应用流体力显微镜从叶际有氧缺氧光养生物中分离光靶向单细菌。
Isolation of optically targeted single bacteria by application of fluidic force microscopy to aerobic anoxygenic phototrophs from the phyllosphere.
机构信息
Institute of Microbiology, ETH Zurich, Zurich, Switzerland.
出版信息
Appl Environ Microbiol. 2013 Aug;79(16):4895-905. doi: 10.1128/AEM.01087-13. Epub 2013 Jun 14.
Abstract
In their natural environment, bacteria often behave differently than they do under laboratory conditions. To gain insight into the physiology of bacteria in situ, dedicated approaches are required to monitor their adaptations and specific behaviors under environmental conditions. Optical microscopy is crucial for the observation of fundamental characteristics of bacteria, such as cell shape, size, and marker gene expression. Here, fluidic force microscopy (FluidFM) was exploited to isolate optically selected bacteria for subsequent identification and characterization. In this study, bacteriochlorophyll-producing bacteria, which can be visualized due to their characteristic fluorescence in the infrared range, were isolated from leaf washes. Bacterial communities from the phyllosphere were investigated because they harbor genes indicative of aerobic anoxygenic photosynthesis. Our data show that different species of Methylobacterium express their photosystem in planta, and they show a distinct pattern of bacteriochlorophyll production under laboratory conditions that is dependent on supplied carbon sources.
摘要
在自然环境中,细菌的行为通常与实验室条件下不同。为了深入了解细菌在原位的生理学特性,需要专门的方法来监测它们在环境条件下的适应和特定行为。光学显微镜对于观察细菌的基本特征(如细胞形状、大小和标记基因表达)至关重要。在这里,利用流体力显微镜(FluidFM)来分离光学选择的细菌,以便后续进行鉴定和表征。在这项研究中,从叶片冲洗液中分离出了能够由于其在红外范围内的特征荧光而被可视化的菌叶绿素产生细菌。研究了叶际的细菌群落,因为它们含有有氧厌氧光合作用的基因。我们的数据表明,不同种的甲基杆菌在植物体内表达它们的光合系统,并且它们在实验室条件下表现出独特的菌叶绿素产生模式,这取决于所供应的碳源。
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