Abstract
Green prickly ash (Zanthoxylum armatum) and red prickly ash (Zanthoxylum bungeanum) fruit have unique flavor and aroma characteristics that affect consumers’ purchasing preferences. However, differences in aroma components and relevant biosynthesis genes have not been systematically investigated in green and red prickly ash. Here, through the analysis of differentially expressed genes (DEGs), differentially abundant metabolites, and terpenoid biosynthetic pathways, we characterize the different aroma components of green and red prickly ash fruits and identify key genes in the terpenoid biosynthetic pathway. Gas chromatography-mass spectrometry (GC-MS) was used to identify 41 terpenoids from green prickly ash and 61 terpenoids from red prickly ash. Piperitone was the most abundant terpenoid in green prickly ash fruit, whereas limonene was most abundant in red prickly ash. Intergroup correlation analysis and redundancy analysis showed that HDS2, MVK2, and MVD are key genes for terpenoid synthesis in green prickly ash, whereas FDPS2 and FDPS3 play an important role in the terpenoid synthesis of red prickly ash. In summary, differences in the composition and content of terpenoids are the main factors that cause differences in the aromas of green and red prickly ash, and these differences reflect contrasting expression patterns of terpenoid synthesis genes.
Highlights
Terpenoids are among the most structurally diverse and abundant plant secondary metabolites, and more than 50,000 terpenoids have been discovered [1]
Plant terpenoids vary greatly in structure, they all derive from the same C5 isoprene skeleton that is produced from isopentenyl pyrophosphate (IPP) and dimethylallyl pyrophosphate (DMAPP) and is used to synthesize the terpenoid backbone through rearrangement and cyclization reactions
Redundancy Analysis (RDA) To identify genes that played a key role in terpene synthesis during fruit development, the terpenoid contents at different stages and the expression levels of terpenoid synthesisrelated genes were analyzed by redundancy analysis (RDA)
Summary
Terpenoids are among the most structurally diverse and abundant plant secondary metabolites, and more than 50,000 terpenoids have been discovered [1]. Terpenoids influence the flavor characteristics and quality of fruits and are the main components of fruit aroma. The two prickly ash types differ in their flavors and aromas, but the differences in their aroma components and key synthesis genes are unknown. Characterizing their terpenoid contents and the expression patterns of related genes will help to identify the underlying mechanisms responsible for the difference in aroma between green and red prickly ash. Studying the aroma of prickly ash fruit will help to identify characteristic metabolites and key genes, thereby providing a molecular basis for the rapid improvement of prickly ash fruit quality
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