Hidden paths to endless forms most wonderful: Complexity of bacterial motility shapes diversification of latent phenotypes.

IF 3.4 Q1 Agricultural and Biological Sciences BMC Evolutionary Biology Pub Date : 2020-11-04 DOI:10.1186/s12862-020-01707-3
Olaya Rendueles, Gregory J Velicer
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引用次数: 15

Abstract

Background: Evolution in one selective environment often latently generates phenotypic change that is manifested only later in different environments, but the complexity of behavior important to fitness in the original environment might influence the character of such latent-phenotype evolution. Using Myxococcus xanthus, a bacterium possessing two motility systems differing in effectiveness on hard vs. soft surfaces, we test (i) whether and how evolution while swarming on one surface-the selective surface-latently alters motility on the alternative surface type and (ii) whether patterns of such latent-phenotype evolution depend on the complexity of ancestral motility, specific ancestral motility genotypes and/or the selective surface of evolution. We analysze an experiment in which populations established from three ancestral genotypes-one with both motility systems intact and two others with one system debilitated-evolved while swarming across either hard or soft agar in six evolutionary treatments. We then compare motility-phenotype patterns across selective vs. alternative surface types.

Results: Latent motility evolution was pervasive but varied in character as a function of the presence of one or two functional motility systems and, for some individual-treatment comparisons, the specific ancestral genotype and/or selective surface. Swarming rates on alternative vs. selective surfaces were positively correlated generally among populations with one functional motility system but not among those with two. This suggests that opportunities for pleiotropy and epistasis generated by increased genetic complexity underlying behavior can alter the character of latent-phenotype evolution. No tradeoff between motility performance across surface types was detected in the dual-system treatments, even after adaptation on a surface on which one motility system dominates strongly over the other in driving movement, but latent-phenotype evolution was instead idiosyncratic in these treatments. We further find that the magnitude of stochastic diversification at alternative-surface swarming among replicate populations greatly exceeded diversification of selective-surface swarming within some treatments and varied across treatments.

Conclusion: Collectively, our results suggest that increases in the genetic and mechanistic complexity of behavior can increase the complexity of latent-phenotype evolution outcomes and illustrate that diversification manifested during evolution in one environment can be augmented greatly by diversification of latent phenotypes manifested later.

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通往无尽形式的隐藏路径最奇妙:细菌运动的复杂性塑造了潜在表型的多样化。
背景:在一种选择性环境中的进化往往会潜在地产生表型变化,而这种变化只会在不同的环境中表现出来,但原始环境中对适应度很重要的行为的复杂性可能会影响这种潜在表型进化的特征。利用黄粘球菌(一种在硬、软表面上具有不同运动系统的细菌),我们测试了(i)在一个表面(选择性表面)聚集时的进化是否以及如何潜在地改变了另一个表面类型的运动,(ii)这种潜在表型进化的模式是否取决于祖先运动的复杂性,特定的祖先运动基因型和/或进化的选择性表面。我们分析了一项实验,在该实验中,由三种祖先基因型建立的种群-一种具有完整的运动系统,另两种具有一个系统衰弱-在六种进化处理中通过硬琼脂或软琼脂进行进化。然后,我们比较了选择性和可选表面类型的运动表型模式。结果:潜在运动进化是普遍存在的,但由于存在一个或两个功能性运动系统,并且在一些个体治疗比较中,特定的祖先基因型和/或选择性表面,其特征有所不同。在具有一个功能运动系统的种群中,选择性和选择性表面上的蜂群率普遍呈正相关,而在具有两个功能运动系统的种群中则不呈正相关。这表明,由潜在行为的遗传复杂性增加所产生的多效性和上位性的机会可以改变潜在表型进化的特征。在双系统处理中,没有检测到跨表面类型的运动性能之间的权衡,即使在一种运动系统在驱动运动方面强于另一种运动系统的表面适应之后,但潜在表型进化在这些处理中是特殊的。我们进一步发现,在重复种群中,交替表面群体的随机多样化程度在某些处理中大大超过了选择表面群体的多样化程度,并且在不同处理中有所不同。结论:总的来说,我们的研究结果表明,行为的遗传和机制复杂性的增加可以增加潜在表型进化结果的复杂性,并说明在一个环境中进化过程中表现出的多样性可以通过随后表现出的潜在表型多样化而大大增强。
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来源期刊
BMC Evolutionary Biology
BMC Evolutionary Biology 生物-进化生物学
CiteScore
5.80
自引率
0.00%
发文量
0
审稿时长
6 months
期刊介绍: BMC Evolutionary Biology is an open access, peer-reviewed journal that considers articles on all aspects of molecular and non-molecular evolution of all organisms, as well as phylogenetics and palaeontology.
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