# Integrated transcriptome and metabolome analyses reveal key genes regulating jujuboside biosynthesis in Ziziphus jujuba var. spinosa

**Authors:** Dali Geng, Xiaozhou Yang, Xinhong Wang, Xiaojun Chi, Xiaohan Tang, Xiaojun Ma, Xuexiang Li, Menglin Pu, Jing Shu

PMC · DOI: 10.3389/fpls.2025.1708851 · 2026-01-08

## TL;DR

This study identifies key genes involved in the production of jujuboside in a type of Chinese medicinal plant, offering insights for improving its quality and bioactive compounds.

## Contribution

The study reveals novel genes regulating jujuboside biosynthesis through integrated transcriptome and metabolome analyses.

## Key findings

- 35 core genes were identified as consistently significant in saponin metabolism and related processes.
- UDP-glucosyltransferase and two CYP450 genes showed expression patterns correlated with saponin accumulation.
- Downregulated stress-response genes in high-saponin varieties suggest a link between stress tolerance and saponin production.

## Abstract

The seeds of Ziziphus jujuba var. spinosa are a traditional Chinese medicine for treating insomnia, with jujuboside A and jujuboside B as their core bioactive components. However, the biosynthetic pathways and regulatory mechanisms of these triterpenoid saponins remain poorly understood. In this study, we investigated the accumulation patterns of jujube saponins across 10 varieties at 45, 65, and 85 days after flowering (DAF). Integrated transcriptomic and metabolomic analyses revealed 2,040 differentially expressed genes (DEGs) and 1,593 differentially accumulated metabolites (DAMs). Among these, 35 core DEGs were consistently significant across comparisons, enriched in saponin metabolism, monooxygenase activity, and glycosylation processes. A Uridine Diphosphate (UDP)-glucosyltransferase and two CYP450 family members exhibited expression patterns positively correlated with saponin accumulation, showing upregulation during 45 and 65 DAF and suppression by 85 DAF. qRT-PCR validation confirmed their higher expression in high-saponin varieties. Additionally, downregulated stress–response genes in high-saponin varieties suggested a potential link between abiotic stress tolerance and enhanced saponin production. These findings identify key glycosyltransferase and cytochrome P450 genes potentially governing jujuboside biosynthesis, providing critical insights for metabolic engineering and quality improvement of Z. jujuba.

## Linked entities

- **Genes:** UGT75B1 (UDP-glucosyltransferase 75B1) [NCBI Gene 837058], LOC107927610 (alkane hydroxylase MAH1-like) [NCBI Gene 107927610]
- **Chemicals:** jujuboside A (PubChem CID 171446), jujuboside B (PubChem CID 24721031)
- **Species:** Ziziphus jujuba var. spinosa (taxon 714518)

## Full-text entities

- **Diseases:** insomnia (MESH:D007319)
- **Chemicals:** spinosa (-), jujuboside (MESH:C087808), jujuboside B (MESH:C540008), saponin (MESH:D012503)
- **Species:** Ziziphus jujuba (Chinese jujube, species) [taxon 326968]

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12823797/full.md

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Source: https://tomesphere.com/paper/PMC12823797