Background1471-2229-9-51: American chestnut (Castanea dentata) was devastated by an exotic pathogen in the beginning of the twentieth century. This chestnut blight is caused by Cryphonectria parasitica, a fungus that infects stem tissues and kills the trees by girdling them. Because of the great economic and ecological value of this species, significant efforts have been made over the century to combat this disease, but it wasn't until recently that a focused genomics approach was initiated. Prior to the Genomic Tool Development for the Fagaceae project, genomic resources available in public databases for this species were limited to a few hundred ESTs. To identify genes involved in resistance to C. parasitica, we have sequenced the transcriptome from fungal infected and healthy stem tissues collected from blight-sensitive American chestnut and blight-resistant Chinese chestnut (Castanea mollissima) trees using ultra high throughput pyrosequencing.
Background: Lignin is a phenolic heteropolymer in secondary cell walls that plays a major role in the development of plants and their defense against pathogens. The biosynthesis of monolignols, which represent the main component of lignin involves many enzymes. The cinnamyl alcohol dehydrogenase (CAD) is a key enzyme in lignin biosynthesis as it catalyzes the final step in the synthesis of monolignols. The CAD gene family has been studied in Arabidopsis thaliana, Oryza sativa and partially in Populus. This is the first comprehensive study on the CAD gene family in woody plants including genome organization, gene structure, phylogeny across land plant lineages, and expression profiling in Populus.
Liriodendron tulipifera L. was selected by the Floral Genome Project for identification of new genes related to floral diversity in basal angiosperms. A large, non-normalized cDNA library was constructed from premeiotic and meiotic floral buds and sequenced to generate a database of 9,531 high-quality expressed sequence tags. These sequences clustered into 6,520 unigenes, of which 5,251 were singletons, and 1,269 were in contigs. Homologs of genes regulating many aspects of flower development were identified, including those for organ identity and development, cell and tissue differentiation, and cell-cycle control. Almost 5% of the transcriptome consisted of homologs to known floral gene families. Homologs of most of the genes involved in cell-wall construction were also recovered. This provides a new opportunity for comparative studies in lignin biosynthesis, a trait of key importance in the evolution of land plants and in the utilization of fiber from economically important tree species, such as Liriodendron. Also of note is that 1,089 unigenes did not match any sequence in the public databases, including the complete genomes of Arabidopsis, rice, and Populus. Some of these novel genes might be unique in basal angiosperm species and, when better characterized, may be informative for understanding the origins of diverged gene families. Thus, the Liriodendron
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