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528 Part 4: Milk
Ono T et al. 1989. Subunit components of casein micelles from
bovine, ovine, caprine and equine milk.J Dairy Res56: 61–68.
Outram AK. 2009. The earliest horse harnessing and milking.Sci-
ence323: 1332–1335.
Pagliarini E et al. 1993. Chemical and physical characteristics of
mare’s milk.Ital J Food Sci4: 323–332.
Palmquist DL. 2006. Milk fat: origin of fatty acids and influence of
nutritional factors thereon. In: PF Fox, PLH McSweeney (eds.)
Advanced Dairy Chemistry, vol 2: Lipids, 3rd edn. Springer, New
York, pp. 43–92.
Park YW et al. 2006. Mare milk. In: YW Park, FW Haenlein (eds.)
Handbook of Non-bovine Mammals. Blackwell Publishing, Ox-
ford, pp. 275–296.
Parodi PW. 1982. Positional distribution of fatty acids in triglyc-
erides from milk of several species of mammals.Lipids17:
437–442.
Patton S. 1999. Some practical implications of the milk mucins.J
Dairy Sci82: 1115–1117.
Paulson M, Dejmek P. 1990. Thermal denaturation of whey pro-
teins in mixtures with caseins studied by differential scanning
calorimetry.J Dairy Sci73: 590–600.
Pelizzola V et al. 2006. Chemical-physical characteristics and fatty
acid composition of mare’s milk.Milchwissenschaft61: 33–
36.
P ́erez MD, Calvo M. 1995. Interaction ofβ-lactoglobulin with
retinol and fatty acids and its role as a possible biological function
for this protein: A review.J Dairy Sci78: 978–988.
P ́erez MD et al. 1993. Comparison of the ability to bind ligands
ofβ-lactoglobulin and serum albumin from ruminant and non-
ruminant species.JDairyRes60: 55–63.
Phadungath C. 2005. Casein micelle structure: a concise review.
Songklanakarin J Sci Technol27: 201–212.
Phelan M et al. 2009. Casein-derived bioactive peptides: Biological
effects, industrial uses, safety aspects and regulatory status.Intern
Dairy J19: 643–654.
Piccione G et al. 2008. Daily rhythmicity in nutrient content of
asinine milk.Livestock Sci116: 323–327.
Pieszka M, Kulisa M. 2005. Magnesium content in mares’ milk
and growth parameters of their foals.J Elementology10: 985–
990.
Pikul J, W ́ojtowski J. 2008. Fat and cholesterol content and fatty acid
composition of mares’ colostrums and milk during five lactation
months.Livestock Sci113: 285–290.
Pisano A et al. 1994. Characterization ofO-linked glycosylation
motifs in the glycopeptide domain of bovineκ-casein.Glycobi-
ology4: 837–844.
Plowman JE et al. 1999. Structural features of a peptide correspond-
ing to humanκ-casein residues 84–101 by 1H-nuclear magnetic
resonance spectroscopy.J Dairy Res66: 53–63.
Qi PX. 2007. Studies of casein micelle structure: the past and the
present.Lait87: 363–383.
Rainhard P. 1986. Bacteriostatic activity of bovine milk lactoferrin
against mastitic bacteria.Veter Microbiol11: 387–392.
Ramos JJ et al. 1994. Vitamin B12 levels in ewe colostrum and milk
and in lamb serum.Vet Res25: 405–409.
Rasmussen LK et al. 1995. Humanαs1-casein: purification and
characterization.Comp Biochem PhysiolB111: 75–81.
Rassin DK et al. 1978. Taurine and other free amino acids in milk
of man and other mammals.Early Hum Dev2/1: 1–13.
Restani P et al. 1995. Evaluation by SDS-PAGE and immunoblotting
of residual antigenicity in hydrolysed protein formulas.Clin Exp
Allergy25: 651–658.
Recio I et al. 2009. Bioactive components in sheep milk. In: Y.W.
Park (ed.),Bioactive Components in Milk and Dairy Products.
Wiley-Blackwell Publishers. Ames, IA, pp. 83–104.
Restani P et al. 2002. Cross-reactivity between mammalian proteins.
Ann Allergy Asthma Immunol89: 11–15.
Rudloff S, Kunz C. 1997. Protein and nonprotein nitrogen compo-
nents in human milk, bovine milk, and infant formula: Quanti-
tative and qualitative aspects in infant nutrition.J Pediatr Gas-
troenterol Nutr26: 328–344.
Saito T, Itoh T. 1992. Variations and distributions of
O-glycosidically linked sugar chains in bovineκ-casein.J Dairy
Sci75: 1768–1774.
Salimei E. 2011. Animals that produce dairy foods: Donkey. In: W.
Fuquay et al. (eds.)Encyclopedia of Dairy Sciences, vol 1, 2nd
edn. Elsevier. Oxford, pp. 365–373.
Salimei E et al. 2002. Major constituents leptin, and non-protein
nitrogen compounds in mares’ colostum and milk.Reprod Nutr
Dev42: 65–72.
Salimei E et al. 2004. Composition and characteristics of ass’ milk.
Anim Res53: 67–78.
Sarwar G et al. 1998. Free amino acids in milk of human subjects,
other primates and non-primates.Brit J Nutr79: 129–131.
Savage RJG, Long MR. 1986.Mammalian Evolution: an Illustrated
Guide. Natural History Museum, London.
Savalle B et al. 1988. Modelization of gastric digestion of milk pro-
teins. In: CA Barth, E Schlimme (eds.)Milk Proteins. Nutritional,
Clinical, Functional and Technological Aspects. Steinkopff Pub-
lishers, Darmstad, pp. 143–149.
Savilahti E, Kuitunen M. 1992. Allergenicity of cow milk proteins.
J Pediatr121: S12–S20.
Sawyer L. 2003.β-Lactoglobulin. In: PF Fox, PLH McSweeney
(eds.)Advanced Dairy Chemistry, vol. 1: Proteins, 3rd edn.
Kluwer Academic/Plenum Publishers, New York, pp. 319–
386.
Schaafsma G. 2003. Nutritional significance of lactose and lactose
derivatives. In: H Roginski, JW Fuquay, PF Fox (eds.)Ency-
clopedia of Dairy Science. Academic Press, London, pp. 1529–
1533.
Schmidt DG et al. 1995. Raising the pH of the pepsin-catalyzed
hydrolysis of bovine whey proteins increases the antigenicity of
the hydrolysates.Clin Exp Allergy25: 1007–1017.
Schryver HF et al. 1986. Lactation in the horse: the mineral com-
position of mare milk.J Nutr116: 2142–2147.
Sellnow L. 2006. Food Factory. Article 10, Equine Anatomy and
Physiology. Available at http://www.thehorse.com/pdf/anatomy/
anatomy10.pdf. Accessed on October 3, 2010.
Selo I et al. 1999. Allergy to bovine ́ β-lactoglobulin: specificity
of human IgE to tryptic peptides.Clin Exp Allergy29: 1055–
1063.
Shah NP. 2000. Effects of milk-derived bioactives: an overview.
Brit J Nutr84: S3–S10.
Shekar CP et al. 2006.κ-Casein-deficient mice fail to lactate.Proc
Natl Acad Sci U S A103: 8000–8005.
Shimazaki KI et al. 1994. Comparative study of the iron-binding
strengths of equine, bovine and human lactoferrins.J Dairy Res
61: 563–566.