Bases moléculaires des propriétés biologiques du virus de la mosaïque de la laitue (LMV): Variabilité et organisation génomique

a completera complete

Bases moléculaires des propriétés biologiques du virus de la mosaïque de la laitue (LMV): Variabilité et organisation génomique

a completera complete

Plant resistance to infection by viruses

Among the most devastating pathogens, plant viruses are responsible for considerable losses of most agronomically important crops in the fields. The development and use of cultivars that are genetically resistant to viruses is an efficient strategy to tackle the problems associated with virus diseases. Recently, important advances have been made in our understanding of the molecular nature and mechanisms associated with natural recessive and dominant resistance genes, as well as in the antiviral defence system based on ribonucleic acids, referred to as RNA silencing. In this review, the authors summarise current knowledge about the defence mechanisms that prevent or limit viral infection in plants and discuss the likely collaboration of these different antiviral strategies insuring the resistance of the whole plant

Genus Potyvirus

International audienc

Molecular biology of potyviruses.

Potyvirus is the largest genus of plant viruses causing significant losses in a wide range of crops. Potyviruses are aphid transmitted in a nonpersistent manner and some of them are also seed transmitted. As important pathogens, potyviruses are much more studied than other plant viruses belonging to other genera and their study covers many aspects of plant virology, such as functional characterization of viral proteins, molecular interaction with hosts and vectors, structure, taxonomy, evolution, epidemiology, and diagnosis. Biotechnological applications of potyviruses are also being explored. During this last decade, substantial advances have been made in the understanding of the molecular biology of these viruses and the functions of their various proteins. After a general presentation on the family Potyviridae and the potyviral proteins, we present an update of the knowledge on potyvirus multiplication, movement, and transmission and on potyvirus/plant compatible interactions including pathogenicity and symptom determinants. We end the review providing information on biotechnological applications of potyviruses

Family Potyviridae

International audienc