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在共生体建立过程中,Vibrio fischeri 生长所需的硫可用性取决于鱿鱼发光器官内的生物地理学。

Sulfur availability for Vibrio fischeri growth during symbiosis establishment depends on biogeography within the squid light organ.

机构信息

Department of Biochemistry and Molecular Biology, Pennsylvania State University, 410 South Frear Laboratory, University Park, PA, 16802, USA.

出版信息

Mol Microbiol. 2019 Mar;111(3):621-636. doi: 10.1111/mmi.14177. Epub 2019 Jan 2.

DOI:10.1111/mmi.14177
PMID:30506600
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6417962/
Abstract

The fitness of host-associated microbes depends on their ability to access nutrients in vivo. Identifying these mechanisms is significant for understanding how microbes have evolved to fill specific ecological niches within a host. Vibrio fischeri is a bioluminescent bacterium that colonizes and proliferates within the light organ of the Hawaiian bobtail squid, which provides an opportunity to study how bacteria grow in vivo. Here, the transcription factor CysB is shown to be necessary for V. fischeri both to grow on several sulfur sources in vitro and to establish symbiosis with juvenile squid. CysB is also found to regulate several genes involved in sulfate assimilation and to contribute to the growth of V. fischeri on cystine, which is the oxidized form of cysteine. A mutant that grows on cystine but not sulfate could establish symbiosis, suggesting that V. fischeri acquires nutrients related to this compound within the host. Finally, CysB-regulated genes are shown to be differentially expressed among the V. fischeri populations occupying the various colonization sites found within the light organ. Together, these results suggest the biogeography of V. fischeri populations within the squid light organ impacts the physiology of this symbiotic bacterium in vivo through CysB-dependent gene regulation.

摘要

宿主相关微生物的适应性取决于它们在体内获取营养物质的能力。鉴定这些机制对于理解微生物如何进化以填充宿主内特定的生态位是至关重要的。发光杆菌是一种发光细菌,它在夏威夷短尾乌贼的发光器官中定殖和增殖,这为研究细菌如何在体内生长提供了机会。本文表明,转录因子 CysB 对于 V. fischeri 在体外利用几种硫源生长以及与幼年乌贼建立共生关系都是必需的。CysB 还被发现调节几个参与硫酸盐同化的基因,并有助于 V. fischeri 在胱氨酸上生长,胱氨酸是半胱氨酸的氧化形式。一种能够在胱氨酸上生长但不能在硫酸盐上生长的突变体能够建立共生关系,这表明 V. fischeri 在宿主内获得与该化合物相关的营养物质。最后,结果表明,在占据发光器官内不同定殖部位的 V. fischeri 种群中,CysB 调节的基因存在差异表达。综上所述,这些结果表明,V. fischeri 种群在鱿鱼发光器官内的生物地理学通过 CysB 依赖的基因调控影响这种共生细菌的体内生理学。

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