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http://dx.doi.org/10.3746/jkfn.2012.41.11.1571

Quality Characteristics of Long-term Stored Rice  

Han, Hye Min (Dept. of Foods and Nutrition, Keimyung University)
Koh, Bong Kyung (Dept. of Foods and Nutrition, Keimyung University)
Publication Information
Journal of the Korean Society of Food Science and Nutrition / v.41, no.11, 2012 , pp. 1571-1576 More about this Journal
Abstract
The purpose of this study was to investigate the physicochemical and pasting properties of long-term stored domestic and imported rice supplied for food processing from government-controlled public rice stocks. Goamibyeo, which was bred for processing and harvested in 2011, was selected as the control rice for comparison. Rice was dry-milled, and the amylose contents of stored rice were 12~13%. Stored rice kernels were significantly harder than those of control, whereas damaged starch content and water absorption of flour were not significantly different from those of control. Overall, long-term stored domestic and imported rice showed high peak viscosities along with high viscosities of both hot and cold pastes. Both imported and domestic rice demonstrated insufficient properties for making 100% flat rice noodles or bread. They showed the greatest shrinkage during cooling after baking. Although their levels of cooking loss were less than that of control, stored rice showed a less elastic and softer cooked noodle texture compared to control flour.
Keywords
government supplied stored rice; pasting properties; bread; noodle;
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Times Cited By KSCI : 5  (Citation Analysis)
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1 Zhou Z, Robards K, Helliwell S, Blanchard C. 2002. Ageing of stored rice: changes in chemical and physical attributes. J Cereal Sci 35: 65-78.   DOI   ScienceOn
2 Chrastil J, Zarins ZM. 1992. Influence of storage on peptide subunit composition of rice oryzenin. J Agric Food Chem 40: 927-930.   DOI
3 Meullenet JFC, Marks BP, Griffin K, Daniels MJ. 1999. Effects of rough rice drying and storage conditions on sensory profiles of cooked rice. Cereal Chem 76: 483-486.   DOI
4 Lee HW. 2003. Rice processing food and cooked rice industry. J East Asian Soc Dietary Life 13: 218-231.
5 Rogers DE, Zeleznak KJ, Lai CS, Hoseney RC. 1988. Effect of native lipids, shortening, and bread moisture on bread firming. Cereal Chem 65: 398-401.
6 Martin ML, Zeleznak KJ, Hoseney RC. 1991. A mechanism of bread firming. I. Role of starch swelling. Cereal Chem 68: 498-503.
7 Kang HJ, Lee JK, Lim JK. 2012. Quality characteristics of Topokki Garaedduk with different moisture ratios. J Korean Soc Food Sci Nutr 41: 561-565.   과학기술학회마을   DOI
8 He H, Hoseney RC. 1990. Change in bread firmness and moisture during long-term storage. Cereal Chem 67: 603-605.
9 Kim KO, Youn KH. 1984. Effects of hydrocolloids on quality of Packsulki. Korean J Food Sci Technol 16: 159-164.   과학기술학회마을
10 Lee SY, Kim KO. 1986. Sensory characteristics of Packsulkis (Korean traditional rice cakes) containing various sweetening agents. Korean J Food Sci Technol 18: 325-328.   과학기술학회마을
11 Zhou JC, Peng YF, Xu N. 2007. Effect of trehalose on fresh bread and bread staling. Cereal Foods World 52: 313-316.
12 Dragsdorf RD, Varriano-Marston E. 1980. Bread staling: X-ray diffraction studies on bread supplemented with ${\alpha}$-amylases from different sources. Cereal Chem 57: 310-314.
13 Gujral HS, Haros M, Rosell CM. 2003. Starch hydrolyzing enzymes for retarding the staling of rice bread. Cereal Chem 80: 750-754.   DOI   ScienceOn
14 Koh BK. 1999. Development of the method to extend shelf life of Backsulgie with enzyme treatment. Korean J Soc Food Sci 15: 533-538.   과학기술학회마을
15 Kum JS, Lee SH, Lee HY, Kim KH, Kim YI. 1993. Effect of different milling methods on physico-chemical properties & products. Korean J Food Sci Technol 25: 546-551.
16 Martin M, Fitzgerald MA. 2002. Proteins in rice grains influence cooking properties! J Cereal Sci 36: 285-294.   DOI
17 Chrastil J. 1990. Protein-starch interactions in rice grains. Influence of storage on oryzenin and starch. J Agric Food Chem 38: 1804-1809.   DOI
18 Chrastil J. 1992. Correlations between the physicochemical and functional properties of rice. J Agric Food Chem 40: 1683-1686.   DOI
19 Dhaliwal YS, Sekhon KS, Nagi HPS. 1991. Enzymatic activities and rheological properties of stored rice. Cereal Chem 68: 18-21.
20 Guraya HS, James C, Champagne ET. 2001. Effect of enzyme concentration and storage temperature on the formation of slowly digestible starch from cooked debranched rice starch. Starch 53: 131-139.   DOI
21 Teo CH, Karim AA, Cheah PB, Norziah MH, Seow CC. 2000. On the roles of protein and starch in the aging of non-waxy rice flour. Food Chem 69: 229-236.   DOI   ScienceOn
22 Ministry for Food, Agriculture, Forestry and Fisheries. 2011. Food, agriculture, forestry and fisheries key statistics. http://library.mifaff.go.kr/skyblueimage/1268.pdf
23 Ministry for Food, Agriculture, Forestry and Fisheries. 2011. Food administration. http://library.mifaff.go.kr/skyblueimage/678.pdf
24 Perdon AA, Marks BP, Siebenmorgen TJ, Reid NB. 1997. Effects of rough rice storage conditions on the amylograph and cooking properties of medium-grain rice cv. Bengal. Cereal Chem 74: 864-867.   DOI
25 Daniels MJ, Marks BP, Siebenmorgen TJ, McNew RW, Meullenet JF. 1998. Effects of long-grain rough rice storage history on end-use quality. J Food Sci 63: 832-840.   DOI
26 AACC International. 2000. Approved methods of the AACC. 10th ed. Method 08-03, 46-10, 30-26, 56-30. American Association of Cereal Chemists, St. Paul, MN, USA.
27 Han HM, Cho JH, Koh BK. 2011. Processing properties of Korean rice varieties in relation to rice noodle quality. Food Sci Biotechnol 20: 1277-1282.   과학기술학회마을   DOI
28 Han HM, Cho JH, Kang HW, Koh BK. 2012. Rice varieties in relation to rice bread quality. J Sci Food Agric 92: 1462-1467.   DOI   ScienceOn
29 AIB International. 2006. AIB Standard Procedure. White Pan Bread Firmness Measurement. American Institute of Baking. http://www.aibonline.org/researchandtechnical/services/prodqualityeval/AIBTextureAnalysis%20Procedures.PDF
30 Cham S, Suwannaporn P. 2010. Effect of hydrothermal treatment of rice flour on various rice noodles quality. J Cereal Sci 51: 284-291.   DOI
31 Kohlwey DE, Kendall JH, Mohindra RB. 1995. Using the physical properties of rice as a guide to formulation. Cereal Foods World 40: 728-732.
32 Hatcher DW, Anderson MJ, Desjardins RG, Edwards NM, Dexter JE. 2002. Effects of flour particle size and starch damage on processing and quality of white salted noodles. Cereal Chem 79: 64-71.   DOI
33 Nishita KD, Roberts RL, Bean MM, Kennedy BM. 1976. Development of a yeast-leavened rice bread formula. Cereal Chem 53: 626-635.
34 Dowell FE, Maghirang EB, Pierce RO, Lookhart GL, Bean SR, Xie F, Caley MS, Wilson JD, Seabourn BW, Ram MS, Park SH, Chung OK. 2008. Relationship of bread quality to kernel, flour, and dough properties. Cereal Chem 85: 82-91.   DOI
35 Lee MR, Swanson BG, Baik BK. 2001. Influence of amylose content on properties of wheat starch and breadmaking quality of starch and gluten blends. Cereal Chem 78: 701-706.   DOI
36 Zhou Z, Robards K, Helliwell S, Blanchard C. 2003. Effect of rice storage on pasting properties of rice flour. Food Res Int 36: 625-634.   DOI