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首页> 外文期刊>Crop and Pasture Science >Protein synthesis rates in skin components and skeletal muscle of sheep selected for divergent clean fleece weight in response to below- and above-maintenance nutrition
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Protein synthesis rates in skin components and skeletal muscle of sheep selected for divergent clean fleece weight in response to below- and above-maintenance nutrition

机译:根据维持不足和维持较高的营养水平而选择的不同净羊毛重量选择的绵羊皮肤成分和骨骼肌中的蛋白质合成速率

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摘要

Protein metabolism in skin and muscle was studied in Merino wethers selected for high (F+, n = 10) or low (F–, n = 10) estimated breeding values for clean fleece weight, but with similar estimated breeding values for liveweight and fibre diameter, raised to 20 months of age under the same conditions, and then offered two levels of nutrition (0.8 or 1.8 × maintenance) for 37 days.nnOver 37 days, F+ sheep had greater rate of wool production, liveweight gain, and had greater eye-muscle and fat depth than F– sheep (P < 0.05).nnFractional synthesis rates of protein (%/day) in the epidermis, dermis, whole skin and muscle were affected by both feeding level (P < 0.05) and genotype (P < 0.05). The fractional synthesis rates of protein were greater (P < 0.05) in F+ sheep at both levels of intake. There was an interaction (P < 0.01) between genotype and feeding level for the protein fractional synthesis rate in muscle, where F+ sheep were more responsive to higher feed intake. Muscle of F– sheep responded to increased amino acid supply by reducing the rate of protein degradation without altering synthesis rate; whereas muscle of F+ sheep responded by increasing the rates of both protein synthesis and degradation. The overall muscle fractional synthesis rate (1.6%/day) was ~7-times lower than the skin fractional synthesis rate (10.8%/day) in these animals (P < 0.01).nnF+ sheep had a higher rate of protein synthesis in dermis and whole skin to support their higher wool protein accretion at both levels of feed intake. Muscle protein synthesis rate was greater in F+ sheep offered above-maintenance metabolisable energy (ME) intake than those given below-maintenance ME intake but was unaffected by ME intake in F– sheep. The results indicate that selection for wool growth not only affects production of wool and the wool follicle, but also affects the rate of protein turnover in components of the skin and skeletal muscle.
机译:在美利奴羊毛中研究了皮肤和肌肉的蛋白质代谢,选择了清洁羊毛重量的高(F +,n = 10)或低(F–,n = 10)估计繁殖值,但活重和纤维直径的估计繁殖值相似,在相同条件下成长至20个月大,然后提供两种水平的营养(0.8或1.8×维持)37天。nn在37天以上,F +绵羊的毛发生率,活体增加率更高,眼睛也更大-肌肉和脂肪深度高于F–绵羊(P <0.05)。nn进食水平(P <0.05)和基因型(P)影响表皮,真皮,整个皮肤和肌肉的蛋白质合成速率(%/天) <0.05)。在两种摄入水平下,F +绵羊的蛋白质分数合成率均较高(P <0.05)。在基因型和饲喂水平之间,肌肉中蛋白质的分数合成速率之间存在交互作用(P <0.01),其中F +绵羊对更高的采食量反应更快。 F-绵羊的肌肉通过减少蛋白质降解速率而不改变合成速率来响应氨基酸供应的增加。而F +绵羊的肌肉则通过增加蛋白质合成和降解的速度来做出反应。这些动物的整体肌肉分数合成率(1.6%/天)比皮肤分数合成率(10.8%/天)低约7倍(P <0.01).nnF +绵羊的真皮中蛋白质合成率更高和整个皮肤,以在两个采食量下都支持较高的羊毛蛋白积聚。 F +绵羊提供高于维持水平的可代谢能量(ME)的肌肉蛋白质合成率要高于那些维持率低于维持水平ME的绵羊,但不受F–绵羊的ME摄入量的影响。结果表明,对羊毛生长的选择不仅影响羊毛的生产和毛囊,而且还影响皮肤和骨骼肌成分中蛋白质的转化率。

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  • 来源
    《Crop and Pasture Science 》 |2007年第11期| p.1031-1039| 共9页
  • 作者

    L. Li S. M. Liu V. H. Oddy and J. V. Nolan;

  • 作者单位

    A School of Rural Science and Agriculture, University of New England, Armidale, NSW 2351, Australia. B CSIRO Livestock Industries, Private Bag 5, PO Wembley, WA 6913, Australia. C The Australian Sheep Industry CRC, Chiswick, New England Highway, Locked Bag 1, Armidale, NSW 2350, Australia.;

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  • 正文语种 eng
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  • 关键词

    Protein synthesis;

    机译:蛋白质合成;

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