M.B Tiersma scite author profile

Duckweeds are notoriously invasive plants. They are successful in inhabiting diverse environments, despite their lack of conventional immune pathways that are essential for disease resistance in other plant species. It is unclear how duckweeds thrive in the absence of these immune pathways. In this study, we investigated the effect of bacteria from duckweeds natural habitat on disease progression utilizing the duckweed-Pseudomonas pathosystem. Through nanopore sequencing of 16S and ITS rDNA amplicons we identified duckweed-associated bacterial and fungal genera present at three environmental sites. The pond filtrate from one of the three environmental locations primed duckweeds pathogen defenses leading to a reduction in disease symptoms. Furthermore, we were able to identify bacterial isolates from the filtrate that protect duckweed from disease symptoms upon Pseudomonas pathogen inoculation. The isolated protective bacteria belong to the Pseudomonas genus and we demonstrated antagonistic interactions between the pathogen and beneficial strains in vitro and in vivo. The ability of our environmental isolates to protect against Pseudomonas pathogens appears to be plant/species specific as environmental strains showed no protective effect against Pseudomonas pathogens in Arabidopsis assays. Genome sequencing of the beneficial Pseudomonas strains showed the presence of several genes involved in bacterial competition. We have thus demonstrated that Pseudomonas species from duckweeds natural habitat can successfully antagonize other plant pathogens.

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Characterization of EDS1-independent plant defense responses against bacterial pathogens using Duckweed/Pseudomonaspathosystems

Baggs¹,

Tiersma

Abramsom

et al. 2022

Preprint

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ENHANCED DISEASE SUSCEPTIBILITY 1 (EDS1) mediates the induction of defense responses against pathogens in most land plants. However, it has recently been shown that a few species have lost EDS1. It is unknown how defense against disease unfolds and evolves in the absence of EDS1. Here we utilize duckweeds; a collection of aquatic species that lack EDS1, to investigate this question. We successfully established duckweed-Pseudomonas pathosystems and were able to characterize pathogen-induced responses in an immune system that lacks the EDS1 signaling pathway. We show that the copy number of infection-associated genes and the infection-induced transcriptional responses of duckweeds differ from that of other model species. Moreover, we show that the conservation of canonical Microbe Triggered Immunity and Effector Triggered Immunity pathways varies between duckweed species. This work shows that pathogen defense has evolved along different trajectories and uncovers alternative genomic and transcriptional reprogramming. Specifically, the miAMP1 domain containing proteins, which are absent in Arabidopsis, show pathogen responsive upregulation in duckweeds. Despite such divergence between Arabidopsis and duckweed species, we find evidence for the conservation of upregulation of certain genes and the role of hormones in response to disease. Our work highlights the importance of expanding the pool of model species to study defense responses that have evolved in the plant kingdom, including those independent of EDS1.

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M.B Tiersma

Pseudomonasisolates from ponds populated with duckweed prevent disease caused by pathogenicPseudomonasspecies

Characterization of EDS1-independent plant defense responses against bacterial pathogens using Duckweed/Pseudomonaspathosystems

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