Genetic variability of muscle biological characteristics of young Limousin bulls

Renand, Gilles; Jurie, Catherine; Robelin, J.; Picard, Brigitte; Geay, Y.; Ménissier, François

doi:10.1186/1297-9686-27-3-287

Cited by 14 publications

(10 citation statements)

References 11 publications

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“…The only estimate found in the literature is a value of 0.46 for the heritability of LDH activity [38], but the muscle involved was not clearly specified. In other species, heritability values for LDH activity were of medium magnitude: 0.28 in cattle [28] and 0.26 in mice [22]. Results on isocitrate dehydrogenase activity in cattle [28] suggested that the heritability of muscle oxidative enzyme activities could depend on the metabolic type of the muscle, and this pattern was also found here for CS activity which was more heritable in 'red-type' than in 'white-type' muscles.…”

supporting

confidence: 71%

“…In other species, heritability values for LDH activity were of medium magnitude: 0.28 in cattle [28] and 0.26 in mice [22]. Results on isocitrate dehydrogenase activity in cattle [28] suggested that the heritability of muscle oxidative enzyme activities could depend on the metabolic type of the muscle, and this pattern was also found here for CS activity which was more heritable in 'red-type' than in 'white-type' muscles. Heritability values for myofibre percentages were much higher than the previous estimates (0.14 to 0.16) [7].…”

supporting

confidence: 71%

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Selection for reduced muscle glycolytic potential in Large White pigs. II. Correlated responses in meat quality and muscle compositional traits

Larzul¹,

Roy²,

Gogué³

et al. 1999

Genet Sel Evol

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supporting

confidence: 71%

supporting

confidence: 71%

Selection for reduced muscle glycolytic potential in Large White pigs. II. Correlated responses in meat quality and muscle compositional traits

Larzul¹,

Roy²,

Gogué³

et al. 1999

Genet Sel Evol

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“…human, cattle, pig, sheep and mouse). of the MHC 1 percentage in Limousin bulls was estimated at 35% (0.27) in the semitendinosus and 41% (0.28) in the longissimus thoracis muscle (Renand et al 1995). The heritability found in the present study was lower than performance values in gallop racing 25% (Langlois et al 1996) or show jumping 20% (Tavernier 1986).…”

Section: Discussionmentioning

confidence: 45%

Heritability of percentage of fast myosin heavy chains in skeletal muscles and relationship with performance

Barrey

Valette

Jouglin

et al. 1999

Equine Veterinary Journal

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Summary The purpose of this study was to determine the percentage of fast myosin heavy chains (fast MHCs = MHC 2A+2B) in 2 propelling muscles to estimate the heritability and to identify any relationship with performance. The gluteus medius and the biceps femoris muscles were biopsied in 100 related French Anglo‐Arabian horses. The percentages of slow and fast myosin heavy chains were measured using an ELISA technique. The heritability (s.e.) of the fast MHCs percentage was estimated at 13% (0.1) using a restricted maximum likelihood resolution of a mixed animal model. There were significant (P<.05) correlations between the performance level and the fast MHCs percentage of the gluteus medius and biceps femoris muscles: 0.47 and 0.34 respectively. An analysis of variance revealed a significant (P<.05) effect of performance level in gallop racing and show jumping on the fast MHCs percentage of the gluteus medius muscle. The good performers in gallop racing (75.5>69.6% fast MHCs) and show jumping (74.1>67.8% fast MHCs) had a higher percentage of fast MHCs in the gluteus medius than poor performers (P<.05). This muscular analysis could be one of the interesting physiological traits to measure for early selection of gallop racing and show jumping horses.

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“…Although no breed effect was found in this study, the inconsistencies would be assigned to the use of continental breeds, which differ on their maturity and typology compared to British breeds . The source of variation would be partly due to genetic variability that was not controlled in this trial, but it is known to affect both animal and growth performance as well as their carcass traits …”

Section: Discussionmentioning

confidence: 82%

“…Furthermore, previous studies reported that there is a large individual variation in beef tenderness within animals and also between animals with similar breed, sex, age and fattening system. Earlier studies at the breed or muscle level have shown that the genetic effect alone cannot explain the observed differences in carcass and meat traits because the genetic control was weak within breeds . In this context, the main objective of the beef sector is a better understanding of the variability existing between or within individuals.…”

Section: Introductionmentioning

confidence: 99%

Assessment of cattle inter‐individual cluster variability: the potential of continuum data from the farm‐to‐fork for ultimate beef tenderness management

2019

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BACKGROUND This study implemented a holistic approach based on the farm‐to‐fork data at the four levels of the continuum (farm – slaughterhouse – muscle – meat) to study the inter‐individual cluster variability of beef tenderness. For that, 171 young bulls were selected on a large database of 480 animals according to the industrial expectations based on animal and carcass characteristics. The targeted factors were age at slaughter (14; 20 months), carcass weight (370; 470 kg), EUROP conformation (7; 15) and fatness (2.5; 5) scores of the carcasses. Multivariate analyses and unsupervised learning tools were performed. RESULTS Principal component analysis combined to agglomerative hierarchical clustering allowed ten clusters to be identified that differed (P < 0.0001) for the four targeted factors. The clusters were further different for variables belonging to each level of the continuum. The results indicated an inter‐individual cluster variability rising in tenderness in link with the continuum data grouped according to industrial expectations. The associations of the whole variables of the continuum with tenderness were very important, but farm‐to‐fork continuum‐levels dependent. The findings showed that the variables contributing most to the inter‐individual cluster variability of tenderness seemed to be more related to the rearing practices, mainly feeding, and their consequences on carcass properties rather than to the muscle characteristics evaluated by enzyme metabolism and connective tissue. CONCLUSION It seems that considering the continuum data would allow possible trade‐off managements of tenderness to identify levers at different levels from the farm‐to‐meat. © 2019 Society of Chemical Industry

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Genetic variability of muscle biological characteristics of young Limousin bulls

Cited by 14 publications

References 11 publications

Selection for reduced muscle glycolytic potential in Large White pigs. II. Correlated responses in meat quality and muscle compositional traits

Selection for reduced muscle glycolytic potential in Large White pigs. II. Correlated responses in meat quality and muscle compositional traits

Heritability of percentage of fast myosin heavy chains in skeletal muscles and relationship with performance

Assessment of cattle inter‐individual cluster variability: the potential of continuum data from the farm‐to‐fork for ultimate beef tenderness management

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