DOIAbstract
AbstractPlants can become ‘immune’ to attack by viruses by degrading specific viral RNA, but some plant viruses have evolved the general capacity to suppress this resistance mechanism
AbstractPlants can become ‘immune’ to attack by viruses by degrading specific viral RNA, but some plant viruses have evolved the general capacity to suppress this resistance mechanism
# The Author(s) 2014. This article is published with open access at Springerlink.com Abstract In hig...
This chapter reviews our current knowledge about mechanisms of suppression developed by pathogens to...
AbstractRNA silencing is a homology-dependent gene inactivation mechanism that regulates a wide rang...
AbstractPlants can become ‘immune’ to attack by viruses by degrading specific viral RNA, but some pl...
International audienceEvolution has equipped plants with defense mechanisms to counterattack virus i...
In plants the mechanism of RNA silencing evolved to defend plants against viral infection as well as...
On occasion, virus-derived transgenes in plants can be poorly expressed and yet provide excellent vi...
[EN] Plants defend themselves from invading viruses using RNA silencing. However, plant viruses try ...
plants, the mechanism of RNA silencing has evolved to defend plants against viral infection as well ...
Plants defend themselves from invading viruses using RNA silencing. However, plant viruses try to sp...
Among the most devastating pathogens, plant viruses are responsible for considerable losses of most ...
Abstract Background Plants in nature or crops in the field interact with a multitude of beneficial o...
Gene silencing was perceived initially as an unpredictable and inconvenient side effect of introduci...
The frontline of plant defense against non-viral pathogens such as bacteria, fungi and oomycetes is ...
Plant viruses impose a serious threat on agriculture, which motivates extensive breeding efforts for...
# The Author(s) 2014. This article is published with open access at Springerlink.com Abstract In hig...
This chapter reviews our current knowledge about mechanisms of suppression developed by pathogens to...
AbstractRNA silencing is a homology-dependent gene inactivation mechanism that regulates a wide rang...
AbstractPlants can become ‘immune’ to attack by viruses by degrading specific viral RNA, but some pl...
International audienceEvolution has equipped plants with defense mechanisms to counterattack virus i...
In plants the mechanism of RNA silencing evolved to defend plants against viral infection as well as...
On occasion, virus-derived transgenes in plants can be poorly expressed and yet provide excellent vi...
[EN] Plants defend themselves from invading viruses using RNA silencing. However, plant viruses try ...
plants, the mechanism of RNA silencing has evolved to defend plants against viral infection as well ...
Plants defend themselves from invading viruses using RNA silencing. However, plant viruses try to sp...
Among the most devastating pathogens, plant viruses are responsible for considerable losses of most ...
Abstract Background Plants in nature or crops in the field interact with a multitude of beneficial o...
Gene silencing was perceived initially as an unpredictable and inconvenient side effect of introduci...
The frontline of plant defense against non-viral pathogens such as bacteria, fungi and oomycetes is ...
Plant viruses impose a serious threat on agriculture, which motivates extensive breeding efforts for...
# The Author(s) 2014. This article is published with open access at Springerlink.com Abstract In hig...
This chapter reviews our current knowledge about mechanisms of suppression developed by pathogens to...
AbstractRNA silencing is a homology-dependent gene inactivation mechanism that regulates a wide rang...
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