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http://dx.doi.org/10.47853/FAS.2022.e7

Effect of chitosan coating combined with hypotaurine on the quality of shrimp (Litopenaeus vannamei) during storage  

Chen, Meiyu (College of Food Science and Engineering, Hainan Tropical Ocean University)
Hu, Lingping (College of Food Science and Engineering, Hainan Tropical Ocean University)
Hu, Zhiheng (College of Food Science and Engineering, Hainan Tropical Ocean University)
Zhou, Yaqi (College of Food Science and Engineering, Hainan Tropical Ocean University)
Li, Gaoshang (College of Food Science and Engineering, Hainan Tropical Ocean University)
Chin, Yaoxian (College of Food Science and Engineering, Hainan Tropical Ocean University)
Hu, Yaqin (College of Food Science and Engineering, Hainan Tropical Ocean University)
Publication Information
Fisheries and Aquatic Sciences / v.25, no.2, 2022 , pp. 64-75 More about this Journal
Abstract
This study aimed to investigate the effect of different coating materials on the quality of shrimp (Litopenaeus vannamei) during chilled storage for 10 days. Fresh shrimp were randomly divided into five groups: the control group, the hypotaurine treatment group (2%), the chitosan group (1%), the hypotaurine + chitosan group (2% hypotaurine solution with 1% of chitosan), and the sodium metabisulfite treatment group (1.25%). Compared with other treatments, the lower accumulation of total visible counts (TVC, 5.25 Log10 CFU/g), total volatile basic nitrogen (TVB-N, 22.5 mg/100 g) and thiobarbituric acid values (TBA, 0.58 mg MDA/kg) suggested that coating of chitosan-hypotaurine could retard the microbial activity, protein degradation and lipid oxidation of shrimp. Meanwhile, results demonstrated that the chitosan coating combined with hypotaurine showed an excellent performance in inhibiting quality deterioration (pH 7.5, ∆E 7.0, hardness 393 g, and elasticity 0.69). Furthermore, the melanosis degree of shrimp was alleviated, and the sensory parameters, including appearance, odor and texture, were maintained to the acceptable level by chitosan based hypotaurine treatment during the chilled storage.
Keywords
Litopenaeus vannamei; Chitosan coating; Hypotaurine; Chilled storage; Quality evaluation;
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1 Lim C, Hwang DS, Lee DW. Intermolecular interactions of chitosan: degree of acetylation and molecular weight. Carbohydr Polym. 2021;259:117782.   DOI
2 Metayer S, Seiliez I, Collin A, Duchene S, Mercier Y, Geraert PA, et al. Mechanisms through which sulfur amino acids control protein metabolism and oxidative status. J Nutr Biochem. 2008;19:207-15.   DOI
3 Miraglia D, Castrica M, Menchetti L, Esposto S, Branciari R, Ranucci D, et al. Effect of an olive vegetation water phenolic extract on the physico-chemical, microbiological and sensory traits of shrimp (Parapenaeus longirostris) during the shelf-life. Foods. 2020;9:1647.   DOI
4 Mol S, Turkmen OA. Effect of sodium metabisulfite and citric acid on the quality of crayfish (Astacus leptodactylus). J Muscle Foods. 2010;21:327-42.   DOI
5 Na S, Kim JH, Jang HJ, Park HJ, Oh SW. Shelf life extension of Pacific white shrimp (Litopenaeus vannamei) using chitosan and ε-polylysine during cold storage. Int J Biol Macromol. 2018;115:1103-8.   DOI
6 Negm NA, Hefni HHH, Abd-Elaal AAA, Badr EA, Abou Kana MTH. Advancement on modification of chitosan biopolymer and its potential applications. Int J Biol Macromol. 2020;152:681-702.   DOI
7 Pan Y, Huang X, Shi X, Zhan Y, Fan G, Pan S, et al. Antimicrobial application of nanofibrous mats self-assembled with quaternized chitosan and soy protein isolate. Carbohydr Polym. 2015;133:229-35.   DOI
8 Sae-leaw T, Benjakul S, Vongkamjan K. Retardation of melanosis and quality loss of pre-cooked Pacific white shrimp using epigallocatechin gallate with the aid of ultrasound. Food Control. 2018;84:75-82.   DOI
9 Salari M, Khiabani MS, Mokarram RR, Ghanbarzadeh B, Kafil HS. Development and evaluation of chitosan based active nanocomposite films containing bacterial cellulose nanocrystals and silver nanoparticles. Food Hydrocoll. 2018;84:414-23.   DOI
10 Sanchez-Muros MJ, Renteria P, Vizcaino A, Barroso FG. Innovative protein sources in shrimp (Litopenaeus vannamei) feeding. Rev Aquacult. 2020;12:186-203.   DOI
11 Rashki S, Asgarpour K, Tarrahimofrad H, Hashemipour M, Ebrahimi MS, Fathizadeh H, et al. Chitosan-based nanoparticles against bacterial infections. Carbohydr Polym. 2021;251:117108.   DOI
12 Sharifian S, Shabanpour B, Taheri A, Kordjazi M. Effect of phlorotannins on melanosis and quality changes of Pacific white shrimp (Litopenaeus vannamei) during iced storage. Food Chem. 2019;298:124980.   DOI
13 Shiekh KA, Benjakul S, Sae-Leaw T. Effect of Chamuang (Garcinia cowa Roxb.) leaf extract on inhibition of melanosis and quality changes of Pacific white shrimp during refrigerated storage. Food Chem. 2019;270:554-61.   DOI
14 Shoveller AK, Stoll B, Ball RO, Burrin DG. Nutritional and functional importance of intestinal sulfur amino acid metabolism. J Nutr. 2005;135:1609-12.   DOI
15 Chen M, Yan T, Huang J, Zhou Y, Hu Y. Fabrication of halochromic smart films by immobilizing red cabbage anthocyanins into chitosan/oxidized-chitin nanocrystals composites for real-time hairtail and shrimp freshness monitoring. Int J Biol Macromol. 2021;179:90-100.   DOI
16 Colovic MB, Vasic VM, Djuric DM, Krstic DZ. Sulphur-containing amino acids: protective role against free radicals and heavy metals. Curr Med Chem. 2018;25:324-35.   DOI
17 Wang Y, Liu L, Zhou J, Ruan X, Lin J, Fu L. Effect of chitosan nanoparticle coatings on the quality changes of postharvest whiteleg shrimp, Litopenaeus vannamei, during storage at 4℃. Food Bioprocess Technol. 2015;8:907-15.   DOI
18 Yuan G, Chen X, Li D. Chitosan films and coatings containing essential oils: the antioxidant and antimicrobial activity, and application in food systems. Food Res Int. 2016;89:117-28.   DOI
19 Kulawik P, Alvarez C, Cullen PJ, Aznar-Roca R, Mullen AM, Tiwari B. The effect of non-thermal plasma on the lipid oxidation and microbiological quality of sushi. Innov Food Sci Emerg Technol. 2018;45:412-7.   DOI
20 Ju X, Tian L, Duan X, Li Z, Han Y, Tian Y, et al. Amino acid dependent performance of modified chitosan against bacteria and red blood cell. J Nanosci Nanotechnol. 2021;21:5443-8.   DOI
21 Li DY, Liu ZQ, Liu B, Qi Y, Liu YX, Liu XY, et al. Effect of protein oxidation and degradation on texture deterioration of ready-to-eat shrimps during storage. J Food Sci. 2020b;85:2673-80.   DOI
22 Mohan CO, Ravishankar CN, Lalitha KV, Gopal TKS. Effect of chitosan edible coating on the quality of double filleted Indian oil sardine (Sardinella longiceps) during chilled storage. Food Hydrocoll. 2012;26:167-74.   DOI
23 Li W, Li Z, Peng MJ, Zhang X, Chen Y, Yang YY, et al. Oenothein B boosts antioxidant capacity and supports metabolic pathways that regulate antioxidant defense in Caenorhabditis elegans. Food Funct. 2020a;11:9157-67.   DOI
24 Acharya, M, Lau-Cam, CA. Comparative evaluation of the effects of taurine and thiotaurine on alterations of the cellular redox status and activities of antioxidant and glutathione-related enzymes by acetaminophen in the rat. In: El Idrissi A, L'Amoreaux WJ, editors. Taurine 8. New York: Springer; 2013.
25 Cheng Y, Hu J, Wu S. Chitosan based coatings extend the shelflife of beef slices during refrigerated storage. LWT-Food Sci Technol. 2021:138:110694.   DOI
26 Hosseinnejad M, Jafari SM. Evaluation of different factors affecting antimicrobial properties of chitosan. Int J Biol Macromol. 2016;85:467-75.   DOI
27 Sathe P, Richter J, Myint MTZ, Dobretsov S, Dutta J. Self-decontaminating photocatalytic zinc oxide nanorod coatings for prevention of marine microfouling: a mesocosm study. Biofouling. 2016;32:383-95.   DOI
28 Moradi M, Tajik H, Almasi H, Forough M, Ezati P. A novel pH-sensing indicator based on bacterial cellulose nanofibers and black carrot anthocyanins for monitoring fish freshness. Carbohydr Polym. 2019;222:115030.   DOI
29 Ge Y, Li Y, Bai Y, Yuan C, Wu C, Hu Y. Intelligent gelatin/oxidized chitin nanocrystals nanocomposite films containing black rice bran anthocyanins for fish freshness monitorings. Int J Biol Macromol. 2020;155:1296-306.   DOI
30 Montero P, Lopez-Caballero ME, Perez-Mateos M. The effect of inhibitors and high pressure treatment to prevent melanosis and microbial growth on chilled prawns (Penaeus japonicus). J Food Sci. 2001;66:1201-6.   DOI
31 Terriente-Palacios C, Castellari M. Levels of taurine, hypotaurine and homotaurine, and amino acids profiles in selected commercial seaweeds, microalgae, and algae-enriched food products. Food Chem. 2022;368:130770.   DOI
32 Bekhit AEDA, Holman BWB, Giteru SG, Hopkins DL. Total volatile basic nitrogen (TVB-N) and its role in meat spoilage: a review. Trends Food Sci Technol. 2021;109:280-302.   DOI
33 Kumar S, Mukherjee A, Dutta J. Chitosan based nanocomposite films and coatings: emerging antimicrobial food packaging alternatives. Trends Food Sci Technol. 2020;97:196-209.   DOI
34 Li M, Wang W, Fang W, Li Y. Inhibitory effects of chitosan coating combined with organic acids on Listeria monocytogenes in refrigerated ready-to-eat shrimps. J Food Prot. 2013;76:1377-83.   DOI
35 Mariutti LRB, Bragagnolo N. Influence of salt on lipid oxidation in meat and seafood products: a review. Food Res Int. 2017;94:90-100.   DOI
36 Odeyemi OA, Alegbeleye OO, Strateva M, Stratev D. Understanding spoilage microbial community and spoilage mechanisms in foods of animal origin. Compr Rev Food Sci Food Saf. 2020;19:311-31.   DOI
37 Thepnuan R, Benjakul S, Visessanguan W. Effect of pyrophosphate and 4-hexylresorcinol pretreatment on quality of refrigerated white shrimp (Litopenaeus vannamei) kept under modified atmosphere packaging. J Food Sci. 2008;73:S124-33.   DOI
38 Wu C, Hu Y, Chen S, Chen J, Liu D, Ye X. Formation mechanism of nano-scale antibiotic and its preservation performance for silvery pomfret. Food Control. 2016;69:331-8.   DOI
39 Zhang L, Luo Y, Hu S, Shen H. Effects of chitosan coatings enriched with different antioxidants on preservation of grass carp (Ctenopharyngodon idellus) during cold storage. J Aquat Food Prod Technol. 2012;21;508-18.   DOI
40 Amparyup P, Charoensapsri W, Tassanakajon A. Prophenoloxidase system and its role in shrimp immune responses against major pathogens. Fish Shellfish Immunol. 2013;34:990-1001.   DOI
41 Cao H, Zhong S, Zhang B, Wei W, Shen C, Ying X. Sodium erythorbate, stable chlorine dioxide, and gellan gum glazing for shelf life extension of commercial peeled shrimp (Litopenaeus vannamei) during frozen storage. J Food Process Preserv. 2019;43:e14108.