Expression Profiles of Pathogenesis-Related Gene, <Emphasis Type="Italic">TaLr35PR1</Emphasis>, as it Relate to <Emphasis Type="Italic">Lr35</Emphasis>-Mediated Adult Plant Leaf Rust Resistance

Plants have developed sophisticated mechanisms to combat pathogen infection. One of the acquired modes in response to pathogen attack is the production of the pathogenesis-related (PR) proteins. Our earlier studies reported that TaLr35PR1, a PR1 gene encoding a protein with conserved serine carboxypeptidase (SCP) domain, has been cloned from wheat near-isogenic line TcLr35. However, the involvement of TaLr35PR1 in wheat growth and Lr35-mediated adult resistance to Puccinia triticina remains unclear. Here, we showed that TaLr35PR1 was strongly induced by P. triticina in wheat plant containing Lr35 (TcLr35), in which the expression level of TaLr35PR1 significantly increased and reached the maximum at 12 hpi. The accumulations of TaLr35PR1 increased stably and showed significant peak challenged by P. triticina at different growth and development periods of TcLr35 wheat while it maintained similar level and changed little in mock inoculated. Western blotting was conducted to confirm that TaLr35PR1 protein was increasingly accumulated in the TcLr35 adult plants after P. triticina inoculation and maintained at a similar level from 120 to 168 h post-inoculation. Similar to the expression patterns of TaLr35PR1 at RNA levels, the accumulations of TaLr35PR1 protein were weak in the seedling stage and then increased to the peak and kept constant levels at the mature stage which is consistent with the expression feature of Lr35 gene as an adult plant resistance gene. All these findings suggest that TaLr35PR1 is involved in wheat growth and Lr35-mediated adult wheat defense response to leaf rust pathogen attack.