Leaf tip necrosis and seedling leaf rust resistance conditioned by Lr34 in wheat grown at low temperatures

Abstract

Wheat leaf rust, caused by Puccinia triticina Eriks., is a common and destructive disease of wheat worldwide. The durable leaf rust-resistance gene Lr34 is typically described as an adult plant resistance gene, which is not expressed at the seedling stage at normal greenhouse temperatures. However, Lr34 is expressed at the seedling stage when plants with Lr34 are grown at low temperatures, i.e. approximately 8°C. Lines and cultivars with Lr34 demonstrate a range of responses from near immunity to intermediate reactions on the primary leaf. The Thatcher-Lr34 near isogenic lines ‘RL6058ʹ (Thatcher*6/PI58548) and ‘RL6091ʹ (Tc*6/Chinese Spring) were resistant to a number of P. triticina virulence phenotypes at the seedling stage when grown under these cool conditions, but were susceptible at typical greenhouse temperatures. A double haploid population from a cross between ‘Thatcher’ and ‘RL6058ʹ, previously genotyped for Lr34, was grown at 8°C and screened for leaf rust response at the seedling stage. The population is segregated by a seedling resistance gene that corresponds to the presence of a resistance allele of Lr34. After extended incubation at cold temperatures, the seedling progeny lines with Lr34 also developed distinct leaf tip necrosis; this phenotype was absent in susceptible plants, similar to their reaction as adult plants. When uninfected plants from this population were grown to the adult plant stage at 10°C, those with the Lr34 resistance allele had extensive leaf necrosis and shrunken, sometimes sterile, spikes.