1 |
吴进菊, 汤尚文, 黄升谋, 等. 酶法交联对食物蛋白的改性作用研究进展[J]. 食品工业科技, 2011(11): 511-513.
|
|
WUJ J, TANGS W, HUANGS M, et al. Research progress on modification of food proteins by enzymatic cross linking[J]. Science and Technology of Food Industry, 2011(11): 511-513.
|
2 |
ConstantinouC, KoutsidisG. Investigations on the effect of antioxidant type and concentration and model system matrix on acrylamide formation in model Maillard reaction systems[J]. Food Chemistry A, 2016, 197: 769-775.
|
3 |
REBHOLZC M, ASTORB C, GRAMSM E, et al. Association of plasma levels of soluble receptor for advanced glycation end products and risk of kidney disease: the atherosclerosis risk in communities study[J]. Nephrology Dialysis Transplantation, 2015, 30(1): 77-83.
|
4 |
RINAUDOM. Chitin and chitosan: properties and applications[J]. Progress in Polymer Science, 2006, 31(7): 603-632.
|
5 |
KADAMD, LELES S. Cross-linking effect of polyphenolic extracts of Lepidium sativum seedcake on physicochemical properties of chitosan films[J]. International Journal of Biological Macromolecules, 2018, 114: 1240-1247.
|
6 |
LODHIG, KIM Y, HWANGJ, et al. Chitooligosaccharide and its derivatives: preparation and biological applications[J]. BioMed Research International, 2014, 2014: 1-13.
|
7 |
XIAW S, LIUP, ZhANGJ L, et al. Biological activities of chitosan and chitooligosaccharides[J]. Food Hydrocolloids, 2011, 25(2): 170-179.
|
8 |
HELANDERI M, NURMIAHO-LASSILAE L, AHVENAINENR, et al. Chitosan disrupts the barrier properties of the outer membrane of gram-negative bacteria[J]. Food Microbiol., 2001, 71(2/3): 235-244.
|
9 |
ANAYAP, CÁRDENASG, LAVAYENV, et al. Chitosan gel film bandages: correlating structure, composition, and antimicrobial properties[J]. Journal of Applied Polymer Science, 2013, 128(6): 3939-3948.
|
10 |
ROMEIHE, WALKERG. Recent advances on microbial transglutaminase and dairy application[J]. Trends in Food Science & Technology, 2017, 62: 133-140.
|
11 |
FATIMAS W, KHARES K. Current insight and futuristic vistas of microbial transglutaminase in nutraceutical industry[J]. Microbiological Research, 2018, 215: 7-14.
|
12 |
贺雷雨, 李新华, 王璋. 谷氨酰胺转胺酶及其在食品加工中的应用[J]. 食品研究与开发, 2004, 25(2): 82-84.
|
|
HEL Y, LIX H, WANGK. Transglutaminase and its application in food processing[J]. Food Research and Development, 2004, 25(2): 82-84.
|
13 |
HUANGG Q, XIAOJ X, QIUH W, et al. Cross-linking of soybean protein isolate-chitosan coacervate with transglutaminase utilizing capsanthin as the model core[J]. Journal of Microencapsulation, 2014, 31(7): 708-715.
|
14 |
全越, 王长远, 李玉琼. 响应面优化转谷氨酰胺酶催化燕麦麸皮球蛋白糖基化接枝条件[J]. 天然产物研究与开发, 2016, 28(4): 1121-1127.
|
|
QUANY, WANGC Y, LIY Q. Optimization of transglutaminase-catalyzed glycation conditions of oat bran globulin by response surface methodology[J]. Natural Product Research and Development, 2016, 28(4): 1121-1127.
|
15 |
MARTINSI M, MATOSM, COSTAR, et al. Transglutaminases: recent achievements and new sources[J]. Applied Microbiology and Biotechnology, 2014, 98(16): 6957-6964.
|
16 |
GASPARA L C, GÓES-FAVONI S PDE. Action of microbial transglutaminase (MTGase) in the modification of food proteins: a review[J]. Food Chemistry, 2015, 171: 315-322.
|
17 |
朱常月. 壳聚糖降解物与两种蛋白的酶法糖基化交联及产物性质[D]. 哈尔滨: 东北农业大学, 2014.
|
|
ZHUC Y. Enzymatic glycosylation and crosslinking of two proteins with a degraded chitosan and some properties of the products[D]. Harbin: Northeast Agricultural University, 2014.
|
18 |
TANGC H, JIANGY. Modulation of mechanical and surface hydrophobic properties of food protein films by transglutaminase treatment[J]. Food Research International, 2007, 40(4): 504-509.
|
19 |
ANY P, CUIB, WANGY T, et al. Functional properties of ovalbumin glycosylated with carboxymethyl cellulose of different substitution degree[J]. Food Hydrocolloids, 2014, 40: 1-8.
|
20 |
马莹. 转谷氨酰胺酶协同壳寡糖修饰乳清蛋白性质研究[D]. 大连: 大连工业大学, 2016.
|
|
MA Y. Modification of whey protein by transglutaminase in the presence of ologochitosan[D]. Dalian: Dalian Polytechnic University, 2016.
|
21 |
MARTINEZ-ALVARENGAM S, MARTINEZ-RODRIGUEZE Y, GARCIA-AMEZQUITAL E, et al. Effect of Maillard reaction conditions on the degree of glycation and functional properties of whey protein isolate : maltodextrin conjugates[J]. Food Hydrocolloids, 2014, 38: 110-118.
|
22 |
LIUL, LIY, PRAKASHS, et al. Enzymolysis and glycosylation synergistic modified ovalbumin: functional and structural characteristics[J]. International Journal of Food Properties, 2018, 21(1): 395-406.
|
23 |
DELAHAIJER J B M, WIERENGAP A, NIEUWENHUIJZENV, et al. Protein concentration and protein-exposed hydrophobicity as dominant parameters determining the flocculation of protein-stabilized oil-in-water emulsions[J]. Langmuir, 2013, 29(37): 11567-11574.
|
24 |
付淼. TGase诱导的壳寡糖糖基化与交联对两种蛋白质的性质影响[D]. 哈尔滨: 东北农业大学, 2016.
|
|
FUM. Effect of TGase-induced oligochitosan glycation and cross-linking on the properties of two proteins[D]. Harbin: Northeast Agricultural University, 2016.
|
25 |
SONGC L, ZHAOX Z. The preparation of an oligochitosan-glycosylated and cross-linked caseinate obtained by a microbial transglutaminase and its functional properties[J]. International Journal of Dairy Technology, 2014, 67(1): 110-116.
|
26 |
FUM, ZHAOX Z. Modified properties of a glycated and cross-linked soy protein isolate by transglutaminase and an oligochitosan of 5 kDa[J]. Journal of the Science of Food and Agriculture, 2017, 97(1): 58-64.
|
27 |
ZHUC Y, WANGX, ZHAOX Z. Property modification of caseinate responsible to transglutaminase-induced glycosylation and crosslinking in the presence of a degraded chitosan[J]. Food Science and Biotechnology, 2015, 24(3): 843-850.
|
28 |
王坦, 胡志海, 彭敏, 等. 胺乙基壳聚糖接枝胶原蛋白肽的制备及其性能[J]. 武汉大学学报: 理学版, 2016 (1): 51-58.
|
|
WANGT, HUZ H, PENGM, et al. Preparation and properties of aminoethyl chitosan grafting collagen peptides[J]. Journal of Wuhan University: Science Edition, 2016 (1): 51-58.
|
29 |
WANGX J, ZHENGX Q, LIUX L, et al. Preparation of glycosylated zein and retarding effect on lipid oxidation of ground pork[J]. Food Chemistry, 2017, 227: 335-341.
|
30 |
FANL H, WUH, CAOM, et al. Enzymatic synthesis of collagen peptide–carboxymethylated chitosan copolymer and its characterization[J]. Reactive and Functional Polymers, 2014, 76(1): 26-31.
|
31 |
张充. 一种可食性蛋白/多糖复合膜及其制备方法和应用: CN201610191982.6[P]. 2016-07-27.
|
|
ZHANGC. The invention relates to an edible protein/polysaccharide composite membrane, preparation method and application: CN201610191982.6[P]. 2016-07-27.
|
32 |
WANGY F, GUOX C, WANGY M. Microbial transglutaminase and tyrosinase modified gelatin-chitosan material[J]. Soft Materials, 2015, 13(1): 32-38.
|
33 |
YAOX T, ZHAOX H. Pre-deamidation of soy protein isolate exerts impacts on transglutaminase-induced glucosamine glycation and cross-linking as well as properties of the products: impacts of soy protein deamidation on products[J]. Journal of the Science of Food and Agriculture, 2016, 96(7): 2418-2425.
|
34 |
SONGC L, ZHAOX Z. Structure and property modification of an oligochitosan-glycosylated and crosslinked soybean protein generated by microbial transglutaminase[J]. Food Chemistry, 2014, 163: 114-119.
|
35 |
MANAVALANP, JOHNSONW C. Sensitivity of circular dichroism to protein tertiary structure class[J]. Nature, 1983, 305(5937): 831-832.
|
36 |
XUEF, LIC, ZHUX W, et al. Comparative studies on the physicochemical properties of soy protein isolate-maltodextrin and soy protein isolate-gum acacia conjugate prepared through Maillard reaction[J]. Food Research International, 2013, 51(2): 490-495.
|
37 |
ZHANGY H, LIUJ Q, XUD, et al. Impacts of glucosamine/oligochitosan glycation and cross-linking by transglutaminase on the structure and in vitro antigenicity of whey proteins[J]. International Journal of Dairy Technology, 2016, 69(2): 169-176.
|
38 |
SONGC L, ZHAOX Z. Effects of transglutaminase-induced modification in the presence of oligochitosan of 1 kDa on the structure and gelling properties of caseinate[J]. Czech Journal of Food Sciences, 2016, 34(6): 564-569.
|
39 |
SANGL Y, ZHOUX H, YUNF, et al. Enzymatic synthesis of chitosan-gelatin antimicrobial copolymer and its characterisation[J]. Journal of the Science of Food and Agriculture, 2010, 90(1): 58-64.
|
40 |
DEHGHANIS, HOSSEINIS V, REGENSTEINJ M. Edible films and coatings in seafood preservation: a review[J]. Food Chemistry, 2018, 240: 505-513.
|
41 |
张璇. 转谷氨酰胺酶调控壳聚糖修饰乳清蛋白成膜性质研究[D]. 大连: 大连工业大学, 2016.
|
|
ZHANGX. Modification of whey protein by transglutaminase in the presence of oligochitosan[D]. Dalian: Dalian Polytechnic University, 2016.
|
42 |
DI PIERROP, CHICOB, VILLALONGAR, et al. Chitosan-whey protein edible films produced in the absence or presence of transglutaminase: analysis of their mechanical and barrier properties[J]. Biomacromolecules, 2006, 7(3): 744-749.
|
43 |
康旭, 刘柳, 邓川, 等. 卵清蛋白-壳聚糖共混成膜工艺的研究[J]. 食品科技, 2011, 36(2): 58-60.
|
|
KANGX, LIUL, DENGC, et al. Study on filming technology of ovalbumin-chitosan[J]. Food Science and Technology, 2011, 36(2): 58-60.
|
44 |
武红伟, 林彬彬, 汪少芸, 等.一种新型聚γ谷氨酸-壳聚糖纳米可食膜的制备及特性研究[J]. 中国食品学报, 2015, 6: 83-88.
|
|
WUH W, LINB B,WNAGS Y, et al. A study on the preparation and characterization of poly-γ-glutamic acid/chitosan nanocomposite film[J]. Journal of Chinese Institute of Food Science and Technology, 2015, 6: 83-88.
|
45 |
CAIX Q, CAIY L, HUS X, et al. Transglutaminase-catalyzed preparation of crosslinked carboxymethyl chitosan/carboxymethyl cellulose/collagen composite membrane for postsurgical peritoneal adhesion prevention[J]. Carbohydrate Polymers, 2018, 201: 201-210.
|
46 |
LIUL L, LIUM, MINL, et al. Preparation, characterization and antioxidant activity of silk peptides grafted carboxymethyl chitosan[J]. International Journal of Biological Macromolecules, 2017, 104(Pt A): 732-738.
|
47 |
WANGY, ZHANGC L, ZHANGQ, et al. Composite electrospun nanomembranes of fish scale collagen peptides/chito-oligosaccharides: antibacterial properties and potential for wound dressing[J]. International Journal of Nanomedicine, 2011, 6: 667-676.
|
48 |
WANGJ, ZOUL, YUANF Z, et al. Inhibition of advanced glycation endproducts during fish sausage preparation by transglutaminase and chitosan oligosaccharides induced enzymatic glycosylation[J]. Food & Function, 2018, 9(1): 253-262.
|
49 |
王迪, 代蕾, 高彦祥. 多糖酶法改性研究进展[J]. 中国粮油学报, 2017, 32(12): 134-140.
|
|
WANGD, DAIL, GAOY X. Research progress on enzymatic modification of polysaccharides[J]. Journal of the Chinese Cereals and Oils Association, 2017, 32(12): 134-140.
|
50 |
杨敏, 甘伯中, 张卫兵, 等. 酪蛋白胶束酶法修饰研究进展[J]. 食品工业科技, 2012, 33(17): 413-416.
|
|
YANGM, GANB Z, ZHANGW B, et al. A review on enzymatic modification of casein micelle[J]. Science and Technology of Food Industry, 2012, 33(17): 413-416.
|