Genetic and nutritional regulation of lamb growth and muscle characteristics
R. S. Hegarty A D , R. D. Warner B and D. W. Pethick CA Beef Industry Centre of Excellence, NSW Department of Primary Industries, Armidale, NSW 2351, Australia.
B Department of Primary Industries, 600 Sneydes Road, Werribee, Vic. 3030, Australia.
C School of Veterinary and Biomedical Science, Murdoch University, Murdoch, WA 6150, Australia.
D Corresponding author. Email: roger.hegarty@dpi.nsw.gov.au
Australian Journal of Agricultural Research 57(6) 721-730 https://doi.org/10.1071/AR06105
Submitted: 4 April 2006 Accepted: 17 May 2006 Published: 20 June 2006
Abstract
Combined actions of nutrition and genetic regulation of the growth rate of lambs as well as the physical, biochemical, and eating quality characteristics of their skeletal muscle were assessed in a major field experiment. Data arising were collated and integrated to consolidate findings made at the farm, animal, tissue, cellular, and gene expression levels. At the farm level, increased nutrient availability significantly increased the growth rate of crossbred lambs and increased the growth advantage resulting from the use of sires with high estimated breeding values (EBV) for growth. In contrast, the extra depth of the M. longissimus thoracis et lumborum (EMD) arising from sires with a higher EBV for this trait was constant irrespective of nutrition. Ewe liveweight and body condition were critical in determining the pre-weaning nutrition and growth of lambs, with the LOW plane of nutrition causing stunting of forelimb bones and changes to the allometric growth coefficients for carcass lean and fat. The EBV of the sire for muscling (PEMD) influenced several non-muscling traits, and interactions with nutrition suggested that on HIGH nutrition, absorbed nutrients were partitioned away from wool and fat accretion and towards protein accretion in lambs having superior muscling genetics. Expression levels of known myogenic factors in muscle, together with a suite of peptides and proteins whose identity and levels were determined by proteomic screening, contributed to improved understanding of the mechanisms underpinning nutritional and genetic regulation of skeletal muscle development. The study revealed the need for caution in the use of indirect markers of growth or composition, with their usefulness being constrained if the localisation of the response to selection is specific to parts of the carcass where the selection had initially been concentrated. As well, the possibility that much of the variation explained by potential physiological markers can be accounted for by non-invasive measures of growth and fatness currently used by Australian farmers must be considered.
Additional keywords: genetic potential, gene expression, undernutrition, lamb, proteomics.
Acknowledgments
The research reported in this manuscript was supported by Meat and Livestock Australia and by the Sheep Industry Cooperative Research Centre. Semen used was donated by the source studs and this contribution is acknowledged with thanks. Particular thanks go to technical staff at the NSW Beef Industry Centre for assisting in the conduct of the field experiment and analysis and to the other scientists and laboratories who have completed analysis of samples from this experiment and whose results are reported in this volume. Dr David Hopkins is thanked for his enthusiasm and persistence in assisting authors to submit material for this volume, and Roger Hegarty thanks his co-authors and Dr Rob Banks for their committed managerial support for this collaborative research initiative.
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