International Journal of Dairy Science1811-97431811-9751Asian Network for Scientific Information10.3923/ijds.2017.325.330Mohamed AbbasHayam Gaber MohamedAshraf Abdel-Tawab SeoudiOsama M. ZakyWafaa 52017125Background and Objective: Urgent need for effective and natural preservative materials is still recommended. The target of the present study was to evaluate the myrrh gum extract (MGE) as a natural antimicrobial agent, then used it in preserving the soft cheese samples. Materials and Methods: Myrrh (Commiphora myrrha) gum crystals were water-extracted (1:10 w/v) and exposed to ultra sonic-ray. Seven strains of bacteria and three strains of mold as well as two strains of yeast were used in this study to evaluate the antimicrobial effect of MGE. In another section, traditional soft cheese samples were prepared using different concentrations of MGE. Three treatments were prepared compared to control one. The first treatment (T1) was prepared using 5 mL MGE/1 L cheese milk. The second and third treatments (T2 & T3) were conducted using 10 and 15 mL/1 L cheese milk, respectively. All cheese samples were stored at refrigerator (7°C) for three months and were analyzed for their chemical composition. Sensorial evaluation and textural assay were also conducted. Results: Data revealed that MGE considered an effective and natural antimicrobial agent. Majority of tested microorganisms were susceptible to the action of MGE. Sallmonella typhimurium strain was the most resistant bacteria while Escherichia coli was the most sensitive and the most sensitive yeast was Saccharomyces cerevisiae. No clear differences between control and treated cheese samples were noticed in the chemical composition or texture properties. However, sensorial evaluation indicated that using of MGE gave a clean and slight acid taste and acceptable properties. It did not cause any gumminess in the body or any bitterness in the taste. Conclusion: Myrrh extract could be used in preparing soft cheese samples and preserve them to 90 days without any critical changes in chemical or textural and sensorial properties. It could protect cheese samples from hazardous contaminant pathogenic strains. So it considered as effective, natural, safe and cheap antimicrobial agent. It is recommended to use it in food sector and other dairy products.]]>Mohamed, S.H.S., W.M. Zaky, J.M. Kassem, H.M. Abbas, M.M.E. Salem and H.A.H. Said-Al Ahl,201327497507Abbas, H.M., F.M. Assem, W.M. Zaky, J.M. Kassem and E.A. Omer,201712301309Hanus, L.O., I. Rezanka, V.M. Dembitsky and A. Moussaieff,2005149328El-Shahat, M., S. El-Abd, M. Alkafafy and G. El-Khatib,2012Commiphora molmol) vs. Turmeric (Curcuma longa).]]>114421428Massoud, A., S. El Sisi, O. Salama and A. Massoud,2001Commiphora molmol (Myrrh).]]>659699Helal, E.G.E., A. Mahmoud, E.E. El-Badawy and A.A. Kahwash,200520148162Su, S., T. Wang, T. Chen, J.A. Duan, L. Yu and Y. Tang,2011Commiphora myrrha resin against human gynecologic cancer cells.]]>513821389Salah, Y.M.S.,20142014Dolara, P., C. Luceri, C. Ghelardini, C. Monserrat and S. Aiolli et al.,19963792929Dolara, P., B. Corte, C. Ghelardini, A.M. Pugliese, E. Cerbai, S. Menichetti and A. Lo-Nostro,200066356358Brieskorn, C.H. and P. Noble,198322187189Mohamed, A.G., H.M. Abbas, J.M. Kassem, W.A. Gafour and A.G. Attalah,2016114151Jalilzadeh, A., Y. Tuncturk and J. Hesari,2015104460Marcuzzo, E., D. Peressini and A. Sensidoni,20133710941102Farag, S.I., K.M.K. Kebary, A.N. Zedan, A.H. El-Sonbaty and S.H.S. Helal,20152015Alabi O.A., M.T. Haruna, C.P. Anokwuru, T. Jegede, H. Abia, V.U. Okegbe and B.E. Esan,2002Carica papaya (L.) on clinical bacterial and fungal isolates.]]>331073114Mohamed, A.G., H.S. El-Sayed, N.S. Mehanna and S. El-Shibiny,2016720502058AOAC.,200717th Edn., Kosikowski, F.V.,19863rd Edn.,Pages: 225Pages: 225IDF.,19911991Foda, M.I., M.A. El-Sayed, A.A. Hassan, N.M. Rasmy and M.M. El-Moghazy,20106272279