Genome-Wide Analysis of Oxidosqualene Cyclase Genes in <i>Artemisia annua</i>: Evolution, Expression, and Potential Roles in Triterpenoid Biosynthesis

Genome-Wide Analysis of Oxidosqualene Cyclase Genes in <i>Artemisia annua</i>: Evolution, Expression, and Potential Roles in Triterpenoid Biosynthesis

Plant triterpenoids are structurally diverse specialized metabolites with significant ecological, medicinal, and agricultural importance. Oxidosqualene cyclases (OSCs) catalyze the crucial cyclization step in triterpenoid biosynthesis, generating the fundamental carbon skeletons that determine their...

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Bibliographic Details
Main Authors: Changfeng Guo, Si Xu, Xiaoyun Guo
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Current Issues in Molecular Biology
Subjects:
<i>Artemisia annua</i>
oxidosqualene cyclase (OSC)
triterpenoids
gene family
genome-wide analysis
Online Access:https://www.mdpi.com/1467-3045/47/7/545
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Summary:Plant triterpenoids are structurally diverse specialized metabolites with significant ecological, medicinal, and agricultural importance. Oxidosqualene cyclases (OSCs) catalyze the crucial cyclization step in triterpenoid biosynthesis, generating the fundamental carbon skeletons that determine their structural diversity and biological functions. Genome-wide identification of OSC genes was performed using bioinformatics tools, including HMMER and BLASTP, followed by phylogenetic analysis, gene structure analysis, conserved domain and motifs identification, cis-regulatory element prediction, protein–protein interaction analysis, and expression profiling using publicly available transcriptome data from UV-B treated <i>A. annua</i> six-week-old seedlings. We identified 24 AaOSC genes, classified into CAS, LAS, LUS, and unknown subfamilies. Phylogenetic analysis revealed evolutionary relationships with OSCs from other plant species. Gene structure analysis showed variations in exon–intron organization. Promoter analysis identified cis-regulatory elements related to light responsiveness, plant growth and development, hormone signaling, and stress response. Expression profiling revealed differential expression patterns of AaOSC genes under UV-B irradiation. This genome-wide characterization provides insights into the evolution and functional diversification of the OSC gene family in <i>A. annua</i>. The identified AaOSC genes and their regulatory elements lay the foundation for future studies aimed at manipulating triterpenoid biosynthesis for medicinal and biotechnological applications, particularly focusing on enhancing stress tolerance and artemisinin production.
ISSN:1467-3037
1467-3045

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