تأثیر نایسین، کیتوزان و عصاره زولنگ بر ماندگاری تخم ماهی قزلآلای رنگینکمان (Oncorhynchus mykiss) طی نگهداری در یخچال
الموضوعات :
الهام محمدی نژاد
1
,
علیرضا عالیشاهی
2
,
پرستو پورعاشوری
3
,
حجت میرصادقی
4
1 - دانشجوی کارشناسیارشد گروه فرآوری محصولات شیلاتی، دانشگاه علوم کشاورزی و منابع طبیعی گرگان، ایران
2 - استادیار گروه فرآوری دانشگاه علوم کشاورزی و منابع طبیعی گرگان
3 - استادیار گروه فرآوری دانشگاه علوم کشاورزی و منابع طبیعی گرگان
4 - کارشناس ارشد گروه فرآوری محصولات شیلاتی، دانشگاه علوم کشاورزی و منابع طبیعی گرگان، ایران
تاريخ الإرسال : 09 الثلاثاء , رمضان, 1437
تاريخ التأكيد : 06 الأربعاء , ربيع الثاني, 1438
تاريخ الإصدار : 04 الجمعة , ربيع الثاني, 1439
الکلمات المفتاحية:
نایسین,
کیتوزان,
زولنگ,
تخم ماهی,
ملخص المقالة :
هدف از این مطالعه، تعیین تأثیر نایسین (250 واحد بین المللی بر گرم)، کیتوزان (1 درصد)، عصاره زولنگ (1 درصد)، ترکیب هر سه ماده ذکر شده و تیمار نمک (5/1 درصد) بر ویژگی های کیفی و حسی تخم ماهی قزل آلای رنگین کمان طی 60 روز نگه داری در یخچال (1±4 درجه سلسیوس) بود. میزان چربی، خاکستر، رطوبت، pH، بازهای نیتروژنی فرار، میزان اکسیداسیون ثانویه، اندازه گیری و شمارش باکتریهای مزوفیل هوازی، سرما دوست، کپک و مخمر در روز های 0، 15، 30، 45 و60 انجام گردید. نمونه ها مورد ارزیابی حسی قرار گرفتند. نتایج نشان دادند که پس از 45 روز نگه داری کیتوزان و تیمار ترکیبی، تأثیر معنی داری در کاهش میزان میکروارگانیسم های مورد بررسی داشتند. میزان TVN نیز با گذشت زمان بهطور معنی داری (05/0≥p) افزایش یافت، با این تفاوت که در تیمار های کیتوزان و ترکیب تا روز 45 نگه داری، تغییر معنی داری مشاهده نشد. با توجه به ارزیابی حسی، تفاوت بین دو تیمار کیتوزان و ترکیبی تا روز 45 معنی دار نبود. براساس نتایج آنالیز های شیمیایی و میکروبی، تیمار های شاهد، نمک، نایسین و زولنگ در روز های بین 0 تا 15 غیر قابل مصرف شدند. بدین ترتیب می توان نتیجه گرفت که استفاده از کیتوزان ماندگاری و خواص حسی تخم ماهی را به طور مؤثری بهبود بخشید.
المصادر:
· Abdollahzadeh, E., Rezaei, M. and Hosseini, H. (2014). Antibacterial activity of plant essential oils and extracts: The role of thyme essential oil, nisin, and their combination to control Listerimonocytogenes inoculated in minced fish meat. Food Control, 35: 177-183.
· Adzaly, N.Z., Jackson, A., Kang, I. and Almenar, E. (2016). Performance of a novel casingmade of chitosan under traditional sausage manufacturing conditions. Meat Science, 113: 116–123.
· Al-Holy, M., Wang, Y., Tang, J. and Rasco, B. (2005). Dielectric properties of salmon (Oncorhynchusketa) and sturgeon (Acipensertransmontanus) caviar at radio frequency (RF) and microwave (MW) pasteurization frequencies. Journal of Food Engineering ,70: 564–570.
· Alishahi, A. (2014). Antibacterial Effect of ChitosanNanoparticle Loaded with Nisin for the Prolonged Effect. Journal of Food Safety, 34: 111-118.
· Al-Sayed Mahmoud, K., Linder, M., Fanni, J. and Parmentier, M. (2008). Characterisation of the lipid fractions obtained by proteolytic and chemical extractions from rainbow trout (Oncorhynchusmykiss) roe. Process Biochemistry, 43: 376–383.
· Altug, G. and Bayrak, Y. (2003). Microbiological analysis of caviar from Russia and Iran. Food Microbiology, 20: 83–86.
· AOAC. (2005). Method 999. 10. Official methods of analysis of AOAC International,Gaithersburg, MD, USA.
· Bledsoe, G.E., Bledsoe, C.D., and Rasco, B. (2003). Caviar and fish roe products. Journal of Critical Reviews in Food Science and Nutrition, 43: 317-356.
· Calderón-Oliver, M., Escalona-Buendía, H.B., Medina-Campos, O.N., Pedraza-Chaverri, J., Pedroza-Islas, S. and Ponce-Alquicira, E. (2016). Optimization of the antioxidant and antimicrobial response of the combined effect of nisin and avocado byproducts. LWT - Food Science and Technology, 65: 46-52.
· Delves-Broughton, J. (2014). Nisin. Encyclopedia of Food Microbiology, 1: 187-193.
· Duran, M., Aday, M.S., Zorba, N.D.Z., Temizkan, R., Büyükcan, M.B. and, Caner, C. (2016). Potential of antimicrobial active packaging‘containingnatamycin, nisin, pomegranate and grape seed extract in chitosan coating’ to extendshelf life of fresh strawberry. food and bioproducts processing, 98: 353-363.
· Ebrahimzadeh, M.A., Nabavi, S.M. and Nabavi, S.F. (2009). Correlation Between the in vitro Iron Chelating Activity and Poly Phenol and Flavonoid Contents of Some Medicinal Plants. Pakistan Journal of Biological Sciences, 12: 934-938.
· Feng, X., Bansal, N. and Yang, H. (2016). Fish gelatin combined with chitosan coating inhibits myofibril degradation of golden pomfret (Trachinotusblochii) fillet during cold Storage. Food Chemistry, 200: 283–292.
· Fernández-Saiz, P., Sánchez, G., Soler, C., Lagaron., J.M. and Ocio, M.J. (2013). Chitosan films for the microbiological preservation of refrigerated sole and hake fillets. Food Control, 34: 61-68.
· Gao, M., Feng, L., Jiang, T., Zhu, J., Fu, L., Yuan, D. and Li, J. (2013). The use of rosemary extract in combination with nisin to extend the shelf life of pompano (Trachinotusovatus) fillet during chilled storage. Food Control, 37: 1-8.
· Govaris, A., Solomakos, N., Pexara, A. and Chatzopoulou, P.S. (2010). The antimicrobial effect of oregano essential oil, nisin and their combination against Salmonella Enteritidis in minced sheep meat during refrigerated storage. International Journal of Food Microbiology, 137: 175–180.
· Guohua, H., Yuanyuan, G., Hailin, F., Jian, L. and Jianfeng, Zh. (2015). Effects of chitosan combined with nisin treatment on storage quality of large yellow croaker (Pseudosciaenacrocea). Food Chemistry, 203:276-282.
· Hasanpourdarvari, Kh., Kazemitabar, S.K., Bakhshikhaniki, Gh. And Mahdavi, M. (2011). Investigate genetic diversity of Eryngiumcaucasicum in the Mazandaran province using molecular markers (RAPD). National Conference on Medicinal Plants, 1 [In Persian].
· Hdaytifard, M. and Nemati, S. (2011). Changes of roe fatty acids of Kutum Rutilus frisii kutum and golden mullet Liza aurata affected by salting. Journal of Fisheries, 3(2): 1-11 [In Persian].
· Inanli, A., and Coban, O. and Dartay, M. (2010). The chemical and sensorial changes in rainbow trout caviar salted in different ratios during storage. Journal of Fish Science, 76: 879- 883. Khalifa, I., Barakat,H., El-Mansy, H.A. and Soliman, S.A. (2016). Enhancing the keeping quality of fresh strawberry using chitosan- incorporated olive processing wastes. Food Bioscience, 13: 69–75.
· Khoshbakht, K., Hammer, K. and Pistrick, K. (2007). EryngiumcaucasicumTrautv. cultivated as a vegetable in the Elburz Mountains (Northern Iran). Genet Resour Crop Evol, 54:445–448.
· Lapa-Guimarães, J., Trattner, S. and Pickova, J. (2011). Effect ofProcessing on Amine Formation and the Lipid Profile of Cod (Gadusmorhua) Roe. Food Chemistry, 129: 716-723.
· Li, Ch., Huang, L., Hwang, Ch.R. and Chen, J.2016. Growth of Listeria monocytogenes in salmon roe e A. kinetic analysis. Food Control, 59: 538-545.
· Majaziamiri, B. and Rezaeitavabe, K. (2011). Sturgeons and Caviar. (Translation). Authors: Ashtrnyn, D. and Doure, I, First Print, Publishing Institute of Tehran university, pp: 137-150 [In Persian].
· Mirsadeghi, H., Alishahi, A., Shabanpour, B. And Safari, R. (2015). Effects of salt and water temperature processing on qualitative changes in rainbow trout (Oncorhynchusmykiss) roe during refrigerator storage. Journal of Fisheries Science and Technology, 4(1): 93-104 [In Persian].
· Nowzari, F., Shábanpour, B. and Ojagh, S.M. (2013). Comparison of chitosan–gelatin composite and bilayer coating and film effect on the quality of refrigerated rainbow trout. Food Chemistry, 141: 1667–1672.
· Ojagh, S.M., Rezaei, M., Razavi, S.H. and Hosseini, S.M.H. (2012). Effect of antimicrobial coating on shelf-life extension of rainbow trout (Oncorhynchus mykiss). Journal of Food Science and Technology, 34 (9): 13-23 [In Persian].
· Prabhakara Rao, P.G., Balaswamy, K., Jyothirmayi, T., Karuna, M.S.L. and Prasad, R.B.N. (2015). Fish roe lipids: composition and changes during processing and storage. Chapter 56, pp. 463-268.
· Ramezani, Z., Zarei, M. and Raminnejad, N. (2014). Comparing the effectiveness of chitosan and nanochitosan coatings on the quality of refrigerated silver carp fillets.Food control, 14: 1-17.
· RazaviShirazi, H. (2007). Marine products, technology, principles and processing maintenance. (Second Edition), published by the Mehr, Tehran. 292 p [In Persian].
· Restuccia, D., Spizzirri, U.G., Bonesi, M., Tundis, R., Menichini, F., Picci, N. and Loizzo, M.R. (2015). Evaluation of fatty acids and biogenic amines profiles in mullet 4 and tuna roe during six months of storage at 4 ̊C. Journal of Food Composition and Analysis, 40: 52-60.
· Sallama, Kh.I. Ishioroshib, M., and Samejimab, K. (2004). Antioxidant and antimicrobial effects of garlic in chicken sausage LebensonWiss Technology, 37: 849-855.
· Salmanian, Sh., Sadeghi Mahunak, AR., Jamson, M. and Tabatabaei Amid, B. (2014). Identification and quantification of phenolic acids, radical scavenging activity and ferric reducing power of Eryngium caucasicum Trautv. ethanolic and methanolic extracts. Research and Innovation in Food Science and Technology, 2: 193-204 [In Persian].
· Shin, J.H. and Rasco,B.A. (2007). Effect of Water Phase Salt Content and Storage Temperature on Listeria monocytogenesSurvival in Chum Salmon (Oncorhynchusketa) Roe and Caviar (Ikura). Food Microbiology and Safety, 72: 160-165.
· Shirai, N., Higuchi,T. and Suzuki, H. (2006). Analysis of lipid classes and the fatty acid composition of the salted fish roe food products, Ikura, Tarako, Tobiko and Kazunoko. Food Chemistry, 94: 61–67.
· Soares, N.M.F., Oliveira, M.S.G. and Vicente, A.A. (2015). Effects of glazing and chitosan-based coating application on frozen salmon preservation during six-month storage in industrial freezing Chambers. LWT - Food Science and Technology, 61: 524-531.
· Vieira, J.M., Flores-López, M.L., Rodríguez, D.J., Sousa, M.C., Vicente, A.A. and Martins, J.T. (2016). Effect of chitosan–Aloe vera coating on postharvest quality of blueberry (Vacciniumcorymbosum) fruit. Postharvest Biology and Technology, 116: 88–97.
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· Abdollahzadeh, E., Rezaei, M. and Hosseini, H. (2014). Antibacterial activity of plant essential oils and extracts: The role of thyme essential oil, nisin, and their combination to control Listerimonocytogenes inoculated in minced fish meat. Food Control, 35: 177-183.
· Adzaly, N.Z., Jackson, A., Kang, I. and Almenar, E. (2016). Performance of a novel casingmade of chitosan under traditional sausage manufacturing conditions. Meat Science, 113: 116–123.
· Al-Holy, M., Wang, Y., Tang, J. and Rasco, B. (2005). Dielectric properties of salmon (Oncorhynchusketa) and sturgeon (Acipensertransmontanus) caviar at radio frequency (RF) and microwave (MW) pasteurization frequencies. Journal of Food Engineering ,70: 564–570.
· Alishahi, A. (2014). Antibacterial Effect of ChitosanNanoparticle Loaded with Nisin for the Prolonged Effect. Journal of Food Safety, 34: 111-118.
· Al-Sayed Mahmoud, K., Linder, M., Fanni, J. and Parmentier, M. (2008). Characterisation of the lipid fractions obtained by proteolytic and chemical extractions from rainbow trout (Oncorhynchusmykiss) roe. Process Biochemistry, 43: 376–383.
· Altug, G. and Bayrak, Y. (2003). Microbiological analysis of caviar from Russia and Iran. Food Microbiology, 20: 83–86.
· AOAC. (2005). Method 999. 10. Official methods of analysis of AOAC International,Gaithersburg, MD, USA.
· Bledsoe, G.E., Bledsoe, C.D., and Rasco, B. (2003). Caviar and fish roe products. Journal of Critical Reviews in Food Science and Nutrition, 43: 317-356.
· Calderón-Oliver, M., Escalona-Buendía, H.B., Medina-Campos, O.N., Pedraza-Chaverri, J., Pedroza-Islas, S. and Ponce-Alquicira, E. (2016). Optimization of the antioxidant and antimicrobial response of the combined effect of nisin and avocado byproducts. LWT - Food Science and Technology, 65: 46-52.
· Delves-Broughton, J. (2014). Nisin. Encyclopedia of Food Microbiology, 1: 187-193.
· Duran, M., Aday, M.S., Zorba, N.D.Z., Temizkan, R., Büyükcan, M.B. and, Caner, C. (2016). Potential of antimicrobial active packaging‘containingnatamycin, nisin, pomegranate and grape seed extract in chitosan coating’ to extendshelf life of fresh strawberry. food and bioproducts processing, 98: 353-363.
· Ebrahimzadeh, M.A., Nabavi, S.M. and Nabavi, S.F. (2009). Correlation Between the in vitro Iron Chelating Activity and Poly Phenol and Flavonoid Contents of Some Medicinal Plants. Pakistan Journal of Biological Sciences, 12: 934-938.
· Feng, X., Bansal, N. and Yang, H. (2016). Fish gelatin combined with chitosan coating inhibits myofibril degradation of golden pomfret (Trachinotusblochii) fillet during cold Storage. Food Chemistry, 200: 283–292.
· Fernández-Saiz, P., Sánchez, G., Soler, C., Lagaron., J.M. and Ocio, M.J. (2013). Chitosan films for the microbiological preservation of refrigerated sole and hake fillets. Food Control, 34: 61-68.
· Gao, M., Feng, L., Jiang, T., Zhu, J., Fu, L., Yuan, D. and Li, J. (2013). The use of rosemary extract in combination with nisin to extend the shelf life of pompano (Trachinotusovatus) fillet during chilled storage. Food Control, 37: 1-8.
· Govaris, A., Solomakos, N., Pexara, A. and Chatzopoulou, P.S. (2010). The antimicrobial effect of oregano essential oil, nisin and their combination against Salmonella Enteritidis in minced sheep meat during refrigerated storage. International Journal of Food Microbiology, 137: 175–180.
· Guohua, H., Yuanyuan, G., Hailin, F., Jian, L. and Jianfeng, Zh. (2015). Effects of chitosan combined with nisin treatment on storage quality of large yellow croaker (Pseudosciaenacrocea). Food Chemistry, 203:276-282.
· Hasanpourdarvari, Kh., Kazemitabar, S.K., Bakhshikhaniki, Gh. And Mahdavi, M. (2011). Investigate genetic diversity of Eryngiumcaucasicum in the Mazandaran province using molecular markers (RAPD). National Conference on Medicinal Plants, 1 [In Persian].
· Hdaytifard, M. and Nemati, S. (2011). Changes of roe fatty acids of Kutum Rutilus frisii kutum and golden mullet Liza aurata affected by salting. Journal of Fisheries, 3(2): 1-11 [In Persian].
· Inanli, A., and Coban, O. and Dartay, M. (2010). The chemical and sensorial changes in rainbow trout caviar salted in different ratios during storage. Journal of Fish Science, 76: 879- 883. Khalifa, I., Barakat,H., El-Mansy, H.A. and Soliman, S.A. (2016). Enhancing the keeping quality of fresh strawberry using chitosan- incorporated olive processing wastes. Food Bioscience, 13: 69–75.
· Khoshbakht, K., Hammer, K. and Pistrick, K. (2007). EryngiumcaucasicumTrautv. cultivated as a vegetable in the Elburz Mountains (Northern Iran). Genet Resour Crop Evol, 54:445–448.
· Lapa-Guimarães, J., Trattner, S. and Pickova, J. (2011). Effect ofProcessing on Amine Formation and the Lipid Profile of Cod (Gadusmorhua) Roe. Food Chemistry, 129: 716-723.
· Li, Ch., Huang, L., Hwang, Ch.R. and Chen, J.2016. Growth of Listeria monocytogenes in salmon roe e A. kinetic analysis. Food Control, 59: 538-545.
· Majaziamiri, B. and Rezaeitavabe, K. (2011). Sturgeons and Caviar. (Translation). Authors: Ashtrnyn, D. and Doure, I, First Print, Publishing Institute of Tehran university, pp: 137-150 [In Persian].
· Mirsadeghi, H., Alishahi, A., Shabanpour, B. And Safari, R. (2015). Effects of salt and water temperature processing on qualitative changes in rainbow trout (Oncorhynchusmykiss) roe during refrigerator storage. Journal of Fisheries Science and Technology, 4(1): 93-104 [In Persian].
· Nowzari, F., Shábanpour, B. and Ojagh, S.M. (2013). Comparison of chitosan–gelatin composite and bilayer coating and film effect on the quality of refrigerated rainbow trout. Food Chemistry, 141: 1667–1672.
· Ojagh, S.M., Rezaei, M., Razavi, S.H. and Hosseini, S.M.H. (2012). Effect of antimicrobial coating on shelf-life extension of rainbow trout (Oncorhynchus mykiss). Journal of Food Science and Technology, 34 (9): 13-23 [In Persian].
· Prabhakara Rao, P.G., Balaswamy, K., Jyothirmayi, T., Karuna, M.S.L. and Prasad, R.B.N. (2015). Fish roe lipids: composition and changes during processing and storage. Chapter 56, pp. 463-268.
· Ramezani, Z., Zarei, M. and Raminnejad, N. (2014). Comparing the effectiveness of chitosan and nanochitosan coatings on the quality of refrigerated silver carp fillets.Food control, 14: 1-17.
· RazaviShirazi, H. (2007). Marine products, technology, principles and processing maintenance. (Second Edition), published by the Mehr, Tehran. 292 p [In Persian].
· Restuccia, D., Spizzirri, U.G., Bonesi, M., Tundis, R., Menichini, F., Picci, N. and Loizzo, M.R. (2015). Evaluation of fatty acids and biogenic amines profiles in mullet 4 and tuna roe during six months of storage at 4 ̊C. Journal of Food Composition and Analysis, 40: 52-60.
· Sallama, Kh.I. Ishioroshib, M., and Samejimab, K. (2004). Antioxidant and antimicrobial effects of garlic in chicken sausage LebensonWiss Technology, 37: 849-855.
· Salmanian, Sh., Sadeghi Mahunak, AR., Jamson, M. and Tabatabaei Amid, B. (2014). Identification and quantification of phenolic acids, radical scavenging activity and ferric reducing power of Eryngium caucasicum Trautv. ethanolic and methanolic extracts. Research and Innovation in Food Science and Technology, 2: 193-204 [In Persian].
· Shin, J.H. and Rasco,B.A. (2007). Effect of Water Phase Salt Content and Storage Temperature on Listeria monocytogenesSurvival in Chum Salmon (Oncorhynchusketa) Roe and Caviar (Ikura). Food Microbiology and Safety, 72: 160-165.
· Shirai, N., Higuchi,T. and Suzuki, H. (2006). Analysis of lipid classes and the fatty acid composition of the salted fish roe food products, Ikura, Tarako, Tobiko and Kazunoko. Food Chemistry, 94: 61–67.
· Soares, N.M.F., Oliveira, M.S.G. and Vicente, A.A. (2015). Effects of glazing and chitosan-based coating application on frozen salmon preservation during six-month storage in industrial freezing Chambers. LWT - Food Science and Technology, 61: 524-531.
· Vieira, J.M., Flores-López, M.L., Rodríguez, D.J., Sousa, M.C., Vicente, A.A. and Martins, J.T. (2016). Effect of chitosan–Aloe vera coating on postharvest quality of blueberry (Vacciniumcorymbosum) fruit. Postharvest Biology and Technology, 116: 88–97.
