Reichert S, Rojas E R, Zahn S, Robin J-P, Criscuolo F, Massemin S
1] Département Ecologie, Physiologie et Ethologie, Institut Pluridisciplinaire Hubert Curien, Université de Strasbourg, Strasbourg, France [2] CNRS, UMR 7178, Strasbourg, France.
Heredity (Edinb). 2015 Jan;114(1):10-6. doi: 10.1038/hdy.2014.60. Epub 2014 Jul 23.
Telomeres are emerging as a biomarker for ageing and survival, and are likely important in shaping life-history trade-offs. In particular, telomere length with which one starts in life has been linked to lifelong survival, suggesting that early telomere dynamics are somehow related to life-history trajectories. This result highlights the importance of determining the extent to which telomere length is inherited, as a crucial factor determining early life telomere length. Given the scarcity of species for which telomere length inheritance has been studied, it is pressing to assess the generality of telomere length inheritance patterns. Further, information on how this pattern changes over the course of growth in individuals living under natural conditions should provide some insight on the extent to which environmental constraints also shape telomere dynamics. To fill this gap partly, we followed telomere inheritance in a population of king penguins (Aptenodytes patagonicus). We tested for paternal and maternal influence on chick initial telomere length (10 days old after hatching), and how these relationships changed with chick age (at 70, 200 and 300 days old). Based on a correlative approach, offspring telomere length was positively associated with maternal telomere length early in life (at 10 days old). However, this relationship was not significant at older ages. These data suggest that telomere length in birds is maternally inherited. Nonetheless, the influence of environmental conditions during growth remained an important factor shaping telomere length, as the maternal link disappeared with chicks' age.
端粒正逐渐成为衰老和生存的生物标志物,并且在塑造生活史权衡方面可能很重要。特别是,个体出生时的端粒长度与终生生存相关,这表明早期端粒动态在某种程度上与生活史轨迹有关。这一结果凸显了确定端粒长度遗传程度的重要性,因为它是决定早期生命端粒长度的关键因素。鉴于研究端粒长度遗传的物种稀缺,迫切需要评估端粒长度遗传模式的普遍性。此外,关于在自然条件下生长的个体在生长过程中这种模式如何变化的信息,应该能为环境限制在多大程度上也影响端粒动态提供一些见解。为了部分填补这一空白,我们追踪了王企鹅(Aptenodytes patagonicus)种群中的端粒遗传情况。我们测试了父本和母本对雏鸟初始端粒长度(孵化后10天)的影响,以及这些关系如何随雏鸟年龄(70、200和300天)变化。基于相关分析方法,后代端粒长度在生命早期(10天大时)与母本端粒长度呈正相关。然而,在较大年龄时这种关系并不显著。这些数据表明鸟类的端粒长度是母系遗传的。尽管如此,生长期间环境条件的影响仍然是塑造端粒长度的一个重要因素,因为随着雏鸟年龄增长,母系联系消失了。