Integrative Transcriptomics Reveals Regulatory Networks Underlying Fatty Acid and Lacquer Wax Formation in Fruit of Toxicodendron vernicifluum

Shasha Li, Yufen Xie, Xiao Zhang, Xuan Wang, Xiaomin Ge, Junhui Zhou, Chen Chen, Guoqing Bai

Journal:Plants-Basel

IF:4.7

DOI:10.3390/plants15010121

PMID:

Published:2026-01-01

research field:食品科学与技术采后生理学植物病害防治分子植物-微生物互作采后病理学真菌生物学

Abstract

The lacquer tree (Toxicodendron vernicifluum) possesses significant economic value due to its capability to produce raw lacquer, lacquer wax, and lacquer oil. The fruit is the primary source of lacquer wax; the primary components of lacquer wax are fatty acids, yet the synthesis mechanisms of fatty acids and wax esters remain unclear. In this study, we employed RNA-seq to analyze differentially expressed genes (DEGs) across four developmental stages in the fruit of the lacquer tree. The results revealed that, compared to the T1 stage, there were 1736, 10,228, and 12,444 DEGs in the three developmental stages. Through KEGG enrichment analysis, DEGs associated with lacquer wax synthesis were found to be primarily enriched in fatty acid metabolism, degradation, and the biosynthesis of cutin, suberin, and wax esters pathways. Furthermore, analysis of DEGs expression patterns in fatty acid synthesis pathways revealed thatACC,KAS,KAR,FATB, andFADwere significantly differentially expressed. Additionally,LACS,WSD1,CER4,CER1, andMAH1participated in wax biosynthesis. Moreover, one co-expression network among wax biosynthesis genes, hormone signal transduction genes, and transcription factors was established. These findings provide a theoretical foundation for identifying key genes involved in regulating fatty acid and lacquer wax synthesis inToxicodendron vernicifluum.

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