Department of Plant Biology, School of Integrative Biology, University of Illinois, 505 S. Goodwin Ave., Urbana, IL, 61801, USA.
Department of Biology, University of Louisville, 139 Life Sciences Bldg., Louisville, KY, 40208, USA.
Am J Bot. 2020 Feb;107(2):219-228. doi: 10.1002/ajb2.1436. Epub 2020 Feb 18.
Interactions between fungal endophytes and their host plants present useful systems for identifying important factors affecting assembly of host-associated microbiomes. Here we investigated the role of secondary chemistry in mediating host affinity of asymptomatic foliar endophytic fungi using Psychotria spp. and Theobroma cacao (cacao) as hosts.
First, we surveyed endophytic communities in Psychotria species in a natural common garden using culture-based methods. Then we compared differences in endophytic community composition with differences in foliar secondary chemistry in the same host species, determined by liquid chromatography-tandem mass spectrometry. Finally, we tested how inoculation with live and heat-killed endophytes affected the cacao chemical profile.
Despite sharing a common environment and source pool for endophyte spores, different Psychotria host species harbored strikingly different endophytic communities that reflected intrinsic differences in their leaf chemical profiles. In T. cacao, inoculation with live and heat-killed endophytes produced distinct cacao chemical profiles not found in uninoculated plants or pure fungal cultures, suggesting that endophytes, like pathogens, induce changes in secondary chemical profiles of their host plant.
Collectively our results suggest at least two potential processes: (1) Plant secondary chemistry influences assembly and composition of fungal endophytic communities, and (2) host colonization by endophytes subsequently induces changes in the host chemical landscape. We propose a series of testable predictions based on the possibility that reciprocal chemical interactions are a general property of plant-endophyte interactions.
真菌内生菌与其宿主植物之间的相互作用为鉴定影响宿主相关微生物组组装的重要因素提供了有用的系统。在这里,我们使用 Psychotria spp. 和可可(可可)作为宿主,研究了次生化学物质在介导无症状叶内生真菌宿主亲和力中的作用。
首先,我们使用基于培养的方法调查了天然普通花园中 Psychotria 物种中的内生群落。然后,我们通过液相色谱-串联质谱法比较了同一宿主物种中内生群落组成的差异与叶片次生化学物质的差异。最后,我们测试了用活菌和热灭活内生菌接种如何影响可可的化学特征。
尽管内生菌孢子共享共同的环境和来源池,但不同的 Psychotria 宿主物种却拥有截然不同的内生群落,这反映了它们叶片化学特征的内在差异。在可可中,活菌和热灭活内生菌的接种产生了与未接种植物或纯真菌培养物中不同的可可化学特征,这表明内生菌与病原体一样,会诱导宿主植物次生化学特征的变化。
总的来说,我们的结果表明了至少两个潜在的过程:(1)植物次生化学物质影响内生真菌群落的组装和组成,(2)内生菌对宿主的定植随后诱导宿主化学景观的变化。我们提出了一系列基于互惠化学相互作用可能是植物-内生菌相互作用的一般特性的可测试预测。
