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http://dx.doi.org/10.5851/kosfa.2019.e45

Effects of Number of Washes and Salt Treatment on the Quality Characteristics of Protein Recovered from Alaska Pollock and Pork Leg  

Jin, Sang Keun (Department of Animal Resources Technology, Gyeongnam National University of Science and Technology)
Lee, Seung Yun (Department of Animal Science and Technology, Chung-Ang University)
Yim, Dong Gyun (Department of Animal Science, Sangji University)
Hur, Sun Jin (Department of Animal Science and Technology, Chung-Ang University)
Publication Information
Food Science of Animal Resources / v.39, no.3, 2019 , pp. 503-509 More about this Journal
Abstract
The aim of this study was to compare the effects of number of washes and salt addition on the meat quality in protein recovered from Alaska Pollock compared with pork leg. Various properties of protein recovered from Alaska Pollock (C, washed twice, no salt) and pork leg (T1, washed twice, no salt; T2, two washes, salt added; T3, washed four times, no salt; and T4, washed four times, salt added) were assessed in this study. Pork leg samples exhibited better color (more whiteness, less yellowness) than Alaska Pollock samples. In pork leg samples, four washes (T3, T4) during processing yielded whiter, less yellow protein than two washes (T1, T2). Overall, the textural property measures were higher in pork leg samples (T2, T3, and T4) than in other samples. Breaking force, jelly strength, and folding resistance were significantly higher in salt-treated pork leg samples (T2, T4) than in the other samples. Our findings demonstrate that protein recovered from pork leg has better color parameters, and physical strength compared with Alaska Pollock-derived protein. A higher number of wash steps and treatment with salt during processing were furthermore found to yield better color, and physical strength in the protein samples.
Keywords
Alaska Pollock; pork leg; protein recovery; texture;
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1 Eskandari MH, Hosseinpour S, Mesbahi G, Shekarforoush S. 2013. New composite nitrite-free and low-nitrite meat-curing systems using natural colorants. Food Sci Nutr 1:392-401.   DOI
2 Gaudette NJ, Pietrasik Z. 2017. The sensory impact of salt replacers and flavor enhancer in reduced sodium processed meats is matrix dependent. J Sens Stud 32:e12247.   DOI
3 Hammad HHM, Meihu M, Guofeng J, Lichao H. 2017. Nitroso-hemoglobin preparation and meat product colorant development. J Food Process Technol 8:2.
4 Jafarpour A, Gorczyca EM. 2008. Alternative techniques for producing a quality surimi and kamaboko from common carp (Cyprinus carpio). J Food Sci 73:E415-E424.   DOI
5 Jin SK, Kim IS, Kim SJ, Jeong KJ, Choi YJ, Hur SJ. 2007. Effect of muscle type and washing times on physio-chemical characteristics and qualities of surimi. J Food Eng 81:618-623.   DOI
6 Kang GH, Yang HS, Jeong JY, Moon SH, Hur SJ, Park GB, Joo ST. 2007. Gel color and texture of surimi-like pork from muscles at different rigor states post-mortem. Asian-Australas J Anim Sci 20:1127-1134.   DOI
7 Kealy T. 2006. Application of liquid and solid rheological technologies to the textural characterisation of semi-solid foods. Food Res Int 39:265-276.   DOI
8 Morin LA, Temelli F, McMullen L. 2004. Interactions between meat proteins and barley (Hordeum spp.) b-glucan within a reduced-fat breakfast sausage system. Meat Sci 68:419-430.   DOI
9 Ochiai Y, Ochiai L, Hashimoto K, Watabe S. 2001. Quantitative estimation of dark muscle content in the mackerel meat paste and its products using antisera against myosin light chains. J Food Sci 66:1301-1305.   DOI
10 Park S, Brewer MS, Novakofski J, Bechtel PJ, McKeith FK. 1996. Process and characteristics for a surimi-like material made from beef or pork. J Food Sci 61:422-427.   DOI
11 Phatcharat S, Benjakul S, Visessanguan W. 2006. Effects of washing with oxidizing agents on the gel-forming ability and physicochemical properties of surimi produced from bigeye snapper (Priacanthus tayenus). Food Chem 98:431-439.   DOI
12 Utama DT, Jeong H, Kim J, Lee SK. 2018. Formula optimization of a perilla-canola oil (O/W) emulsion and its potential application as an animal fat replacer in meat emulsion. Korean J Food Sci Anim Resour 38:580-592.   DOI
13 Vilhelmsson O. 1997. The state of enzyme biotechnology in the fish processing industry. Trends Food Sci Technol 8:266-270.   DOI
14 Yum HW, Seo JK, Jeong JY, Kim GD, Rahman MS, Yang HS. 2018. The quality improvement of emulsion-type pork sausages formulated by substituting pork back fat with rice bran oil. Korean J Food Sci Anim Resour 38:123-134.   DOI