با همکاری انجمن علوم و صنایع غذایی ایران

نوع مقاله : مقاله پژوهشی

نویسندگان

1 دانشگاه فردوسی مشهد

2 گروه علوم و صنایع غذایی، دانشکده کشاورزی، دانشگاه فردوسی مشهد، مشهد، ایران.

3 گروه پژوهشی افزودنیهای غذایی، پژوهشکده علوم و فناوری غذایی، جهاد دانشگاهی مشهد

چکیده

اشریشیاکلی و باسیلوس سرئوس علاوه‌بر ایجاد فساد در مواد غذایی می‌توانند در مصرف‌کنندگان مواد غذایی حاوی مقدار کافی از این باکتری‌ها مسمومیت ایجاد کنند. به همین دلیل حذف یا کنترل این باکتری‌ها به‌شکلی ایمن اهمیت پیدا می‌کند. در این مطالعه اثر ضدباکتریایی پرتو فرابنفش در مدت زمان‌های مختلف، بر رشد اشریشیا کلی و باسیلوس سرئوس موردارزیابی قرار گرفت. بدین منظور ابتدا اشریشیا کلی و باسیلوس سرئوس را به‌ترتیب از شیر خام و برنج جداسازی و سپس به‌ترتیب در محیط‌کشت‌های EMB وMYP به‌مدت 24 تا 48 ساعت کشت داده شدند. در مرحله‌ی بعد پس از انجام آزمایشات تأییدی مناسب، کشت خالص مربوط به هر یک از باکتری‌ها تهیه شد. بررسی‌ها نشان داد که بیشترین اثر پرتو فرابنفش بر باکتری‌ها در طول موج حدود 260 نانومتر است. مشاهده شد که باسیلوس سرئوس نسبت به اشریشیا کلی مقاومت بیشتری به پرتو فرابنفش نشان می‌دهد به‌شکلی که مقدار کلنی‌های اشریشیا کلی پس از 80 ثانیه قرارگرفتن در مجاورت با طول موج 254 نانومتر، به صفر نزدیک می‌شود، اما در مورد باسیلوس سرئوس پس از این مدت به 1500 می‌رسد و نیز با افزایش مدت زمان پرتودهی و در غیاب نور مرئی تعداد میکروارگانیسم‌ها بیشتر کاهش می‌یابد.

کلیدواژه‌ها

عنوان مقاله [English]

Evaluate the effects of ultraviolet radiation on the growth of Escherichia coli and Bacillus cereus isolated from raw milk and raw rice

نویسندگان [English]

  • Mahmoud Yolmeh 1
  • Mohammad Bagher Habibi Najafi 2
  • Mahmoud Najafzadeh 3

1

2 Department of Food Science and Technology, Ferdowsi University of Mashhad, Mashhad, Iran.

3

چکیده [English]

Introduction: One of the most important aspects of food preservation is controlling the growth of microorganisms, which if overlooked it leads to uncontrolled growth of microorganisms associated with food spoilage and food poisoning. Microbial contamination of foods is important because of pathogens are capable to transfer to foods during the processing, distribution, and storage. Escherichia coli and Bacillus cereus can cause spoilage in food; intake food contains plenty of bacteria and toxic. Therefore it is important to eliminate or control these bacteria safely. Ultraviolet (UV) radiation is considered as non-ionizing radiation and the first time in 1940 was used as a method for infection elimination in air. This approach nowadays is widely used for controlling microbial growth and as disinfection in food industry. Wavelength range of ultraviolet radiation is approximately 328-210 nm. The beam is naturally present in the sunlight. The bactericidal effect of UV irradiation depends on the type of bacteria, the distance, and dose of radiation. The most cytotoxic effect of UV irradiation is obtained at the wavelength of 260 nm, which corresponds to the intense absorption of energy by organic bases in the nucleic acid. UV irradiation causes radicals generation, which subsequently attack the nucleic acid and develop mutations in their genomes and gene transcription and translation processes. In this study, the antibacterial effect of different exposure times of ultraviolet radiation on the growth of E. coli and B. cereus was evaluated.
Materials and methods: All media used in this study was procured from Merck Company. Ultraviolet device (Camag, USA) was used at wavelength of 254 nm, Nr= 29000, Amp= 0.25.
B. cereus isolation: 1 mL of different dilutions of rice (0.1, 0.01, and 0.001) was transferred to Brain-heart infusion (BHI) and it was incubated at 32 °C for 24 h. A loop containing the bacteria was then transferred to Mannitol Egg Yolk Polymyxin (MYP) agar and it was incubated at 35 °C for 24 h. B. cereus produce big and round colonies, with a halo around the colonies. Starch test was carried out as confirming test for B. cereus colonies. Briefly, some colonies of B. cereus were added to test tube with sterile distilled water containing starch and a few drops of lugol. Development of blue color indicates the presence of B. cereus due to starch hydrolysis.
E. coli isolation: E. coli was isolated from raw milk following the method described by Kargar et al. (2005). Briefly, raw milk was first homogenized; 0.1 ml of each dilution of homogenized raw milk was inoculated on Escherichia coli broth medium containing 20 mg novobiocin. E. coli was then isolated after transferring the former media on EMB specific culture and incubation at 36 °C for 24 h. After confirming colonies by Durham tube and complementary tests, pure cultures were obtained from them by streak-plate method.
UV irradiation: A loop of E. coli colonies was transferred to nutrient broth and it was treated with UV beam (254 nm) at three times (40, 60, and 80 s). After preparing dilution of 0.0001 for each of the treatments and incubating for 24 h, survival curve was plotted. These operations were also carried out on B. ceruse colonies. A control sample also was considered for each examined bacterium.
Results and Discussion: Rate of Bacillus cereus growth was reduced under UV radiation. As it is shown, Death curve of E. coli, E. coli count was decreased by increasing the time of UV radiation, so that count of this bacteria reached to about zero after UV radiation for 80 s. However, reduction of B. cereus count was less than E. coli count at same wavelength (254 nm) and time of irradiation. This revealed that B. cereus have more resistance to UV radiation compared to E. coli. These results were consistent to observation of Sharp (1940) who evaluate the effects of UV light on bacteria suspended in air and reported that required energy for air sterilization containing B. cereus is more than twice the energy is needed to eliminate E. coli. UV light more penetrates to cell wall of Gram-negative bacteria compared to Gram-positive bacteria due to having a small amount of peptidoglycan in the cell wall and caused mutations in regulating genes of transcription and translation.
Conclusion: The efficiency of the two main processes of cell is reduced in the presence of UV irradiation and leads to growth reduction and death. The more resistance of B. cereus can be for several reasons, such as having a thicker cell wall compared to E. coli, and the capability to produce spore, and the capability to proofing mutations.

کلیدواژه‌ها [English]

  • Escherichia coli
  • Bacillus cereus
  • Raw milk
  • Rice
  • Ultraviolet
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