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Full-Text Articles in Medicine and Health Sciences
Tensile Testing To Quantitate The Anisotropy And Strain Hardening Of Mozzarella Cheese, Ramona Bast, Prateek Sharma, Hannah K.B. Easton, Tzvetelin T. Dessev, Mita Lad, Peter A. Munro
Tensile Testing To Quantitate The Anisotropy And Strain Hardening Of Mozzarella Cheese, Ramona Bast, Prateek Sharma, Hannah K.B. Easton, Tzvetelin T. Dessev, Mita Lad, Peter A. Munro
Nutrition, Dietetics, and Food Sciences Faculty Publications
We explored anisotropy of mozzarella cheese: its presence is debated in the literature. Tensile testing proved a good method because the location and mode of failure were clear. Mozzarella cheese cut direct from the block showed no significant anisotropy, though confocal microscopy showed good structure alignment at a microscale. Deliberately elongated mozzarella cheese showed strong anisotropy with tensile strength in the elongation or fibre direction ∼3.5× that perpendicular to the fibres. Temperature of elongation had a marked impact on anisotropy with maximum anisotropy after elongation at 70 °C. We suggest the disagreement on anisotropy in the literature is related to …
Genetic Mechanisms Underlying The Pathogenicity Of Cold-Stressed Salmonella Enterica Serovar Typhimurium In Cultured Intestinal Epithelial Cells, J. Shah, P. T. Desai, B. C. Weimer
Genetic Mechanisms Underlying The Pathogenicity Of Cold-Stressed Salmonella Enterica Serovar Typhimurium In Cultured Intestinal Epithelial Cells, J. Shah, P. T. Desai, B. C. Weimer
Nutrition, Dietetics, and Food Sciences Faculty Publications
Salmonella encounters various stresses in the environment and in the host during infection. The effects of cold (5 C, 48 h), peroxide (5 mM H2O2, 5 h) and acid stress (pH 4.0, 90 min) were tested on pathogenicity of Salmonella. Prior exposure of Salmonella to cold stress significantly (P < 0.05) increased adhesion and invasion of cultured intestinal epithelial (Caco-2) cells. This increased Salmonella-host cell association was also correlated with significant induction of several virulence-associated genes, implying an increased potential of cold-stressed Salmonella to cause an infection. In Caco-2 cells infected with cold-stressed Salmonella, genes involved in the electron transfer chain were significantly induced, but no simultaneous significant increase in expression of antioxidant genes that neutralize the effect of superoxide radicals or reactive oxygen species was observed. Increased production of caspase 9 and caspase 3/7 was confirmed during host cell infection with cold-stressed Salmonella. Further, a prophage gene, STM2699, induced in cold-stressed Salmonella and a spectrin gene, SPTAN1, induced in Salmonella-infected intestinal epithelial cells were found to have a significant contribution in increased adhesion and invasion of cold-stressed Salmonella in epithelial cells.