Research progress of effect of microwave heating on gelation properties and structure of food protein
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摘要: 本文针对微波技术对蛋白凝胶形成机理,并对微波场中影响食品蛋白凝胶特性的主要因素:蛋白质的种类、微波时间、微波功率、添加剂和p H等进行分析,且对其微波处理后蛋白质分子空间结构变化进行深入阐述,并总结了微波在食品方面的应用,在此基础上提出微波技术在食品领域未来的发展方向。Abstract: In this paper, the mechanism for gel formation of protein treated by microwave was studied and the major factors influencing the gel properties of food protein in microwave field were analyzed involving the protein type, microwave time, microwave power, additives and p H value etc. The effects of microwave on the change of molecular spatial structure of the protein were deeply summarized. Application of microwave in food protein was summarized. Moreover, the directions of microwave technology for the future development were proposed.
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Keywords:
- microwave /
- protein /
- gelation /
- influence factors
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[1] 薛丁萍, 徐斌, 姜辉, 等.食品微波加工中的非热效应研究[J].中国食品学报, 2013, 13 (4) :143-148. [2] 李里特.微波在食品加工中应用的原理和特点[J].食品工业科技, 1991, 6 (1) :3-7. [3] Chandrasekaran S, Ramanathan S, Basak T.Microwave food processing-A review[J].Food Research International, 2013, 52 (1) :243-261.
[4] 赵晶, 陈津, 张猛, 等.微波低温加热过程中的非热效应[J].材料导报, 2007, 11 (21) :4-6. [5] 胡坤, 方少瑛, 王秀霞, 等.蛋白质凝胶机理的研究进展[J].食品工业科技, 2006, 27 (6) :202-205. [6] 盖静.不同加热温度对鳙鱼肌球蛋白聚集行为的影响及其机理研究[D].镇江:江苏大学, 2016. [7] Cheftel J C, Culioli J.Effects of high pressure on meat:a review[J].Meat Science, 1997, 46 (3) :211-236.
[8] 曹燕, 程裕东.鲢、狭鳕鱼糜微波加热凝胶形成的动力学分析[J].水产学报, 2005, 29 (4) :547-551. [9] 周建中, 张晖.植物蛋白凝胶及其应用研究进展[J].食品与生物技术学报, 2013, 32 (11) :1128-1135. [10] 李继红.不同种类肉盐溶蛋白凝胶特性的研究[D].保定:河北农业大学, 2004. [11] 徐幸莲, 周光宏, 黄鸿兵, 等.蛋白质浓度、p H、离子强度对兔骨骼肌肌球蛋白热凝胶特性的影响[J].江苏农业学报, 2004, 20 (3) :159-163. [12] 李秋慧, 李杨, 隋晓楠, 等.微波处理对大豆分离蛋白-磷脂复合体系功能特性的影响[J].食品科学, 2016, 37 (19) :42-47. [13] Yalcin E, Sakiyan O, Sumnu G, et al.Functional properties of microwave-treated wheat gluten[J].European Food Research and Technology, 2008, 227 (5) :1411-1417.
[14] Qin X S, Luo S Z, Cai J, et al.Effects of microwave pretreatment and transglutaminase crosslinking on the gelation properties of soybean protein isolate and wheat gluten mixtures[J].Journal of the Science of Food and Agriculture, 2016, 96:3559-3566.
[15] 闫虹, 林琳, 叶应旺, 等.两种微波加热处理方式对白鲢鱼糜凝胶特性的影响[J].现代食品科技, 2014, 30 (4) :196-204. [16] liu H Hui, Kuo MI.Effect of microwave heating on the viscoelastic property and microstructure of soy protein isolate gel[J].Journal of Texture Studies, 2011, 42 (1) :1-9.
[17] 钱娟.罗非鱼低盐鱼糜的凝胶特性及其制品的研究[D].上海:上海海洋大学, 2013. [18] Feng D, Xue Y, Li Z, et al.Dielectric properties of myofibrillar protein dispersions from Alaska Pollock (Theragra chalcogramma) as a function of concentration, temperature, and Na Cl concentration[J].Journal of Food Engineering, 2015, 166:342-348.
[19] Tolano-Villaverde I J, Torres-Arreola W, Oca1o-Higuera V M, et al.Thermal gelation of myofibrillar proteins from aquatic organisms[J].Cy TA-Journal of Food, 2016, 14 (3) :502-508.
[20] Gustaw W, Mleko S.Gelation of whey proteins by microwave heating[J].Milchwissenschaft, 2007, 62 (4) :439-442.
[21] 杜雪莉, 张凤枰, 刘耀敏, 等.微波辅助蛋白质水解效果稳定性研究[J].食品科学, 2011, 32 (8) :121-124. [22] Marconi E, Panfili G, Bruschi L, et al.Comparative study on microwave and conventional methods for protein hydrolysis in food[J].Amino Acids, 1995, 8 (2) :201-208.
[23] Messia M C, Di Falco T, Panfili G, et al.Rapid determination of collagen in meat-based foods by microwave hydrolysis of proteins and HPAEC-PAD analysis of 4-hydroxyproline[J].Meat Science, 2008, 80 (2) :401-409.
[24] Guan J J, Zhang T B, Hui M, et al.Mechanism of microwave-accelerated soy protein isolate-saccharide graft reactions[J].Food Research International, 2011, 44 (9) :2647-2654.
[25] 何轩辉, 刘红芝, 赵冠里, 等.超高压对食品蛋白凝胶性的影响研究进展[J].食品科学, 2013, 34 (13) :334-337. [26] Wang N, Gao Y Z, Wang P, et al.Effect of microwave modification on mechanical properties and structural characteristics of soy protein isolate and zein blended film[J].Czech Journal of Food Science, 2016, 34 (2) :180-188.
[27] Ochoa-Rivas A, Nava-Valdez Y, Serna-Saldívar S O, et al.Microwave and ultrasound to enhance protein extraction from peanut flour under alkaline conditions:Effects in yield and functional properties of protein isolates[J].Food and Bioprocess Technology, 2017, 10:543-555.
[28] 汪之和, 朱孔辉, 施文正, 等.鳊鱼鱼糜蛋白质结构与凝胶特性的关系[J].水产学报, 2010, 34 (5) :814-819. [29] 徐国恒.二硫键与蛋白质的结构[J].生物学通报, 2010, 45 (5) :5-7. [30] 肖瀛, 方雨婷, 胡业芹, 等.微波加热对牛乳清蛋白氧化的影响[J].食品工业科技, 2014, 35 (8) :105-108. [31] 陈卫, 范大明, 马申嫣, 等.微波对蛋白质及其衍生物结构和功能的影响[J].食品与生物技术学报, 2012, 31 (3) :232-237. [32] Francesco L C, Marira R S, Sabato D A, et al.Different effects of microwave energy and conventional heat on the activity of a thermophilicβ-galactosidase from Bacillus acidocaldarius[J].Bio Electro Magnetics, 1999, 20 (3) :172-176.
[33] Kaddouri H, El Mecherfi K E, Kheroua O, et al.Microwave treatment modify antigenicity properties of bovine milk proteins[J].African Journal of Biotechnology, 2006, 5 (13) :1267-1270.
[34] Resurreccion F P, Luan D, Tang J, et al.Effect of changes in microwave frequency on heating patterns of foods in a microwave assisted thermal sterilization system[J].Journal of Food Engineering, 2015, 150:99-105.
[35] Yujie H R C.Modifying soy protein isolate by microwaveassisted phosphorylation to improve emulsification properties[J].Journal of the Chinese Cereals and Oils Association, 2009, 24 (6) :36-40.
[36] Wang Z, Sun X, Lian Z, et al.The effects of ultrasonic/microwave assisted treatment on the properties of soy protein isolate/microcrystalline wheat-bran cellulose film[J].Journal of Food Engineering, 2013, 114 (2) :183-191.
[37] Harun D.Effect of microwaves on technological and rheological properties of suni-bug (Eurygaster spp) damaged and undamaged wheat flour[J].Food Science and Technology Research, 2010, 16 (4) :313-318.
[38] El Mecherfi K E, Rouaud O, Curet S, et al.Peptic hydrolysis of bovine beta-lactoglobulin under microwave treatment reduces its allergenicity in an ex vivo murine allergy model[J].International Journal of Food Science and Technology, 2015, 50 (2) :356-364.
[39] Zhang X, Yang L, Mester Z.Determination of amino acids in selenium-enriched yeast by gas chromatography-mass spectrometry after microwave assisted hydrolysis[J].Analytica Chimica Acta, 2012, 744:54-59.
[40] Lamacchia C, Landriscina L, D Agnello P.Changes in wheat kernel proteins induced by microwave treatment[J].Food Chemistry, 2016, 197:634-640.
[41] Wu T, Mao L.Influences of hot air drying and microwave drying on nutritional and odorous properties of grass carp (Ctenopharyngodon idellus) fillets[J].Food Chemistry, 2008, 11 (3) :647-653.
[42] Wojdyo A, Figiel A, Lech K, et al.Effect of convective and vacuum-microwave drying on the bioactive compounds, color, and antioxidant capacity of sour cherries[J].Food and Bioprocess Technology, 2014, 7 (3) :829-841.
[43] Phongthai S, Lim S T, Rawdkuen S.Optimization of microwave-assisted extraction of rice bran protein and its hydrolysates properties[J].Journal of Cereal Science, 2016, 70:146-154.
[44] Gursoy S, Choudhary R, Watson D G.Microwave drying kinetics and quality characteristics of corn[J].International Journal of Agricultural and Biological Engineering, 2013, 6 (1) :90-99.
[45] Wang N, Gao Y Z, Wang P, et al.Effect of microwave modification on mechanical properties and structural characteristics of soy protein isolate and zein blended film[J].Czech Journal of Food Science, 2016, 34 (2) :180-188.
[46] Ji L, Xue Y, Zhang T, et al.The effects of microwave processing on the structure and various quality parameters of Alaska pollock surimi protein-polysaccharide gels[J].Food Hydrocolloids, 2017, 63:77-84.
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