2017
DOI: 10.1590/1678-4685-gmb-2016-0092
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Translational control in plant antiviral immunity

Abstract: Due to the limited coding capacity of viral genomes, plant viruses depend extensively on the host cell machinery to support the viral life cycle and, thereby, interact with a large number of host proteins during infection. Within this context, as plant viruses do not harbor translation-required components, they have developed several strategies to subvert the host protein synthesis machinery to produce rapidly and efficiently the viral proteins. As a countermeasure against infection, plants have evolved defens… Show more

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Cited by 33 publications
(31 citation statements)
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References 122 publications
(230 reference statements)
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“…The absence of one or more pro‐viral factors results in incompatibility in a host plant (Lellis et al , ). Viral proteins must be translated by the host translational machinery before replication can occur (Ahlquist, ; Machado et al , ; Miller et al , ). This feature makes viral RNA translation a critical determinant of the outcome in plant–virus interactions.…”
Section: Compatibility and Susceptibility In Plant–virus Interactionsmentioning
confidence: 99%
“…The absence of one or more pro‐viral factors results in incompatibility in a host plant (Lellis et al , ). Viral proteins must be translated by the host translational machinery before replication can occur (Ahlquist, ; Machado et al , ; Miller et al , ). This feature makes viral RNA translation a critical determinant of the outcome in plant–virus interactions.…”
Section: Compatibility and Susceptibility In Plant–virus Interactionsmentioning
confidence: 99%
“…Although NIK1 is structurally related to SERKs and is also implicated in plant immunity, the mechanism by which NIK1 propagates an antiviral signal, and the resulting immune responses are entirely different from the BAK1/SERK3‐dependent PTI response against pathogens (Machado et al , ). The mechanism of NIK1‐mediated defence is underscored by repression of translational machinery genes and suppression of global translation, as a new paradigm for plant antiviral immunity (Machado et al , ; Zorzatto et al , ).…”
Section: Introductionmentioning
confidence: 99%
“…Hence, our data provides further insights into translation regulation during plant immunity, showing that the RNA-binding activity of multiple components of the translation machinery, including ribosomal proteins, is altered in response to flg22. A similar global translational slowdown has been suggested to play important roles as an antiviral strategy 37 and to occur during responses to abiotic stresses such as hypoxia 38 , heat 39 or drought 40 . We hypothesise that this phenomenon may play a role in or be a consequence of the described switch from translation of growthrelated mRNAs to those involved in rapid adaptive responses 36 .…”
Section: Flg22 Treatment Inhibits Rbps Involved In Editing and Proteimentioning
confidence: 86%