DOI : https://doi.org/10.18517/ijaseit.12.6.12855

Bioactive Compounds Profile of Solok Arabica Coffee Analyzed by GC-MS Method

Rince Alfia Fadri (1), Kesuma Sayuti (2), Novizar Nazir (3), Irfan Suliansyah (4), Henny Fitri Yanti (5)
(1) Study Program of Food Technology, Payakumbuh State Agricultural Polytechnic,26271, Indonesia
(2) Agricultural Technology Faculty, University of Andalas, 25163, Indonesia
(3) Agricultural Technology Faculty, University of Andalas, 25163, Indonesia
(4) Agriculture Faculty, Andalas University, 25163, Indonesia
(5) Study Program of Food Technology, Payakumbuh State Agricultural Polytechnic,26271, Indonesia
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How to cite (IJASEIT) :
Fadri, Rince Alfia, et al. “Bioactive Compounds Profile of Solok Arabica Coffee Analyzed by GC-MS Method”. International Journal on Advanced Science, Engineering and Information Technology, vol. 12, no. 6, Dec. 2022, pp. 2527-31, doi:10.18517/ijaseit.12.6.12855.
Citation Format :
The type of coffee affects the compounds in it, the environment, and the soil. One of the areas in West Sumatera where a Coffee Producer is Solok Regency. The kind of coffee that is cultivated in Solok is Arabica coffee. The height of the planting point has an influence on the taste, so Solok Arabica coffee has a different taste from the flavors of other Arabica coffees that are widely spread throughout Indonesia. This study aims to determine the compounds contained in Solok Arabica coffee, which was roasted at 200oC for 10 minutes. The compound detection in Solok Arabica coffee was carried out using gas chromatography-mass spectrometry (GC-MS). The results of GC-MS analysis detected 25 compounds in Solok Arabica coffee at 200oC for 10 minutes, and 4 of them were detected in large quantities, namely pyridine, caffeine, n-hexadecanoic acid, and butyl 9,12-octadecadienoate with amounts between 70-97 m / z. Pyridine is a benzene derivative by replacing CH groups with N atoms, which are toxic to humans because they can cause nausea, vomiting, headache, dizziness, and irritation when in contact with the skin. Caffeine is the main bioactive component of the purine ring system in coffee. The sensory test method used to determine the typical Arabica Coffee of “Ranah Minang” is cupping to assess the taste of the coffee. n-hexadecanoic acid is a saturated fatty acid with antioxidant, hypocholesterolemic, nematicide, anti-androgenic, hemolytic, pesticide, lubricant, 5-alpha reductase inhibitor, antipsychotic, and anti-inflammatory activity.

Badan Pusat Statistik (BPS). (2018). Distribusi Produk Domestik Bruto (PDB) [Internet]. BPS Statistics Indonesia. [accessed on 09

Oktober 2020]. Avalaible from: https://www.bps.go.id.

Rita G, Agata G, Magdalena W. W, Rafal W, Ewa M, dan Dorota D. The Influence of Brewing Method on Bioactive Compounds Residues in Spent Coffee Grounds of Different Roasting Degree and Geographical Origin. International Journal of Food Science and Technology. 2019, doi:10.1111/ijfs.14213.

Gancarz M, Bohdan D. Jr., Tomasz O, Maciej C, Daniel C, and Robert R. Detection and Differentiation of Volatile Compounds Profile in Roasted Coffee Arabica Beans from Different Countries Using an Electronic Nose and GC-MS. Sensors, 2020. doi:10.3390/s20072124. www.mdpi.com/journal/sensors.

Rince A.F, Kesuma S, Novizar N, Irfan S. Evaluation of the Defect Value and Taste of Arabica Cofee (Coffea arabica L) West Sumatera. CFP Proceeding IOP JPCS Part 4.

Rince A.F, Kesuma S, Novizar N, Irfan S. Sensory Quality Profile of Minang Arabica Coffee Speciality. International Journal on Advanced Science, Engineering and Information Technology. 2020.

Barbosa, J. N., Borem, F. M., Cirillo, M. A., Malta, M. R., Alvarenga, A. A., & Alves, H. M. R. Coffee quality and its interactions with environmental factors in Minas Gerais, Brazil. Journal of Agricultural Science,4(5), 181-190, doi:10.5539/jas.v4n5p181. 2012.

Bertrand, B., Boulanger, R., Dussert, S., Ribeyre, F., Berthiot, L., Descroix, F., & Joí«t, T. Climatic factors directly impact the volatile organic compound fingerprint in green Arabica coffee bean as well as coffee beverage quality. Food Chemistry, 135(4), 2575-2583, doi: 10.1016/j.foodchem.2012.06.060. 2012.

Figueiredo, L. P., Borí©m, F. M., Cirillo, M. í‚., Ribeiro, F. C., Giomo, G. S., & de J.G. Salva, T. The potential for high-quality Bourbon coffees from different environments. Journal of Agricultural Science, 5 (10), 87-98, doi:10.5539/jas.v5n10p87. 2013.

Sridevi, V., & Giridhar, P. Influence of altitude variation on trigonelline content during ontogeny of Coffea canephora fruit. Journal of Food Studies, 2 (1), 62- 74, doi:10.5296/jfs.v2i1.3747. 2013.

Joí«t, T., Laffargue, A., Descroix, F., Doulbeau, S., Bertrand, B., de Kochko, A., &Dussert, S. (2010). Influence of environmental factors, wet processing and their interactions on the biochemical composition of green Arabica coffee beans. Food Chemistry, 118, 693-701, doi:10.1016/j.foodchem.2009.05.048. 2010.

S. Najiyati and Damarti. Cultivation and Handling of Loose Harvest. PenebarSwadaya. Jakarta. 1997.

Rince A.F, Kesuma S, Novizar N, Irfan S. Production Process and Quality Testing of Arabica Coffee Powder (Coffea arabica L) Solok Regency, West Sumatera. Journal of Applied Agriculture Science and Technology. 2020. Vol 4, No.1, doi:10.32530/jaast.v4i1.135.

Ilze L and Zanda K. Influence of The Roasting Process on Bioactive Compounds and Aroma Profile in Specialty Coffee: A Review. FoodBalt. 2019, doi:10.22616/FoodBalt.2019.002.

De Abreu, H. M. C., Nobile, P. M., Shimizu, M. M., Yamamoto, P. Y., Silva, E. A., Colombo, C. A., &Mazzafera, P. Influence of air temperature on proteinase activity and beverage quality in Coffea arabica. Brazilian Journal of Botany, 35(4), 357-376. 2012.

Towaha, J., Aunillah, A., Purwanto, E. H., &Supriadi, H. Pengaruhelevasi dan pengolahanterhadapkandungankimia dan citarasa kopi Robusta Lampung. J.TIDP , 1(1), 57-62. 2014.

A.M. de Carvalho, J.C. de Rezende, TT Rezende, AD Rezende, RM Rezende, A.N.G. Mendes, and G.R. Carvalho. Relationship between the Sensory Attributes and the Quality of Coffee in Different Environments. African Journal of Agricultural Research Vol. 11(38) p 3607-3614. 2016, doi:10.5897/AJR2016.11545.

ST Soekarno. Organoleptic Assessment for the Food Industry and Agricultural Products. BatharaKaryaAksara. Jakarta. 1985.

Åženyuva, H.Z., Gí¶kmen, V. Study of acrylamide in coffee using an improved liquid chromatography-mass spectrometry method: Investigation of color changes and acrylamide formation in coffee during roasting. Food Additives & Contaminants, 2005, 22(3), 214-220.

Sri M, Widyotomo S dan Suharyanto E. Teknologi Proses dan Pengolahan Produk Primer dan Sekunder Kopi. Pusat Penelitian Kopi dan Kakao. Jember. 2006.

G.G. Dumancas, R.S. H. Koralega, E.RE. Mojica, B.S. Murdianti, and P.J. Pham. Pyridine. Encyclopedia of Toxicity. Third Edition. 2014. 1159-1161.

Pratima PP Pyridine. IntechOpen. London, United Kingdom. 2018. ISBN 987-1-78923-423-7 (Online).

K.G. Motora and T.T. Beyene. Determination of Caffeine in Raw and Roasted Coffee Beans of Ilu Abba Bora Zone, South West Ethiopia. Indo American Journal of Pharmaceutical Research. 2017. ISSN 2231-6876. 463-470.

Ivon F and Yvonne B.T. Coffee Flavor Chemistry. 2002. John Wiley & Sons, Ltd. West Sussex, England. ISBN 0-471-72038-0.

Rince A.F, Kesuma S, Novizar N, Irfan S. Analysis of Caffeine Levels in the Beverage of Roasted Arabica Cofee Balango in Bukik Apik with the Method of Spectroscopic. IOP Earth and Environmental Science.

J.W. Langer. Genetics, metabolism, and individual responses to caffeine. www.coffeeandhealth.org. 2018.

Shradha B. Coffea Arabica: A Wonder Gift to Medical Science. Journal of Natural Pharmaceuticals, Vol. 1, Issue 1. 2010.

Evelyn M, Raquel C, Teresa C, Fernando J. L, and Ana I. B. The C form of n-Hexadecanoic acid. International Union of Crystallography. 2006. ISSN 0108-2701.

Rita C.A, Cristina M.D.Soares, M. Beatriz P.P. Oliveira. Isoflavone in Coffee. 143-148. 2015.

Agoramoorthy M, Chandrasekaran V, Venkatesalu M. J. H. Antibacterial and Antifungal Activity of Fatty Acid Methyl Ester of The Blind-your-eye Mangrove from India. 2007. Braz J Microbial, 38, 739-742.

V. Aparna, K. V. Dileep, P.K. Mandal, P. Karthe, C. Sadasivan, and M. Haridas. Anti-Inflammatory Property of n-Hexadecanoic Acid: Structural Evidence and Kinetic Assessment, 2012, Chem Biol Drug, Vol 80, 434-439.

Tulika T and Mala A. Phytochemical Screen and GC-MS Analysis of Bioactive Constituents in The Ethanolic Extract of PistiastatiotesL. and Eichhornia crassipes (Mart.) solms. Journal of Pharmacognosy and Phytochemistry. 2017; 6(1): 195-206.

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