The Mining of Candidate Genes Involved in the Camphor Biosynthesis Pathway of Cinnamomum camphora
Yan Yang, Shengcai Zhou, Mingyang Ni, Yuting Zhang, Shixiong Lin, Junhong Zhang, Zaikang Tong
Abstract
Cinnamomum camphora is widely cultivated for its camphor in essential oil (EO), which is used in pharmaceutical industries. However, the candidate genes for the camphor biosynthesis pathway are unknown. Gas chromatography–mass spectrometry (GC-MS) was used to identify differences in the composition of camphor- and linalool-type camphor EOs and in conjunction with transcriptional analysis to identify terpene biosynthesis-related genes. The GC-MS analysis of C. camphora revealed 67 chemical components, including 32 monoterpenes and 35 sesquiterpenes, with camphor-type leaves dominated by camphor and linalool-type leaves by linalool. Transcriptome analysis revealed 6499 differentially expressed genes (DEGs) between camphor- and linalool-type C. camphora, with 4244 upregulated and 2255 downregulated in the camphor-type. GO enrichment highlighted DEGs involved in monoterpene biosynthesis, cell wall organization, and membrane-related processes. KEGG analysis identified pathways such as monoterpenoid, diterpenoid, and phenylpropanoid biosynthesis as significantly enriched. Furthermore, DEGs encoding TPS, dehydrogenases, and transcription factors, which might contribute to the terpenoid diversity in C. camphora, were identified. Twenty-one candidate genes involved in the camphor biosynthesis pathway were identified, providing a foundation for further elucidating the genetic mechanisms underlying camphor production in C. camphora.