Flow cytometric monitoring of Rhodococcus erythropolis and Ochrobactrum anthropi in a mixed culture

S. Müler, A. Lösche, H. Mertingk, W. Beisker, W. Babel
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引用次数: 5

Abstract

The GRAM-positive bacterium Rhodococcus erythropolis K2-3 and the GRAM-negative Ochrobactrum anthropi K2-14 are capable of synergistically degrading 4-(2,4-dichlorophenoxy)butyric acid (2,4-DB). The two strains execute this task in a symbiotic manner, but the nature of the interactions involved in the degradation is only partially understood as yet. An essential first step in elucidating the interaction is to be able to monitor the two strains separately, at the cellular level, within mixed populations. Therefore a method exploiting fluorescently labelled lectin probes was developed. Since Concanavalin A (Con A) binds specifically to R. erythropolis K2-3, it was selected and linked to the fluorescent dye Bodipy 630/650, which has an excitation maximum in the red part of the visible light spectrum. Forward light scatter (FSC) and DNA fluorescence from both strains were also measured to obtain simultaneous information about their physiological states. The three parameters were conveniently monitored by dual and triple excitation flow cytometry in conjunction with double fluorescent staining techniques. In addition, the strains were identified using an epifluorescence microscope. These techniques were found powerful tools for the population analysis of this mixed bacterial system.
混合培养中红红球菌和人类赭杆菌的流式细胞术监测
革兰氏阳性的红红球菌K2-3和革兰氏阴性的人类嗜铬杆菌K2-14能够协同降解4-(2,4-二氯苯氧基)丁酸(2,4- db)。这两种菌株以共生的方式执行这项任务,但在降解过程中涉及的相互作用的性质目前只被部分理解。阐明这种相互作用的关键第一步是能够在混合种群的细胞水平上分别监测这两种菌株。因此,开发了一种利用荧光标记凝集素探针的方法。由于cona能特异性结合红血杉K2-3,因此它被选择并连接到荧光染料Bodipy 630/650上,该染料在可见光光谱的红色部分激发最大。同时测定了两株菌株的前向光散射(FSC)和DNA荧光,以同时获得它们生理状态的信息。双激发和三激发流式细胞术结合双荧光染色技术方便地监测这三个参数。此外,利用荧光显微镜对菌株进行了鉴定。这些技术被发现是对这种混合细菌系统进行种群分析的有力工具。
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