Genome‐wide analysis of salicylic acid and jasmonic acid signalling marker gene families in wheat

Abstract

Abstract Jasmonic acid (JA) and salicylic acid (SA) phytohormone pathways are important regulators of stress tolerance. Knowledge regarding the diversity, phylogeny and functionality of wheat genes involved in JA and SA response is limited. Using Arabidopsis, rice and wheat genomic and wheat disease transcriptomic data, we deduced the size, phylogenetic diversity and pathogen‐responsiveness of seven hormone‐responsive gene families, and thus selected 14 candidates as potential hormone responsive gene markers. Gene‐specific expression studies assessed the impact of exogenous JA and SA on their transcriptional activation in leaves of two distinct wheat cultivars. RNAseq data were interrogated to assess their disease responsiveness and tissue‐specific expression. This study elucidated the number, phylogeny and pathogen‐responsiveness of wheat genes from seven families, including 12 TaAOS, 6 TaJAMyb, 256 TaWRKY group III, 85 TaPR1, 205 TaPR2, 76 TaPR3 and 124 TaPR5. This included the first description of the wheat AOS, JAMyb, PR2, PR3 and PR5 gene families. Gene expression studies delineated TaAOS1‐5B and TaJAMyb‐4A as JA‐responsive in leaves, but not significantly responsive to SA treatment, while TaWRKY45‐B was a SA‐ but not a JA‐responsive marker. Other candidate genes were either unresponsive or non‐specific to SA or JA. Our findings highlight that all seven gene families are greatly expanded in wheat as compared to other plants (up to 7.6‐fold expansion), and demonstrate disparity in the response to biotic stress between some homoeologous and paralogous sequences within these families. The SA‐ and JA‐responsive marker genes identified herein will prove useful tools to monitor these signalling pathways in wheat.