GENOME SEQUENCE ANALYSIS, RT-PCR DIAGNOSTICS AND CONSTRUCTION OF VIRAL PROTEIN-EXPRESSION CASSETES FOR KAZAKH ISOLATE OF ORDINARY AND ANDEAN STRAINS OF POTATO VIRUS S

International audiencePotato virus S (PVS) belongs to the genus Carlavirus of family Betaflexiviridae with a positive-sense single-stranded RNA genome of 8.5 Kb. PVS is one of the most prevalent viruses of cultivated potatoes in Kazakhstan. Here we report phylogenetic analysis of complete genome sequences of Kazakh isolates of PVS from potato cultivars Fortuna and Ushkonyr, design of PVS strain-specific diagnostic PCR and construction of expression cassettes for conserved viral proteins from both isolates. The Fortuna and Ushkonyr isolates were found to share 79.9% nucleotide identity with each other and belong respectively to previously-defined ordinary and Andean strains of PVS. Based on analysis of conserved and variable regions of available PVS isolates, we designed primers for reverse transcription (RT)-duplex PCR to detect both strains in single and mixed infections and established their prevalence in Almaty region of Kazakhstan. Coding sequences of triple gene block proteins (25K, 12K, 7K), coat protein (34K) and cysteine-rich protein (11K) as well as methyltransferase, peptidase, helicase and RNA-dependent RNA polymerase domains of viral replicase were subcloned from both Fortuna and Ushkonyr genomic RNAs into the binary vector pBIN19 under the control of CaMV 35S promoter and nopaline synthetase terminator. These expression cassettes will be used to further investigate the biological properties and strain characteristics of viral proteins by their transient expression in plant cells and tissues or their stable expression in transgenic plants

Cauliflower mosaic virus protein P6‐TAV plays a major role in alteration of aphid vector feeding behaviour but not performance on infected Arabidopsis

International audienceEmerging evidence suggests that viral infection modifies host plant traits that in turn alter behaviour and performance of vectors colonizing the plants in a way conducive for transmission of both nonpersistent and persistent viruses. Similar evidence for semipersistent viruses like cauliflower mosaic virus (CaMV) is scarce. Here we compared the effects of Arabidopsis infection with mild (CM) and severe (JI) CaMV isolates on the feeding behaviour (recorded by the electrical penetration graph technique) and fecundity of the aphid vector Myzus persicae. Compared to mock-inoculated plants, feeding behaviour was altered similarly on CM- and JI-infected plants, but only aphids on JI-infected plants had reduced fecundity. To evaluate the role of the multifunctional CaMV protein P6-TAV, aphid feeding behaviour and fecundity were tested on transgenic Arabidopsis plants expressing wild-type (wt) and mutant versions of P6-TAV. In contrast to viral infection, aphid fecundity was unchanged on all transgenic lines, suggesting that other viral factors compromise fecundity. Aphid feeding behaviour was modified on wt P6-CM-, but not on wt P6-JI-expressing plants. Analysis of plants expressing P6 mutants identified N-terminal P6 domains contributing to modification of feeding behaviour. Taken together, we show that CaMV infection can modify both aphid fecundity and feeding behaviour and that P6 is only involved in the latter