Oomycetes, a large group of fungus-like organisms, include some destructive plant pathogens causing enormous economic damage. Phylogenetically, oomycetes belong to the kingdom Straminipila and have diverse lifestyles, including saprotrophs and both general and specialized pathogens of various eukaryotic supergroups. A rapid increase in genomic studies and next-generation sequencing technologies have led to significant progress in understanding oomycete lifestyles. However, their genetics, including transcriptional regulation, have been studied to a much lesser extent. Here, we provide a cross-species analysis of oomycete promoter for providing a first step towards elucidating gene regulation networks related to pathogenicity and life cycle stages. The clustered DNA sequences of Plasmopara halstedii transcriptome time-series expression level dataset from a preliminary study have been used as a core reference for cross-species comparisons. Using a computational pipeline, 46 potential transcription factor binding site (TFBS) motifs in 25 clusters with functionally conserved downstream genes of downy mildew and two Phytophthora species, regardless of the gene expression levels of Phytophthora transcriptomes, were found. This can now be followed up by knock-out experiments in oomycete species amenable for genetic modification.
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