Islam, Md TabibulCoutin, Jose FreixasShukla, Mukund R.Dhaliwal, Amandeep KaurNigg, MarthaBernier, LouisSherif, Sherif M.Saxena, Praveen K.2022-02-112022-02-112022-01-26Islam, M.T.; Coutin, J.F.; Shukla, M.; Dhaliwal, A.K.; Nigg, M.; Bernier, L.; Sherif, S.M.; Saxena, P.K. Deciphering the Genome-Wide Transcriptomic Changes during Interactions of Resistant and Susceptible Genotypes of American Elm with Ophiostoma novo-ulmi. J. Fungi 2022, 8, 120.http://hdl.handle.net/10919/108302Dutch elm disease (DED), caused by <i>Ophiostoma novo-ulmi</i> (<i>Onu</i>), is a destructive disease of American elm (<i>Ulmus americana</i> L.). The molecular mechanisms of resistance and susceptibility against DED in American elm are still largely uncharacterized. In the present study, we performed a <i>de novo</i> transcriptome (RNA-sequencing; RNA-Seq) assembly of <i>U. americana</i> and compared the gene expression in a resistant genotype, &rsquo;Valley Forge&rsquo;, and a susceptible (S) elm genotype at 0 and 96 h post-inoculation of <i>Onu</i>. A total of 85,863 non-redundant unigenes were identified. Compared to the previously characterized <i>U. minor</i> transcriptome, <i>U. americana</i> has 35,290 similar and 55,499 unique genes. The transcriptomic variations between &lsquo;Valley Forge&rsquo; and &lsquo;S&rsquo; were found primarily in the photosynthesis and primary metabolism, which were highly upregulated in the susceptible genotype irrespective of the <i>Onu</i> inoculation. The resistance to DED was associated with the activation of RPM1-mediated effector-triggered immunity that was demonstrated by the upregulation of genes involved in the phenylpropanoids biosynthesis and PR genes. The most significantly enriched gene ontology (GO) terms in response to <i>Onu</i> were response to stimulus (GO:0006950), response to stress (GO:0050896), and secondary metabolic process (GO:0008152) in both genotypes. However, only in the resistant genotype, the defense response (GO:0006952) was among the topmost significantly enriched GO terms. Our findings revealed the molecular regulations of DED resistance and susceptibility and provide a platform for marker-assisted breeding of resistant American elm genotypes.application/pdfenCreative Commons Attribution 4.0 InternationalAmerican elmDutch elm diseaseOphiostoma novo-ulmiRNA-Seqdefense mechanismArticle - Refereed2022-02-11https://doi.org/10.3390/jof8020120