Expression of Lignin Biosynthetic Genes in Wheat during Development and upon Infection by Fungal Pathogens

As a major component of the cell wall, lignin plays an important role in plant development and defense response to pathogens, but negatively impacts biomass processability for biofuels. Silencing the target lignin genes for greater biomass processability should not significantly affect plant development and biomass yield but also must not compromise disease resistance. Here, we report experiments to identify a set of lignin genes that may be silenced without compromising disease resistance. We profiled the expression of 32 lignin biosynthetic candidate genes by qRT-PCR in 17 wheat tissues collected at three developmental stages. Twenty-one genes were expressed at a much higher level in stems compared to sheaths and leaf blades. Expression of seven these genes significantly correlated with lignin content. The co-expression patterns indicated that these 21 genes are under strong developmental regulation and may play a role in lignin biosynthesis. Profiling gene expression of same tissues challenged by two fungal pathogens, Fusarium graminearum and Puccina triticina indicated that expression of 17 genes was induced by F. graminearum. Only PAL1, a non-developmental-regulated gene, was induced by P. triticina. Thus, lignin biosynthetic pathway overlaps defense response to F. graminearum. Based on these criteria, 17 genes, F5H1, F5H2, 4CL2, CCR2, COMT1, and COMT2 in particular that do not overlap with disease resistance pathway, may be the targets for downregulation.