Department of Ecology and Evolutionary Biology, University of California, Santa Cruz, CA, USA.
ISME J. 2011 Nov;5(11):1809-17. doi: 10.1038/ismej.2011.47. Epub 2011 Apr 21.
Resistance of bacteria to phages may be gained by alteration of surface proteins to which phages bind, a mechanism that is likely to be costly as these molecules typically have critical functions such as movement or nutrient uptake. To address this potential trade-off, we combine a systematic study of natural bacteria and phage populations with an experimental evolution approach. We compare motility, growth rate and susceptibility to local phages for 80 bacteria isolated from horse chestnut leaves and, contrary to expectation, find no negative association between resistance to phages and bacterial motility or growth rate. However, because correlational patterns (and their absence) are open to numerous interpretations, we test for any causal association between resistance to phages and bacterial motility using experimental evolution of a subset of bacteria in both the presence and absence of naturally associated phages. Again, we find no clear link between the acquisition of resistance and bacterial motility, suggesting that for these natural bacterial populations, phage-mediated selection is unlikely to shape bacterial motility, a key fitness trait for many bacteria in the phyllosphere. The agreement between the observed natural pattern and the experimental evolution results presented here demonstrates the power of this combined approach for testing evolutionary trade-offs.
细菌对噬菌体的抗性可能是通过改变噬菌体结合的表面蛋白获得的,这种机制可能代价高昂,因为这些分子通常具有关键功能,如运动或营养吸收。为了解决这种潜在的权衡取舍,我们将对自然细菌和噬菌体群体的系统研究与实验进化方法相结合。我们比较了从马栗树叶中分离出的 80 株细菌的运动性、生长速度和对局部噬菌体的敏感性,结果与预期相反,我们没有发现噬菌体抗性与细菌运动性或生长速度之间存在负相关关系。然而,由于相关模式(及其不存在)有多种解释,我们使用一组细菌在存在和不存在天然相关噬菌体的情况下进行实验进化,测试噬菌体抗性与细菌运动性之间是否存在任何因果关系。我们再次发现噬菌体抗性的获得与细菌运动性之间没有明显联系,这表明对于这些自然细菌群体,噬菌体介导的选择不太可能塑造细菌运动性,而细菌运动性是许多叶际细菌的一个关键适应特征。观察到的自然模式与这里提出的实验进化结果之间的一致性证明了这种组合方法在测试进化权衡取舍方面的强大功能。