Abstract
Methods for the identification and localisation of endophytic fungi are required to study the establishment, development, and progression of host-symbiont interactions, as visible reactions or disease symptoms are generally absent from host plants. Fluorescent proteins have proved valuable as reporter gene products, allowing non-invasive detection in living cells. This study reports the introduction of genes for two fluorescent proteins, green fluorescent protein (GFP) and red fluorescent protein, DsRed, into the genomes of two distinct perennial ryegrass (Lolium perenne L.)-associated Epichloë endophyte strains using A. tumefaciens-mediated transformation. Comprehensive characterisation of reporter gene-containing endophyte strains was performed using molecular genetic, phenotypic, and bioinformatic tools. A combination of long read and short read sequencing of a selected transformant identified a single complex T-DNA insert of 35,530 bp containing multiple T-DNAs linked together. This approach allowed for comprehensive characterisation of T-DNA integration to single-base resolution, while revealing the unanticipated nature of T-DNA integration in the transformant analysed. These reporter gene endophyte strains were able to establish and maintain stable symbiotum with the host. In addition, the same endophyte strain labelled with two different fluorescent proteins were able to cohabit the same plant. This knowledge can be used to provide the basis to develop strategies to gain new insights into the host-endophyte interaction through independent and simultaneous monitoring in planta throughout its life cycle in greater detail.
Highlights
Asexual endophytes from the genus Epichloë, are strictly seed-transmitted endophytic symbionts of cool-season grasses (Poaceae, sub-family Pooideae) characterised by a life-cycle wholly confined to the host plant [1,2]
The present study describes the successful generation of green fluorescent protein (GFP) and DsRed expressing asexual Epichloë endophyte strains, referred to as endophytes, belonging to different representative taxa, LpTG-3 and LpTG-4, which provide bioprotective properties to the host plant against invertebrate herbivores, likely through production of epoxy-janthitrems [6,8,34]
All binary vectors generated were transformed into A. tumefaciens cells of strains AGL1 and LBA 4404, and PCR analysis was used to confirm the presence of the transformed plasmids
Summary
Asexual endophytes from the genus Epichloë (previously Neotyphodium), are strictly seed-transmitted endophytic symbionts of cool-season grasses (Poaceae, sub-family Pooideae) characterised by a life-cycle wholly confined to the host plant [1,2]. The relationships between asexual Epichloë species and their grass hosts are often mutualistic in nature [3]. Endophyte infection can impart environmental stress tolerance and protection from herbivory, markedly enhancing host survival. The latter property is attributable to production of bioprotective alkaloid compounds, including ergot alkaloids, pyrrolopyrazines (such as peramine), aminopyrrolizidines (such as lolines), and indole-diterpenes (including lolitrems and epoxy-janthitrems) [3,4,5,6]. Several taxa of asexual Epichloë fungal endophytes have been found to form associations with perennial ryegrass, the most important pasture grass species for temperate grassland agriculture, including E. festucae var. Several taxa of asexual Epichloë fungal endophytes have been found to form associations with perennial ryegrass, the most important pasture grass species for temperate grassland agriculture, including E. festucae var. lolii (LpTG-1, Lolium perenne taxonomic group 1), LpTG-2, LpTG-3, and LpTG-4, respectively [7,8]
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