Author:
Leastro Mikhail Oliveira,Freitas-Astúa Juliana,Kitajima Elliot Watanabe,Pallás Vicente,Sánchez-Navarro Jesús A.
Abstract
AbstractCitrus leprosis (CL) is a severe disease that affects citrus orchards mainly in Latin America. It is caused byBrevipalpus-transmitted viruses from generaCilevirusandDichorhavirus. Currently, no reports have explored the movement machinery for the cilevirus.Here, we have performed a detailed functional study of the p32 movement protein (MP) of two cileviruses. Citrus leprosis-associated viruses are not able to move systemically in neither their natural nor experimental host plants. However, here we show that cilevirus MPs are able to allow the cell-to-cell and long-distance transport of movement-defective alfalfa mosaic virus (AMV). Several features related with the viral transport were explored, including: (i) the ability of cilevirus MPs to facilitate virus movement on a nucleocapsid assembly independent-manner; (ii) the generation of tubular structures from transient expression in protoplast; (iii) the capability of the N- and C- terminus of MP to interact with the cognate capsid protein (p29) and; (iv) the role of the C-terminus of p32 in the cell-to-cell and long-distance transport, tubule formation and the MP-plasmodesmata co-localization. The MP was able to direct the p29 to the plasmodesmata, whereby the C-terminus of MP is independently responsible to recruit the p29 to the cell periphery. Furthermore, we report that MP possess the capacity to enter the nucleolus and to bind to a major nucleolar protein, the fibrillarin. Based on our findings, we provide a model for the role of the p32 in the intra- and intercellular viral spread.
Funder
Fundação de Amparo à Pesquisa do Estado de São Paulo
Spanish Dirección General de Investigación Científica y Técnica
Generalitat Valenciana, Prometeo Program
Publisher
Springer Science and Business Media LLC
Cited by
11 articles.
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