Therese Uniacke scite author profile

In this study, effects of high pressure (HP) on some constituents and properties of buffalo milk were examined. HP treatment at 100–600 MPa for 30 min affected casein micelle size only slightly, whereas treatment at 800 MPa increased it by ~35%. Levels of non-micellar αs1- and β-caseins were increased by treatment [ges ]250 MPa, and were highest after treatment at 400–800 MPa. The level of non-micellar calcium increased with increasing pressure up to 600 MPa. The L*-value of the milk decreased gradually with increasing pressure, from ~82 for untreated milk to ~65 for milk treated at 800 MPa. Milk pH was increased by ~0·07 units after treatment at 100–800 MPa, with no significant difference between treatment pressures. Denaturation of α-lactalbumin occurred at pressures [ges ]400 MPa, and reached >90% after treatment at 800 MPa, whereas β-lactoglobulin (β-lg) was denatured >100 MPa, reaching ~100% after treatment at 400 MPa; after treatment [ges ]400 MPa, all β-lg was associated with the casein micelles. The rennet coagulation time of buffalo milk increased with increasing pressure, whereas the strength of the coagulum formed decreased after treatment at 250–800 MPa. Overall, HP treatment affected many constituents and properties of buffalo milk; some of these effects have also been observed in the milk from other species, but the extent of the effects, and the pressure at which they occurred, differed considerably.

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Inhibition of the proteolytic activity of indigenous plasmin or exogenous chymosin and pepsin in bovine milk by blood serum

Huppertz

Uniacke

Kelly

et al. 2006

International Dairy Journal

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Ripening of Camembert‐type cheese made from caprine milk using calf rennet or kid rennet as coagulant

O'sullivan

Sousa

O'grady‐Walsh

et al. 2005

Int J of Dairy Tech

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Camembert‐type cheese was made from caprine milk using either calf rennet or kid ‘Grandine’ rennet as coagulant. The pH of all cheeses increased throughout ripening and levels of pH 4.6‐soluble nitrogen increased from 8.1 to 18.2% of total nitrogen (TN) and from 6.9 to 20% TN for the cheeses made using calf rennet and kid rennet, respectively. Degradation of β‐casein, measured by urea–polyacrylamide gel electrophoresis, and total and free amino acids were greater in the cheese made using kid rennet. Production of peptides, analysed by high performance liquid chromatography (HPLC), was slightly more extensive in the Camembert‐type cheese made using calf rennet as coagulant. In general, a higher degree of proteolysis was found in Camembert‐type cheese made from caprine milk using kid rennet than in cheese made using calf rennet as coagulant.

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Therese Uniacke

High-pressure-induced changes in the rennet coagulation properties of bovine milk

Effects of high pressure treatment on the rennet coagulation and cheese-making properties of heated milk

Effects of high pressure on some constituents and properties of buffalo milk

Inhibition of the proteolytic activity of indigenous plasmin or exogenous chymosin and pepsin in bovine milk by blood serum

Ripening of Camembert‐type cheese made from caprine milk using calf rennet or kid rennet as coagulant

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