Plasmodesmata: channels for viruses on the move.

Fiche publication


Date publication

janvier 2015

Journal

Methods in molecular biology (Clifton, N.J.)

Auteurs

Membres identifiés du Cancéropôle Est :
Dr HEINLEIN Manfred


Tous les auteurs :
Heinlein M

Résumé

The symplastic communication network established by plasmodesmata (PD) and connected phloem provides an essential pathway for spatiotemporal intercellular signaling in plant development but is also exploited by viruses for moving their genomes between cells in order to infect plants systemically. Virus movement depends on virus-encoded movement proteins (MPs) that target PD and therefore represent important keys to the cellular mechanisms underlying the intercellular trafficking of viruses and other macromolecules. Viruses and their MPs have evolved different mechanisms for intracellular transport and interaction with PD. Some viruses move from cell to cell by interacting with cellular mechanisms that control the size exclusion limit of PD whereas other viruses alter the PD architecture through assembly of specialized transport structures within the channel. Some viruses move between cells in the form of assembled virus particles whereas other viruses may interact with nucleic acid transport mechanisms to move their genomes in a non-encapsidated form. Moreover, whereas several viruses rely on the secretory pathway to target PD, other viruses interact with the cortical endoplasmic reticulum and associated cytoskeleton to spread infection. This chapter provides an introduction into viruses and their role in studying the diverse cellular mechanisms involved in intercellular PD-mediated macromolecular trafficking.

Mots clés

Biological Transport, Cell Communication, Cytoskeleton, metabolism, Endoplasmic Reticulum, metabolism, Gene Expression Regulation, Viral, Host-Pathogen Interactions, Plant Cells, metabolism, Plant Viral Movement Proteins, genetics, Plant Viruses, genetics, Plants, genetics, Plasmodesmata, metabolism, RNA, Viral, genetics, Signal Transduction

Référence

Methods Mol. Biol.. 2015 ;1217:25-52