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An assessment of the contribution of plant proteinases to proteolytic digestion in the rumen of sheep

Published online by Cambridge University Press:  20 November 2017

R. J. Wallace ,
S. J. A. Wallace  and
N. McKain
R. J. Wallace
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen AB21 9SB, UK
S. J. A. Wallace
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen AB21 9SB, UK
N. McKain
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen AB21 9SB, UK
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Extract

Protein breakdown in the rumen often leads to excessive ammonia production and inefficient use of dietary protein by ruminants (Wallace et al., 1997). Attention has for many years focussed on the proteolytic activity of ruminal microorganisms (Wallace et al., 1997). The wide variety of proteolytic species and proteolytic enzymes and their between-animal variability has made the task of decreasing microbial proteolytic activity difficult (Falconer & Wallace 1999). Much less attention has been paid to the contribution of proteinases originating from the feed. In particular, grass cells contain vacuoles harbouring broad spectrum proteinases which are known to be responsible for protein breakdown in the silo (Wetherall et al., 1995). Theodorou et al. (1996) proposed that much of the rapid release of ammonia in grazing animals might be initiated by the action of plant, rather than microbial, proteinases. The present study was undertaken to compare the proteolytic activities of fresh grass and ruminal microorganisms and to evaluate their likely contributions to ammonia production in the rumen.

Type
Theatre Presentations
Information
Proceedings of the British Society of Animal Science , Volume 2000 , 2000 , pp. 5
Copyright
Copyright © The British Society of Animal Science 2000

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References

Falconer, M.L. and Wallace, R.J. 1998. Variation in proteinase activities in the rumen. Journal of Applied Microbiology 84: 377382.CrossRefGoogle ScholarPubMed
Theodorou, M.K., Merry, R.J. and Thomas, H. 1996. Is proteolysis in the rumen of grazing animals mediated by plant enzymes? British Journal of Nutrition 75: 507510.CrossRefGoogle ScholarPubMed
Wallace, R.J. 1983 Hydrolysis of 14C-labelled proteins by rumen microorganisms and by proteolytic enzymes prepared from rumen bacteria British Journal of Nutrition 50: 345355.CrossRefGoogle ScholarPubMed
Wallace, R.J., Onodera, R. and Cotta, M.A. 1997. Metabolism of nitrogen-containing compounds. In : The rumen microbial ecosystem (Hobson, P.N. and Stewart, C.S. Eds), Blackie Academic and Profesionnal, London. PP 283328.CrossRefGoogle Scholar
Wetherall, J.A., Armstrong, D.G., Finlayson, H.J. and Rooke, J.A. 1995. Reduction of proteolysis during ensilage of perennial ryegrass by protease inhibitors. Journal of the Science of Food and Agriculture 68: 497505 CrossRefGoogle Scholar