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11	Effects of ingredients used in condensed and frozen dairy products on thermal resistance of a potentially pathogenic staphylococci Kadan, Ranjit S. January 1962 (has links) LD2668 .T4 1962 K34 Staphylococcus. Dairy microbiology. Dairy products. Masters theses
12	Sanitizer efficacy towards attached bacteria in a simulated milk pipeline system using pure and mixed cultures / Mosteller, Tracy M., January 1993 (has links) Thesis (Ph. D.)--Virginia Polytechnic Institute and State University, 1993. / Vita. Abstract. Includes bibliographical references (leaves 159-185). Also available via the Internet.
13	Studies in dairy bacteriology Franklin, U. D. January 1923 (has links) Master of Science LD5655.V855 1923.F726B Dairy microbiology
14	Destruction of E. coli, Strain W, during the manufacture of cottage cheese Vecchionacce Iglesias, Romulo Alfredo. January 1978 (has links) Call number: LD2668 .T4 1978 V43 / Master of Science Dairy microbiology. Cottage cheese. Escherichia coli. Masters theses
15	Effect of selected lactic acid bacteria on the growth of food-borne pathogens and spoilage microorganisms in raw milk and milk products Al-Zoreky, Nageb 27 August 1992 (has links) Several lactic acid bacteria (LAB) of the Lactococcus, Lactobacillus, Leuconostoc and Pediococcus genera were screened for inhibition of food-borne pathogens and spoilage microorganisms in raw milk and dairy products. Listeria monocytogenes was killed by Lactococcus lactis subsp. lactis and Pediococcus pentosaceus due to their production of bacteriocin-type inhibitors. Staphylococcus aureus was not able to grow in raw milk at temperatures below 5°C even without LAB being present. Gram negative Salmonella enteritidis. Salmonella typhimurium and Escherichia coli, along with spoilage bacteria of the genus Pseudomonas were dramatically inhibited by a Lactobacillus species, designated AS-1, in raw and pasteurized milk as well as in cottage cheese. However, other LAB were not able to inhibit these organisms. Lactobacillus AS-1, did not produce hydrogen peroxide but carbon dioxide was produced. The AS-1 strain was a gram positive coccobacillus, catalase and oxidase negative and produced DL-lactic acid. It deaminated arginine and grew over a temperature range of 5°C to 45°C. It was also able to ferment glucose, galactose, fructose and lactose in addition to 17 other carbohydrates. High numbers (107 CFU/ml) of AS-1 were required to obtain complete inhibition of gram negative bacteria. A selective medium (ASLM) for Listeria monocytogenes was developed to follow the fate of this particular pathogen in association with LAB in raw milk; other selective media were not able to inhibit the growth of background flora of raw milk. ASLM was superior to four other media in allowing only the growth of the target pathogen. For the Lactococcus genus, a selective and differential agar medium (Alsan) was formulated to selectively allow growth of Lactococcus spp. and to differentiate between Lactococcus lactis subsp. lactis and the biovariety diacetylactis, based on citrate utilization. / Graduation date: 1993 Milk -- Microbiology Dairy microbiology Dairy products -- Contamination Lactic acid bacteria
16	Effects of propionibacterial metabolites on spoilage and pathogenic bacteria in dairy products Teo, Alex Yeow-Lim 28 October 1993 (has links) Graduation date: 1994 Dairy products -- Preservation Dairy products -- Contamination Propionibacteriaceae Dairy microbiology
17	EFFECTS OF AFLATOXIN B₁ AND M₁ ON LACTOBACILLUS BULGARICUS AND STREPTOCOCCUS THERMOPHILUS IN FERMENTED DAIRY PRODUCTS Mahdi, Hussain Ahmed January 1982 (has links) No description available. Aflatoxins. Dairy microbiology. Dairy products. Lactobacillus bulgaricus. Streptococcus thermophilus.
18	Studies on enhancing the viability and survival of probiotic bacteria in dairy foods through strain selection and microencapsulation / Yam Godward, Georgia Nga-Mun. January 2000 (has links) Thesis (M.Sc.) (Hons.) -- University of Western Sydney, Hawkesbury, 2000. / A thesis presented for the fulfilment of Master of Science (Honours), Centre for Advanced Food Research, School of Science, Food and Horticulture, University of Western Sydney, Hawkesbury, December 2000. Spine title : Survival of probiotic bacteria in dairy foods. Bibliography : leaves 228-244.
19	Impact of low-frequency high-power ultrasound on spoilage and potentially pathogenic dairy microbes / Cameron, Michelle. January 2007 (has links) Dissertation (PhD)--University of Stellenbosch, 2007. / Bibliography. Also available via the Internet.
20	Studies on enhancing the viability and survival of probiotic bacteria in dairy foods through strain selection and microencapsulation Yam Godward, Georgia Nga-Mun, University of Western Sydney, Hawkesbury, Faculty of Science and Technology, School of Science, Food and Horticulture January 2000 (has links) In this study, strains of probiotic bacteria have been selected for tolerance to low pH, bile, sucrose, oxygen in media and low storage temperatures. Lactobacillus acidophilus 2401 and Bifidobacterium infantis 1912 were selected as strains able to survive in these conditions. These two strains were then offered further protection from the adverse conditions of food processing and storage by microencapsulation in a calcium alginate and starch gel matrix. Encapsulation in calcium alginate increases survival in yoghurt. In cheddar cheese the free L. acidophilus 2401 and B. infantis 1912 cells survived better than the encapsulated cells, probably due to the dense nature of the cheddar cheese matrix combined with the encapsulation restricting the flow of the nutrients and metabolites between the outside environment and the cells. In ice cream survival was high, probably due to the high fat and solids nature of the ice cream combined with the low storage temperature. The trial results of the laboratory scale production was consistent with the survival results for yoghurt and cheddar cheese. Incorporation of encapsulated probiotic bacteria into ice cream and cheddar cheese was acceptable by sensory standards and largely unnoticeable in comparison with the same foods without capsules. The capsules were visible and able to be felt on the tongue when eaten in yoghurt causing the product to be disliked by the panellists. / Master of Science (Hons) dairy products microencapsulation probiotic bacteria dairy microbiology Lactobacillus acidophilus Bifidobacterium infantis

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