Abstract
In this paper, the effects of exopolysaccharide (EPS) produced by lactic acid bacteria (LAB) on the foaming, surface hydrophobicity and liquid protein content of complex proteins during whipping were studied. LAB fermentation technology was applied in the production of eggless cakes and its effect on batter rheological, baking characteristic and crumb microstructure of eggless cake were evaluated. The results showed that the EPS produced by LAB significantly improved the foaming properties, increased surface hydrophobicity of complex protein and maintained the interface protein content by reducing competitive adsorption of emulsifiers during whipping. The number of bubbles increased and their distribution was more uniform in the fermented batter containing EPS produced by LAB, resulting in decrease in the batter density. Compared with the control, baking quality of the eggless cake containing EPS was significantly improved. Specific volume increased by 12.3% and the hardness decreased by 43.0%. The microstructure observation of eggless cake crumb could be concluded that protein degradation and cross-linking of EPS with protein resulted in a more continuous and uniform protein network so that the crumb structure of cake was improved. Therefore, the exopolysaccharide produced by lactic acid bacteria had a significant improvement effect on batter characteristics and baking quality of eggless cake.
Publication Date
2-28-2020
First Page
12
Last Page
18
DOI
10.13652/j.issn.1003-5788.2020.02.003
Recommended Citation
Feng-wen, ZHANG; Cheng, CHEN; Bin-le, ZHANG; Wei-chao, CAO; Feng, WANG; Jun-min, CHEN; Wei-ning, HUANG; and Ogawa, AKIHIRO
(2020)
"Effects of exopolysaccharide on batter and baking characteristics of eggless cake,"
Food and Machinery: Vol. 36:
Iss.
2, Article 3.
DOI: 10.13652/j.issn.1003-5788.2020.02.003
Available at:
https://www.ifoodmm.cn/journal/vol36/iss2/3
References
[1] JIA Chun-li,HUANG Wei-ning,LIN Ji,et al.Improvement of hydrocolloid characteristics added to angel food cake by modifying the thermal and physical properties of frozen batter[J].Food Hydrocolloids,2014,41(20):227-232.
[2] LIN Mu-yang,TAY S H,YANG Hong-shun,et al.Development of eggless cakes suitable for lacto-vegetarians using isolated pea proteins[J].Food Hydrocolloids,2017,69(3):440-449.
[3] 李凯文,邵洁.鸡蛋过敏原与婴幼儿鸡蛋过敏的研究进展[J].临床儿科杂志,2011,29(4):386-389.
[4] AROZARENA I I,BERTHOLO H,EMPIS J,et al.Study of the total replacement of egg by white lupine protein,emulsifiers and xanthan gum in yellow cakes[J].European Food Research & Technology,2001,213(4/5):312-316.
[5] 任广旭,伊素芹,卢林纲,等.“牛乳与大豆”双蛋白运动营养功能的研究进展[J].中国食品学报,2015,15(6):154-161.
[6] 冯昌友,陈建霞.大豆蛋白及其在食品工业中的应用[J].食品与机械,2000,16(2):21-22.
[7] 余丹丹,张昊,郭慧媛,等.乳清蛋白的特性及其在食品工业中的应用[J].中国乳业,2013,33(6):58-60.
[8] SHAO Yi-yuan,LIN Kuan-hung,CHEN Yung-hsin.Batter and product quality of eggless cakes made of different types of flours and gums[J].Journal of Food Processing & Preservation,2015,39(6):2 959-2 968.
[9] 宋臻善,郭桦,周雪松.浓缩乳清蛋白替代全蛋液对海绵蛋糕品质的影响[J].食品工业科技,2012,33(24):165-167.
[10] 钟京,王凤,刘娜,等.乳酸菌发酵麸皮酸面团对高纤维面包面团流变发酵学及烘焙特性的影响[J].食品工业科技,2013,34(9):49-54.
[11] 刘娜,程晓燕,孙银凤,等.GC-MS分析传统酸面团馒头风味及添加食用碱对其风味的影响[J].食品工业科技,2014,35(16):76-81.
[12] TANG Xiao-juan,LIU Ruo-shi,HUANG Wei-ning,et al.Impact of in situ formed exopolysaccharides on dough performance and quality of Chinese steamed bread[J].LWT,2018,96(6):519-525.
[13] 吴玉新,陈佳芳,马子琳,等.乳酸菌发酵米粉酸面团生化特性及其对馒头蒸制特性的影响[J].食品科学,2019,40(4):1-12.
[14] 汤晓娟.产胞外多糖酸面团发酵及其冷冻面团抗冻机理研究[D].无锡:江南大学,2019:3-4.
[15] 庄靓,张宾乐,马子琳,等.产乳化活性多糖乳酸菌的筛选及其发酵荞麦酸面团、面包的特性[J].食品工业科技,2019,40(13):71-77.
[16] 陈佳芳,汤晓娟,蒋慧,等.不同高产胞外多糖乳酸菌发酵荞麦酸面团对面团面筋网络结构和面包烘焙特性的影响[J].食品科学,2018,39(6):1-6.
[17] KETABI A,SOLEIMANIAN Z S,KADIVAR M,et al.Production of microbial exopolysaccharides in the sourdough and its effects on the rheological properties of dough[J].Food Research International,2008,41(10):948-951.
[18] 谭慧.高压处理对大豆分离蛋白—多糖体系功能特性及结构影响研究[D].哈尔滨:东北农业大学,2015:11-12.
[19] ILHAM C,PHILIPPE G,VERONIQUE S L.Technical note:A simplified procedure for myofibril hydrophobicity determination[J].Meat Science,2006,74(4):681-683.
[20] 叶小敏,田颁九,李慧义,等.BCA法测定猪肺表面活性物质及其冻干粉中的表面活性蛋白质[J].中国药品标准,2007,8(1):28-31.
[21] 贾春利,汤晓娟,黄卫宁,等.羧甲基纤维素改善冷冻蛋糕体系热力学与烘焙特性研究[J].食品工业科技,2012,33(16):327-331.
[22] 王家宝,陈诚,王凤,等.搅拌时间和乳化剂对海绵蛋糕表面气泡的影响[J].食品与机械,2018,34(10):8-13.
[23] 汤晓娟,王凤,贾春利,等.含Olestra低脂休闲蛋糕体系的流变学、微结构与烘焙特性[J].食品科学,2013,34(1):1-7.
[24] 王家宝,陈诚,王凤,等.含丙二醇酯低脂蛋糕的流变学、气泡微结构和烘焙特性研究[J].食品与机械,2019,35(5):1-7.
[25] WANG Xiang-yu,GUO Xiao-na,ZHU Ke-xue.Polymerization of wheat gluten and the changes of glutenin macropolymer(GMP)during the production of Chinese steamed bread[J].Food Chemistry,2016,201(5):275-283.
[26] 王宁,郑泽慧,滕月斐,等.亲水胶体对鸡蛋清起泡性的影响[J].食品科技,2012,23(2):273-277.
[27] DEEP G,HASSAN A N,METZGER L.Exopolysaccharides modify functional properties of whey protein concentrate[J].Journal of Dairy Science,2012,95(11):6 332-6 338.
[28] 赵晓东.泡沫稳定性综述[J].钻井液与完井液,1992,9(1):7-14.
[29] SETA L,BALDINO N,GABRIELE D,et al.The effect of surfactant type on the rheology of ovalbumin layers at the air/water and oil/water interfaces[J].Food Hydrocolloids,2012,29(2):247-257.
[30] 李里特.焙烤食品工艺学[M].北京:中国轻工业出版社,2010:55-56.
[31] 赵强忠.搅打稀奶油的搅打性能和品质的变化规律及其机理研究[D].广州:华南理工大学,2006:15-16.
[32] GOFF H D.Colloidal aspects of ice cream:A review[J].International Dairy Journal,1997,7(6/7):363-373.
[33] DICKINSON E.Protein-polysaccharide interactions in food colloids[J].Food Colloids & Polymers,2005,10(8):77-93.
[34] LLEWELLIN E W,MADER H M,WILSON S D R.The rheology of a bubbly liquid[J].Proceedings Mathematical Physical & Engineering Sciences,2002,458(2 020):987-1 016.
[35] WILDERJANS E,LUYTS A,BRIJS K,et al.Ingredient functionality in batter type cake making[J].Trends in Food Science & Technology,2013,30(1):6-15.
[36] LILLFORD P,JUDGE F.Edible food foams and sponges[J].Food Colloids,1989,5(2):1-14.
[37] WILDERJANS E,PAREYT B,GOESAERT H,et al.The role of gluten in a pound cake system:A model approach based on gluten-starch blends[J].Food Chemistry,2008,110(4):909-915.
[38] LAMBRECHT M A,DELEU L J,ROMBOUTS I,et al.Heat-induced network formation between proteins of different sources in model systems,wheat-based noodles and pound cakes[J].Food Hydrocolloids,2017,79(6):352-370.
[39] ASHWINI A,JYOTSNA R,INDRANI D.Effect of hydrocolloids and emulsifiers on the rheological,microstructural and quality characteristics of eggless cake[J].Food Hydrocolloids,2009,23(3):700-707.
[40] WILDERJANS E,LUYTS A,GOESAERT H,et al.A model approach to starch and protein functionality in a pound cake system[J].Food Chemistry,2010,120(1):44-51.