Mutations in Turnip mosaic virus P3 and cylindrical inclusion proteins are separately required to overcome two Brassica napus resistance genes.

The Brassica napus differential line 165 is resistant to infection by Turnip mosaic virus (TuMV) isolates belonging to pathotypes 1 and 3. Nucleotide sequences of resistance-breaking mutants of pathotype 1 (UK 1), pathotype 3 (CHN 12), and wild-type isolates have been determined. When the mutations identified were introduced into an infectious clone of UK 1, a single mutation in the viral P3 protein induced a hypersensitive (necrotic) response in inoculated leaves of line 165 plants. Full systemic nonnecrotic infection was only possible when another mutation (in the cylindrical inclusion protein) was introduced. Tests on segregating populations derived from line 165 indicated that the two viral genes were pathogenicity determinants for two different resistance genes in line 165. One gene responsible for an extreme form of resistance (no symptoms seen) was epistatic to a second responsible for the hypersensitive reaction. These results help to explain the relative stability of the resistance in line 165 and to further define the genetic basis of the TuMV pathotyping system.