Abstract
Ruminants have a very complex digestive system adapted for the digestion of cellulose rich food. Gene duplications have been central in the process of adapting their digestive system for this complex food source. One of the new loci involved in food digestion is the lysozyme c locus where cows have ten active such genes compared to a single gene in humans and where four of the bovine copies are expressed in the abomasum, the real stomach. The second locus that has become part of the ruminant digestive system is the chymase locus. The chymase locus encodes several of the major hematopoietic granule proteases. In ruminants, genes within the chymase locus have duplicated and some of them are expressed in the duodenum and are therefore called duodenases. To obtain information on their specificities and functions we produced six recombinant proteolytically active duodenases (three from cows, two from sheep and one from pigs). Two of the sheep duodenases were found to be highly specific tryptases and one of the bovine duodenases was a highly specific asp-ase. The remaining two bovine duodenases were dual enzymes with potent tryptase and chymase activities. In contrast, the pig enzyme was a chymase with no tryptase or asp-ase activity. These results point to a remarkable flexibility in both the primary and extended specificities within a single chromosomal locus that most likely has originated from one or a few genes by several rounds of local gene duplications. Interestingly, using the consensus cleavage site for the bovine asp-ase to screen the entire bovine proteome, it revealed Mucin-5B as one of the potential targets. Using the same strategy for one of the sheep tryptases, this enzyme was found to have potential cleavage sites in two chemokine receptors, CCR3 and 7, suggesting a role for this enzyme to suppress intestinal inflammation.
Funder
Knut och Alice Wallenbergs Stiftelse
Publisher
Public Library of Science (PLoS)
Reference52 articles.
1. Mouse lysozyme M gene: isolation, characterization, and expression studies;M Cross;Proc Natl Acad Sci U S A,1988
2. Genomic organization and evolution of ruminant lysozyme c genes;DM Irwin;Dongwuxue Yanjiu,2015
3. Evolution of cow nonstomach lysozyme genes. Genome/National Research Council Canada = Genome/Conseil national de recherches;DM Irwin;Canada,2004
4. Structural deviations in a bovine low expression lysozyme-encoding gene active in tissues other than stomach;M Henke;Gene,1996
5. Changes of protein content and its fractions in bovine milk from different breeds subject to somatic cell count;Z Litwinczuk;J Dairy Sci,2011
Cited by
6 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献