Differential gene expression in aphids following virus acquisition from plants or from an artificial medium

• Main Authors: Brault, V. (Author), Chesnais, Q. (Author), Marmonier, A. (Author), Rustenholz, C. (Author), Velt, A. (Author), Villeroy, C. (Author)
• Format: Article
• Language: English
• Published: BioMed Central Ltd 2022
• Subjects: article; deregulation; differential gene expression; feeding; ingestion; locomotion; Myzus persicae; nonhuman; phloem; Polerovirus; RNA sequencing; RNA-Seq; turnip; Vector behavior; vesicle trafficking; virus particle
• Online Access: View Fulltext in Publisher

 Background: Poleroviruses, such as turnip yellows virus (TuYV), are plant viruses strictly transmitted by aphids in a persistent and circulative manner. Acquisition of either virus particles or plant material altered by virus infection is expected to induce gene expression deregulation in aphids which may ultimately alter their behavior. Results: By conducting an RNA-Seq analysis on viruliferous aphids fed either on TuYV-infected plants or on an artificial medium containing purified virus particles, we identified several hundreds of genes deregulated in Myzus persicae, despite non-replication of the virus in the vector. Only a few genes linked to receptor activities and/or vesicular transport were common between the two modes of acquisition with, however, a low level of deregulation. Behavioral studies on aphids after virus acquisition showed that M. persicae locomotion behavior was affected by feeding on TuYV-infected plants, but not by feeding on the artificial medium containing the purified virus particles. Consistent with this, genes potentially involved in aphid behavior were deregulated in aphids fed on infected plants, but not on the artificial medium. Conclusions: These data show that TuYV particles acquisition alone is associated with a moderate deregulation of a few genes, while higher gene deregulation is associated with aphid ingestion of phloem from TuYV-infected plants. Our data are also in favor of a major role of infected plant components on aphid behavior. © 2022, The Author(s).