School of Molecular Bioscience, University of Sydney, Sydney, New South Wales, Australia.
ISME J. 2013 Oct;7(10):2034-43. doi: 10.1038/ismej.2013.82. Epub 2013 May 16.
Bacterial species are internally diverse in genomic and multi-locus gene comparisons. The ecological causes of phenotypic and genotypic diversity within species are far less well understood. Here, we focus on the competitive fitness for growth on nutrients within Escherichia coli, an internally rich species. Competition experiments in nutrient-limited chemostats revealed that members of the ECOR collection exhibited a wide continuum of competitive abilities, with some fitter and some less fit than the lab strain MG1655. We observed an inverse relationship between competitiveness and the resistance of strains to detergent and antibiotic, consistent with the notion that membrane permeability and competitive fitness are linked by a trade-off between self-preservation and nutritional competence (SPANC); high permeability has a postulated cost in antibacterial sensitivity whereas a low permeability has a cost in nutrient affinity. Isolates moved along the markedly nonlinear trade-off curve by mutational adaptation; an ECOR strain sensitive to antibacterials and a good competitor was easily converted by mutation into a mutant with higher resistance but poorer competition in the presence of low antibiotic concentrations. Conversely, a resistant ECOR strain changed into a better competitor after a short period of selection under nutrient limitation. In both directions, mutations can affect porin proteins and outer membrane permeability, as indicated by protein analysis, gene sequencing and an independent assay of outer membrane permeability. The extensive, species-wide diversity of E. coli in ecologically important traits can thus be explained as an evolutionary consequence of a SPANC trade-off driven by antagonistic pleiotropy.
细菌在基因组和多位点基因比较方面具有内部多样性。物种内表型和基因型多样性的生态原因远未得到很好的理解。在这里,我们专注于研究大肠杆菌内部丰富物种中对营养物质生长的竞争适应能力。在营养有限的恒化器中进行的竞争实验表明,ECOR 集合的成员表现出广泛的竞争能力连续体,其中一些比实验室菌株 MG1655 更适应,而一些则不太适应。我们观察到竞争力与菌株对洗涤剂和抗生素的抗性之间存在反比关系,这与膜通透性和竞争适应能力通过自我保护和营养能力(SPANC)之间的权衡相关的观点一致;高通透性在抗菌敏感性方面具有假定的成本,而低通透性在营养亲和力方面具有成本。通过突变适应,菌株沿着明显的非线性权衡曲线移动;通过突变,容易将对细菌敏感且竞争力强的 ECOR 菌株转化为在低抗生素浓度存在下具有更高抗性但竞争能力较差的突变体。相反,在营养限制下进行短时间选择后,抗性 ECOR 菌株会变成更好的竞争者。在这两个方向上,突变都可以影响孔蛋白和外膜通透性,这可以通过蛋白质分析、基因测序和独立的外膜通透性测定来指示。因此,生态重要性状中大肠杆菌的广泛、物种内多样性可以解释为由拮抗多效性驱动的 SPANC 权衡的进化后果。