后代端粒长度的代际影响:母亲年龄、压力暴露和后代性别之间的相互作用

V. Marasco, W. Boner, Kate Griffiths, B. Heidinger, P. Monaghan
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引用次数: 17

摘要

年龄较大的父母所生的后代往往寿命较短,这被称为兰辛效应。因为成年人通常有年龄相仿的配偶,所以很难区分母亲和父亲年龄的影响,而且环境条件也可能影响后代的结果。兰辛效应背后的机制尚不清楚。端粒长度和损失的变化,特别是在生命早期,与许多脊椎动物的寿命有关,因此后代端粒动力学的变化在这种情况下可能非常重要。研究了母代年龄和环境对斑胸草雀后代端粒长度的影响。我们将母亲置于控制(随意食物)或更具挑战性(不可预测的食物)的环境中,并通过实验最小化了父亲的年龄和配偶选择的影响。无论母系环境如何,母系年龄对后代端粒长度都有显著的负面影响,这在纵向和横断面比较中都很明显(平均缩短39%)。此外,在年轻母亲中,由挑战母亲抚养的儿子的端粒长度明显短于对照组母亲抚养的儿子。当母亲年老时,这种影响就消失了,而在女儿身上则没有。这些发现强调了端粒动力学作为决定最佳年龄特异性生殖努力和性别分配的进化过程的代际介质的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Intergenerational effects on offspring telomere length: interactions among maternal age, stress exposure and offspring sex
Offspring produced by older parents often have reduced longevity, termed the Lansing effect. Because adults usually have similar-aged mates, it is difficult to separate effects of maternal and paternal age, and environmental circumstances are also likely to influence offspring outcomes. The mechanisms underlying the Lansing effect are poorly understood. Variation in telomere length and loss, particularly in early life, is linked to longevity in many vertebrates, and therefore changes in offspring telomere dynamics could be very important in this context. We examined the effect of maternal age and environment on offspring telomere length in zebra finches. We kept mothers under either control (ad libitum food) or more challenging (unpredictable food) circumstances and experimentally minimized paternal age and mate choice effects. Irrespective of the maternal environment, there was a substantial negative effect of maternal age on offspring telomere length, evident in longitudinal and cross-sectional comparisons (average of 39% shorter). Furthermore, in young mothers, sons reared by challenged mothers had significantly shorter telomere lengths than sons reared by control mothers. This effect disappeared when the mothers were old, and was absent in daughters. These findings highlight the importance of telomere dynamics as inter-generational mediators of the evolutionary processes determining optimal age-specific reproductive effort and sex allocation.
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