鹌鹑胚胎的热处理具有转基因和可逆的长期影响。

IF 6.3 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Anaïs Vitorino Carvalho, Christelle Hennequet-Antier, Romuald Rouger, Joël Delaveau, Thierry Bordeau, Sabine Crochet, Nathalie Couroussé, Frederique Pitel, Anne Collin, Vincent Coustham
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引用次数: 0

摘要

背景:在当前全球变暖的背景下,对鸟类胚胎进行热处理作为一种通过提高卵子孵化温度来提高鸟类耐热性的策略,受到了越来越多的关注。然而,由于其可能的表观遗传学起源,热操纵效应可能会持续一代以上,对家禽业产生影响。在这项工作中,对胚胎发生过程中的热操作进行了多代和转基因分析,以揭示这种程序的长期影响。结果:在4代中重复热操作对日本鹌鹑的孵化率、体重和产蛋重量都有影响,其中一些影响的重要性随着世代的推移而增加。此外,对体重和蛋重的影响可能通过转基因传递,这表明了非遗传遗传机制。在五代未暴露后观察到的对生长的影响逆转,强化了这一假设。有趣的是,在孵化后几天观察到热操作对耐热性的有益影响,但这种影响不是转基因的。结论:我们的多代研究表明,鹌鹑胚胎的热处理对孵化后的耐热性有有益的影响,这种耐热性受到转基因但可逆的生长缺陷的阻碍。假设这些变化背后没有遗传变异,这项研究首次证明了环境温度变化诱导的性状的表观遗传与鸟类物种的长期影响有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Thermal conditioning of quail embryos has transgenerational and reversible long-term effects.

Thermal conditioning of quail embryos has transgenerational and reversible long-term effects.

Thermal conditioning of quail embryos has transgenerational and reversible long-term effects.

Thermal conditioning of quail embryos has transgenerational and reversible long-term effects.

Background: In the current context of global warming, thermal manipulation of avian embryos has received increasing attention as a strategy to promote heat tolerance in avian species by simply increasing the egg incubation temperature. However, because of their likely epigenetic origin, thermal manipulation effects may last more than one generation with consequences for the poultry industry. In this work, a multigenerational and transgenerational analysis of thermal manipulation during embryogenesis was performed to uncover the long-term effects of such procedure.

Results: Thermal manipulation repeated during 4 generations had an effect on hatchability, body weight, and weight of eggs laid in Japanese quails, with some effects increasing in importance over generations. Moreover, the effects on body weight and egg weight could be transmitted transgenerationally, suggesting non-genetic inheritance mechanisms. This hypothesis is reinforced by the observed reversion of the effect on growth after five unexposed generations. Interestingly, a beneficial effect of thermal manipulation on heat tolerance was observed a few days after hatching, but this effect was not transgenerational.

Conclusions: Our multigenerational study showed that thermal conditioning of quail embryos has a beneficial effect on post-hatch heat tolerance hampered by transgenerational but reversible defects on growth. Assuming that no genetic variability underlies these changes, this study provides the first demonstration of epigenetic inheritance of traits induced by environmental temperature modification associated with long-term impacts in an avian species.

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CiteScore
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