Elliott Geoffrey N, Chou Jui-Hsing, Chen Wen-Ming, Bloemberg Guido V, Bontemps Cyril, Martínez-Romero Esperanza, Velázquez Encarna, Young J Peter W, Sprent Janet I, James Euan K
College of Life Sciences, University of Dundee, Dundee DD1 5EH, UK.
Environ Microbiol. 2009 Apr;11(4):762-78. doi: 10.1111/j.1462-2920.2008.01799.x. Epub 2008 Nov 10.
Bacteria isolated from Mimosa nodules in Taiwan, Papua New Guinea, Mexico and Puerto Rico were identified as belonging to either the alpha- or beta-proteobacteria. The beta-proteobacterial Burkholderia and Cupriavidus strains formed effective symbioses with the common invasive species Mimosa diplotricha, M. pigra and M. pudica, but the alpha-proteobacterial Rhizobium etli and R. tropici strains produced a range of symbiotic phenotypes from no nodulation through ineffective to effective nodulation, depending on Mimosa species. Competition studies were performed between three of the alpha-proteobacteria (R. etli TJ167, R. tropici NGR181 and UPRM8021) and two of the beta-rhizobial symbionts (Burkholderia mimosarum PAS44 and Cupriavidus taiwanensis LMG19424) for nodulation of these invasive Mimosa species. Under flooded conditions, B. mimosarum PAS44 out-competed LMG19424 and all three alpha-proteobacteria to the point of exclusion. This advantage was not explained by initial inoculum levels, rates of bacterial growth, rhizobia-rhizobia growth inhibition or individual nodulation rate. However, the competitive domination of PAS44 over LMG19424 was reduced in the presence of nitrate for all three plant hosts. The largest significant effect was for M. pudica, in which LMG19424 formed 57% of the nodules in the presence of 0.5 mM potassium nitrate. In this host, ammonium also had a similar, but lesser, effect. Comparable results were also found using an N-containing soil mixture, and environmental N levels are therefore suggested as a factor in the competitive success of the bacterial symbiont in vivo.
从中国台湾、巴布亚新几内亚、墨西哥和波多黎各的含羞草根瘤中分离出的细菌被鉴定为属于α-或β-变形菌纲。β-变形菌纲的伯克霍尔德菌属和贪铜菌属菌株与常见入侵物种双刺含羞草、无刺含羞草和含羞草形成了有效的共生关系,但α-变形菌纲的埃氏根瘤菌和热带根瘤菌菌株根据含羞草种类产生了一系列共生表型,从无结瘤到无效结瘤再到有效结瘤。对三种α-变形菌(埃氏根瘤菌TJ167、热带根瘤菌NGR181和UPRM8021)和两种β-根瘤菌共生体(含羞草伯克霍尔德菌PAS44和台湾贪铜菌LMG19424)进行了竞争研究,以确定它们对这些入侵含羞草物种的结瘤情况。在淹水条件下,含羞草伯克霍尔德菌PAS44在竞争中胜过LMG19424和所有三种α-变形菌,直至将它们排除。这种优势无法用初始接种水平、细菌生长速率、根瘤菌-根瘤菌生长抑制或个体结瘤率来解释。然而,在所有三种植物宿主中,在有硝酸盐存在的情况下,PAS44对LMG19424的竞争优势有所降低。对含羞草的影响最为显著,在0.5 mM硝酸钾存在的情况下,LMG19424形成了57%的根瘤。在这种宿主中,铵也有类似但较小的影响。使用含氮土壤混合物也得到了类似的结果,因此环境氮水平被认为是体内细菌共生体竞争成功的一个因素。
