] Kusbiantoro, D. Y. P. 2018. Pemanfaatan kandungan metabolit sekunder pada tanaman kunyit dalam mendukung peningkatan pendapatan masyarakat Utilization of secondary metabolite in the turmeric plant to increase community income. 17(1), 544–549
Published
2024-08-22
Section
Articles