酵母-细菌相互作用：花蜜研究的下一个前沿。

Yeast-Bacterium Interactions: The Next Frontier in Nectar Research.

机构信息

KU Leuven, Department of Microbial and Molecular Systems (M2S), Laboratory for Process Microbial Ecology and Bioinspirational Management (PME&BIM), Campus De Nayer, B-2860 Sint-Katelijne-Waver, Belgium; Department of Biology, Stanford University, Stanford, CA 94305, USA.

出版信息

Trends Plant Sci. 2019 May;24(5):393-401. doi: 10.1016/j.tplants.2019.01.012. Epub 2019 Feb 18.

DOI:10.1016/j.tplants.2019.01.012

PMID:30792076

Abstract

Beyond its role as a reward for pollinators, floral nectar also provides a habitat for specialized and opportunistic yeasts and bacteria. These microbes modify nectar chemistry, often altering mutualistic relationships between plants and pollinators in ways that we are only beginning to understand. Many studies on this multi-partite system have focused on either yeasts or bacteria without consideration of yeast-bacterium interactions, but recent evidence suggests that such interactions drive the assembly of nectar microbial communities and its consequences for pollination. Unexplored potential mechanisms of yeast-bacterium interactions include the formation of physical complexes, nutritional interactions, antibiosis, signaling-based interactions, and horizontal gene transfer. We argue that studying these mechanisms can elucidate how nectar microbial communities are established and affect plant fitness via pollinators.

摘要

除了作为传粉媒介的奖励外，花卉花蜜还为专门化和机会主义的酵母和细菌提供了栖息地。这些微生物会改变花蜜的化学成分，常常以我们才刚开始理解的方式改变植物和传粉者之间的互利关系。许多关于这种多部分系统的研究都集中在酵母或细菌上，而没有考虑酵母-细菌相互作用，但最近的证据表明，这种相互作用驱动了花蜜微生物群落的组装及其对传粉的影响。酵母-细菌相互作用的未被探索的潜在机制包括物理复合物的形成、营养相互作用、抗生作用、基于信号的相互作用和水平基因转移。我们认为，研究这些机制可以阐明花蜜微生物群落是如何建立的，并通过传粉者影响植物的适应性。

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酵母-细菌相互作用：花蜜研究的下一个前沿。

Yeast-Bacterium Interactions: The Next Frontier in Nectar Research.

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