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Front Plant Sci


Title:Coordinated and High-Level Expression of Biosynthetic Pathway Genes Is Responsible for the Production of a Major Floral Scent Compound Methyl Benzoate in Hedychium coronarium
Author(s):Yue Y; Wang L; Yu R; Chen F; He J; Li X; Yu Y; Fan Y;
Address:"The Research Center for Ornamental Plants, College of Forestry and Landscape Architecture, South China Agricultural University, Guangzhou, China. Guangdong Key Laboratory for Innovative Development and Utilization of Forest Plant Germplasm, South China Agricultural University, Guangzhou, China. College of Life Sciences, South China Agricultural University, Guangzhou, China. Department of Plant Sciences, University of Tennessee, Knoxville, Knoxville, TN, United States"
Journal Title:Front Plant Sci
Year:2021
Volume:20210407
Issue:
Page Number:650582 -
DOI: 10.3389/fpls.2021.650582
ISSN/ISBN:1664-462X (Print) 1664-462X (Electronic) 1664-462X (Linking)
Abstract:"Methyl benzoate is a constituent of floral scent profile of many flowering plants. However, its biosynthesis, particularly in monocots, is scarcely reported. The monocot Hedychium coronarium is a popular ornamental plant in tropical and subtropical regions partly for its intense and inviting fragrance, which is mainly determined by methyl benzoate and monoterpenes. Interestingly, several related Hedychium species lack floral scent. Here, we studied the molecular mechanism of methyl benzoate biosynthesis in H. coronarium. The emission of methyl benzoate in H. coronarium was found to be flower-specific and developmentally regulated. As such, seven candidate genes associated with methyl benzoate biosynthesis were identified from flower transcriptome of H. coronarium and isolated. Among them, HcBSMT1 and HcBSMT2 were demonstrated to catalyze the methylation of benzoic acid and salicylic acid to form methyl benzoate and methyl salicylate, respectively. Methyl salicylate is a minor constituent of H. coronarium floral scent. Kinetic analysis revealed that HcBSMT2 exhibits a 16.6-fold lower Km value for benzoic acid than HcBSMT1, indicating its dominant role for floral methyl benzoate formation. The seven genes associated with methyl benzoate biosynthesis exhibited flower-specific or flower-preferential expression that was developmentally regulated. The gene expression and correlation analysis suggests that HcCNL and HcBSMT2 play critical roles in the regulation of methyl benzoate biosynthesis. Comparison of emission and gene expression among four Hedychium species suggested that coordinated and high-level expression of biosynthetic pathway genes is responsible for the massive emission of floral methyl benzoate in H. coronarium. Our results provide new insights into the molecular mechanism for methyl benzoate biosynthesis in monocots and identify useful molecular targets for genetic modification of scent-related traits in Hedychium"
Keywords:Bsmt Hedychium coronarium biosynthesis coordinated expression floral scent methyl benzoate;
Notes:"PubMed-not-MEDLINEYue, Yuechong Wang, Lan Yu, Rangcai Chen, Feng He, Jieling Li, Xinyue Yu, Yunyi Fan, Yanping eng Switzerland 2021/04/27 Front Plant Sci. 2021 Apr 7; 12:650582. doi: 10.3389/fpls.2021.650582. eCollection 2021"

 
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