[利用绿色荧光蛋白（GFP）标记技术分析与珠状巨孢囊霉孢子相关的细菌定殖]

[Analysis of bacterial colonization associated with Gigaspora margarita spores by green fluorescence protein (GFP) marked technology].

作者信息

Long Liangkun, Yao Qing, Ai Yuncan, Zhu Honghui

机构信息

Guangdong Province Institute of Microbiology, Guangdong Provincial Key Laboratory of Microbial Culture Collection and Application, Guangdong Provincial Open Laboratory of Microbial New Application Technique, Guangzhou 510070, China.

出版信息

Wei Sheng Wu Xue Bao. 2009 May;49(5):617-23.

PMID:19637569

Abstract

OBJECTIVE

We analyzed bacterial colonization associated with spores of arbuscular mycorrhizal fungi (AMF) Gigaspora margarita, to indicate their ecological niche, and to provide information for further researches on their populations or functions.

METHODS

Six bacteria strains (Peanibacillus sp. M060106-1, Peanibacillus sp. M061122-2, Peanibacillus sp. M061122-6, Bacillus sp. M061122-4, Bacillus sp. M061122-10 and Brevibacillus sp. M061122-12) isolated from G. margarita spores were tagged with green fluorescence protein (GFP) using the carrier plasmid pNF8 (gfp-mut1). We analyzed the ecological niche and population dynamics of tagged strains on G. margarita under different conditions by using fluorescent microscope and/or plate counts.

RESULTS

Four strains (M060106-1, M061122-6, M061122-10 and M061122-12) were tagged with GFP, showing high plasmid stability. These tagged strains possessed the basic characteristics identical to their original strains and, hence, were fit for short-term study of environmental colonization. All four GFP-tagged strains colonized the spore wall of G. margarita, and M061122-6 and M061122-12 further colonized the fungal hyphae. Under different pH conditions,the population dynamic of each GFP-tagged strain on the spores showed the same trend, i.e. first increased and then decreased, and the effects on the population size varied with different pH value. GFP-tagged strains colonized the spores of low viability more easily than those of high viability, and the population dynamic on the spores of high viability was different for each tagged strain.

CONCLUSION

The isolated bacteria associated with G. margarita spores can re-colonize the fungal spores, whereas their colonizing ability depends on their characteristics and environmental factors. These data contributes to the further understanding of populations and functions of AMF-associated bacteria.

摘要

目的

我们分析了与丛枝菌根真菌（AMF）珠状巨孢囊霉孢子相关的细菌定殖情况，以明确其生态位，并为进一步研究其种群或功能提供信息。

方法

从珠状巨孢囊霉孢子中分离出的6株细菌菌株（类芽孢杆菌属M060106 - 1、类芽孢杆菌属M061122 - 2、类芽孢杆菌属M061122 - 6、芽孢杆菌属M061122 - 4、芽孢杆菌属M061122 - 10和短短芽孢杆菌属M061122 - 12），使用载体质粒pNF8（gfp - mut1）用绿色荧光蛋白（GFP）进行标记。我们通过荧光显微镜和/或平板计数分析了标记菌株在不同条件下在珠状巨孢囊霉上的生态位和种群动态。

结果

4株菌株（M060106 - 1、M061122 - 6、M061122 - 10和M061122 - 12）被GFP标记，显示出高质粒稳定性。这些标记菌株具有与其原始菌株相同的基本特征，因此适合用于环境定殖的短期研究。所有4株GFP标记菌株都定殖在珠状巨孢囊霉的孢子壁上，并且M061122 - 6和M061122 - 12进一步定殖在真菌菌丝上。在不同pH条件下，每个GFP标记菌株在孢子上的种群动态呈现相同趋势，即先增加后减少，并且对种群大小的影响因不同pH值而异。GFP标记菌株更容易定殖在低活力的孢子上，而在高活力孢子上每个标记菌株的种群动态有所不同。