DiGuistini Scott, Ralph Steven G, Lim Young W, Holt Robert, Jones Steven, Bohlmann Jörg, Breuil Colette
Department of Wood Science, University of British Columbia, Vancouver, British Columbia, Canada.
FEMS Microbiol Lett. 2007 Feb;267(2):151-8. doi: 10.1111/j.1574-6968.2006.00565.x.
Ophiostoma clavigerum is a destructive pathogen of lodgepole pine (Pinus contorta) forests in western North America. It is therefore a relevant system for a genomics analysis of fungi vectored by bark beetles. To begin characterizing molecular interactions between the pathogen and its conifer host, we created an expressed sequence tag (EST) collection for O. clavigerum. Lodgepole pine sawdust and oleoresin media were selected to stimulate gene expression that would be specific to this host interaction. Over 6500 cDNA clones, derived from four normalized cDNA libraries, were single-pass sequenced from the 3' end. After quality screening, we identified 5975 high-quality reads with an average PHRED 20 of greater than 750 bp. Clustering and assembly of this high-quality EST set resulted in the identification of 2620 unique putative transcripts. BLASTX analysis revealed that only 67% of these unique transcripts could be matched to known or predicted protein sequences in public databases. Functional classification of these sequences provided initial insights into the transcriptome of O. clavigerum. Of particular interest, our ESTs represent an extensive collection of cytochrome P450 s, ATP-binding-cassette-type transporters and genes involved in 1,8-dihydroxynaphthalene-melanin biosynthesis. These results are discussed in the context of detoxification of conifer oleoresins and fungal pathogenesis.
长喙壳菌(Ophiostoma clavigerum)是北美西部黑松(Pinus contorta)林的一种毁灭性病原菌。因此,它是一个用于对由树皮甲虫传播的真菌进行基因组分析的相关系统。为了开始表征该病原菌与其针叶树宿主之间的分子相互作用,我们为长喙壳菌创建了一个表达序列标签(EST)文库。选择黑松锯末和松脂培养基来刺激特定于这种宿主相互作用的基因表达。从四个标准化cDNA文库中获得的6500多个cDNA克隆从3'端进行单通道测序。经过质量筛选,我们鉴定出5975条高质量读段,平均PHRED值为20,长度大于750 bp。对这个高质量EST集进行聚类和组装,鉴定出2620个独特的推定转录本。BLASTX分析表明,这些独特转录本中只有67%能够与公共数据库中已知或预测的蛋白质序列匹配。这些序列的功能分类为长喙壳菌的转录组提供了初步见解。特别值得关注的是,我们的EST代表了细胞色素P450、ATP结合盒式转运蛋白以及参与1,8 - 二羟基萘 - 黑色素生物合成的基因的丰富集合。在针叶树松脂解毒和真菌致病机制的背景下对这些结果进行了讨论。