THE EFFECT OF PECTIC SUBSTANCES, HEMICELLULOSE, LIGNIN AND CELLULOSE CONTENT TO THE PERCENTAGE OF BOUND IRON BY DIETARY FIBER MACROMOLECULES: ACIDITY AND LENGTH BOILING TIME VARIATION
Leny Yuanita(1*)
(1) Chemistry Department, Faculty of Mathematics and Natural Sciences, Surabaya State University, Surabaya
(*) Corresponding Author
Abstract
The aim of the study is to find the effect of dietary fiber components content to the percentage of bound iron by dietary fiber macromolecules at acidity and length of boiling time variation. Yard long bean super green variety as dietary fiber sources. The factorial design was applied at pH 4 and 7 with boiling time of 0 (raw), 5, 15, and 25 minutes; the content of dietary fiber components and percentage bound iron as dependent variables. Two way analysis of variance, least significant difference, and multiple regression analysis were applied. Significance level (α) = 5%.The results of the study reveal that acidity, length of boiling time, and its interaction have effect to the bound iron, but have no effect on pectic substances, hemicellulose and lignin. Decreasing pH and increasing boiling time will increase in cellulose, due to the formation of resistant starch. The content of dietary fiber components has no effect on percentage bound iron; pectic substances and hemicellulose have positif effect, while lignin and cellulose have negatif effect on percentage bound iron.
Keywords
Full Text:
Full Text PdfReferences
[1] Laszlo, J.A., 1987, J. Agric. Food Chem., 35, 593-600.
[2] Reinhold, J.G., Garcia P.M., Amado, L.A., and Garzon, P., 1982, Dietary Fiber-Iron Interactions. In : Dietary Fiber in Health and Disease. Edited by Vahouny GV and Kritchevsky D : 117 - 132. Plenum Press, New York.
[3] Yuanita, L., 2004, Pengikatan Fe oleh Serat Pangan Kacang Panjang pada Kombinasi Derajat Keasaman dan Lama Perebusan. Prosiding Seminar Nasional Kimia VI. Yogyakarta 10 Agustus 2004
[4] Miller, D.D., Schricker, B.R., Rasmussen, R.R., and Van Campen D, 1981, Am. J. Clin. Nut. 34, 2248 – 2256.
[5] Krall, S.M. and Fetters, R.F.M., 1998, J. Agric. Food Chem, 49, 1311 - 1315
[6] Voragen, A.G.J. and Pilnik, W., 1995. Pectins. In : Food Polysaccharides and Their Applications, Edited by Stephen AM : 287 – 339.
[7] Dougall, G.J., Morrison, I.M., Stewart, D., Hillman, J.R., 1996, J. Sci. Food Agric, 70, 133-150.
[8] Sjostrom, E., 1993, Kimia Kayu. Dasar-Dasar dan Penggunaan (Terj: Hardjono S & Soenardi P), Gajah Mada University Press, Yogyakarta
[9] Matthee, V. and Appledorf, H., 1978, J. Food Sci., 43, 1344 – 1345.
[10] Theander, O., 1979, The Chemistry, Morphology and Analysis of Dietary Fiber Components, In : Dietary Fibers : Chemistry and Nutrition, Edited by Inglett GE, Falkehag SI : 215 – 244.
[11] Dreher, M.L., 1987. Handbook of Dietary Fiber, Marcel Dekker Inc., New York
[12] Suyitno, 1992, Serat Makanan (Bahan Ajar), PAU Pangan dan Gizi UGM, Yogyakarta
[13] Belitz, H.D. and Grosch, W., 1987, Food Chemistry, Springer-Verlag, Berlin.
[14] Marle, J.T., Smith, T.S., Donkers, J., van Dijk, C., Voragen, A.G.J., and Recourt, K., 997, J. Agric. Food Chem, 45, 50 – 58.
[15] Thed ST and Philips, R.D., 1995, Food Chem., 52, 301 – 304.
[16] Nyman, M., 1995, Eur. J. Clin. Nut., 49, s 215- s 218
[17] Camire, A. L. and Clydesdale, F.M., 1981, J. Food Sci., 46, 548 – 551.
[18] Valencia, S., Svanberg, U., Sanberg, A.S.and Ruales, J., 1999, Intrn. J. Food Sci. Nutr, 50 (3), 203-211.
[19] Kapanidis, A.N. and Chinglee, T., 1995, J. Food Sci., 60 (1), 128-131.
DOI: https://doi.org/10.22146/ijc.21742
Article Metrics
Abstract views : 1692 | views : 9472Copyright (c) 2010 Indonesian Journal of Chemistry
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Indonesian Journal of Chemistry (ISSN 1411-9420 /e-ISSN 2460-1578) - Chemistry Department, Universitas Gadjah Mada, Indonesia.
View The Statistics of Indones. J. Chem.