Development of Disulfide Bond Crosslinked Gelatin/ε-Polylysine Active Edible Film with Antibacterial and Antioxidant Activities
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Alemán, A., Mastrogiacomo, I., López-Caballero, M. E., Ferrari, B., Montero, M. P., & Gómez-Guillén, M. C. (2016). A novel functional wrapping design by complexation of ε-polylysine with liposomes entrapping bioactive peptides. Food and Bioprocess Technology., 9(7), 1113–1124.
Amri, F., Husseinsyah, S., & Hussin, K. (2013). Mechanical, morphological and thermal properties of chitosan filled polypropylene composites: the effect of binary modifying agents. Composites Part A: Applied Science and Manufacturing, 46, 89–95.
ASTM. (1983). Standard test methods for water vapor transmission of materials. Standard designation E96-E80. In Annual book of ASTM standards (pp. 761–770). Philadelphia: ASTM.
ASTM. (1999). Standard test method for tensile properties of thin plastic sheeting. Standard designation D882-97. In Annual book of ASTM standards (pp. 163–171). Philadelphia: ASTM.
Bigi, A., Cojazzi, G., Panzavolta, S., Roveri, N., & Rubini, K. (2002). Stabilization of gelatin films by crosslinking with genipin. Biomaterials, 23(24), 4827–4832.
Canadell, J., Goossens, H., & Klumperman, B. (2011). Self-healing materials based on disulfide links. Macromolecules, 44(8), 2536–2541.
Cao, J., & Chen, D. C. (2019). Disulfide bond photochemistry: the effects of higher excited states and different molecular geometries on disulfide bond cleavage. Physical Chemistry Chemical Physics, 21(8), 4176–4183.
Chai, Z., Shang, J. J., Jiang, Y. F., Ren, F. Z., & Leng, X. J. (2010). Effects of the free and pre-encapsulated calcium ions on the physical properties of whey protein edible film. International Journal of Food Science and Technology, 45(7), 1532–1538.
Colak, N., Torun, H., Gruz, J., Strnad, M., & Ayaz, F. A. (2019). Exogenous N-Acetylcysteine alleviates heavy metal stress by promoting phenolic acids to support antioxidant defence systems in wheat roots. Ecotoxicology and Environmental Safety, 181, 49–59.
Colin-Chavez, C., Vicente-Ramirez, E. B., Soto-Valdez, H., Peralta, E., & Auras, R. (2014). The release of carotenoids from a light-protected antioxidant active packaging designed to improve the stability of soybean oil. Food and Bioprocess Technology., 7(12), 3504–3515.
Crizel, T. D., Rios, A. D., Alves, V. D., Bandarra, N., Moldao-Martins, M., & Flores, S. H. (2018). Biodegradable films based on gelatin and papaya peel microparticles with antioxidant properties. Food and Bioprocess Technology., 11(3), 536–550.
Cui, L., Jia, J., Guo, Y., Liu, Y., & Zhu, P. (2014). Preparation and characterization of IPN hydrogels composed of chitosan and gelatin cross-linked by genipin. Carbohydrate Polymers, 99, 31–38.
Dille, M. J., Hattrem, M. N., & Draget, K. I. (2018). Bioactively filled gelatin gels; challenges and opportunities. Food Hydrocolloids, 76, 17–29.
Elias, R. J., Kellerby, S. S., & Decker, E. A. (2008). Antioxidant activity of proteins and peptides. Critical Reviews in Food Science and Nutrition, 48(5), 430–441.
Enrione, J. I., Saez, C., Lopez, D., Skurtys, O., Acevedo, C., Osorio, F., MacNaughtan, W., & Hill, S. (2012). Structural relaxation of salmon gelatin films in the glassy state. Food and Bioprocess Technology., 5(6), 2446–2453.
Etxabide, A., Coma, V., Guerrero, P., Gardrat, C., & de la Caba, K. (2017). Effect of cross-linking in surface properties and antioxidant activity of gelatin films incorporated with a curcumin derivative. Food Hydrocolloids, 66, 168–175.
Falcó, I., Randazzo, W., Sánchez, G., López-Rubio, A., & Fabra, M. J. (2019). On the use of carrageenan matrices for the development of antiviral edible coatings of interest in berries. Food Hydrocolloids, 92, 74–85.
Fan, H. Y., Duquette, D., Dumont, M. J., & Simpson, B. K. (2018). Salmon skin gelatin-corn zein composite films produced via crosslinking with glutaraldehyde: optimization using response surface methodology and characterization. International Journal of Biological Macromolecules, 120, 263–273.
Fass, D., & Thorpe, C. (2018). Chemistry and enzymology of disulfide cross-linking in proteins. Chemical Reviews, 118(3), 1169–1198.
Feng, X., Ng, V. K., Miks-Krajnik, M., & Yang, H. S. (2017). Effects of fish gelatin and tea polyphenol coating on the spoilage and degradation of myofibril in fish fillet during cold storage. Food and Bioprocess Technology., 10(1), 89–102.
Fu, S. L., Wu, C. H., Wu, T. T., Yu, H. X., Yang, S. B., & Hu, Y. Q. (2017). Preparation and characterisation of chlorogenic acid-gelatin: a type of biologically active film for coating preservation. Food Chemistry, 221, 657–663.
Garavand, F., Rouhi, M., Razavi, S. H., Cacciotti, I., & Mohammadi, R. (2017). Improving the integrity of natural biopolymer films used in food packaging by crosslinking approach: a review. International Journal of Biological Macromolecules, 104(Pt A), 687–707.
Ge, L. M., Li, X. Y., Zhang, R., Yang, T. H., Ye, X. W., Li, D. F., et al. (2015). Development and characterization of dialdehyde xanthangum crosslinked gelatin based edible films incorporated withamino-functionalized montmorillonite. Food Hydrocolloids, 51, 129–135.
Ge, L., Zhu, M., Xu, Y., Li, X., Li, D., & Mu, C. (2017). Development of antimicrobial and controlled biodegradable gelatin-based edible films containing nisin and amino-functionalized montmorillonite. Food and Bioprocess Technology, 10(9), 1727–1736.
Ge, L., Zhu, M., Li, X., Xu, Y., Ma, X., Shi, R., Li, D., & Mu, C. (2018). Development of active rosmarinic acid-gelatin biodegradable films with antioxidant and long-term antibacterial activities. Food Hydrocolloids, 83, 308–316.
Gekko, K., Kimoto, A., & Kamiyama, T. (2003). Effects of disulfide bonds on compactness of protein molecules revealed byvolume, compressibility, and expansibility changes during reduction. Biochemistry, 42(46), 13746–13753.
Gungor, N., Ozyurek, M., Guclu, K., Cekic, S. D., & Apak, R. (2011). Comparative evaluation of antioxidant capacities of thiol-based antioxidants measured by different in vitro methods. Talanta, 83(5), 1650–1658.
Guo, J. M., Li, X. Y., Mu, C. D., Zhang, H. G., Qin, P., & Li, D. F. (2013). Freezing-thawing effects on the properties of dialdehyde carboxymethyl cellulose crosslinked gelatin-MMT composite films. Food Hydrocolloids, 33(2), 273–279.
Hiraki, J., Ichikawa, T., Ninomiya, S.-I., Seki, H., Uohama, K., Seki, H., Kimura, S., Yanagimoto, Y., & Barnett, J. W. (2003). Use of ADME studies to confirm the safety of ε-polylysine as a preservative in food. Regulatory Toxicology and Pharmacology, 37(2), 328–340.
Jiang, Y. F., Li, Y. X., Chai, Z., & Leng, X. J. (2010). Study of the physical properties of whey protein isolate and gelatin composite films. Journal of Agricultural and Food Chemistry, 58(8), 5100–5108.
Li, Y.-Q., Han, Q., Feng, J.-L., Tian, W.-L., & Mo, H.-Z. (2014). Antibacterial characteristics and mechanisms of ɛ-poly-lysine against Escherichia coli and Staphylococcus aureus. Food Control, 43, 22–27.
Li, L., Lu, C., Wang, L., Chen, M., White, J., Hao, X., McLean, K. M., Chen, H., & Hughes, T. C. (2018). Gelatin-based photocurable hydrogels for corneal wound repair. ACS Applied Material Interfaces, 10(16), 13283–13292.
Li, C., Chen, G., Ran, C., Liu, L., Wang, S., Xu, Y., Tan, Y., & Kan, J. (2019). Adlay starch-gluten composite gel: effects of adlay starch on rheological and structural properties of gluten gel to molecular and physico-chemical characteristics. Food Chemistry, 289, 121–129.
Lyu, Y., Ren, H., Yu, M., Li, X., Li, D., & Mu, C. (2017). Using oxidized amylose as carrier of linalool for the development of antibacterial wound dressing. Carbohydrate Polymers, 174, 1095–1105.
Marquez, G. R., Di Pierro, P., Esposito, M., Mariniello, L., & Porta, R. (2014). Application of transglutaminase-crosslinked whey protein/pectin films as water barrier coatings in fried and baked foods. Food and Bioprocess Technology., 7(2), 447–455.
Menezes, M. d. L. L. R., Pires, N. d. R., da Cunha, P. L. R., de Freitas Rosa, M., de Souza, B. W. S., Feitosa, J. P. d. A., & Souza Filho, M. d. S. M. d. (2019). Effect of tannic acid as crosslinking agent on fish skin gelatin-silver nanocomposite film. Food Packaging and Shelf Life, 19, 7–15. https://doi.org/10.1016/j.fpsl.2018.11.005.
Miles, K. B., Ball, R. L., & Matthew, H. W. (2016). Chitosan films with improved tensile strength and toughness from N-acetyl-cysteine mediated disulfide bonds. Carbohydrate Polymers, 139, 1–9.
Mu, C., Guo, J., Li, X., Lin, W., & Li, D. (2012). Preparation and properties of dialdehyde carboxymethyl cellulose crosslinked gelatin edible films. Food Hydrocolloids, 27(1), 22–29.
Muriel-Galet, V., López-Carballo, G., Gavara, R., & Hernández-Muñoz, P. (2014). Antimicrobial properties of ethylene vinyl alcohol/epsilon-polylysine films and their application in surimi preservation. Food and Bioprocess Technology., 7(12), 3548–3559.
Nguyen, D. H., Choi, J. H., Joung, Y. K., & Park, K. D. (2011). Disulfide-crosslinked heparin-pluronic nanogels as a redox-sensitive nanocarrier for intracellular protein delivery. Journal of Bioactive and Compatible Polymers, 26(3), 287–300.
Pichorner, H., Metodiewa, D., & Winterbourn, C. C. (1995). Generation of superoxide and tyrosine peroxide as a result of tyrosyl radical scavenging by glutathione. Archives of Biochemistry and Biophysics, 323(2), 429–437.
Sahi, S., Djidjelli, H., & Boukerrou, A. (2016). Biodegradation study of bio-corn flour filled low density polyethylene composites assessed by natural soil. Journal of Polymer Engineering, 36(3), 245–252.
Salgado, P. R., López-Caballero, M. E., Gómez-Guillén, M. C., Mauri, A. N., & Montero, M. P. (2012). Exploration of the antioxidant and antimicrobial capacity of two sunflower protein concentrate films with naturally present phenolic compounds. Food Hydrocolloids, 29(2), 374–381.
Shukla, S. C., Singh, A., Pandey, A. K., & Mishra, A. (2012). Review on production and medical applications of ɛ-polylysine. Biochemical Engineering Journal, 65, 70–81.
Souza, M. P., Vaz, A. F. M., Silva, H. D., Cerqueira, M. A., Vicente, A. A., & Carneiro-da-Cunha, M. G. (2015). Development and characterization of an active chitosan-based film containing quercetin. Food and Bioprocess Technology., 8(11), 2183–2191.
Su, J.-F., Huang, Z., Zhao, Y.-H., Yuan, X.-Y., Wang, X.-Y., & Li, M. (2010). Moisture sorption and water vapor permeability of soy protein isolate/poly(vinyl alcohol)/glycerol blend films. Industrial Crops and Products, 31(2), 266–276.
Uranga, J., Etxabide, A., Guerrero, P., & de la Caba, K. (2018). Development of active fish gelatin films with anthocyanins by compression molding. Food Hydrocolloids, 84, 313–320.
Wang, Y., Liu, F., Liang, C., Yuan, F., & Gao, Y. (2014). Effect of maillard reaction products on the physical and antimicrobial properties of edible films based on epsilon-polylysine and chitosan. Journal of the Science of Food and Agriculture, 94(14), 2986–2991.
Wang, Y. F., Xia, Y. W., Zhang, P. Y., Ye, L., Wu, L. Q., & He, S. K. (2017). Physical characterization and pork packaging application of chitosan films incorporated with combined essential oils of cinnamon and ginger. Food and Bioprocess Technology., 10(3), 503–511.
Weng, W.-Y., Tao, Z., Liu, G.-M., Su, W.-J., Osako, K., Tanaka, M., & Cao, M.-J. (2014). Mechanical, barrier, optical properties and antimicrobial activity of edible films prepared from silver carp surimi incorporated with ε-polylysine. Packaging Technology and Science, 27(1), 37–47.
Winterbourn, C. C. (2016). Revisiting the reactions of superoxide with glutathione and other thiols. Archives of Biochemistry and Biophysics, 595, 68–71.
Wu, J. L., Sun, X. Y., Guo, X. B., Ji, M. Y., Wang, J. H., Cheng, C., Chen, L., Wen, C. L., & Zhang, Q. Q. (2018). Physicochemical, antioxidant, in vitro release, and heat sealing properties of fish gelatin films incorporated with beta-cyclodextrin/curcumin complexes for apple juice preservation. Food and Bioprocess Technology., 11(2), 447–461.
Xu, H., Shen, L., Xu, L., & Yang, Y. (2015). Low-temperature crosslinking of proteins using non-toxic citric acid in neutral aqueous medium: mechanism and kinetic study. Industrial Crops and Products, 74, 234–240.
Yang, Y., Zhu, H. K., Wang, J., Fang, Q., & Peng, Z. P. (2018). Enzymatically disulfide-crosslinked chitosan/hyaluronic acid layer-by-layer self-assembled microcapsules for redox-responsive controlled release of protein. ACS Applied Materials & Interfaces, 10(39), 33493–33506.
Ye, R., Xu, H., Wan, C., Peng, S., Wang, L., Xu, H., Aguilar, Z. P., Xiong, Y., Zeng, Z., & Wei, H. (2013). Antibacterial activity and mechanism of action of ε-poly-l-lysine. Biochemical and Biophysical Research Communications, 439(1), 148–153.
Ye, Y., Zhu, M., Miao, K., Li, X., Li, D., & Mu, C. (2017). Development of antimicrobial gelatin-based edible films by incorporation of trans-anethole/β-cyclodextrin inclusion complex. Food and Bioprocess Technology, 10(10), 1844–1853.
Yoshida, T., & Nagasawa, T. (2003). Epsilon-poly-L-lysine: microbial production, biodegradation and application potential. Applied Microbiology and Biotechnology, 62(1), 21–26.
Zheng, X., Liu, J., Pei, Y., Li, J., & Tang, K. (2012). Preparation and properties of sisal microfibril/gelatin biomass composites. Composites Part A: Applied Science and Manufacturing, 43(1), 45–52.