Jack bean is a type of legume that is widely cultivated in Indonesia, but its use is still limited. The levels of protein and carbohydrates contained in the bean have the potential to be developed, so it is necessary to know its functional properties. The bean has a hard texture; therefore, it needs to be pre-treated by soaking and boiling. Soaking causes the structure of the bean to become soft due to the imbibition of water into the cells. Boiling causes starch gelatinization and protein hydrolysis. This study aimed to determine the profile of the functional properties of jack bean flour with variations in soaking and boiling time. The soaking times studied were 6, 12, and 24 h and the boiling times studied were 5, 10, and 15 min. Each treatment level was replicated three times. Data obtained were calculated the mean and standard deviation to determine and analyze jack bean flour functional properties profile. The results showed that soaking and boiling time increased moisture content, water absorption, oil absorption, emulsion stability, and foam stability, while protein solubility, emulsion capacity, and foam capacity decreased. Good emulsion stability after 4 h of storage was provided from 24 h of soaking time and 15 min of boiling time combination. The jack bean flour had potential emulsification properties which potential to be applied to emulsion-based products.

boiling, functional properties, jack bean flour, soaking

Acevedo, B. A., Thompson, C. M. B., González Foutel, N. S., Chaves, M. G., & Avanza, M. V. 2017. Effect of different treatments on the microstructure and functional and pasting properties of pigeon pea (Cajanus cajan L.), dolichos bean (Dolichos lablab L.) and jack bean (Canavalia ensiformis) flours from the north-east Argentina. Int. J. of Food Sci Tech, 52(1), 222–230. https://doi.org/10.1111/ijfs.13271

Aguilera, Y., Esteban, R. M., Benítez, V., Mollá, E., & Martín-Cabrejas, M. A. (2009). Starch, functional properties, and microstructural characteristics in chickpea and lentil as affected by thermal processing. J Agri Food Chem, 57(22), 10682–10688. https://doi.org/10.1021/jf902042r

[AOAC] Association of Official Analytical Chemist. 2019. Official methods of Analysis. Washington DC. Association of Official Analytical Chemist.

Augustyn, G. H., Moniharapon, E., & Resimere, S. (2017). Analisa kandungan gizi tepung kacang gude hitam (Cajanus Cajan) dengan beberapa perlakuan pendahuluan. AGRITEKNO: Jurnal Teknologi Pertanian, 6(1), 27-32.

Awuchi, C. G., Igwe, V. S., & Echeta, C. K. (2019). The functional properties of foods and flours. International Journal of Advanced Academic Research, 5(11), 139-160.

Al Awwaly, K. U., Triatmojo, S., Artama, W. T., & Erwanto, Y. (2015). Komposisi kimia dan beberapa sifat fungsional protein paru sapi yang diekstraksi dengan metode alkali. Jurnal Ilmu dan Teknologi Hasil Ternak (JITEK), 10(2), 54-62.

Badan Pusat Statistik. (2021). Impor Kedelai Menurut Negara Asal Utama, 2017-2021. https://www.bps.go.id/statictable/2019/02/14/2015/impor-kedelai-menurut-negara-asal-utama-2017-2021.html.

Chigwedere, C. M., Njoroge, D. M., Van Loey, A. M., & Hendrickx, M. E. (2019). Understanding the Relations Among the Storage, Soaking, and Cooking Behavior of Pulses: A Scientific Basis for Innovations in Sustainable Foods for the Future. Comprehensive Reviews in Food Science and Food Safety, 18, 1135–1165. https://doi.org/10.1111/1541-4337.12461

deMan, J. M., Finley, J.W., Hurst, W.J., & Lee, C.Y. (2018). Principles of Food Chemistry: 4th edition. Switzerland: Springer International Publishing AG.

Doss, A., Pugalenthi, M., & Vadivel, V. (2011). Nutritional evaluation of wild Jack bean (Canavalia ensiformis DC) seeds in different locations of south India. World Applied Sciences Journal, 13(7), 1606-1612.

Ekafitri, R., & Isworo, R. (2014). Pemanfaatan kacang-kacangan sebagai bahan baku sumber protein untuk pangan darurat. Pangan, 23(2), 137.

Fennema, O. R. (2017). Food Chemistry: fifth edition. Damodaran, S., & Parkin, K. L (Eds). Taylor & Francis Group.

Gilang, R., Affandi, D. R., & Ishartani, D. (2013). Karakteristik fisik dan kimia tepung koro pedang (Canavalia ensiformis) dengan variasi perlakuan pendahuluan. Jurnal Teknosains Pangan, 2(3), 34–42.

Kementerian Pertanian Republik Indonesia. (2021). Buletin Konsumsi Pangan. Jakarta: Pusat Data dan Sistem Informasi Pertanian.

Liadi, V.C., Wisaniyasa, N.W., & Puspawati, N.N. (2019). Studi sifat fungsional dan kimia tepung kecambah kacang koro benguk (Mucuna pruriens L.). Jurnal Ilmu dan Teknologi Pangan, 8(2), 131-139.

Makeri, M.U., Mohamed, S.A., Karim, R., Ramakrishnan, Y., & Muhammad, K. (2017). Fractionation, physicochemical, and structural characterization of winged bean seed protein fractions with reference to soybean. Int J Food Prop, 20(52): S2220-S2236. https://doi.org/10.1080/10942912.2017.1369101

Putro, N.T.L., Arisasmita, J.H., & Srianta, I. (2015). Kajian kadar hcn dan karakteristik pati pada tepung koro pedang (Canavalia ensiformis) berdasarkan waktu perendaman biji dalam air panas dan larutan natrium bikarbonat (NaHCO3). Jurnal Teknologi Pangan dan Gizi, 14(2), 72-82.

Safira, M. L., Kurniawan, H. A., Rochana, A., & Indriani, N. P. (2019). Pengaruh pemupukan nitrogen terhadap produksi dan kualitas hijauan kacang koro pedang (Canavalia gladiata). Jurnal Nutrisi Ternak Tropis dan Ilmu Pakan ,1(1).

Subagio, A., Windrati, W. S., Witono, Y., & Nafi, A. (2008). Development of Non-Oilseed Legumes as a Source of Protein to Strengthen Food Security in Marginal Areas. In Investing in Food Quality, Safety & Nutrition: Lessons Learned from Current Food Crisis (p. 397-404).

Sudarmadji, S. Haryono, & Sohardi. 1997. Prosedur Analisa untuk Bahan Makanan dan Pertanian. Liberty: Yogyakarta.

Susanti, I., Siregar, N. C., & Supriatna, D. (2013). Potensi kacang koro pedang (Canavila ensiformis DC) sebagai sumber protein produk pangan. Journal of Industrial Research (Jurnal Riset Industri), 7(1), 1-13.

Sutedja, A. M., Trisnawati, C. Y., Wang, R., & Sugianti, C. (2022). Boiling time variation through functional characteristics of boiled red kidney beans. E3S Web of Conferences, 344, 1–10.

Triyanti DR. (2020). Outlook Komoditas Pertanian Tanaman Pangan Kedelai. Jakarta: Pusat Data dan Sistem Informasi Pertanian, Sekretariat Jenderal, Kementerian Pertanian

Trianto, Y., Sutedja, M. A., & Trisnawati, Y. C. (2013). Karakteristik sifat fungsional kacang hijau kukus dengan variasi waktu pengukusan (Characteristic of mung bean functional properties with variation of steaming time). Journal of Food Technology and Nutrition, 12(2), 69–74.

Twinomuhwez, H., Awuchi, C.G., Rachael, M. (2020). Comparative Study of the Proximate Composition and Functional Properties of Composite Flours of Amaranth, Rice, Millet, and Soybean. American Journal of Food Science and Nutrition 6(1), 6-19.

Utami, P., Lestari, S., & Lestari, S. D. (2016). Pengaruh metode pemasakan terhadap komposisi kimia dan asam amino ikan seluang (Rasbora argyrotaenia). Jurnal Teknologi Hasil Perikanan, 5(1), 73-84.

Wang, S., Chao, C., Cai, J., Niu, B., Copeland, J., & Wang, S. (2020). Starch-lipid and starch-lipid-protein complexes: a comprehensive review. Comprehensive Review in Food Science and Food Safety, 2020: 1-24. https://doi.org/10.1111/1541-4337.12550

Widjajaseputra, A. I., Widyastuti, T. E. W., & Trisnawati, C. Y. (2019). Potency of mung bean with different soaking times as protein source for breastfeeding women in Indonesia. Food Res, 3(5), 501-505. https://doi.org/10.26656/fr.2017.3(5).105

Yulianti, Eka L., Setiaboma, W., Nurrachma Hakim, A., Widowati, E., Afifah, N., & Ekafitri, R. (2022). The effect of beans types and soaking time on the characteristics of Indonesian traditional food “Instant Bose.” Food Sci Tech (Brazil), 42, 1–7. https://doi.org/10.1590/fst.19621

Zamindar, N., Baghekhand, M. S., Nasirpour, A., & Sheikhzeinoddin, M. (2013). Effect of line, soaking and cooking time on water absorption, texture and splitting of red kidney beans. J Food Sci Tech, 50(1), 108–114. https://doi.org/10.1007%2Fs13197-011-0234-2