Department of Medical Biotechnology, School of Medicine, Flinders University, Bedford Park, Adelaide, South Australia, Australia.
Microb Ecol. 2013 Feb;65(2):384-93. doi: 10.1007/s00248-012-0113-z. Epub 2012 Sep 14.
In recent years, new actinobacterial species have been isolated as endophytes of plants and shrubs and are sought after both for their role as potential producers of new drug candidates for the pharmaceutical industry and as biocontrol inoculants for sustainable agriculture. Molecular-based approaches to the study of microbial ecology generally reveal a broader microbial diversity than can be obtained by cultivation methods. This study aimed to improve the success of isolating individual members of the actinobacterial population as pure cultures as well as improving the ability to characterise the large numbers obtained in pure culture. To achieve this objective, our study successfully employed rational and holistic approaches including the use of isolation media with low concentrations of nutrients normally available to the microorganism in the plant, plating larger quantities of plant sample, incubating isolation plates for up to 16 weeks, excising colonies when they are visible and choosing Australian endemic trees as the source of the actinobacteria. A hierarchy of polyphasic methods based on culture morphology, amplified 16S rRNA gene restriction analysis and limited sequencing was used to classify all 576 actinobacterial isolates from leaf, stem and root samples of two eucalypts: a Grey Box and Red Gum, a native apricot tree and a native pine tree. The classification revealed that, in addition to 413 Streptomyces spp., isolates belonged to 16 other actinobacterial genera: Actinomadura (two strains), Actinomycetospora (six), Actinopolymorpha (two), Amycolatopsis (six), Gordonia (one), Kribbella (25), Micromonospora (six), Nocardia (ten), Nocardioides (11), Nocardiopsis (one), Nonomuraea (one), Polymorphospora (two), Promicromonospora (51), Pseudonocardia (36), Williamsia (two) and a novel genus Flindersiella (one). In order to prove novelty, 12 strains were characterised fully to the species level based on polyphasic taxonomy. One strain represented a novel genus in the family Nocardioides, and the other 11 strains were accepted as novel species. In summary, the holistic isolation strategies were successful in obtaining significant culturable actinobacterial diversity within Australian native trees that includes rare and novel species.
近年来,已从植物和灌木的内生菌中分离出新的放线菌物种,它们不仅因为可能成为制药工业新候选药物的潜在生产者而受到关注,而且还因为它们是可持续农业的生物防治接种剂而受到关注。基于分子的微生物生态学研究方法通常揭示出比通过培养方法获得的更广泛的微生物多样性。本研究旨在提高分离放线菌种群中单个成员为纯培养物的成功率,并提高对大量获得的纯培养物进行特征描述的能力。为了实现这一目标,我们的研究成功地采用了合理和整体的方法,包括使用营养浓度较低的分离培养基,通常在植物中可获得微生物,增加植物样本的接种量,将分离平板培养长达 16 周,当可见时切除菌落,并选择澳大利亚特有树木作为放线菌的来源。基于培养形态、扩增 16S rRNA 基因限制性分析和有限测序的多相方法层次结构用于对来自两种桉树(灰箱和红胶)、一种本地杏树和一种本地松树的叶、茎和根样本的 576 个放线菌分离物进行分类。分类结果表明,除了 413 株链霉菌属外,分离物还属于 16 个其他放线菌属:游动放线菌属(2 株)、放线菌属(6 株)、放线菌属(2 株)、阿霉素属(6 株)、戈登氏菌属(1 株)、克里贝拉属(25 株)、小单孢菌属(6 株)、诺卡氏菌属(10 株)、诺卡氏菌属(11 株)、诺卡氏菌属(1 株)、野野村菌属(1 株)、多形孢菌属(2 株)、普罗米克罗莫尼斯菌属(51 株)、假诺卡氏菌属(36 株)、威廉姆斯菌属(2 株)和一个新的弗林德斯氏菌属(1 株)。为了证明新颖性,根据多相分类学,对 12 株菌株进行了全面的种水平特征描述。一株代表诺卡氏菌科的一个新属,其余 11 株被确认为新种。总之,整体的分离策略成功地从澳大利亚本地树木中获得了显著的可培养放线菌多样性,其中包括稀有和新颖的物种。
