Barnett S J, Alami Y, Singleton I, Ryder M H
Department of Crop Protection, University of Adelaide, South Australia.
Can J Microbiol. 1999 Apr;45(4):287-98. doi: 10.1139/w99-006.
Bacteria are known to rapidly produce new phenotypes, but it is unclear how phenotype "plasticity" relates to studies on the population ecology of bacteria in complex environments. We characterised a collection of 14 spontaneous phenotype variants, derived from in vitro and in vivo cultures (wheat roots) of Pseudomonas corrugata 2140, using fatty acid methyl ester profiles (GC-FAME), carbon substrate utilisation (BIOLOG), and in vitro inhibition against seven soil microorganisms. All three phenotype profiles indicated marked differences between some variants and the parent isolate. Some variant types were classified taxonomically by GC-FAME as different species to their wild-type parent, and up to a Euclidian distance of 11 from their parent. Taxonomic identification by the BIOLOG assay was more consistent; however, use of 22 carbon sources were altered (lost or gained) in one or more variants. All variant types had a reduced ability to inhibit one or more test organisms, depending on the variant and test organism. Hierarchical cluster analysis of variants using GC-FAME, BIOLOG, and inhibition profiles produced different groupings. The ability of variants to cross taxonomic boundaries specified by the GC-FAME and BIOLOG libraries at the species level has implications for both taxonomy and the ecological study of bacterial communities.
已知细菌能快速产生新的表型,但尚不清楚表型“可塑性”与复杂环境中细菌种群生态学研究之间的关系。我们利用脂肪酸甲酯谱(气相色谱-脂肪酸甲酯分析)、碳源利用(Biolog微生物鉴定系统)以及对七种土壤微生物的体外抑制作用,对源自皱叶假单胞菌2140体外和体内培养物(小麦根)的14个自发表型变体进行了表征。所有这三种表型谱均表明,一些变体与亲本菌株之间存在显著差异。通过气相色谱-脂肪酸甲酯分析,一些变体类型在分类学上被归类为与其野生型亲本不同的物种,与亲本的欧氏距离高达11。Biolog分析的分类鉴定更为一致;然而,在一个或多个变体中,22种碳源的利用情况发生了改变(丧失或获得)。所有变体类型抑制一种或多种测试生物的能力均有所降低,这取决于变体和测试生物。使用气相色谱-脂肪酸甲酯分析、Biolog分析和抑制谱对变体进行层次聚类分析产生了不同的分组。变体跨越气相色谱-脂肪酸甲酯分析和Biolog文库在物种水平规定的分类边界的能力,对细菌群落的分类学和生态学研究都有影响。
