4.6 Article

An Evolved 5′ Untranslated Region of Alfalfa Mosaic Virus Allows the RNA Transport of Movement-Defective Variants

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JOURNAL OF VIROLOGY
卷 96, 期 22, 页码 -

出版社

AMER SOC MICROBIOLOGY
DOI: 10.1128/jvi.00988-22

关键词

cell-to-cell and systemic movement; virus particles; AMV model system; BMV

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资金

  1. Spanish MCIN/AEI granting agency-FEDER [PID2020-115571RB-I00, PID2019-103998GB-I00]
  2. Generalitat Valenciana [PROMETEO/2015/010, PROMETEO2019/012]

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The results of this study challenge the traditional view on the role of virus particles in the systemic transport of plant viruses. It was shown that two different movement proteins can transport the AMV genome systemically without the need for virus particles. Additionally, it was found that the BMV MP is capable of short- and long-distance transport without interacting with the CP.
The results obtained in the present work could challenge the view of the role of the virus particle in the systemic transport of plant viruses. In this sense, we show that two different MPs are competent to systemically transport the AMV genome without the requirement of the virus particles, as reported for viruses lacking a CP (e.g., Umbravirus). Although the coat protein (CP) has a relevant role in the long-distance movement of alfalfa mosaic virus (AMV) and brome mosaic virus (BMV), its precise function is not fully understood. Previous results showed that a specific interaction between the C termini of the movement protein (MP) and the cognate CP is required for systemic transport. Thus, we have performed a compensatory evolution experiment using an AMV RNA3 derivative defective in long-distance transport that carries a BMV MP lacking the C-terminal 48 residues and unable to interact with the AMV CP. After several passages, five independent evolution lineages were able to move long distance. The analysis of the viral RNA of these lineages showed the presence of three different modifications located exclusively at the 5 ' untranslated region (5 ' UTR). The three evolved 5 ' UTR variants accumulated comparable levels of viral RNA and CP but reduced the accumulation of virus particles and the affinity between the 5 ' UTR and the AMV CP. In addition, the evolved 5 ' UTR increased cell-to-cell transport for both the AMV RNA3 carrying the BMV MP and that carrying the AMV MP. Finally, the evolved 5 ' UTRs allowed the systemic transport of an AMV RNA3 carrying a CP mutant defective in virus particles and increased the systemic transport of several AMV RNA3 derivatives carrying different viral MPs associated with the 30K superfamily. Altogether, our findings indicate that virus particles are not required for the systemic transport of AMV but also that BMV MP is competent for the short- and long-distance transport without the interaction with the CP. IMPORTANCE The results obtained in the present work could challenge the view of the role of the virus particle in the systemic transport of plant viruses. In this sense, we show that two different MPs are competent to systemically transport the AMV genome without the requirement of the virus particles, as reported for viruses lacking a CP (e.g., Umbravirus). The incapability of the viral MP to interact with the CP triggered virus variants that evolved to reduce the formation of virus particles, probably to increase the accessibility of the MP to the viral progeny. Our results point to the idea that virus particles would not be necessary for the viral systemic transport but would be necessary for vector virus transmission. This idea is reinforced by the observation that heterologous MPs also increased the systemic transport of the AMV constructs that have reduced encapsidation capabilities.

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