Saldivar Lemus Yolitzi, Vielle-Calzada Jean-Philippe, Ritchie Michael G, Macías Garcia Constantino
Instituto de Ecología Universidad Nacional Autónoma de México México City Mexico.
UGA Laboratorio Nacional de Genómica para la Biodiversidad CINVESTAV Irapuato México Irapuato Mexico.
Ecol Evol. 2017 May 15;7(12):4465-4474. doi: 10.1002/ece3.3025. eCollection 2017 Jun.
Sexual reproduction brings together reproductive partners whose long-term interests often differ, raising the possibility of conflict over their reproductive investment. Males that enhance maternal investment in their offspring gain fitness benefits, even if this compromises future reproductive investment by iteroparous females. When the conflict occurs at a genomic level, it may be uncovered by crossing divergent populations, as a mismatch in the coevolved patterns of paternal manipulation and maternal resistance may generate asymmetric embryonic growth. We report such an asymmetry in reciprocal crosses between populations of the fish . We also show that a fragment of a gene which can influence embryonic growth (Insulin-Like Growth Factor 2; ) exhibits a parent-of-origin methylation pattern, where the maternally inherited allele has much more 5' cytosine methylation than the paternally inherited allele. Our findings suggest that male manipulation of maternal investment may have evolved in fish, while the parent-of-origin methylation pattern appears to be a potential candidate mechanism modulating this antagonistic coevolution process. However, disruption of other coadaptive processes cannot be ruled out, as these can lead to similar effects as conflict.
有性生殖会使长期利益往往存在差异的生殖伙伴结合在一起,从而增加了在生殖投入方面产生冲突的可能性。提高母体对其后代投入的雄性会获得适应性益处,即便这会损害多次繁殖的雌性未来的生殖投入。当冲突发生在基因组层面时,通过杂交不同种群可能会发现这种冲突,因为父本操控与母体抗性的协同进化模式不匹配可能会导致胚胎生长不对称。我们报告了该鱼类不同种群之间正反交时存在的这种不对称性。我们还表明,一个能够影响胚胎生长的基因片段(胰岛素样生长因子2;Igf2)呈现出一种亲本来源的甲基化模式,即母本遗传的等位基因比父本遗传的等位基因具有更多的5' 胞嘧啶甲基化。我们的研究结果表明,雄性对母体投入的操控可能在鱼类中已经进化出来,而亲本来源的甲基化模式似乎是调节这种拮抗协同进化过程的一个潜在候选机制。然而,不能排除其他协同适应过程受到干扰的情况,因为这些干扰可能会导致与冲突类似的效果。
