The movement protein (NSm) of Tomato spotted wilt virus is the avirulence determinant in the tomato Sw‐5 gene‐based resistance

The avirulence determinant triggering the resistance conferred by the tomato gene Sw‐5 against Tomato spotted wilt virus (TSWV) is still unresolved. Sequence comparison showed two substitutions (C118Y and T120N) in the movement protein NSm present only in TSWV resistance‐breaking (RB) isolates. In this work, transient expression of NSm of three TSWV isolates [RB1 (T120N), RB2 (C118Y) and non‐resistance‐breaking (NRB)] in Nicotiana benthamiana expressing Sw‐5 showed a hypersensitive response (HR) only with NRB. Exchange of the movement protein of Alfalfa mosaic virus (AMV) with NSm supported cell‐to‐cell and systemic transport of the chimeric AMV RNAs into N. tabacum with or without Sw‐5, except for the constructs with NBR when Sw‐5 was expressed, although RB2 showed reduced cell‐to‐cell transport. Mutational analysis revealed that N120 was sufficient to avoid the HR, but the substitution V130I was required for systemic transport. Finally, co‐inoculation of RB and NRB AMV chimeric constructs showed different prevalence of RB or NBR depending on the presence or absence of Sw‐5. These results indicate that NSm is the avirulence determinant for Sw‐5 resistance, and mutations C118Y and T120N are responsible for resistance breakdown and have a fitness penalty in the context of the heterologous AMV system.