Alternative Splicing of Lactophorin mRNA from Lactating Mammary Gland of the Camel (Camelus dromedarius)

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Journal of Dairy Science Vol. 82 No. 10 2084-2093
© 1999 by American Dairy Science Association ®

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Alternative Splicing of Lactophorin mRNA from Lactating Mammary Gland of the Camel (Camelus dromedarius)

S. Kappeler ¹, Z. Farah ¹, and Z. Puhan ¹

¹ Laboratory of Dairy Science, Institute of Food Science, Swiss Federal Institute of Technology, CH-8092 Zurich, Switzerland

The objective of this study was to determine the correctedstructure of lactophorin, a major whey protein in camel milk.The protein had 60.4% amino acid sequence identity to a proteosepeptone component 3 protein from bovine whey and 30.3% identityto the glycosylation-dependent cell adhesion molecule 1 in mice.The N-terminal heterogeneity of the protein was a result ofalternative mRNA splicing. About 75% of the protein was expressedas a long variant A with 137 amino acid residues and a molecularmass of 15.7 kDa; about 25% was as a short variant B with 122amino acid residues and a molecular mass of 13.8 kDa. Both proteinsare probably threefold phosphorylated. In contrast to the relatedproteins, no glycosylation was found in camel lactophorin. Becauseof this difference, specific interaction with carbohydrate bindingproteins, as reported for the murine protein, can be excluded,and a function of the protein other than cell recognition orrotaviral inhibition is proposed. The concentration of lactophorinin camel milk was found to be about three times higher thanthe concentration of the bovine homologue in bovine milk. Pronouncedsimilarities existed between the primary and secondary structuresof bovine and camel proteins. We speculated that camel lactophorinhas a similar function to that of bovine protein in milk, whichis supposed to be the prevention of fat globule aggregationand the inhibition of spontaneous lipolysis by lipo-proteinlipase.

Key Words: lactophorin • proteose-peptone component 3 • alternative mRNA splicing

Submitted on January 5, 1999
Accepted on June 1, 1999

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