在本地的瓶子草蚊(Wyeomyia smithii)种群内,遗传相关性与光周期时间测量的进化。
Genetic correlations and the evolution of photoperiodic time measurement within a local population of the pitcher-plant mosquito, Wyeomyia smithii.
机构信息
Institute of Ecology and Evolution, University of Oregon, Eugene, OR 97403-5289, USA.
出版信息
Heredity (Edinb). 2012 May;108(5):473-9. doi: 10.1038/hdy.2011.108. Epub 2011 Nov 9.
Abstract
The genetic relationship between the daily circadian clock and the seasonal photoperiodic timer remains a subject of intense controversy. In Wyeomyia smithii, the critical photoperiod (an overt expression of the photoperiodic timer) evolves independently of the rhythmic response to the Nanda-Hamner protocol (an overt expression of the daily circadian clock) over a wide geographical range in North America. Herein, we focus on these two processes within a single local population in which there is a negative genetic correlation between them. We show that antagonistic selection against this genetic correlation rapidly breaks it down and, in fact, reverses its sign, showing that the genetic correlation is due primarily to linkage and not to pleiotropy. This rapid reversal of the genetic correlation within a small, single population means that it is difficult to argue that circadian rhythmicity forms the necessary, causal basis for the adaptive divergence of photoperiodic time measurement within populations or for the evolution of photoperiodic time measurement among populations over a broad geographical gradient of seasonal selection.
摘要
昼夜节律钟与季节性光周期定时器之间的遗传关系仍然是一个极具争议的话题。在 Wyeomyia smithii 中,关键的光周期(光周期定时器的明显表现)在北美的广泛地理范围内独立于对 Nanda-Hamner 方案的节律反应(昼夜节律钟的明显表现)而进化。在此,我们在一个单一的本地种群内关注这两个过程,在该种群内,它们之间存在负遗传相关性。我们表明,针对这种遗传相关性的拮抗选择迅速将其打破,实际上还改变了其符号,表明遗传相关性主要是由于连锁而非多效性所致。在一个小的单一种群中,这种遗传相关性的快速逆转意味着,很难说昼夜节律性构成了种群内光周期时间测量的适应性分歧或广泛地理季节性选择梯度内种群间光周期时间测量进化的必要的因果基础。
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