Review
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Peynirin Raf Ömrünü Uzatmada Bal Mumu Kaplamaların Kullanılması

Year 2015, , 22 - 32, 15.02.2016
https://doi.org/10.31467/uluaricilik.377574

Abstract

Peynir besin bileşeni bakımından konsantre ve tüketimi yaygın olan bir süt ürünüdür. Farklı peynir çeşitlerinin farklı tüketici gruplarının damak zevklerini karşılayabilmesi yanında protein ve madensel maddeler zellikle kalsiyum ve fosfor) bakımından zengin içeriği tüketici talebini arttıran nedenler olarak sıralanabilir. Peynirin fiziksel, biyokimyasal ve mikrobiyolojik bozulmalara hassas bir gıda olup kolay bozulabilmesi; mikrobiyolojik
açıdan güvenliği arttırmak, raf ömrü ve dayanımı uzatmak için yenilikçi muhafaza yöntemlerinin geliştirilmesine yol açmıştır. Paketleme, da maddelerinin farklı amaçlarla ketime sunulmasına,  fark boyut ve şekillerde korunmasına
olanak veren bir işlemdir. Bazı yapay ambalaj maddeleri ketici sağlığına zarar verebilmekte ve doğada kolay parçalanmadığından çevre kirliliğine yolaçmaktar. Bu nedenlerle alternatif ambalaj maddeleri araşına gidilmiş, kalite kayıplarını azaltmak
ve muhafaza amacıyla yenebilir film kaplamalar geliştirilmiştir. Yenebilir kaplama filmleri; tüketimi venli, ucuz 
ve üretim teknolojisi basit, dış etkenlere (yağ, nem, O
2 ve CO2); biyokimyasal, fizikokimyasal ve mikrobiyolojik bozulmaları dayanıklı olmalıdır. Bunların yanında yenebilir filmlere renk, aroma, besin öğeleri, antioksidant ve antimikrobiyal maddeler de katılabilmektedir. Bu derleme makalede özellikle bal mumu başta olmak üzere; yenebilir film kaplamaların peynirin raf ömrünü arttırmada kullanılabilirliği ele alınmaya çaşılmıştır.

References

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  • Anonim (2015).ftp://ftp.fao.org/docrep/fao/012/i0842e/i0842e1 2.pdf. Production and trade of beeswax In: Bees and their role in forest livelihoods.
  • Andriani, R. D., Sawitri, M.E., Awwaly, K.U.A., Manab, A. (2013). The effect of antimicrobial addition to protein whey based edible film on the Gouda cheese physical quality during ripening. J. Teknologi Pertanian 14: 123-130.
  • Azza, M.M., Ahmed, H.F. (2010). Effect of potassium sorbate and/or probiotic bacteria on spoilage bacteria during cold storage of soft cheese. Global Veterinaria 4: 483-488.
  • Bermudez-Aguirre, D., Barbosa-Cánovas, G.V. (2011). An update in high hydrostatic pressure, from lab scale to industry applications. Food Eng. Rev. 3: 44-61.
  • Bourtoom, T. (2008). Edible films and coatings: characteristics and properties. Int. Food Res. J. 15:237-248.
  • Brody, A.l., Bugusu, B., Han, J.H., Sand, C.K., McHugh, T.H. (2008). İnnovative Food Packaging Solutions. J. Food Sci. 73: 107-116.
  • Cerqueira, M.A., Teixeira, J.A., Lima, A.M., Souza, B.W.S., Vicente, A.A. (2009). Functional polysaccharides as edible coatings for cheese. J. Agric. Food Chem. 57: 1456-1462
  • Cerqueira, M.A., Sousa-Gallagher, M.J., Macedo, I., Rodriguez-Aguilera, R., Souza, B.W.S., Teixeira, J.A., Vicente, A.A. (2010). Use of galactomannan edible coating application and storage temperature for prolonging shelf-life of “Regional” cheese. J. Food Eng. 97: 87-94
  • Cetinkaya, A., Yaman, H., Elmali, M., Karadagoglu, G. (2005). A preliminary study of Kashar cheese and its organoleptic qualities matured in beeswax. Int. J. Food Safety. 6: 1-4.
  • Conte, A., Scrocco, C., Sinigaglia, M., Del Nobile, M.A. (2007). Innovative active packaging systems to prolong the shelf life of Mozzarella cheese. J. Dairy Sci. 90: 2126-2131.
  • Deheaufort, F., Quczada-Gallo, I.A., Voilley, A. (1998). Edible films and coatings: tomorrow's packaging: A review. Crit. Rev. Food Sci. Nutr. 38: 299-313.
  • Del Nobile, M.A., Gammariello, D., Conte, A., Attanasio, M. (2009). A combination of chitosan, coating and modified atmosphere packaging for prolonging Fior Di Latte cheese shelf life. Carbohydr. Polym.78: 151-156.
  • Delikanlı, B., Özcan, T. (2014). Probiyotik içeren yenilebilir filmler ve kaplamalar. U.Ü. Zir. Fak. Derg. 28: 59-70.
  • Duan, J., Park, S.I., Daeschel, M.A., Zhao, Y. (2007). Antimicrobial chitosan-cysozyme (CL) films and coatings for enhancing microbial safety of Mozzarella cheese. J. Food Sci. 72: 355-362.
  • El-Sisi, A.S., Gapr, A.E.M., Kamaly, K.M. (2015). Use of chitosan as an edible coating in RAS cheese. Biolife 3: 564-570.
  • El-Diasty, E.M., Eleiwa, N.Z., Aideia, H.A.M. (2012). Using of chitosan as antifungal agent in Kariesh cheese. New York Sci. J. 5: 5-10.
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  • Eren-Vapur, U., Ozcan, T. (2012). Determination of free amino acids in whole-fat Turkish White Brined Cheese produced by animal and microbial milk-clotting enzymes with and without the addition of starter culture. Mljekarstvo (Dairy) 62: 241-250.
  • Fabra, M.J., Jiménez, A., Atarés, L., Talens, P., Chiralt, A. (2009). Effect of fatty acids and beeswax addition on properties of sodium caseinate dispersions and films. Biomacromolecules 10: 1500-1507.
  • Fajardo, P., Martins, J.T., Fuciños, C., Pastrana, L., Teixeira, J.A., Vicente, A.A. (2010). Evaluation of a chitosan-based edible film as carrier of natamycin to improve the storability of Saloio cheese. J. Food Eng.101: 349-356.
  • Farkas, D., Hoover, D. (2000). High pressure processing: Kinetics of microbial inactivation for alternative food processing technologies. J. Food Sci. (Supplement): 47-64.
  • Fang, Y., Tung, M.A., Britt, I.J., Yada, S., Dalgleish, D.G. (2002). Tensile and barrier properties of edible films made from whey proteins. J. Food Sci. 67: 188-193.
  • Fenelon M.A., Guinee T.P. (1999). The effect of milk fat on Cheddar yield and its prediction using modifications of the van Slyke cheese formula. J. Dairy Sci. 82: 1-13.
  • Ghasemi, S., Javadi, N.H.S., Moradi, M., Khosravi- Darani, K. (2015). Application of zein antimicrobial edible film incorporating Zataria multiflora boiss essential oil for preservation of Iranian Ultrafiltered Feta cheese. Afr. J. Biotechnol. 14: 2015-2021.
  • Gonzales-Fandos, E., Sanz, S., Olarte, C. (2000). Microbiological, physicochemical and sensory characteristics of Cameros cheese packaged under modified atmospheres. Food Microbiol. 17: 407-414.
  • Guldas, M., Akpinar-Bayizit, A., Ozcan T., Yilmaz- Ersan, L. (2010). Effects of edible film coatings on shelf-life of mustafakemalpasa sweet, a cheese based dessert. J. Food Sci. Technol. 47: 476-481.
  • Guilbert, S., Gontard, N., Gorris, G.M. (1996). Prolongation of the shelf life of perishable food products using biodegradable films and coatings. Lebensm-Wiss. U. Technol. 29: 10- 17.
  • Guo, Q., Wu, Y., Li, Y. (2015). Evaluation of chitosan-starch-based edible coating to improve the shelf life of Bod Ljong cheese. J. Food Prot. 78: 1327-1334.
  • Hall, D.J. (2012). Edible coatings from lipids, waxes and resins. In: Edible coatings and films to improve food quality (ed. E.A. Baldwin, R. Hagemmaiver, J. Bai), CRC Press, pp 79-102.
  • IFST (1993). Shelf life of foods. Guideliness for its determination and prediction. The Institute of Food Science and Technology, London.
  • Janjarasskul, T., Krochta, J.M. (2010). Edible packaging materials. Annu. Rev. Food Sci. Technol. 1: 415-448.
  • Kavas, G., Kavas, N., Saygili, D. (2015). The Effects of thyme and clove essential oil fortified edible films on the physical, chemical and microbiological characteristics of Kashar cheese. J. Food Qual. (in press).
  • Kilcast, D., Subramaniam, P. (2011). Food and Beverage Stability and Shelf Life. 1st Edn., Woodhead Publishing, Cambridge, UK., 864 p.
  • Kokoszka, S., Lenart, A. (2007). Edible coatings – formation, characteristics and use – A Review. Pol. J. Food Nutr. Sci. 57: 399-404.
  • Law, B.A., Tamime, A.Y. (2010). Technology of Cheesemaking. United Kingdom: Wiley- Blackwell, 482 p.
  • Lee D.S., Yam K.L., Piergiovanni L. (2008). Food Packaging Science and Technology. Boca Raton, Florida: CRC Press, 656 p.
  • Marsh, K., Bugusu, B. (2007). Food packaging: roles, materials, and environmental issues. J. Food Sci.72: 39-55.
  • Martinez-Rodriguez, Y., Acosta-Muniz, C., Olivas, G.I., Guerrero-Beltran, J., Rodrig-Aliaga, D., Sepulveda, D.R. (2012). High hydrostatic pressure processing of cheese. Compr. Rev. Food Sci. Food Saf., 11: 399-416.
  • Mastromatteo, M., Conte, A., Faccia, M., Alessandro, Nobile, M.A.D., Zambrini A.V. (2013). Combined effect of active coating and modified atmosphere packaging on prolonging the shelf life of low-moisture Mozzarella cheese. J. Dairy Sci. 97: 1-9.
  • Mei, J., Kampf, N., Nussinovitch, A. (2000). Hydrocolloid coating of cheeses. Food Hydrocoll. 14: 531-537.
  • Mei, J., Yuan, Y., Wu, Y., Li, Y. (2013). Characterization of edible starch–chitosan film and its application in the storage of Mongolian cheese. Int. J. Biol. Macromol.57: 17-21.
  • Mei, J., Guo, Q., Wu, Y., Li, Y. (2015). Evaluation of chitosan-starch-based edible coating to ımprove the shelf life of bod ljong cheese. J. Food Prot. 78: 1327-1334.
  • Morillon, V., Debeaufort, F., Blond, G., Capelle, M., Voilley, A. (2002). Factors Affecting the Moisture Permeability of Lipid-Based Edible Films: A Review. Crit. Rev. Food Sci. Nutr. 42: 67-89.
  • Nicoli, M.C. (2012). Shelf Life Assessment of Food. CRC Press, 316 p.
  • Ortega-Rivas,E.,Salmerón-Ochoa,I (2014). Nonthermal food processing alternatives and their effects on taste and flavor compounds of beverages. Crit. Rev. Food Sci. Nutr., 54: 190- 207.
  • Pascall, M.A., Lin, S.J. (2013). The Application of edible polymeric films and coatings in the food ındustry. J. Food Process Technol. 4: 116-117.
  • Pavlath, A.E., Orts, W. (2009). Edible Films and Coatings: Why, What, and How? In: Edible Films and Coatings for Food itpplicanons. Embuscado, M.E., Huber, K.C. (Eds.), Springer Sciencc+Business Media, LLC, pp: 1- 23.
  • Pierro, P.D., Sorrentino, A., Mariniello, L., Giosafatto, C.V.L., Porta, R. (2011). Chitosan / whey protein film as active coating to extend Ricotta cheese shelf-life. LWT - Food Sci. Technol. 44: 2324-2327.
  • Ramos, Ó.L., Pereira, J.O., Silva, S.I., Fernandes, J.C., Franco, M.I., Lopes-da-Silva, J.A., Pintado, M.E., Malcata, F.X. (2012). Evaluation of antimicrobial edible coatings from a whey protein isolate base to improve the shelf life of cheese. J. Dairy Sci. 95: 6282- 6292.
  • Resa, C.P.O., Gerschenson, L.N., Jagus, R.J. (2014). Natamycin and nisin supported on starch edible films for controlling mixed culture growth on model systems and Port Salut cheese. Food Contr. 44: 146-151.
  • Robertson G.L. (2014). Food packaging principles and practice. 3td edn. Boca Raton, Florida: CRC Press, 733 p.
  • Rooney, M.L. (2005). Introduction to active food packaging technologies. In: Han JH, editor. Innovations in food packaging. San Diego, Calif: Elsevier Academic Press. p 63-79.
  • Soukoulis, C., Yonekura, L., Gan, H.H., Behboudi- Jobbehdar, S., Parmenter, C., Fisk, I. (2014). Probiotic edible films as a new strategy for developing functional bakery products: The case of pan bread. Food Hydrocoll. 39: 231- 242.
  • Shit, S.C., Shah, P.M. (2014).Edible polymers: Challenges and opportunities. J.Polym. 1-13.
  • Ture, H., Eroglu, E., Ozen, B., Soyer, F. (2011). Effect of biopolymers containing natamycin against Aspergillus niger and Penicillium roquefortii on fresh Kashar cheese. Int. J. Food Sci. Technol. 46:154-160.
  • Unalan, I.U., Arcan, I, Korel, F., Yemenicioglu, A. (2013). Application of active zein-based films with controlled release properties to control Listeria monocytogenes growth and lipid oxidation in fresh Kashar cheese. Innov. Food Sci. Emerg. Technol. 20: 208-214.
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Year 2015, , 22 - 32, 15.02.2016
https://doi.org/10.31467/uluaricilik.377574

Abstract

References

  • Akpinar, A., Ozcan, T. (1999). Edible films and coatings 1: Introduction and food applications. Gıda Teknol. 4: 61-64.
  • Anonim (2015).ftp://ftp.fao.org/docrep/fao/012/i0842e/i0842e1 2.pdf. Production and trade of beeswax In: Bees and their role in forest livelihoods.
  • Andriani, R. D., Sawitri, M.E., Awwaly, K.U.A., Manab, A. (2013). The effect of antimicrobial addition to protein whey based edible film on the Gouda cheese physical quality during ripening. J. Teknologi Pertanian 14: 123-130.
  • Azza, M.M., Ahmed, H.F. (2010). Effect of potassium sorbate and/or probiotic bacteria on spoilage bacteria during cold storage of soft cheese. Global Veterinaria 4: 483-488.
  • Bermudez-Aguirre, D., Barbosa-Cánovas, G.V. (2011). An update in high hydrostatic pressure, from lab scale to industry applications. Food Eng. Rev. 3: 44-61.
  • Bourtoom, T. (2008). Edible films and coatings: characteristics and properties. Int. Food Res. J. 15:237-248.
  • Brody, A.l., Bugusu, B., Han, J.H., Sand, C.K., McHugh, T.H. (2008). İnnovative Food Packaging Solutions. J. Food Sci. 73: 107-116.
  • Cerqueira, M.A., Teixeira, J.A., Lima, A.M., Souza, B.W.S., Vicente, A.A. (2009). Functional polysaccharides as edible coatings for cheese. J. Agric. Food Chem. 57: 1456-1462
  • Cerqueira, M.A., Sousa-Gallagher, M.J., Macedo, I., Rodriguez-Aguilera, R., Souza, B.W.S., Teixeira, J.A., Vicente, A.A. (2010). Use of galactomannan edible coating application and storage temperature for prolonging shelf-life of “Regional” cheese. J. Food Eng. 97: 87-94
  • Cetinkaya, A., Yaman, H., Elmali, M., Karadagoglu, G. (2005). A preliminary study of Kashar cheese and its organoleptic qualities matured in beeswax. Int. J. Food Safety. 6: 1-4.
  • Conte, A., Scrocco, C., Sinigaglia, M., Del Nobile, M.A. (2007). Innovative active packaging systems to prolong the shelf life of Mozzarella cheese. J. Dairy Sci. 90: 2126-2131.
  • Deheaufort, F., Quczada-Gallo, I.A., Voilley, A. (1998). Edible films and coatings: tomorrow's packaging: A review. Crit. Rev. Food Sci. Nutr. 38: 299-313.
  • Del Nobile, M.A., Gammariello, D., Conte, A., Attanasio, M. (2009). A combination of chitosan, coating and modified atmosphere packaging for prolonging Fior Di Latte cheese shelf life. Carbohydr. Polym.78: 151-156.
  • Delikanlı, B., Özcan, T. (2014). Probiyotik içeren yenilebilir filmler ve kaplamalar. U.Ü. Zir. Fak. Derg. 28: 59-70.
  • Duan, J., Park, S.I., Daeschel, M.A., Zhao, Y. (2007). Antimicrobial chitosan-cysozyme (CL) films and coatings for enhancing microbial safety of Mozzarella cheese. J. Food Sci. 72: 355-362.
  • El-Sisi, A.S., Gapr, A.E.M., Kamaly, K.M. (2015). Use of chitosan as an edible coating in RAS cheese. Biolife 3: 564-570.
  • El-Diasty, E.M., Eleiwa, N.Z., Aideia, H.A.M. (2012). Using of chitosan as antifungal agent in Kariesh cheese. New York Sci. J. 5: 5-10.
  • Embuscado, M., Huber, K.C. (2009). Edible Films and Coatings for Food Applications. Springer Science & Business Media, 416 p.
  • Enab, A.K., Fatma, A.M. Hassan, Mona, A.M. Abd El, G. (2012). Effect of manufacture steps on cheese structure (Review). Int. J. Acad. Res. 4: 87-94.
  • Eren-Vapur, U., Ozcan, T. (2012). Determination of free amino acids in whole-fat Turkish White Brined Cheese produced by animal and microbial milk-clotting enzymes with and without the addition of starter culture. Mljekarstvo (Dairy) 62: 241-250.
  • Fabra, M.J., Jiménez, A., Atarés, L., Talens, P., Chiralt, A. (2009). Effect of fatty acids and beeswax addition on properties of sodium caseinate dispersions and films. Biomacromolecules 10: 1500-1507.
  • Fajardo, P., Martins, J.T., Fuciños, C., Pastrana, L., Teixeira, J.A., Vicente, A.A. (2010). Evaluation of a chitosan-based edible film as carrier of natamycin to improve the storability of Saloio cheese. J. Food Eng.101: 349-356.
  • Farkas, D., Hoover, D. (2000). High pressure processing: Kinetics of microbial inactivation for alternative food processing technologies. J. Food Sci. (Supplement): 47-64.
  • Fang, Y., Tung, M.A., Britt, I.J., Yada, S., Dalgleish, D.G. (2002). Tensile and barrier properties of edible films made from whey proteins. J. Food Sci. 67: 188-193.
  • Fenelon M.A., Guinee T.P. (1999). The effect of milk fat on Cheddar yield and its prediction using modifications of the van Slyke cheese formula. J. Dairy Sci. 82: 1-13.
  • Ghasemi, S., Javadi, N.H.S., Moradi, M., Khosravi- Darani, K. (2015). Application of zein antimicrobial edible film incorporating Zataria multiflora boiss essential oil for preservation of Iranian Ultrafiltered Feta cheese. Afr. J. Biotechnol. 14: 2015-2021.
  • Gonzales-Fandos, E., Sanz, S., Olarte, C. (2000). Microbiological, physicochemical and sensory characteristics of Cameros cheese packaged under modified atmospheres. Food Microbiol. 17: 407-414.
  • Guldas, M., Akpinar-Bayizit, A., Ozcan T., Yilmaz- Ersan, L. (2010). Effects of edible film coatings on shelf-life of mustafakemalpasa sweet, a cheese based dessert. J. Food Sci. Technol. 47: 476-481.
  • Guilbert, S., Gontard, N., Gorris, G.M. (1996). Prolongation of the shelf life of perishable food products using biodegradable films and coatings. Lebensm-Wiss. U. Technol. 29: 10- 17.
  • Guo, Q., Wu, Y., Li, Y. (2015). Evaluation of chitosan-starch-based edible coating to improve the shelf life of Bod Ljong cheese. J. Food Prot. 78: 1327-1334.
  • Hall, D.J. (2012). Edible coatings from lipids, waxes and resins. In: Edible coatings and films to improve food quality (ed. E.A. Baldwin, R. Hagemmaiver, J. Bai), CRC Press, pp 79-102.
  • IFST (1993). Shelf life of foods. Guideliness for its determination and prediction. The Institute of Food Science and Technology, London.
  • Janjarasskul, T., Krochta, J.M. (2010). Edible packaging materials. Annu. Rev. Food Sci. Technol. 1: 415-448.
  • Kavas, G., Kavas, N., Saygili, D. (2015). The Effects of thyme and clove essential oil fortified edible films on the physical, chemical and microbiological characteristics of Kashar cheese. J. Food Qual. (in press).
  • Kilcast, D., Subramaniam, P. (2011). Food and Beverage Stability and Shelf Life. 1st Edn., Woodhead Publishing, Cambridge, UK., 864 p.
  • Kokoszka, S., Lenart, A. (2007). Edible coatings – formation, characteristics and use – A Review. Pol. J. Food Nutr. Sci. 57: 399-404.
  • Law, B.A., Tamime, A.Y. (2010). Technology of Cheesemaking. United Kingdom: Wiley- Blackwell, 482 p.
  • Lee D.S., Yam K.L., Piergiovanni L. (2008). Food Packaging Science and Technology. Boca Raton, Florida: CRC Press, 656 p.
  • Marsh, K., Bugusu, B. (2007). Food packaging: roles, materials, and environmental issues. J. Food Sci.72: 39-55.
  • Martinez-Rodriguez, Y., Acosta-Muniz, C., Olivas, G.I., Guerrero-Beltran, J., Rodrig-Aliaga, D., Sepulveda, D.R. (2012). High hydrostatic pressure processing of cheese. Compr. Rev. Food Sci. Food Saf., 11: 399-416.
  • Mastromatteo, M., Conte, A., Faccia, M., Alessandro, Nobile, M.A.D., Zambrini A.V. (2013). Combined effect of active coating and modified atmosphere packaging on prolonging the shelf life of low-moisture Mozzarella cheese. J. Dairy Sci. 97: 1-9.
  • Mei, J., Kampf, N., Nussinovitch, A. (2000). Hydrocolloid coating of cheeses. Food Hydrocoll. 14: 531-537.
  • Mei, J., Yuan, Y., Wu, Y., Li, Y. (2013). Characterization of edible starch–chitosan film and its application in the storage of Mongolian cheese. Int. J. Biol. Macromol.57: 17-21.
  • Mei, J., Guo, Q., Wu, Y., Li, Y. (2015). Evaluation of chitosan-starch-based edible coating to ımprove the shelf life of bod ljong cheese. J. Food Prot. 78: 1327-1334.
  • Morillon, V., Debeaufort, F., Blond, G., Capelle, M., Voilley, A. (2002). Factors Affecting the Moisture Permeability of Lipid-Based Edible Films: A Review. Crit. Rev. Food Sci. Nutr. 42: 67-89.
  • Nicoli, M.C. (2012). Shelf Life Assessment of Food. CRC Press, 316 p.
  • Ortega-Rivas,E.,Salmerón-Ochoa,I (2014). Nonthermal food processing alternatives and their effects on taste and flavor compounds of beverages. Crit. Rev. Food Sci. Nutr., 54: 190- 207.
  • Pascall, M.A., Lin, S.J. (2013). The Application of edible polymeric films and coatings in the food ındustry. J. Food Process Technol. 4: 116-117.
  • Pavlath, A.E., Orts, W. (2009). Edible Films and Coatings: Why, What, and How? In: Edible Films and Coatings for Food itpplicanons. Embuscado, M.E., Huber, K.C. (Eds.), Springer Sciencc+Business Media, LLC, pp: 1- 23.
  • Pierro, P.D., Sorrentino, A., Mariniello, L., Giosafatto, C.V.L., Porta, R. (2011). Chitosan / whey protein film as active coating to extend Ricotta cheese shelf-life. LWT - Food Sci. Technol. 44: 2324-2327.
  • Ramos, Ó.L., Pereira, J.O., Silva, S.I., Fernandes, J.C., Franco, M.I., Lopes-da-Silva, J.A., Pintado, M.E., Malcata, F.X. (2012). Evaluation of antimicrobial edible coatings from a whey protein isolate base to improve the shelf life of cheese. J. Dairy Sci. 95: 6282- 6292.
  • Resa, C.P.O., Gerschenson, L.N., Jagus, R.J. (2014). Natamycin and nisin supported on starch edible films for controlling mixed culture growth on model systems and Port Salut cheese. Food Contr. 44: 146-151.
  • Robertson G.L. (2014). Food packaging principles and practice. 3td edn. Boca Raton, Florida: CRC Press, 733 p.
  • Rooney, M.L. (2005). Introduction to active food packaging technologies. In: Han JH, editor. Innovations in food packaging. San Diego, Calif: Elsevier Academic Press. p 63-79.
  • Soukoulis, C., Yonekura, L., Gan, H.H., Behboudi- Jobbehdar, S., Parmenter, C., Fisk, I. (2014). Probiotic edible films as a new strategy for developing functional bakery products: The case of pan bread. Food Hydrocoll. 39: 231- 242.
  • Shit, S.C., Shah, P.M. (2014).Edible polymers: Challenges and opportunities. J.Polym. 1-13.
  • Ture, H., Eroglu, E., Ozen, B., Soyer, F. (2011). Effect of biopolymers containing natamycin against Aspergillus niger and Penicillium roquefortii on fresh Kashar cheese. Int. J. Food Sci. Technol. 46:154-160.
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There are 64 citations in total.

Details

Journal Section Review
Authors

Metin Guldas

Publication Date February 15, 2016
Acceptance Date January 26, 2016
Published in Issue Year 2015

Cite

Vancouver Guldas M. Peynirin Raf Ömrünü Uzatmada Bal Mumu Kaplamaların Kullanılması. U.Arı D.-U.Bee J. 2016;15(1):22-3.

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