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We are analyzing https://jasbsci.biomedcentral.com/articles/10.1186/s40104-022-00805-0.

Title:
Stage-specific nutritional management and developmental programming to optimize meat production | Journal of Animal Science and Biotechnology | Full Text
Description:
Over the past few decades, genetic selection and refined nutritional management have extensively been used to increase the growth rate and lean meat production of livestock. However, the rapid growth rates of modern breeds are often accompanied by a reduction in intramuscular fat deposition and increased occurrences of muscle abnormalities, impairing meat quality and processing functionality. Early stages of animal development set the long-term growth trajectory of offspring. However, due to the seasonal reproductive cycles of ruminant livestock, gestational nutrient deficiencies caused by seasonal variations, frequent droughts, and unfavorable geological locations negatively affect fetal development and their subsequent production efficiency and meat quality. Therefore, enrolling livestock in nutritional intervention strategies during gestation is effective for improving the body composition and meat quality of the offspring at harvest. These crucial early developmental stages include embryonic, fetal, and postnatal stages, which have stage-specific effects on subsequent offspring development, body composition, and meat quality. This review summarizes contemporary research in the embryonic, fetal, and neonatal development, and the impacts of maternal nutrition on the early development and programming effects on the long-term growth performance of livestock. Understanding the developmental and metabolic characteristics of skeletal muscle, adipose, and fibrotic tissues will facilitate the development of stage-specific nutritional management strategies to optimize production efficiency and meat quality.
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25 years and 10 months (reg. 1999-08-06).

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Keywords {🔍}

article, google, scholar, muscle, cas, development, fetal, maternal, adipose, skeletal, sci, embryonic, tissue, beef, cells, meat, growth, myofibers, cattle, offspring, stage, fat, early, progenitors, gestation, effects, quality, nutrient, developmental, nutrition, tissues, nutritional, adipocytes, stages, mesoderm, subcutaneous, faps, cell, programming, intramuscular, myogenesis, ani, expression, formation, satellite, precursors, formed, body, late, studies,

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ß-hydroxy-ß-methyl butyrate maternal high-fat/low-fiber diet tissue-resident fibro/adipogenic progenitors pref1/dlk1+ mesenchymal stem cells springer nature generate long-term alteration fast-twitch mhc iib β-hydroxy-β-methylbutyrate stage-specific nutritional management tissue-resident stem cells promoting tnf-mediated apoptosis wnt5a/gsk-3/β-catenin downregulated wnt/β-catenin fgf/erk/snail1 pathway fibro/adipogenic progenitors [12 fibro/adipogenic progenitors long-term growth trajectory anterior-posterior body axis single-cell transcriptional landscape amp-activated protein kinase stage-specific nutrient supplementations exerting long-term effects generates long-term effects exhibit long-term effects song ah chae sharing national research council long-term growth performance pax3/pax7-dependent population single-cell rna sequencing grass-fed beef generally cross-bred beef steers pax3+/pax7– embryonic myoblasts generating stage-specific effects pax7+ precursors remain undifferentiated single-cell expression profiling elevated-ra signaling promotes privacy choices/manage cookies post-weaning growth potential tissue resident progenitors muscle fiber type ovo injection ofl-carnitine egg white protein bmc maternal nutritional management grain‐based feeding systems pdgfrα+ precursors secrete collagen national academies press enhancing bmp signaling refined nutritional management

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Insulin resistance and elevated triglyceride in muscle: more important for survival than “thrifty” genes?

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      name:Nutrigenomics and Growth Biology Laboratory, Department of Animal Sciences, Washington State University, Pullman, USA

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