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« Previous AbstractFarnesyl cysteine C-terminal methyltransferase activity is dependent upon the STE14 gene product in Saccharomyces cerevisiae    Next AbstractA novel homodimeric geranyl diphosphate synthase from the orchid Phalaenopsis bellina lacking a DD(X)2-4D motif »

BMC Plant Biol


Title:Comparison of transcripts in Phalaenopsis bellina and Phalaenopsis equestris (Orchidaceae) flowers to deduce monoterpene biosynthesis pathway
Author(s):Hsiao YY; Tsai WC; Kuoh CS; Huang TH; Wang HC; Wu TS; Leu YL; Chen WH; Chen HH;
Address:"Department of Life Sciences, National Cheng-Kung University, Tainan 701, Taiwan. yunhsiao@mail2000.com.tw"
Journal Title:BMC Plant Biol
Year:2006
Volume:20060713
Issue:
Page Number:14 -
DOI: 10.1186/1471-2229-6-14
ISSN/ISBN:1471-2229 (Electronic) 1471-2229 (Linking)
Abstract:"BACKGROUND: Floral scent is one of the important strategies for ensuring fertilization and for determining seed or fruit set. Research on plant scents has hampered mainly by the invisibility of this character, its dynamic nature, and complex mixtures of components that are present in very small quantities. Most progress in scent research, as in other areas of plant biology, has come from the use of molecular and biochemical techniques. Although volatile components have been identified in several orchid species, the biosynthetic pathways of orchid flower fragrance are far from understood. We investigated how flower fragrance was generated in certain Phalaenopsis orchids by determining the chemical components of the floral scent, identifying floral expressed-sequence-tags (ESTs), and deducing the pathways of floral scent biosynthesis in Phalaneopsis bellina by bioinformatics analysis. RESULTS: The main chemical components in the P. bellina flower were shown by gas chromatography-mass spectrometry to be monoterpenoids, benzenoids and phenylpropanoids. The set of floral scent producing enzymes in the biosynthetic pathway from glyceraldehyde-3-phosphate (G3P) to geraniol and linalool were recognized through data mining of the P. bellina floral EST database (dbEST). Transcripts preferentially expressed in P. bellina were distinguished by comparing the scent floral dbEST to that of a scentless species, P. equestris, and included those encoding lipoxygenase, epimerase, diacylglycerol kinase and geranyl diphosphate synthase. In addition, EST filtering results showed that transcripts encoding signal transduction and Myb transcription factors and methyltransferase, in addition to those for scent biosynthesis, were detected by in silico hybridization of the P. bellina unigene database against those of the scentless species, rice and Arabidopsis. Altogether, we pinpointed 66% of the biosynthetic steps from G3P to geraniol, linalool and their derivatives. CONCLUSION: This systems biology program combined chemical analysis, genomics and bioinformatics to elucidate the scent biosynthesis pathway and identify the relevant genes. It integrates the forward and reverse genetic approaches to knowledge discovery by which researchers can study non-model plants"
Keywords:"Acyclic Monoterpenes Blotting, Northern Computational Biology Databases, Factual *Expressed Sequence Tags Flowers/chemistry/*genetics/metabolism Glyceraldehyde 3-Phosphate/metabolism Lipoxygenase/genetics/metabolism Models, Chemical Monoterpenes/analysis/;"
Notes:"MedlineHsiao, Yu-Yun Tsai, Wen-Chieh Kuoh, Chang-Sheng Huang, Tian-Hsiang Wang, Hei-Chia Wu, Tian-Shung Leu, Yann-Lii Chen, Wen-Huei Chen, Hong-Hwa eng Comparative Study Research Support, Non-U.S. Gov't England 2006/07/14 BMC Plant Biol. 2006 Jul 13; 6:14. doi: 10.1186/1471-2229-6-14"

 
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