MEAT SCIENCE AND MUSCLE BIOLOGY SYMPOSIUM: Manipulating mesenchymal progenitor cell differentiation to optimize performance and carcass value of beef cattle1,2

Du, Min; Huang, Yan; Das, A. K.; Yang, Qiyuan; Duarte, Márcio de Souza; Dodson, M. V.; Zhu, Mei‐Jun

doi:10.2527/jas.2012-5670

Cited by 191 publications

(154 citation statements)

References 94 publications

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“…Within pasture-based nutritional systems similar to the present study, neither birth weight or varying maternal nutrition at pasture during pregnancy affected rib fat depth, P8 rump fat depths, MSA marbling score, or LM IMF content in Bos taurus cattle at heavy market weights (380 kg average carcass weight; Greenwood et al, 2006;Greenwood and Cafe, 2007;Robinson et al, 2013). These findings are at odds with the suggestion, based largely on more mechanistic evidence within fetal life and in species other than cattle, that nutrition during gestation may alter fatness and marbling at market weights (Du et al, 2013). In contrast, better maternal nutrition from birth to weaning within pasture-based systems resulted in more rapid growth of offspring and a small but persistent increase in carcass fatness, but not in marbling (Greenwood et al, 2006Robinson et al, 2013), consistent with lack of effect of initial BW (which is indicative of growth and nutrition to weaning) on marbling score or on IMF content of the 5 muscles in the present study.…”

Section: Discussioncontrasting

confidence: 56%

Postweaning substitution of grazed forage with a high-energy concentrate has variable long-term effects on subcutaneous fat and marbling in Bos taurus genotypes1

Greenwood

Siddell

Walmsley

et al. 2015

Journal of Animal Science

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ABSTRACT:The objective of this study was to quantify the effects and interactions of stage of growth and genotype on commercial carcass traits and intramuscular fat (IMF) content in 5 muscles of Bos taurus steers (n = 165) and to test the hypothesis that substituting pasture with a high-energy concentrate during the immediate postweaning period increases IMF. Cattle of 3 genotypes (Angus, Hereford, and Wagyu × Angus; n = 55/genotype) were selected at weaning from commercial herds, targeting genotypic differences in marbling and subcutaneous fatness. Following weaning, steers were fed for 168 d within 2 different improved, temperate pasture-based nutritional systems: a forage-only system (FS) and forage with high-energy supplemented system (SS), with 2 replicates per system. The supplement was fed at a level of 1% of average BW adjusted every 2 wk to provide an estimated 50% of energy requirements for 168 d from weaning. Pasture on offer in both systems was managed to match the BW of the FS and SS steers during the postweaning treatment period to avoid confounding due to differences in growth rate during this period. Steers were then regrouped into 2 replicates and backgrounded on improved, temperate pasture for 158 d and then grain fed within 1 group for 105 d (short fed) or 259 d (long fed). Groups were slaughtered at commencement (d 0) and end of postweaning nutritional treatments (d 168), end of backgrounding (d 326), and after short (d 431) or long feedlotting (d 585). Serial slaughter stage had an effect on all traits assessed (P < 0.01). The FS steers had more rib fat (P < 0.01) and higher Meat Standards Australia marbling score (P < 0.05) and a tendency (P < 0.10) to have greater eye muscle area than the SS steers throughout the study. Genotypic differences were evident (P < 0.05) for all traits assessed except HCW, dressing percentage, rib fat depth, ossification score, ultimate pH, and IMF in the semitendinosus muscle. The results for marbling and IMF do not support the use of a high-energy feed as a substitute for an equivalent amount of energy from pasture during the immediate postweaning period to enhance development of marbling.

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Section: Discussioncontrasting

confidence: 56%

Postweaning substitution of grazed forage with a high-energy concentrate has variable long-term effects on subcutaneous fat and marbling in Bos taurus genotypes1

Greenwood

Siddell

Walmsley

et al. 2015

Journal of Animal Science

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“…Due to the low value of visceral and subcutaneous fat, meat animals have been selected for generations for their high lean/fat ratio, resulting in lean animals. However, the selection for high lean growth is negatively associated with intramuscular fat accumulation, or marbling, which is critical for the palatability of meat (Du et al, 2013a; Hausman, Basu, Du, Fernyhough-Culver, & Dodson, 2014; Kauffman, Carpenter, Bray, & Hoekstra, 1964). The use of implants and harvesting at increasingly younger ages are also contributing factors to the low marbling in beef cattle.…”

Section: Introductionmentioning

confidence: 99%

Nutrigenomic regulation of adipose tissue development — role of retinoic acid: A review

et al. 2016

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To improve the efficiency of animal production, livestock have been extensively selected or managed to reduce fat accumulation and increase lean growth, which reduces intramuscular or marbling fat content. To enhance marbling, a better understanding of the mechanisms regulating adipogenesis is needed. Vitamin A has recently been shown to have a profound impact on all stages of adipogenesis. Retinoic acid, an active metabolite of vitamin A, activates both retinoic acid receptors (RAR) and retinoid X receptors (RXR), inducing epigenetic changes in key regulatory genes governing adipogenesis. Additionally, Vitamin D and folates interact with the retinoic acid receptors to regulate adipogenesis. In this review, we discuss nutritional regulation of adipogenesis, focusing on retinoic acid and its impact on epigenetic modifications of key adipogenic genes.

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“…2. More detailed information is available in our previous publications (Du et al, 2010;Du et al, 2013).…”

Section: Application Of Fetal Programming To Meat Productionmentioning

confidence: 99%

Fetal programming in meat production

et al. 2015

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Nutrient fluctuations during the fetal stage affects fetal development, which has long-term impacts on the production efficiency and quality of meat. During the early development, a pool of mesenchymal progenitor cells proliferate and then diverge into either myogenic or adipogenic/fibrogenic lineages. Myogenic progenitor cells further develop into muscle fibers and satellite cells, while adipogenic/fibrogenic lineage cells develop into adipocytes, fibroblasts and resident fibro-adipogenic progenitor cells. Enhancing the proliferation and myogenic commitment of progenitor cells during fetal development enhances muscle growth and lean production in offspring. On the other hand, promoting the adipogenic differentiation of adipogenic/fibrogenic progenitor cells inside the muscle increases intramuscular adipocytes and reduces connective tissue, which improves meat marbling and tenderness. Available studies in mammalian livestock, including cattle, sheep and pigs, clearly show the link between maternal nutrition and the quantity and quality of meat production. Similarly, chicken muscle fibers develop before hatching and, thus, egg and yolk sizes and hatching temperature affect long-term growth performance and meat production of chicken. On the contrary, because fishes are able to generate new muscle fibers lifelong, the impact of early nutrition on fish growth performance is expected to be minor, which requires further studies.

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MEAT SCIENCE AND MUSCLE BIOLOGY SYMPOSIUM: Manipulating mesenchymal progenitor cell differentiation to optimize performance and carcass value of beef cattle1,2

Cited by 191 publications

References 94 publications

Postweaning substitution of grazed forage with a high-energy concentrate has variable long-term effects on subcutaneous fat and marbling in Bos taurus genotypes1

Postweaning substitution of grazed forage with a high-energy concentrate has variable long-term effects on subcutaneous fat and marbling in Bos taurus genotypes1

Nutrigenomic regulation of adipose tissue development — role of retinoic acid: A review

Fetal programming in meat production

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