RESUMEN
In order to explore genetic basis for the biosynthesis of secondary metabolism,the transcriptome of Cornus officinalis was sequenced by the new generation of high-throughput sequencing technology,A total of 96 032 unigenes were assembled with an average length of 590.53 bp. Among them, 35 478 unigenes were annotated in the public databases NR,Swissprot,COG,GO,KOG,Pfam and KEGG. Based on the assignment of KEGG pathway, 84 involved in ridoid biosynthesis and 487 unigenes involved in others secondary metabolites biosynthesis were found. Additionally,53 unigenes and 72 unigenes were predicted to have potential functions of cytochome P450 and UDP- glycosyltransferases based on the annotation result, which may encode responsible for secondary metabolites modification. This study was the first comprehensive transcriptome analysis for C. officinalis, and the candidate genes involved in the biosynthesis of secondary metabolites were obtained. The transcriptome data constitutes a much more abundant genetic resource that can be utilized to benefit further molecular biology studies on C. officinalis.