KnE Life Sciences

ISSN: 2413-0877

The latest conference proceedings on life sciences, medicine and pharmacology.

Phytochemicals, Antioxidant and Antifungal Properties of Acorus calamus, Curcuma mangga, and Allium sativum

Published date: Dec 03 2017

Journal Title: KnE Life Sciences

Issue title: The Veterinary Medicine International Conference (VMIC)

Pages: 93-104

DOI: 10.18502/kls.v3i6.1119

Authors:

Bayyinatul MuchtaromahBiology Department, Faculty of Science and Technology State Islamic University of Malang. Jl. Gajayana No.50, Malang

Mujahidin AhmadBiology Department, Faculty of Science and Technology State Islamic University of Malang. Jl. Gajayana No.50, Malang

Emy Koestanti SFaculty of Veterinary Medicine. Airlangga University. Jalan Mulyorejo, Surabaya

Yuni Ma’rifatul ABiology Department, Faculty of Science and Technology State Islamic University of Malang. Jl. Gajayana No.50, Malang

Velayati Labone ABiology Department, Faculty of Science and Technology State Islamic University of Malang. Jl. Gajayana No.50, Malang

Abstract:

The purpose of this study to determine the content of phytochemicals, antioxidant and antifungal properties of the combination of Acorus calamus, Curcuma mangga, and Allium sativum. This research was descriptive qualitative, extractions were done by maceration method with ethanol with 3 different combinations (C1, C2 and C3). Phytochemical test reagent included 4 kinds of test, namely: alkaloids, flavonoids, triterpenoids, saponins and tannins. As for the antioxidant test, the method used was DPPH. The concentration used at 25, 50, 100, 200, and 400 ppm. As for the antifungal test conducted on Candida albicans with Kirby-Bauer disc methods with a concentration of 100%, followed by the MIC and MBC test with a concentration of 50%, 25%, 12.5%, 6.25%, 3.13%, 1.56%, 0.78% and 0.39%. Phytochemical test results indicated the presence of the alkaloids, flavonoids and triterpenoids compounds in 3 different combinations (C1, C2 and C3). The highest antioxidant levels founded in C1 (61.75) followed by C3 (47.94) and the lowest levels founded in C2 (42.76). The antifungal test showed the inhibitory zone against C.  albicans. The highest inhibitory zone was found in C1 at 5.44 ± 1.78 mm (medium category), followed by C2 at  4.08 ± 0.86 mm (medium category), and C3 at 3.05 ± 0.23 mm (medium category). As for the minimum inhibitory concentration (MIC) value got on the concentration of 0:39% and minimum fungisidal concentration (MFC) values were at a concentration of 0.78%.   

 

Key word: Acorus calamu, Allium sativum, Curcuma manga, Antioxidant, antifungal, Candida albicans

References:

[1] Inti Aritni Palupi, Martanto Martosupomo (2009). Jurnal Tumbuhan Obat Indonesia Vol.2(1).
[2] Arista, V. 2012. Jamu Subur Kandungan. http: www.jamujokotole.co,id diakses tanggal 10 November 2014
[3] Liu, Y., & Nair, M. G. (2012). Food chemistry, 135(2), 634–40. doi:10.1016/j.foodchem.2012.04.129
[4] Sarjono, P. R. (2007). Jurnal Sains & Matematika (JSM), 15(April), 89–93.
[5] Kamazeri, T. S. A. T., Samah, O. A., Taher, M., Susanti, D., & Qaralleh, H. (2012). Asian Pacific journal of tropical medicine, 5(3), 202–9. doi:10.1016/S1995-7645(12)60025-X
[6] Pujimulyani, D., Raharjo, S., Marsono, Y., & Santoso, U. (n.d.). World Academy of Science, Engineering and Technology International Journal of Biological, Biomolecular, Agricultural, Food and Biotechnological Engineering Vol:7, No:10, 2013
[7] Widowati, W., Sardjono, C. T., Wijaya, L., Laksmitawati, D. R., & Darsono, L. (2011). Proceedings of the 2nd International Syposium on Temulawak and the 40th Meeting of National Working Group on Indonesian Medicinal Plant Vol. 178.
[8] Tahir Javid1 , Muhammad Adnan1*, Akash Tariq1 ,Basreen Akhtar1 , Riaz Ullah2 , Naser M. AbdElsalam3 (2015). Afr J Tradit Complement Altern Med. (2015) 12(3):91-96.
[9] Khan MA, Islam MT.  J Pharm Bioallied Sci. 2012 Apr;4(2):149-54
[10] Elayaraja, A., Vijayalakshmi, M., & Devalarao, G. (2010). International Journal of Pharma and Bio Sciences , 1(4).
[11] Barua, C. C., Sen, S., Das, A. S., & Talukdar, A (2015)., Int J Pharm Bio Sci 6(3): (P) 538 - 546
[12] Muthuraman A, Singh N, Jaggi AS.. Food Chem Toxicol. (2011)
[13] Halimah, N dan Hayati, E. K. 2010. Plant Extract. Alchemy. Vol. 1 No. 2: 53-103
[14] Rahman, M. M., Fazlic, V. and 2 Saad, N. W. (2012)., International Food Research Journal 19(2): 589-591 Antioxidant19(2), 589–591.
[15] Ameen, S. A., & Jagun, A. T. (2012). Global Veterinaria 8 (4): 414-420.
[16] Ifesan, B. O. T., Fadipe, E. A., & Ifesan, B. T. (2014). Journal of Scientific Research & Reports 3(5): 711-721, Article no. JSRR.2014.007.
[17] Gazuwa, S. Y., Makanjuola, E. R., Jaryum, K. H., Kutshik, J. R., & Mafulul, S. G. (2013). Asian j. Exp. Biol. Sci.vol 4(3) 2013: 406-410.
[18] Hajiuon, B., & Branch, K. (2014). Zahedan Journal of Research in Medical Sciences 16(12): 19-24.
[19] Indrayani, L., Hartati, S., Sihasale, L. 2006. Berk. Penel. Hayati: 12 (57–61)
[20] Suganda, Asep Gana, Elin Yulinah Sukandar, dan Asep Abdul Rahman. 2003. Jurnal Bahan Alam Indonesia, 2 (3).
[21] Wink, M. (2015). Medicines, 2(3), 251–286. doi:10.3390/medicines2030251
[22] Ocvirk, S., Kistler, M., Khan, S., Talukder, S. H., & Hauner, H. (2013).. Journal of ethnobiology and ethnomedicine, 9(1), 43. doi:10.1186/1746-4269-9-43
[23] Kamazeri, T. S. A. T., Samah, O. A., Taher, M., Susanti, D., & Qaralleh, H. (2012). Asian Pacific journal of tropical medicine, 5(3), 202–9. doi:10.1016/S1995-7645(12)60025-X
[24] Mohsen Asouri , Ramin Ataee , Ali Asghar Ahmadi, Abdolhossein Amini and Masoumeh Rezaei Moshaei, asian journal of chemistry; vol. 25, no. 13 (2013), 7593-7595.
[25] Hanani E, Mun’im A, Sekarini R. Majalah Ilmu Kefarmasian (3):127-133. 2005.
[26] Gordon, M.H. 1990. Di dalam: Hudson BJF, editor. Food Antioxidant. London. Elsevier Appl. Science.
[27] Pan, X., F. Chen, T. Wu, H. Tang, and Z. Zhao. 2009. Journal Food Control. 20: 598-602.
[28] Lubis, Ramona D. 2008. Departemen Ilmu kesehatan Kulit dan Kelamin Fakultas Kedokteran Universitas Sumatra Utara. USU press
[29] Prawira, Mahmud Yudha, Sarwiyono2 and Puguh Surjowardojo. Power 2013. Research article. UB's Faculty of Animal Husbandry.
[30] Heinrich, M.; Barnes, J.; Gibbsons, S.; & Elizabeth, M. W. 2008. Penerbit Buku Kedokteran EGC : Jakarta.
[31] Anisah, Siti K., Ari H. Y. 2014. Jurnal Protobiont. Vol. 3 (3). hal 01
[32] Martha Elselina Lingga dan Mia Miranti Rustama. 2006. Jurnal Biotika Vol 5 No.2 Desember.
[33] Setyaningrum Ariviani, MAM. Andriani, dan Fitri yani. Jurnal Teknosains Pangan Vol 2 No 3 Juli 2013.
[34] Buhler, D.R., and Miranda, C., 2000, Antioxidant activities of Flavonoid, Department of Enviromental and Molecular Toxicology Oregon State University, Oregon.
[35] Anigu SO, Binda LG, Nwinyi FC, and OrisadipeA. 2005.. J. Ethnopharmacology, 97: 549-554.
[36] Pietta,2000.Journal Natural Product631035. http://nfscfaculty.tamu.edu/talcott/Food Chem 605/Class Presentation Papers/Review- Flavonoids as AOX.pdf
[37] Cushnie TP dan Lamb AJ. Journal of Antimicrobial Agents. 2005; 26(5): 343-56.
[38] Kurniawan, Dwi (2015). Naskah publikasi. Universitas Tanjungpura : Pontianak.
[39] Harrizul R., Ernita W.S., dan Rusdi. Jurnal Sains Dan Teknologi Farmasi 2013; hal 35-42. ISSN: 1410-0177.
[40] Freiesleben S dan Jäger A. Midicinal and Aromatic Plants. 2014; 3(2): 1.
[41] Robinson, T. 1995. Diterjemahkan oleh Prof. Dr. Kosasih Padmawinata. Bandung: ITB.
[42] Harborne, J. B. 1987., terjemahan K. Radmawinata dan I. Soediro, penerbit ITB, Bandung, 69-94, 142-158, 234-238. 11.
[43] Nata, L., Orapin., Krittika dan Pantip.1995. International Food Research Journal, 15, (3), 337-346.

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