Abstract
BackgroundThe RNA silencing pathway is an important anti-viral defense mechanism in plants. As a counter defense, some members of the viral family Luteoviridae are able to evade host immunity by encoding the P0 RNA silencing suppressor protein. Here we explored the functional diversity of P0 proteins among eight cotton leafroll dwarf virus (CLRDV) isolates, a virus associated with a worldwide cotton disease known as cotton blue disease (CBD).MethodsCLRDV-infected cotton plants of different varieties were collected from five growing fields in Brazil and their P0 sequences compared to three previously obtained isolates. P0’s silencing suppression activities were scored based on transient expression experiments in Nicotiana benthamiana leaves.ResultsHigh sequence diversity was observed among CLRDV P0 proteins, indicating that some isolates found in cotton varieties formerly resistant to CLRDV should be regarded as new genotypes within the species. All tested proteins were able to suppress local and systemic silencing, but with significantly variable degrees. All P0 proteins were able to mediate the decay of ARGONAUTE proteins, a key component of the RNA silencing machinery.ConclusionsThe sequence diversity observed in CLRDV P0s is also reflected in their silencing suppression capabilities. However, the strength of local and systemic silencing suppression was not correlated for some proteins.Electronic supplementary materialThe online version of this article (doi:10.1186/s12985-015-0356-7) contains supplementary material, which is available to authorized users.
Highlights
The RNA silencing pathway is an important anti-viral defense mechanism in plants
Sequence diversity among cotton leafroll dwarf virus (CLRDV) P0 proteins When the genomic sequences of four previously identified CLRDV isolates were compared, significant differences were only observed in the P0 coding sequence [3]
Our results indicated a high diversity among P0 proteins from Brazilian and Argentinian isolates of CLRDV, a virus associated with cotton blue disease (CBD)
Summary
The RNA silencing pathway is an important anti-viral defense mechanism in plants. Some members of the viral family Luteoviridae are able to evade host immunity by encoding the P0 RNA silencing suppressor protein. We explored the functional diversity of P0 proteins among eight cotton leafroll dwarf virus (CLRDV) isolates, a virus associated with a worldwide cotton disease known as cotton blue disease (CBD). Cotton leafroll dwarf virus (CLRDV) is the causal agent of an economically important cotton (Gossypium hirsutum) disease called cotton blue disease (CBD) [1]. CBD symptoms are characterized by stunting, leaf rolling, vein yellowing, dark-green leaves and small bolls, leading to severe yield losses when aphid populations are not properly controlled. Since 2006, several resistance breaking CLRDV isolates have been observed throughout the country, producing CBD-like symptoms in formerly resistance cotton lines [3]. Apart from typical CBD symptoms, resistant or susceptible cotton varieties
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