Evolution within a given virulence phenotype (pathotype) is driven by changes in aggressiveness: a case study of French wheat leaf rust populations

Cécilia Fontyn, Kevin JG Meyer, Anne-Lise Boixel, Ghislain Delestre, Emma Piaget, Corentin Picard, Frédéric Suffert, Thierry C Marcel, Henriette Goyeau
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Abstract

Plant pathogens are constantly evolving and adapting to their environment, including their host. Virulence alleles emerge, and then increase, and sometimes decrease in frequency within pathogen populations in response to the fluctuating selection pressures imposed by the deployment of resistance genes. In some cases, these strong selection pressures cannot fully explain the evolution observed in pathogen populations. A previous study on the French population of Puccinia triticina, the causal agent of wheat leaf rust, showed that two major pathotypes — groups of isolates with a particular combination of virulences — predominated but then declined over the 2005-2016 period. The relative dynamics and the domination of these two pathotypes — 166 317 0 and 106 314 0 —, relative to the other pathotypes present in the population at a low frequency although compatible, i.e. virulent on several varieties deployed, could not be explained solely by the frequency of Lr genes in the landscape. Within these two pathotypes, we identified two main genotypes that emerged in succession. We assessed three components of aggressiveness — infection efficiency, latency period and sporulation capacity — for 44 isolates representative of the four P. triticina pathotype-genotype combinations. We showed, for both pathotypes, that the more recent genotypes were more aggressive than the older ones. Our findings were highly consistent for the various components of aggressiveness for pathotype 166 317 0 grown on Michigan Amber — a ‘naive’ cultivar never grown in the landscape — or on Apache — a ‘neutral’ cultivar, which does not affect the pathotype frequency in the landscape and therefore was postulated to have no or minor selection effect on the population composition. For pathotype 106 314 0, the most recent genotype had a shorter latency period on several of the cultivars most frequently grown in the landscape, but not on ‘neutral’ and ‘naive’ cultivars. We conclude that the quantitative components of aggressiveness can be significant drivers of evolution in pathogen populations. A gain in aggressiveness stopped the decline in frequency of a pathotype, and subsequently allowed an increase in frequency of this pathotype in the pathogen population, providing evidence that adaptation to a changing varietal landscape not only affects virulence but can also lead to changes in aggressiveness.
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在一个给定的毒力表型(致病型)内的进化是由侵略性的变化驱动的:法国小麦叶锈病种群的一个案例研究
植物病原体不断进化并适应其环境,包括其宿主。毒力等位基因出现,然后增加,有时在病原体种群中频率减少,以响应由抗性基因部署施加的波动选择压力。在某些情况下,这些强大的选择压力不能完全解释在病原体种群中观察到的进化。此前一项针对法国小麦叶锈病致病因子小麦锈菌(Puccinia triticina)种群的研究表明,两种主要致病类型——具有特定毒力组合的分离菌群——在2005年至2016年期间占主导地位,但随后有所下降。这两种致病型(166 317 0和106 314 0)相对于种群中出现频率较低的其他致病型的相对动态和优势,尽管它们是相容的,即对部署的几个品种具有毒性,但不能仅仅用景观中Lr基因的频率来解释。在这两种病型中,我们确定了连续出现的两种主要基因型。我们评估了44株小麦小麦单株的侵袭性的三个组成部分——感染效率、潜伏期和产孢能力。我们发现,对于两种疾病,较新的基因型比较老的基因型更具攻击性。我们的研究结果与生长在密歇根琥珀(一种从未在景观中生长的“原始”品种)和阿帕奇(一种“中性”品种)上的病型1663170的侵袭性的各个组成部分高度一致,后者不影响景观中病型的频率,因此假设对种群组成没有或只有很小的选择效应。对于病原型106 314 0,最近的基因型在景观中最常见的几个品种上具有较短的潜伏期,但在“中性”和“幼稚”品种上则没有。我们得出结论,侵略性的定量成分可以是病原体种群进化的重要驱动因素。侵袭性的增加阻止了一种致病型频率的下降,并随后允许这种致病型在病原体种群中频率的增加,这提供了对不断变化的品种景观的适应不仅影响毒力,而且可以导致侵袭性的变化的证据。
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