RESUMEN
The plant eukaryotic translation-initiation factors eIF4E and eIF(iso)4E play key roles in infection by plant RNA viruses, especially potyviruses. Mutations in the genes that encode these factors reduce susceptibility to the viruses. In the amphidiploid plant tobacco (Nicotiana tabacum L.), eIF4E1-S deletion mutants resist Potato virus Y (PVY), but resistance-breaking strains (RB-PVY) have appeared. In an earlier study, we demonstrated that the loss-of-function of eIF(iso)4E-T reduces susceptibility to RB-PVY. Here, we show that simultaneous inhibition of eIF4E1-S and eIF(iso)4E-T synergistically confers enhanced resistance to both PVY and RB-PVY without host growth or development defects. PVY symptoms and accumulation in a tobacco line lacking eIF4E1-S were detected at 14 days post-inoculation (dpi) and RB-PVY symptoms in lines without functional eIF(iso)4E-T were observed at 24 dpi. RB-PVY emerged in a PVY-infected tobacco line lacking eIF4E1-S. In contrast, lines without functional eIF4E1-S and eIF(iso)4E-T were nearly immune to PVY and RB-PVY, and little accumulation of either virus was detected even at 56 dpi. Thus, the lines will be promising for PVY-resistance breeding. This study provides a novel strategy to develop tobacco highly resistant to PVY and RB-PVY, and insights into the mechanisms responsible for high-level resistance.
RESUMEN
Tobacco bushy top disease (TBTD) is a viral disease of tobacco (Nicotiana tabacum L.) caused by mixed infection of Tobacco bushy top virus or Ethiopian tobacco bushy top virus and a helper virus. Despite its damage to tobacco, practical genetic resources for disease resistance have not been found. Here, we report that a mutation of tobacco eIF(iso)4E genes (eIF(iso)4E-S and eIF(iso)4E-T), which encode eukaryotic translation initiation factors, confers resistance (reduced susceptibility) to TBTD caused by a virus from Malawi (designated as tobacco bushy top virus Malawi isolate, TBTV-MW). RNAi lines in which eIF(iso)4E genes were silenced showed reduced susceptibility to TBTV-MW. We also tested chemically-induced single (eIF(iso)4E-S or eIF(iso)4E-T) and double (eIF(iso)4E-S and eIF(iso)4E-T) nonsense mutants for resistance to TBTV-MW. Suppression of eIF(iso)4E-S showed reduced susceptibility, and the resistance of the double mutant tended to be even stronger. eIF(iso)4E mutants also showed reduced susceptibility to TBTV-MW transmitted by aphids. To the best of our knowledge, the eIF(iso)4E-S mutant is the first genetic resource for TBTD resistance breeding in tobacco.
RESUMEN
Eukaryotic translation-initiation factors eIF4E and eIF(iso)4E in plants play key roles in infection by potyviruses and other plant RNA viruses. Mutations in the genes encoding these factors reduce susceptibility to the viruses, and are the basis of several recessive virus resistance genes widely used in plant breeding. Because virus variants occasionally break such resistance, the molecular basis for this process must be elucidated. Although deletion mutants of eIF4E1-S of tobacco (Nicotiana tabacum L.) resist Potato virus Y (PVY; the type member of the genus Potyvirus), resistance-breaking strains of PVY threaten tobacco production worldwide. Here, we used RNA interference technology to knock down tobacco eIF4E2-S and eIF4E2-T genes or eIF(iso)4E-S and eIF(iso)4E-T genes. Transgenic plants with reduced transcript levels of both eIF(iso)4E-S and eIF(iso)4E-T showed reduced susceptibility to a resistance-breaking PVY strain with a K105E mutation in the viral genome-associated protein (VPg). By screening a population of chemically induced mutants of eIF(iso)4E-S and eIF(iso)4E-T, we showed that plants with a nonsense mutation in eIF(iso)4E-T, but not eIF(iso)4E-S, showed reduced susceptibility to the resistance-breaking PVY strain. In a yeast two-hybrid assay, VPg of the resistance-breaking strain, but not wild-type PVY, physically interacted with the eIF(iso)4E-T protein. Thus, eIF4E1-S is required for infection by PVY, but eIF(iso)4E-T is required for infection by the resistance-breaking strain. Our study provides the first evidence for the involvement of a host eukaryotic translation-initiation factor in the infection cycle of a resistance-breaking virus strain. The eIF(iso)4E-T mutants will be useful in tobacco breeding to introduce resistance against resistance-breaking PVY strains.