Effect of Temperature and Drying Time on Angiostensin Converting Enzyme (ACE) Inhibitor and Antioxidant Activity of Soybean (Glycine max L.)- Jackbean (Canavalia ensiformis L.) Mix Grains Tempeh Flour

https://doi.org/10.22146/ifnp.53535

Diah Ayu Puspasari(1*), Andriati Ningrum(2), Sri Anggrahini(3)

(1) Department of Food and Agricultural Product Technology, Faculty of Agricultural Technology, Universitas Gadjah Mada
(2) Department of Food and Agricultural Product Technology, Faculty of Agricultural Technology, Universitas Gadjah Mada
(3) Department of Food and Agricultural Product Technology, Faculty of Agricultural Technology, Universitas Gadjah Mada
(*) Corresponding Author

Abstract


The increase of hypertension sufferers encourage the development of functional foods. The presence of tempeh mixed grains of soybean and jackbean contains bioactive peptides as antihypertensive and antioxidant agents encourage the development of functional food such as tempeh flour of mixed grains. The research was aimed to investigate the effect of temperature and drying time on functional properties, asam amino acid profile, and isoflavone compounds. The different drying temperatures (50 oC and 70 oC) and drying time  (6; 8; and 10 h) were applied on soybean and jackbean tempeh (1:1) w/w) for making the mixed grains tempeh flour. The Angiotensin Converting Enzyme (ACE) inhibitor activity, antioxidant activity, and total phenolic, amino acids profile, and isoflavone content of the flour were analyzed. The result showed that the best tempeh flour of mixed grains was obtained by drying at 70°C for 8 h with ACE inhibitor activity of 86.04%, antioxidant activity of 55.34% and total phenolic of 3.98 mg/g DB. This flour contained amino acids related to ACE-Inhibitor peptide precursors (glutamic acid and leucine), antioxidant peptide precursors (phenylalanine and histidine) as well as isoflavone compounds (daidzein and genistein). This finding reveals that drying temperature and time affected the functional properties, amino acids profile and isoflavone compounds.

Keywords


Angiotensin Converting Enzyme Inhibitor; Antioxidant; Isoflavon; Jackbean; Mixed grains; Tempeh flour

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References

AOAC. 2005. “Official Method of Analysis of The Association Analytical of Chemist”. Ed 18th.The Association of Official Analysis Chemists, Washington, USA.

Ariyantoro, A.R., Rachmawati, D., and Ikarini, I. 2016. Karakteristik Fisikokimia Tepung Koro Pedang (Canavalia ensiformis) Termodifikasi dengan Variasi Konsentrasi Asam Laktat dan Lama Perendaman. Jurusan Ilmu dan Teknologi Pangan, Universitas Sebelas Maret, Surakarta.

Chang, S.K.C. and Xu, B.J. 2007. Comparative Analyses of Phenolic Composition, Antioxidant Capacity, and Color of Cool Season Legumes and Other Selected Food Legumes. Journal of Food Science. 72 (2): 67-77.

Chong, N.V.W., Pindi, W, Chye F, Shaarani, S.M, and Lee, J. 2015. Effects of drying methods on the quality of dried sea cucumbers from Sabah. International Journal of Novel Research in Life Sciences. 2(4):49-64.

Cushman, D. W., and Cheung, H. W. 1971. Spectrophotometric Assay and Properties of the Angiotensin Converting Enzyme of the Rabbit Lung. Biochemical Pharmacology. 20:1637-1648.

Fadly, R. 2014. Aktivitas Inhibisi Enzim Pengubah Angiotensin pada Hidrolisat Tempe Koro Pedang (Canavalia ensiformis L.) secara In Vitro [Tesis]. Departemen Biokimia, Fakultas MIPA, Insitut Pertanian Bogor, Bogor .

Harvian, Z.A. 2018. In silico approach in evaluation of Jackbean (Canavalia ensiformis) Canavalin Protein as Precursors of Bioactive Peptides with dual antioxidant and Angiotensin I Converting Enzyme Inhibitor [Tesis]. Fakultas Teknoligi Pertanian, Universitas Gadjah Mada, Jogja.

Hayastika, Ansharullah, and Asyik, N. 2017.Pengaruh Subtitusi Tepung Kedelai (Glysine Max) terhadap Aktivitas Antoksidan Roti Tawar. Jurnal Sains dan Teknologi. 2; (4); 684-691.

Hesti, I.S. 2019. Karakteristik Tempe Mixgrain dari Kedelai (Glycine max) dan Koro Pedang Putih (Canavalia ensiformisL.) sebagai Prekursor Aktivitas Angiotensin Converting (ACE) Enzyme.[Tesis]. Fakultas Teknologi Pertanian, Universitas Gadjah Mada, Jogja.

Istiani, Y. 2010. Karakterisasi senyawa bioaktif isoflavon dan uji aktivitas antioksidan dari ekstrak etanol tempe berbahan baku koro pedang (Canavalia ensiformis L.) [Tesis]. Universitas Sebelas Maret, Surakarta.

Khirzin, M. H., Sukarno, Yuliana, N. D., Fawzya, Y. N., and Chasanah, E. 2015. The activity of Angiotensin Converting Enzyme (ACE) inhibitor and collagen peptide antioxidant from Gama sea cucumber (Stichopus variegatus). Jurnal Pascapanen dan Bioteknologi Kelautan dan Perikanan. 10(1):27-35.

Kusumawardhani, P. C. 2015. Pemanfaatan Kacang koro Pedang (Canavalia Ensiformis) sebagai Bahan Subtitusi dalam Pembuatan Tempe Kedelai. Departemen Ilmu dan Teknologi Pangan, Fakultas MIPA, Insitut Pertanian Bogor, Bogor.

Li, M., S. Xia, Y. Zhang, and X. Li. 2018. Optimization of ACE inhibitory peptides from black soybean by microwave-assisted enzymatic method and study on its stability. LWT-Food Science and Technology. 358-365

Ledesma, B.H., Contreras, M.D.M., and Recio, I. 2011. Antyhypertesive Peptides: Production Bioavaibility and Incorporation into Foods. Advances in Colloid and Interface Science. 165: 23-25.

Lowry, O.H., Nisa, J.R., and Lewis, F. 1951. Protein Measurement with the Folin Phenol Reagent. The Journal of Biological Chemistry. 193: 265-275.

Muchtadi, T., R. 2008. “Teknologi Proses Pengolahan Pangan”. Ed 3rd. Bogor: Departemen Ilmu dan Teknologi Pertanian, Fakultas teknologi Pertanian, Institut Pertanian Bogor, Bogor.

Muchtadi, D. 2012. “Pangan Fungsional dan Senyawa Bioaktif”. Alfabeta. Bandung.

Mulyani, S. 2013. Karakterisasi Tepung Tempe dari Empat Varietas Kedelai Impor dan Aplikasinya Menjadi Minuman [Skripsi], Fakultas Teknologi Pertanian, Insitut Pertanian Bogor, Bogor.

Nayla, 2012. Studi Pembuatan Tepung Formula Tempe. Fakultas Pertanian, Universitas Hasanudin Universitas, Makasar.

Nemethy, G., Leach, S.J. and Scherage, H.A. 1966.. The influence of amino acid side chains on the free energy of helix-coil tansition. J.Phys.Chem. 70: 998-1004.

Pan, D, Guo, H, Zhao, B, Chao, J. 2011. The molecular mechanisms of interactions between bioactive peptides and angiotensin-converting enzyme. Bioorg Med Chem Let. 21:3898-3904

Phelan, M., Aherne, A., Fitz G. R .J., and O‘Brien, N.M. 2009. Casein-derived bioactive peptides: Biological effects, industrial uses, safety aspects and regulatory . Int Dairy J. 19:643–654.

Phillips, S.M., Fulgoni III, V.L, Heaney, R.P., Nicklas, T.A., Slavin, J.L., and Weaver, C.M. 2015. Commonly consumed protein foods contribute to nutrient intake, diet quality, and nutrient adequacy. Lebensm.-Wiss. U-Technology. 37 :59–67.

Puspitojati, E., Cahyanto, M.N., Marsono, Y., and Indrati, R. 2019. Production of Angiotensin-I-Converting Enzyme (ACE) Inhibitory Peptides during the Fermentation of Jackbean (Canavalia ensiformis) Tempe. Pakistan Journal of Nutrition. 18(5):464-470.

Poedjiadi, Anna. 1994. Dasar-dasar Biokimia. Jakarta: UI-Press

Rusdah. 2016. Antioxidative of tempe peptides from Indonesia. Department Food Science Technology, Bogor Agricultural University, pp:50.

Sayuti, K., dan Yenrina, R. 2015. “Antioksidan Alami and Sintetik”. Andalas University Press, Padang.

Sulistyowati, E., Martono,S., Riyanto, S., and Luitaningsih, E. 2018. Analisis Daidzein dan Genistein pada Kedelai (Glycine max L. Merril) Varietas Anjasmoro, Argomulyo dan Dena 2 Menggunakan Metode KCKT. Media Farmasi Indonesia. 13(1): 1-6.

Torres, F.C., Alaiz, M., and Vioque, J. 2012. Iron chelating activity of chickpea protein hydrolysate peptides. Food Chem.134:1585-1588.

Wang, H., and Murphy, P.A. 1994. Isoflavone content in commercial soybean foods. J Agric Food Chem. 42: 1666-73.

WHO. 2000. Informasi Kesehatan. www.infokes.com. Diakses tanggal 7 November 2019 pukul 10.30 WIB.

Wijatnika, B. D. 2017. Perendaman, Pemanasan dan Hidrolisis dengan Enzim Alkalase Guna Meningkatkan Kualitas Gizi Protein Koro Pedang Putih (Canavalia Ensiformis) [Tesis]. Departemen Ilmu dan Teknologi Pangan. Fakultas Teknologi Pertanian, Universitas Gadjah Mada, Jogja.

Winarno, F.G., 1993. Pangan, Gizi, Teknologi dan Konsumen. Gramedia Pustaka Utama, Jakarta.

Winarno, FG. 2004. Kimia Pangan dan Gizi. Gramedia Pustaka Utama, Jakarta



DOI: https://doi.org/10.22146/ifnp.53535

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Indonesian Food and Nutrition Progress (print ISSN 0854-6177, online ISSN 2597-9388) is published by the Indonesian Association of Food Technologist in collaboration with Department of Food and Agricultural Product Technology, Faculty of Agricultural Technology, Universitas Gadjah Mada.

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