B‐genome derived resistance to Leptosphaeria maculans in near isogenic Brassica napus lines is independent of glucosinolate profile

Abstract

The role of the glucosinolate‐myrosinase system in resistance to Leptosphaeria maculans was studied by monitoring changes in glucosinolate profiles in leaf tissue surrounding the site of inoculation. Susceptible Brassica napus cv. Hanna, resistant B. nigra and near isogenic lines derived from interspecific hybrids between the two species were compared. Expression of myrosinase binding protein and presence of genetic markers were also assayed. No correlation between degree of resistance and amount of sinigrin or other aliphatic glucosinolates was found. However, in time course experiments the glucosinolate profile of the L. maculans inoculated plants differed significantly from the water‐inoculated control plants in the amount of 4‐methoxy‐glucobrassicin observed. Five to eight days post‐inoculation an increased level of 4‐methoxy glucobrassicin, ranging from 30% to 47% on average, was found in the inoculated plants, whilst controls varied between 7.6% and 9.2%. This increase was seen both in susceptible and resistant material. Other changes observed could mainly be assigned as effects of wounding. Although inoculation with L. maculans elicited changes in the leaf indolyl glucosinolate profiles, in the material studied, these changes could not be correlated to resistance against the fungus.