异养变形杆菌中饥饿生存策略和结果的多样性。

Pub Date : 2021-01-01 Epub Date: 2021-05-31 DOI:10.1159/000516215
Megan Bergkessel, Laurent Delavaine
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引用次数: 13

摘要

异养变形菌是一种多用途的机会主义者,在实验室中被广泛研究为模式生物,既是植物和动物的病原体,也是有益的共生体,是在许多环境中自由生活的无处不在的生物。在这些生态位中取得成功需要一种能力,当必需的营养变得有限时,在生长停滞状态中持续很长一段时间。这些细菌倾向于在密集的生物膜群落中生长,即使在营养丰富的环境中,也经常导致陡峭的营养梯度和内部细胞的剥夺。在宿主环境中生存也可能需要忍受生长停滞,因为宿主限制了对营养物质的获取,而在宿主之间的过渡可能需要在营养贫乏的环境中生存一段时间。为了最大限度地提高植物有益活性和最大限度地减少细菌感染,干预措施将需要更好地了解有助于饥饿生存的代谢和调节网络,以及这些网络如何在不同的生物体中发挥作用。在这里,我们将重点放在碳饥饿作为一种生长抑制条件,它不仅限制了生物合成底物的可用性,而且限制了持续维持细胞包膜电化学梯度和细胞完整性的能量。我们首先回顾了研究细菌饥饿的模型和已知的有助于饥饿生存的策略。然后,我们介绍了对10种细菌菌株的碳饥饿生存策略和结果的调查结果,包括肠杆菌和假单胞菌(都是γ变形菌)和伯克霍尔德菌(β变形菌)的代表。最后,我们研究了最高和最低幸存者之间基因含量的差异,以确定可能导致饥饿生存差异的代谢和调节适应。
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Diversity in Starvation Survival Strategies and Outcomes among Heterotrophic Proteobacteria.

Heterotrophic Proteobacteria are versatile opportunists that have been extensively studied as model organisms in the laboratory, as both pathogens and beneficial symbionts of plants and animals, and as ubiquitous organisms found free-living in many environments. Succeeding in these niches requires an ability to persist for potentially long periods of time in growth-arrested states when essential nutrients become limiting. The tendency of these bacteria to grow in dense biofilm communities frequently leads to the development of steep nutrient gradients and deprivation of interior cells even when the environment is nutrient rich. Surviving within host environments also likely requires tolerating growth arrest due to the host limiting access to nutrients and transitioning between hosts may require a period of survival in a nutrient-poor environment. Interventions to maximise plant-beneficial activities and minimise infections by bacteria will require a better understanding of metabolic and regulatory networks that contribute to starvation survival, and how these networks function in diverse organisms. Here we focus on carbon starvation as a growth-arresting condition that limits availability not only of substrates for biosynthesis but also of energy for ongoing maintenance of the electrochemical gradient across the cell envelope and cellular integrity. We first review models for studying bacterial starvation and known strategies that contribute to starvation survival. We then present the results of a survey of carbon starvation survival strategies and outcomes in ten bacterial strains, including representatives from the orders Enterobacterales and Pseudomonadales (both Gammaproteobacteria) and Burkholderiales (Betaproteobacteria). Finally, we examine differences in gene content between the highest and lowest survivors to identify metabolic and regulatory adaptations that may contribute to differences in starvation survival.

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