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An Aphid-Transmitted Virus Reduces the Host Plant Response to Its Vector to Promote Its Transmission.

Célia KriegerDavid HalterRaymonde BaltenweckValérie CognatSylvaine BoissinotAlessandra Maia-GrondardMonique ErdingerFlorent BogaertElodie PichonPhilippe HugueneyVéronique BraultVéronique Ziegler-Graff
Published in: Phytopathology (2023)
The success of virus transmission by vectors relies on intricate trophic interactions between three partners, the host plant, the virus, and the vector. Despite numerous studies that showed the capacity of plant viruses to manipulate their host plant to their benefit, and potentially of their transmission, the molecular mechanisms sustaining this phenomenon has not yet been extensively analyzed at the molecular level. In this study, we focused on the deregulations induced in Arabidopsis thaliana by an aphid vector that were alleviated when the plants were infected with turnip yellows virus (TuYV), a polerovirus strictly transmitted by aphids in a circulative and nonpropagative mode. By setting up an experimental design mimicking the natural conditions of virus transmission, we analyzed the deregulations in plants infected with TuYV and infested with aphids by a dual transcriptomic and metabolomic approach. We observed that the virus infection alleviated most of the gene deregulations induced by the aphids in a noninfected plant at both time points analyzed (6 and 72 h) with a more pronounced effect at the later time point of infestation. The metabolic composition of the infected and infested plants was altered in a way that could be beneficial for the vector and the virus transmission. Importantly, these substantial modifications observed in infected and infested plants correlated with a higher TuYV transmission efficiency. This study revealed the capacity of TuYV to alter the plant nutritive content and the defense reaction against the aphid vector to promote the viral transmission.
Keyphrases
  • arabidopsis thaliana
  • sars cov
  • single cell
  • oxidative stress
  • hepatitis c virus
  • hiv infected
  • stress induced
  • genome wide identification