The mystery remains: How do potyviruses move within and between cells?

The genus Potyvirus is considered as the largest among plant single‐stranded (positive‐sense) RNA viruses, causing considerable economic damage to vegetable and fruit crops worldwide. Through the coordinated action of four viral proteins and a few identified host factors, potyviruses exploit the end...

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Veröffentlicht in:	Molecular plant pathology 2023-12, Vol.24 (12), p.1560-1574
Hauptverfasser:	Xue, Mingshuo, Arvy, Nathalie, German‐Retana, Sylvie
Format:	Artikel
Sprache:	eng
Schlagworte:	6K2 vesicles Adaptation Cell migration Fruit crops Genomes Life Sciences movement protein Nicotiana Phytopathology and phytopharmacy Plant Diseases Plant viruses Plasmodesmata Potyvirus Potyvirus - genetics Proteins Replication Review RNA polymerase RNA viruses Vegetal Biology Vesicles Viral Proteins - metabolism viral replication compartments Virions Viruses VRC
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container_title	Molecular plant pathology
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creator	Xue, Mingshuo Arvy, Nathalie German‐Retana, Sylvie
description	The genus Potyvirus is considered as the largest among plant single‐stranded (positive‐sense) RNA viruses, causing considerable economic damage to vegetable and fruit crops worldwide. Through the coordinated action of four viral proteins and a few identified host factors, potyviruses exploit the endomembrane system of infected cells for their replication and for their intra‐ and intercellular movement to and through plasmodesmata (PDs). Although a significant amount of data concerning potyvirus movement has been published, no synthetic review compiling and integrating all information relevant to our current understanding of potyvirus transport is available. In this review, we highlight the complexity of potyvirus movement pathways and present three potential nonexclusive mechanisms based on (1) the use of the host endomembrane system to produce membranous replication vesicles that are targeted to PDs and move from cell to cell, (2) the movement of extracellular viral vesicles in the apoplasm, and (3) the transport of virion particles or ribonucleoprotein complexes through PDs. We also present and discuss experimental data supporting these different models as well as the aspects that still remain mostly speculative. This synthetic review aims to shed light on the mysteries surrounding the complexity of potyvirus movement pathways.
doi_str_mv	10.1111/mpp.13383
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subjects	6K2 vesicles Adaptation Cell migration Fruit crops Genomes Life Sciences movement protein Nicotiana Phytopathology and phytopharmacy Plant Diseases Plant viruses Plasmodesmata Potyvirus Potyvirus - genetics Proteins Replication Review RNA polymerase RNA viruses Vegetal Biology Vesicles Viral Proteins - metabolism viral replication compartments Virions Viruses VRC
title	The mystery remains: How do potyviruses move within and between cells?
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