AI Article Synopsis
- Plants have developed complex strategies to detect pathogens and trigger defense mechanisms, with AHL-mediated quorum sensing playing a key role in bacterial behavior and pathogenicity.
- In experiments with AHL-producing transgenic tobacco and Pseudomonas syringae 11528, AHL-producing plants showed lower disease incidence and reduced bacterial growth compared to wild-type plants.
- RNA sequencing revealed that AHLs not only boosted plant defense responses, such as oxidative bursts and cell wall strengthening, but also altered pathogen gene expression, enhancing the plant's immunity early in infection.
Article Abstract
In order to cope with pathogens, plants have evolved sophisticated mechanisms to sense pathogenic attacks and to induce defence responses. The N-acyl-homoserine lactone (AHL)-mediated quorum sensing in bacteria regulates diverse physiological processes, including those involved in pathogenicity. In this work, we study the interactions between AHL-producing transgenic tobacco plants and Pseudomonas syringae pv. tabaci 11528 (P. syringae 11528). Both a reduced incidence of disease and decrease in the growth of P. syringae 11528 were observed in AHL-producing plants compared with wild-type plants. The present data indicate that plant-produced AHLs enhance disease resistance against this pathogen. Subsequent RNA-sequencing analysis showed that the exogenous addition of AHLs up-regulated the expression of P. syringae 11528 genes for flagella production. Expression levels of plant defence genes in AHL-producing and wild-type plants were determined by quantitative real-time polymerase chain reaction. These data showed that plant-produced AHLs activated a wide spectrum of defence responses in plants following inoculation, including the oxidative burst, hypersensitive response, cell wall strengthening, and the production of certain metabolites. These results demonstrate that exogenous AHLs alter the gene expression patterns of pathogens, and plant-produced AHLs either directly or indirectly enhance plant local immunity during the early stage of plant infection.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6637982 | PMC |
| http://dx.doi.org/10.1111/mpp.12502 | DOI Listing |
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