@Article{IPB-2262,
author = {Hückelhoven, R. and Trujillo, M. and Kogel, K.-H.},
title = {{Mutations in Ror1 and Ror2 genes cause modification of hydrogen peroxide accumulation in mlo-barley under attack from the powdery mildew fungus}},
year = {2000},
pages = {287-292},
journal = {Mol. Plant Pathol.},
doi = {10.1046/j.1364-3703.2000.00032.x},
volume = {1},
abstract = {Race nonspecific resistance of barley against the barley powdery mildew fungus (Blumeria Graminis  f.sp. Hordei,  Speer, Bgh ) is mediated by recessive mlo  alleles and is controlled by at least two additional genes ‘required for ml o‐specified disease resistance’ (Ror1  and Ror2 ). The pathogenesis‐related accumulation of hydrogen peroxide (H2O2) was comparatively analysed in a susceptible barley line (Hordeum vulgare  L. Cv Ingrid, genotype Mlo Ror1, Ror2 ), a resistant Ingrid backcross line carrying the mutant allele mlo5  (BCIngrid‐mlo5,  genotype mlo5 Ror1 Ror2 ), and in the moderately susceptible mutants A44 and A89 (genotypes mlo5 Ror1 ror2  and mlo5 ror1‐2 Ror2,  respectively). In situ  localization of H2O2 was performed by microscopic detection of 3,3‐diaminobenzidine (DAB) polymerization. In BCIngrid‐mlo5 , penetration resistance against Bgh  attack was closely correlated to H2O2 accumulation in cytoplasmic aggregates and cell wall appositions beneath the appressorium. In contrast, H2O2 accumulation was almost completely absent in susceptible Ingrid. Lines with mutations in Ror  genes showed less H2O2 accumulation beneath appressoria, but more interaction sites with whole cell H2O2 accumulation and hypersensitive cell death response than resistant BCIngrid‐mlo5 . Thus, mutations in Ror1  or Ror2  genes influence the cellular pattern of H2O2 accumulation in mlo  plants attacked by Bgh . The data support the hypothesis that H2O2 accumulation is involved in resistance to fungal penetration.}    
}