Institute of Environmental Biotechnology, Graz University of Technology, Petersgasse 12, 8010, Graz, Austria.
Austrian Centre of Industrial Biotechnolgy GmbH, Petersgasse 14, 8010, Graz, Austria.
Microbiome. 2017 Jul 19;5(1):82. doi: 10.1186/s40168-017-0303-5.
Recent evidence of specific bacterial communities extended the traditional concept of fungal-algal lichen symbioses by a further organismal kingdom. Although functional roles were already assigned to dominant members of the highly diversified microbiota, a substantial fraction of the ubiquitous colonizers remained unexplored. We employed a multi-omics approach to further characterize functional guilds in an unconventional model system.
The general community structure of the lichen-associated microbiota was shown to be highly similar irrespective of the employed omics approach. Five highly abundant bacterial orders-Sphingomonadales, Rhodospirillales, Myxococcales, Chthoniobacterales, and Sphingobacteriales-harbor functions that are of substantial importance for the holobiome. Identified functions range from the provision of vitamins and cofactors to the degradation of phenolic compounds like phenylpropanoid, xylenols, and cresols.
Functions that facilitate the persistence of Lobaria pulmonaria under unfavorable conditions were present in previously overlooked fractions of the microbiota. So far, unrecognized groups like Chthoniobacterales (Verrucomicrobia) emerged as functional protectors in the lichen microbiome. By combining multi-omics and imaging techniques, we highlight previously overlooked participants in the complex microenvironment of the lichens.
最近有关特定细菌群落的证据,通过另一个生物界进一步扩展了真菌-藻类共生体的传统概念。尽管已经为高度多样化的微生物群的主要成员分配了功能角色,但大量普遍存在的定殖者仍然没有得到探索。我们采用多组学方法进一步描述了一个非传统模型系统中的功能群。
无论采用何种组学方法,共生体相关微生物群的一般群落结构都表现出高度相似性。五个高度丰富的细菌目——鞘氨醇单胞菌目、红螺旋菌目、粘球菌目、硫杆菌目和鞘脂杆菌目——具有对整个生物群落至关重要的功能。鉴定出的功能范围从提供维生素和辅因子到降解苯丙烷类、二甲苯酚和甲酚等酚类化合物。
有助于促进肺衣在不利条件下生存的功能存在于先前被忽视的微生物群部分中。到目前为止,像硫杆菌目(疣微菌门)这样以前未被识别的群体已经成为地衣微生物群中的功能性保护者。通过结合多组学和成像技术,我们突出了地衣复杂微环境中以前被忽视的参与者。
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