Abstract
[Objective] To investigate the preparation of potato protein fiber (PPF) based on enzymatic method,and further analyze their structural and functional properties.[Methods] PPF is prepared from potato protein isolate (PPI) through enzymatic hydrolysis with trypsin (Tyr) and acid -heat treatment.The effects of protein mass concentration,heating time,Tyr activity,and heating temperature on the fluorescence intensity of PPF are studied.Structural properties of PPF are characterized by infrared spectroscopy,fluorescence spectroscopy,etc.With curcumin (Cur) as an encapsulated object,the encapsulation efficiency,loading capacity,thermal stability,and antioxidant activity of PPF -Cur complexes are investigated.[Results]] During the fibrosis process of PPF,the β-sheet content increases from 28.12% to 32.29%,and the α-helix content increases from 22.53% to 25.87%.When the protein mass concentration ranges from 0.2 to 0.8 mg/mL,the Trp fluorescence peak of PPF exhibits a redshift,and its fluorescence intensity is higher than that of PPI.When the Cur concentration increases from 20 to 100 μg/mL,the encapsulation efficiency of PPF -Cur increases from (64.66±0.25)% to (96.16±0.20)%,representing a 48.72% increase,while the loading capacity increases from (3.25±0.01) to (19.62±0.02) μg/mg,a 5.04-fold increase.After heating for 120 min,the retention rates of free Cur and PPF -Cur are (74.40±0.32)% and (87.83±0.61)%,respectively.At Cur concentrations of 20~40 μg/mL,the 引用格式:周向军,李苗.胰蛋白酶法制备马铃薯蛋白纤维及其结构性质和功能特性研究 [J].食品与机械,2025,41(4):54-62.C itation:ZHOU Xiangjun,LI Miao.Preparation of potato protein fiber by trypsin method and its structural and functional properties [J].Food & Machinery,2025,41(4):54-62.|scavenging rates of PPF -Cur against DPPH free radicals and ABTS ⁺ free radicals reach 66.46% and 47.87%,respectively.[Conclusion] Food protein fibers prepared by enzymatic method combined with acid heat treatment can improve the structural and functional properties of proteins.
Publication Date
6-2-2025
First Page
54
Last Page
62
DOI
10.13652/j.spjx.1003.5788.2025.60027
Recommended Citation
Xiangjun, ZHOU and Miao, LI
(2025)
"Preparation of potato protein fiber by trypsin method and its structural and functional properties,"
Food and Machinery: Vol. 41:
Iss.
4, Article 7.
DOI: 10.13652/j.spjx.1003.5788.2025.60027
Available at:
https://www.ifoodmm.cn/journal/vol41/iss4/7
References
[1] 操义平,方亚鹏.淀粉样蛋白纤维作为食品配料的研究进展与思考 [J].中国食品添加剂,2023,34(1):46-54.CAO Y P,FANG Y P.Research progress on amyloid fibrils as food ingredients [J].China Food Additives,2023,34(1):46-54.
[2] HERNEKE A,LENDEL C,KARKEHABADI S,et al.Protein nanofibrils from fava bean and its major storage proteins:formation and ability to generate and stabilise foams [J].Foods,2023,12(3):521.
[3] XU D,ZHOU J T,SOON W L,et al.Food amyloid fibrils are safe nutrition ingredients based on in-vitro and in-vivo assessment [J].Nature Communications,2023,14(1):6 806.
[4] 郑为君,张玲莺,陈星.可持续蛋白纳米纤维及其功能因子递送研究进展 [J].食品与发酵工业,2023,49(15):320-325.ZHENG W J,ZHANG L Y,CHEN X.Research progress on sustainable protein nanofibers and their delivery of functional nutrients [J].Food and Fermentation Industries,2023,49(15):320-325.
[5] 单冠程,李梦竹,徐泽健,等.食源蛋白淀粉样纤维及其在食品中的应用研究进展 [J].未来食品科学,2021 (2):39-52.SHAN G C,LI M Z,XU Z J,et al.Recent progress of food amyloid fibrils applications in food [J].Future Food Science,2021 (2):39-52.
[6] 张丽娜,殷静霖,熊舟翼,等.食源性蛋白质淀粉样纤维的研究进展 [J].中国调味品,2022,47(11):195-199,220.ZHANG L N,YIN J L,XIONG Z Y,et al.Research progress of 字母不同表示差异显著 (P<0.05)|foodborne protein amyloid fibrils [J].China Condiment,2022,47(11):195-199,220.
[7] RAHMAN M M,PIRES R S,HERNEKE A,et al.Food protein-derived amyloids do not accelerate amyloid β aggregation [J].Scientific Reports,2023,13(1):985.
[8] CAO Y P,MEZZENGA R.Food protein amyloid fibrils:origin,structure,formation,characterization,applications and health implications [J].Advances in Colloid and Interface Science,2019,269:334-356.
[9] MENG Y,WEI Z H,XUE C H.Protein fibrils from different food sources:a review of fibrillation conditions,properties,applications and research trends [J].Trends in Food Science & Technology,2022,121:59-75.
[10] 王玉翔,郑召君,刘元法.植物蛋白纤维制备技术及其在食品领域的应用 [J].食品科学,2023,44(17):286-293.WANG Y X,ZHENG Z J,LIU Y F.Preparation of plant protein fiber and its application in the food field:a review of recent research [J].Food Science,2023,44(17):286-293.
[11] 李晨,高柳芳,崔晓东,等.草鱼胰蛋白酶的亲和纯化及酶学性质 [J].食品科学,2021,42(10):178-183.LI C,GAO L F,CUI X D,et al.Affinity chromatographic purification and enzymatic characterization of trypsin from grass carp (Ctenopharyngodon idellus ) [J].Food Science,2021,42(10):178-183.
[12] MONGE-MORERA M,LAMBRECHT M A,DELEU L J,et al.Heating wheat gluten promotes the formation of amyloid-like fibrils [J].ACS Omega,2021,6(3):1 823-1 833.
[13] MONGE-MORERA M,LAMBRECHT M A,DELEU L J,et al.Processing induced changes in food proteins:amyloid formation during boiling of hen egg white [J].Biomacromolecules,2020,21(6):2 218-2 228.
[14] JOSEFSSON L,YE X C,BRETT C J,et al.Potato protein nanofibrils produced from a starch industry sidestream [J].ACS Sustainable Chemistry & Engineering,2020,8(2):1 058-1 067.
[15] ZHENG B J,PENG S F,ZHANG X Y,et al.Impact of delivery system type on curcumin bioaccessibility:comparison of curcumin-loaded nanoemulsions with commercial curcumin supplements [J].Journal of Agricultural and Food Chemistry,2018,66(41):10 816-10 826.
[16] YANG N,LI J,ZHANG B,et al.Interfacial properties of protein nanofibrils with different morphology prepared using aqueous solvent with ethanol:Part I.preparation and characterization [J].Food Hydrocolloids,2023,142:108754.
[17] HU B,YU S J,SHI C,et al.Amyloid-polyphenol hybrid nanofilaments mitigate colitis and regulate gut microbial dysbiosis [J].ACS Nano,2020,14(3):2 760-2 776.
[18] MOAYEDZADEH S,MADADLOU A,KHOSROWSHAHI ASL A.Formation mechanisms,handling and digestibility of food protein nanofibrils [J].Trends in Food Science & Technology,2015,45(1):50-59.
[19] HERNEKE A,KARKEHABADI S,LU J,et al.Protein nanofibrils from mung bean:the effect of pH on morphology and the ability to form and stabilise foams [J].Food Hydrocolloids,2023,136:108315.
[20] 李璇,单杰,冯志彪,等.酶法水解乳清分离蛋白制备纳米纤维[J].食品科学,2017,38(13):118-124.LI X,SHAN J,FENG Z B,et al.Preparation of nanofibrils by enzymatic hydrolysis of whey protein isolate [J].Food Science,2017,38(13):118-124.
[21] FENG Z B,WU G X,LIU C H,et al.Edible coating based on whey protein isolate nanofibrils for antioxidation and inhibition of product browning [J].Food Hydrocolloids,2018,79:179-188.
[22] 程闻,徐红华,董世荣,等.WPC纳米纤维聚合物体外消化性能的研究 [J].食品工业科技,2016,37(15):116-120.CHENG W,XU H H,DONG S R,et al.Digestion properties of WPC namo-fibril aggregates in vitro [J].Science and Technology of Food Industry,2016,37(15):116-120.
[23] FAN Y T,ZENG X X,YI J,et al.Fabrication of pea protein nanoparticles with calcium-induced cross-linking for the stabilization and delivery of antioxidative resveratrol [J].International Journal of Biological Macromolecules,2020,152:189-198.
[24] YI J,LAM T I,YOKOYAMA W,et al.Beta-carotene encapsulated in food protein nanoparticles reduces peroxyl radical oxidation in Caco- 2 cells [J].Food Hydrocolloids,2015,43:31-40.
[25] 王欣.核诱导乳清浓缩蛋白纤维聚合物乳化性的研究 [D].哈尔滨:东北农业大学,2019:15-16.WANG X.Study on the emulsifying properties of nuclei induced fibril polymer of whey protein concentrate [D].Harbin:Northeast Agricultural University,2019:15-16.
[26] 唐紫薇,明雨,赵欣欣,等.植物源蛋白质纤维化自组装研究进展 [J].中国食品学报,2024,24(6):423-433.TANG Z W,MING Y,ZHAO X X,et al.Research progress on fibrotic self-assembly of plant protein resource [J].Journal of Chinese Institute of Food Science and Technology,2024,24(6):423-433.
[27] FERRONE F A,HOFRICHTER J,EATON W A.Kinetics of sickle hemoglobin polymerization I.studies using temperature-jump and laser photolysis techniques [J].Journal of Molecular Biology,1985,183(4):591-610.
[28] LIU J,TANG C H.Heat-induced fibril assembly of vicilin at pH 2.0:reaction kinetics,influence of ionic strength and protein concentration,and molecular mechanism [J].Food Research International,2013,51(2):621-632.
[29] ROBERTSON A G.Formation and characterization of nanofibrils from peanut protein [D].Athens:University of Georgia,2019:20-22.
[30] MOHAMMADIAN M,SALAMI M,MOMEN S,et al.Enhancing the aqueous solubility of curcumin at acidic condition through the complexation with whey protein nanofibrils [J].Food Hydrocolloids,2019,87:902-914.
[31] HE S D,SHI J,WALID E,et al.Reverse micellar extraction of lectin from black turtle bean (Phaseolus vulgaris ):optimisation of extraction conditions by response surface methodology [J].Food Chemistry,2015,166:93-100.
[32] WANG Y L,YANG J J,DAI S C,et al.Formation of soybean protein isolate-hawthorn flavonoids non-covalent complexes:linking the physicochemical properties and emulsifying properties [J].Ultrasonics Sonochemistry,2022,84:105961.
[33] 吴艳妮.酶解乳清分离蛋白自组装及电纺成纳米纤维膜应用初探 [D].合肥:合肥工业大学,2023:25-29.WU Y N.Preliminary exploration of self-assembly and electrospinning of enzymatic whey protein isolate into nanofibers film [D].Hefei:Hefei University of Technology,2023:25-29.
[34] YU Z C,LI N,LIU Y A,et al.Formation,structure and functional characteristics of amyloid fibrils formed based on soy protein isolates [J].International Journal of Biological Macromolecules,2024,254:127956.
[35] MOHAMMADIAN M,MADADLOU A.Technological functionality and biological properties of food protein nanofibrils formed by heating at acidic condition [J].Trends in Food Science & Technology,2018,75:115-128.
[36] MUNIALO C D,MARTIN A H,VAN DER L E,et al.Fibril formation from pea protein and subsequent gel formation [J].Journal of Agricultural and Food Chemistry,2014,62(11):2 418-2 427.
[37] FAN Y T,PENG G F,PANG X,et al.Physicochemical,emulsifying,and interfacial properties of different whey protein aggregates obtained by thermal treatment [J].LWT-Food Science and Technology,2021,149:111904.
[38] REGESTER G O,PEARCE R J,LEE V W,et al.Heat-related changes to the hydrophobicity of cheese whey correlate with levels of native beta-lactoglobulin and alpha-lactalbumin [J].Journal of Dairy Research,1992,59(4):527-532.
[39] GAO Z M,HUANG Y,ZHAO J J,et al.Edible Pickering emulsion stabilized by protein fibrils:part 2.effect of dipalmitoyl phosphatidylcholine (DPPC ) [ J].Food Hydrocolloids,2017,71:245-251.
[40] HERNEKE A.Plant protein nanofibrils:characterising properties for future food [J].Foods,2022,10(8):1 967.
[41] FOEGEDING E A,LUCK P J,DAVIS J P.Factors determining the physical properties of protein foams [J].Food Hydrocolloids,2006,20(2/3):284-292.
[42] 赵新淮,徐红华,姜毓君.食品蛋白质:结构、性质与功能[M].北京:科学出版社,2009:329-332.ZHAO X H,XU H H,JIANG Y J.Food proteins:structure,properties,and functions [M].Beijing:Science Press,2009:329-332.
[43] PI J Z,WANG J,LV J R,et al.Modification of ovalbumin by the enzymatic method:consequences for foaming characteristics of fibrils [J].Food Hydrocolloids,2023,139:108492.
[44] YI J,HE Q Y,PENG G F,et al.Improved water solubility,chemical stability,antioxidant and anticancer activity of resveratrol via nanoencapsulation with pea protein nanofibrils[J].Food Chemistry,2022,377:131942.
[45] 郎镇岭,庄洁,卢宏政,等.食品蛋白纤维的研究进展及功能应用 [J].食品工业科技,2025,46(2):385-393.LANG Z L,ZHUANG J,LU H Z,et al.Research progress and functional applications of food protein fibrils [J].Science and Technology of Food Industry,2025,46(2):385-393.
[46] ZHANG C,FU Y Y,LI Z Y,et al.Application of whey protein isolate fibrils in encapsulation and protection of β-carotene [J].Food Chemistry,2021,346:128963.