D. Barboiron, N. Chadeyron, G. Guivier, C. Gentès, and . Legay, Les animaux ont été obtenus dans le cadre d'un financement par l'Agence Nationale de la Recherche et APIS-GENE (projet MUGENE). Les auteurs remercient l'unité expérimentale de l'INRA de Bourges et l'abattoir expérimental de Theix. Ils remercient également C, Ce travail a été réalisé dans le cadre du programme européen ProSafeBeef (FOODCT-2006-36241) et détaillé dans Animal Science Journal, vol.83, pp.750-758, 2012.

A. E. Teuscher, F. Ender, K. Wegner, and J. , Growth-and breed-related changes of marbling characteristics in cattle, Journal of Animal Science, vol.84, pp.1067-1075, 2006.

C. Bernard, I. Cassar-malek, G. Renand, and J. F. Hocquette, Changes in muscle gene expression related to metabolism according to growth potential in young bulls, Meat Science, vol.82, pp.205-212, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01193476

A. M. Brandstetter, H. Sauerwein, J. H. Veerkamp, Y. Geay, and J. F. Hocquette, Effects of muscle type, castration, age and growth rate on H-FABP expression in bovine skeletal muscle, Livestock Production Science, vol.75, pp.199-208, 2002.

I. Cassar-malek, J. F. Hocquette, C. Jurie, A. Listrat, R. Jailler et al., Muscle-specific metabolic, histochemical and biochemical responses to a nutritionally induced discontinuous growth path, Animal Science, vol.79, pp.49-59, 2004.

D. S. Cianzo, D. G. Topel, G. B. Whitehurst, D. C. Beitz, and H. L. Self, Adipose tissue growth and cellularity: changes in bovine adipocyte and number, Journal of Animal Science, vol.60, pp.970-976, 1985.

M. Damon, I. Louveau, L. Lefaucheur, B. Lebret, A. Vincent et al., Number of intramuscular adipocytes and fatty acid binding protein-4 content are significant indicators of intramuscular fat level in crossbred Large White × Duroc pigs, Journal of Animal Science, vol.84, pp.1083-1092, 2006.
URL : https://hal.archives-ouvertes.fr/hal-02657010

C. Denoyelle, Evolution de la flaveur de la viande bovine en fonction de la teneur en lipides intra-musculaires. Viandes et Produits Carnés, vol.16, pp.89-92, 1995.

G. Destefanis, M. T. Barge, A. Brugiapaglia, and S. Tassone, The use of principal component analysis (PCA) to characterize beef, Meat Science, vol.56, pp.255-259, 2000.

F. Gondret, J. F. Hocquette, and P. Herpin, Age-related relationships between muscle fat content and metabolic traits in growing rabbits, Reproduction Nutrition Development, vol.44, pp.1-16, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00900472

J. F. Hocquette, F. Gondret, E. Baéza, F. Médale, C. Jurie et al., Intramuscular fat content in meat-producing animals: development, genetic and nutritional control, identification of putative markers, Animal, vol.4, pp.303-319, 2010.

C. Jurie, I. Cassar-malek, M. Bonnet, C. Leroux, D. Bauchart et al., Adipocyte fatty acid-binding protein and mitochondrial enzyme activities in muscles as relevant indicators of marbling in cattle, Journal of Animal Science, vol.85, pp.2660-2669, 2007.
URL : https://hal.archives-ouvertes.fr/hal-02656889

B. Picard, J. F. Hocquette, F. Bornes, S. Brazi, M. Vermorel et al., Muscle metabolism in normal and double muscled calves fiber characteristics and glucose transport rate, Energy Metabolism of Farm Animals, 13 th Symposium on Energy Metabolism of Farm Animals. 18-24 September, pp.97-100, 1994.

B. Picard, C. Barboiron, M. P. Duris, H. Gagnière, C. Jurie et al., Electrophoretic separation of bovine muscle myosin heavy chain isoforms, Meat Science, vol.53, pp.1-7, 1999.

B. Picard, C. Jurie, M. P. Duris, and G. Renand, Consequences of selection for higher growth rate on muscle fibre development in cattle, Livestock Production Science, vol.102, pp.107-120, 2005.
URL : https://hal.archives-ouvertes.fr/hal-02654026

G. Renand, B. Picard, C. Touraille, P. Berge, and J. Lepetit, Relationship between muscle characteristics and meat quality traits of young Charolais bulls, Meat Science, vol.59, pp.49-60, 2001.

J. Robelin and Y. Geay, Estimation de la composition de la carcasse des taurillons à partir de la composition de la 6 ème côte, Bulletin Technique CRZV INRA-Theix, vol.22, pp.41-44, 1975.

G. Saez, S. Davail, G. Gentès, J. F. Hocquette, T. Jourdan et al., Gene expression and protein content in relation to intramuscular fat content in Muscovy and Pekin ducks, SAS user's guide, vol.88, pp.2382-2391, 1996.

N. D. Scollan, D. Dannenberger, K. Nuernberg, I. Richardson, S. Mackintosh et al., Enhancing the nutritional and health value of beef lipids and their relationship with meat quality, Meat Science, vol.97, pp.384-394, 2014.
URL : https://hal.archives-ouvertes.fr/hal-02639346

K. Sudre, I. Cassar-malek, A. Listrat, Y. Ueda, C. Leroux et al., , 2005.

, Biochemical and transcriptomic analyses of two bovine skeletal muscles in Charolais bulls divergently selected for muscle growth, Meat Science, vol.70, pp.267-277

A. Talmant, G. Monin, M. Briand, M. Dadet, and Y. Briand, Activities of metabolic and contractile enzymes in 18 bovine muscles, Meat Science, vol.18, pp.23-40, 1986.

G. K. Totland and H. Kryvi, Distribution patterns of muscle fibre types in major muscles of the bull, 1991.

, Anatomical Embryology, vol.184, pp.441-450

Y. H. Wang, K. A. Byrne, A. Reverter, G. S. Harper, M. Taniguchi et al., Transcriptional profiling of skeletal muscle tissue from two breeds of cattle, Mammalian Genome, vol.16, pp.201-210, 2005.

A. K. Youssao, G. Renand, B. Picard, C. Jurie, and P. Berge, Variabilité génétique de caractéristiques biologiques du muscle chez des taurillons Charolais. Viandes et Produits Carnés, hors-série, pp.29-30, 2004.