[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5851/kosfa.2011.31.6.817

Interactions between Chicken Salt-soluble Meat Proteins and Makgeolli Lees Fiber in Heat-induced Gels

Choi, Yun-Sang (Food and Biological Resources Examination Division, Korean Intellectual Property Office)
Park, Kwoan-Sik (Department of Food Science and Biotechnology of Animal Resources, Konkuk University)
Kim, Hack-Youn (Department of Food Science and Biotechnology of Animal Resources, Konkuk University)
Kim, Hyun-Wook (Department of Food Science and Biotechnology of Animal Resources, Konkuk University)
Song, Dong-Heon (Department of Food Science and Biotechnology of Animal Resources, Konkuk University)
Chung, Hai-Jung (Department of Food Science and Nutrition, Daejin University)
Lee, Ju-Woon (Radiation Technology Institute, Korea Atomic Energy Research Institute)
Kim, Cheon-Jei (Department of Food Science and Biotechnology of Animal Resources, Konkuk University)

Publication Information

Food Science of Animal Resources / v.31, no.6, 2011 , pp. 817-826 More about this Journal

Abstract

The technological effects of Makgeolli lees fiber (0, 0.5, 1.0, 2.0, and 4.0%) on chicken salt-soluble breast meat proteins in a model system on proximate composition, physicochemical properties, and textural properties were investigated. Makgeolli lees fiber was obtained from Makgeolli brew processing, and the by-products showed good dietary fiber. The moisture and ash contents, water holding capacity, redness, yellowness, hardness, and apparent viscosity of chicken salt-soluble meat protein heat-induced gel systems with Makgeolli lees fiber were all higher than the control without Makgeolli lees fiber. However, protein solubility and electrophoretic patterns did not differ among the control and treatments with Makgeolli lees fiber samples. The chicken salt-soluble protein heat-induced gel systems incorporating Makgeolli lees fiber had improved water holding capacity, textural properties, and viscosity due to Makgeolli lees fiber addition. These results suggest that the addition of 4.0% Makgeolli lees fiber to gel is helpful to improve the physical properties of heat-induced gels.

Keywords

heat-induced gel; Makgeolli lees fiber; model system; salt-soluble meat protein;

Citations & Related Records

Times Cited By KSCI : 4 (Citation Analysis)
Times Cited By Web Of Science : 1 (Related Records In Web of Science)
Times Cited By SCOPUS : 1

Reference
Cited By KSCI

1	Lee, M. A., Han, D. J., Jeong, J. Y., Choi, J. H., Choi, Y. S., Kim, H. Y., Paik, H. D., and Kim, C. J. (2008) Effect of kimchi powder level and drying methods on quality characteristics of breakfast sausage. Meat Sci. 80, 708-714. DOI ScienceOn
2	Liu, R., Zhao, S, M., Xiong, S. B., Xie, B. J., and Qin, L. H. (2008) Role of secondary structures in the gelation of porcine myosin at different pH values. Meat Sci. 80, 632-639. DOI ScienceOn
3	McCord, A., Smyth, A., and O'Neill, E. E. (1998) Heat-induced gelation properties of salt-soluble muscle proteins as affected by non-meat proteins. J. Food Sci. 63, 580-583.
4	Nakayama, T. and Sato, Y. (1971) Relationship between binding quality of meat and myofibrillar protein. J. Texture Stud. 2, 475-488. DOI
5	Nuckles, R. O., Smith, D. M., and Merkel, R. A. (1991) Properties of heat-induced gels from beef skeletal, heart, lung and spleen protein fractions. J. Food Sci. 56, 1165-1170. DOI
6	Osburn, W. N. and Keeton, J. T. (2004) Evaluation of low-fat sausage containing desinewed lamb and konjac gel. Meat Sci. 68, 221-233. DOI ScienceOn
7	Park, S. Y., Wang, S. H., Chin, K. B., and Kim, Y. D. (2004) Rheological properties of the mixture and heat-induced gel prepared from pork salt soluble protein in combined with soluble chitooligosaccharide and chitosan. Korean J. Food Sci. Technol. 36, 594-597. 과학기술학회마을
8	Samejima, K., Yamaguchi, H., Asghar, A., and Yasui, T. (1984) Role of myosin heavy chains from rabbit skeletal muscle in the heat-induced gelation mechanism. Agric. Biol. Chem. 48, 2225-2232. DOI
9	SAS (2008) SAS/STAT Software for PC. Release 9.2, SAS Institute Inc., Cary, NC, USA.
10	Sayre, R. N. and Briskey, E. J. (1963) Protein solubility as influenced by physiological conditions in the muscle. J. Food Sci. 28, 675-679. DOI
11	Jeong, J. W. and Park, K. J. (2006) Quality characteristics of loaf bread added takju powder. Korean J. Food Sci. Technol. 38, 52-58. 과학기술학회마을
12	Joo, S. T., Kauffman, R. G., Kim, B. C., and Park, G. B. (1999) The relationship of sarcoplasmic and myofibrillar protein solubility to colour and water-holding capacity in porcine longissimus muscle. Meat Sci. 52, 291-297. DOI ScienceOn
13	Kocher, P. and Foegeding, E. (1993) Microcentrifuge-based method for measuring water-holding of protein gels. J. Food Sci. 58, 1040-1046. DOI ScienceOn
14	Koohmaraie, M., Kennick, W. H., Elgasim, E. A., and Anglemier, A. F. (1984) Effects of postmortem storage on muscle protein degradation: Analysis by SDS-polyacrylamide gel electrophoresis. J. Food Sci. 49, 292-294. DOI
15	Laemmli, U. K. (1970) Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 227, 680-685. DOI ScienceOn
16	Lan, Y. H., Novakofski, J., Carr, T. R., and McKeith, F. K. (1993) Assay and storage conditions affect yield of salt-soluble protein from muscle. J. Food Sci. 58, 963-967. DOI ScienceOn
17	Lanier, T. C. (1991) Interactions of muscle and nonmuscle proteins affecting heat-set gel rheology. In: Marcromolecular Interactions and Food Colloid Stability. Parris, N. and Barford, R. A. (eds) American Chemical Society, Symposium Series, Washington, DC, pp. 268-284.
18	Lanier, T. C., Carvajal, P., and Yongaswatdigul, J. (2004) Surimi gelation chemistry. In: Surimi and surini seafood. 2nd ed, Prak, J. W. (ed) Marcel Dekker, Inc., NY, pp. 451-470.
19	Lee, J. S., Lee, T. S., Noh, B. S., and Park, S. O. (1996) Quality characteristics of mash of takju prepared by different raw materials. Korean J. Food Sci. Technol. 28, 330-336. 과학기술학회마을
20	Choi, Y. S., Choi, J. H., Han, D. J., Kim, H. Y., Lee, M. A., Kim, H. W., and Kim, C. J. (2009) Characteristics of low-fat meat emulsion systems with pork fat replaced by vegetable oils and rice bran fiber. Meat Sci. 82, 266-271. DOI ScienceOn
21	Choi, Y. S., Choi, J. H., Han, D. J., Kim, H. Y., Lee, M. A., Lee, E. S., Jeong, J. Y., Paik, H. D., and Kim, C. J. (2008) Effect of rice bran fiber on quality of low-fat tteokgalbi. Food Sci. Biotechnol. 17, 959-964.
22	Choi, Y. S., Park, K. S., Choi, J. H., Kim, H. W., Song, D. H., Kim, J. M., Chung, H. J., and Kim, C. J. (2010b) Physicochemical properties of chicken meat emulsion systems with dietary fiber extracted from Makgeolli lees. Korean J. Food Sci. Ani. Resour. 30, 910-917. DOI ScienceOn
23	Cofrades, S., Lopez-Lopez, I., Solas, M. T., Bravo, L., and Jimenez-Colmenero, F. (2008) Influence of different types and proportions of added edible seaweeds on characteristics of low-salt gel/emulsion meat systems. Meat Sci. 79, 767-776. DOI ScienceOn
24	DeFreitas, Z., Sebranek, J. G., Olson, D. G., and Carr, J. M. (1997) Carrageenan effects on salt-soluble meat proteins in model systems. J. Food Sci. 62, 539-543. DOI ScienceOn
25	Farouk, M. M. and Swan, J. E. (1997) Effect of pH at time of salting on the functional properties of pre-rigor beef. Meat Sci. 45, 463-472. DOI ScienceOn
26	Farouk, M. M., Wieliczko, K., Lim, R., Turnwald, S., and MacDonald, G. A. (2002) Cooked sausage batter cohesiveness as affected by sarcoplasmic proteins. Meat Sci. 61, 85-90. DOI ScienceOn
27	Garcia-Garcia, E. and Totosaus, A. (2008) Low-fat sodiumreduced sausages: Effect of the interaction between locust bean gum, potato starch and ${beta}$ -carrageenan by a mixture design approach. Meat Sci. 78, 406-413. DOI ScienceOn
28	Gornall, A. G., Bardawill, C. J., and David, M. M. (1949) Determination of serum proteins by means of the biuret reaction. J. Biol. Chem. 177, 751-766.
29	Aktas, N. and Genccelep, H. (2006) Effect of starch type and its modifications on physicochemical properties of bolognatype sausage produced with sheep tail fat. Meat Sci. 74, 404-408. DOI ScienceOn
30	AOAC (1995) Official methods of analysis, 16th ed., Association of Official Analytical Chemists, Washington, DC.
31	Bae, S. H., Jung, E. Y., Kim, S. Y., Shin, K. S., and Suh, H. J. (2010) Antioxidant and immune-modulating activities of Korean traditional rice wine, takju. J. Food Biochem. 34, 233-248. DOI ScienceOn
32	Blandino, A., Al-Aseeri, M. E., Pandiella, S. S., Cantero, D., and Webb, C. (2003) Cereal-based fermented foods and beverages. Food Res. Int. 36, 527-543. DOI ScienceOn
33	Bourne, M. C. (1982) Food texture and viscosity: concept and measurement. Academic Press, NY, pp. 118-167.
34	Camou, J. P., Sebranek, J. G., and Olson, D. G. (1989) Effect of heating rate and protein concentration on gel strength and water loss of muscle protein gels. J. Food Sci. 54, 850-854. DOI
35	Chin, K. B. (2000) Functional properties of heat-induced gels prepared with salt soluble proteins, non-meat proteins and hydrocolloids in a model system. Food Sci. Biotechnol. 9, 368-371.
36	Chin, K. B., Keeton, J. T., Longnecker, M. T., and Lamkey, J. W. (1999) Utilization of soy protein isolate and konjac blends in a low-fat bologna (model system). Meat Sci. 53, 45-57. DOI ScienceOn
37	Choi, Y. S., Choi, J. H., Han, D. J., Kim, H. Y., Lee, M. A., Kim, H. W., Lee, J. W., Chung, H. J., and Kim, C. J. (2010a) Optimization of replacing pork back fat with grape seed oil and rice bran fiber for reduced-fat meat emulsion systems. Meat Sci. 84, 212-218. DOI ScienceOn
38	Choi, Y. S., Choi, J. H., Han, D. J., Kim, H. Y., Lee, M. A., Kim, H. W., Jeong, J. Y., and Kim, C. J. (2011) Effects of rice bran fiber on heat-induced gel prepared with pork salt-soluble meat proteins in model system. Meat Sci. 88, 59-66. DOI ScienceOn
39	Smith, D. M. (1998) Meat proteins: Functional properties of comminuted meat products. Food Technol. 42, 116-121.
40	Verbeken, D., Neirinck, N., Van-Der, M. P., and Dewettinck, K. (2005) Influence of ${beta}$ -carrageenan on the thermal gelation of salt-soluble meat proteins. Meat Sci. 70, 161-166. DOI ScienceOn
41	Wang, S. F., Smith, D. M., and Steffe, J. F. (1990) Effect of pH on the dynamic rhelogical properties of chicken breast salt-soluble protein during heat-induced gelation. Poultry Sci. 69, 2220-2227. DOI
42	Weber, K. and Osborn, M. (1969) The reliability of molecular weight determinations by dodecyl sulfate-polyacrylamide gel electrophoresis. J. Biol. Chem. 244, 4406-4412.
43	Westphalen, A. D., Briggs, J. L., and Lonergan, S. M. (2006) Influence of muscle type on rheological properties of porcine myofibrillar protein during heat-induced gelation. Meat Sci. 72, 697-703. DOI ScienceOn
44	Xiong, Y. L. (1997) Structure-function relationships of muscle proteins. In: Food proteins and their applications. Damondaran, S. and Paraf, A. (eds) Marcel Dekker, Inc., NY, pp. 341-392.

3	Yun-Sang Choi. (2013) Meat Science Quality characteristics of reduced-fat frankfurters with pork fat replaced by sunflower seed oils and dietary fiber extracted from makgeolli lees / 93 (3) , 652
3	Yun-Sang Choi. (2015) Korean journal of food and cookery science Effects of Emulsion Mapping in Different Parts of Pork and Beef / 31 (3) , 241
2	(2011) Journal of microbiology and biotechnology Cytoprotective Effect of Makgeolli Lees on Paraquat Induced Oxidative Stress in A549 Cells via Activation of NRF2 and Antioxidant Genes / 26 (2) , 277
10	(2011) Foods Effect of Interaction between Mealworm Protein and Myofibrillar Protein on the Rheological Properties and Thermal Stability of the Prepared Emulsion Systems / 9 (10) , 1443