| Summary: | <p>Abstract</p> <p>Background</p> <p>Sunflower downy mildew is a major disease caused by the obligatory biotrophic oomycete <it>Plasmopara halstedii</it>. Little is known about the molecular mechanisms underlying its pathogenicity. In this study we used a genomics approach to gain a first insight into the transcriptome of <it>P. halstedii</it>.</p> <p>Results</p> <p>To identify genes from the obligatory biotrophic oomycete <it>Plasmopara halstedii </it>that are expressed during infection in sunflower (<it>Helianthus annuus </it>L.) we employed the suppression subtraction hybridization (SSH) method from sunflower seedlings infected by <it>P. halstedii</it>. Using this method and random sequencing of clones, a total of 602 expressed sequence tags (ESTs) corresponding to 230 unique sequence sets were identified. To determine the origin of the unisequences, PCR primers were designed to amplify these gene fragments from genomic DNA isolated either from <it>P. halstedii </it>sporangia or from <it>Helianthus annuus</it>. Only 145 nonredundant ESTs which correspond to a total of 373 ESTs (67.7%) proved to be derived from <it>P. halstedii </it>genes and that are expressed during infection in sunflower. A set of 87 nonredundant sequences were identified as showing matches to sequences deposited in public databases. Nevertheless, about 7% of the ESTs seem to be unique to <it>P. halstedii </it>without any homolog in any public database.</p> <p>Conclusion</p> <p>A summary of the assignment of nonredundant ESTs to functional categories as well as their relative abundance is listed and discussed. Annotation of the ESTs revealed a number of genes that could function in virulence. We provide a first glimpse into the gene content of <it>P. halstedii</it>. These resources should accelerate research on this important pathogen.</p>
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