Olivier odorant
Osmanthus fragrans · Fragrant olive, Sweet olive, Tea olive
Osmanthus fragrans, commonly known as fragrant osmanthus or goldenrain tree, is a plant traditionally associated with East Asian cultures, particularly in China and Japan, where it is often used in traditional ceremonies and for its aromatic properties. While there are no recorded traditional uses of the plant for medicinal purposes, studies have shown that O. fragrans plays a role in various biological processes. Research has identified key genes and metabolites involved in the plant's defense against fungal infections and its response to lead stress, indicating potential applications in biotechnology and environmental science. Additionally, a study found that waste Osmanthus fragrans leaves-derived carbon dots can enhance the performance of zinc-ion batteries (AZIBs). The plant also contains a MADS-box transcription factor called OfDEFA, which regulates linalool biosynthesis, an important volatile compound in its flowers. No major safety concerns or drug interactions have been recorded for O. fragrans, suggesting that it is generally safe to use without significant risk.
- Meilleure preuve
- D
- Précautions
- —
Information uniquement. L'usage traditionnel ne signifie pas une efficacité prouvée. Les preuves et la sécurité varient — consultez les sources citées.
Ce que dit la science
- L'étude a montré que les déchets de feuilles d'Osmanthus fragrans transformés en points de carbone peuvent construire un interphase hybride endogène sur les anodes Zn, améliorant le rendement de l'AZIB en réprimant la croissance des dendrites, l'évolution du hydrogène et la corrosion.
- L'étude a identifié les gènes et métabolites clés impliqués dans la défense de l'osmanthe contre l'infection par B. dothidea grâce à des analyses transcriptomiques et métabolomiques intégrées.
- OfDEFA, a MADS-box transcription factor, regulates linalool biosynthesis in Osmanthus fragrans flowers through direct binding to promoter regions and activation of related genes.
- Pb stress significantly altered Pb accumulation, induced oxidative damage, and elicited tissue-specific responses in roots and leaves of Osmanthus fragrans.
Frequently asked questions
What is Olivier odorant?
Olivier odorant (Osmanthus fragrans) is a plant documented in FolkKB's traditional-medicine reference, drawn from sourced literature and cross-checked against the evidence.
What does the scientific evidence say about Olivier odorant?
4 sourced findings are recorded for Olivier odorant; the strongest carries evidence grade D. For example: L'étude a montré que les déchets de feuilles d'Osmanthus fragrans transformés en points de carbone peuvent construire un interphase hybride endogène sur les anodes Zn, améliorant le rendement de l'AZIB en réprimant la croissance des dendrites, l'évolution du hydrogène et la corrosion.
How strong is the evidence for Olivier odorant?
The strongest finding for Olivier odorant carries evidence grade D — preliminary or traditional. Grades run A (strongest) to D (preliminary or traditional).
Is Olivier odorant safe? What are the side effects?
No major safety issues are recorded for Olivier odorant in our sources, but the data may be incomplete. Consult a qualified professional before use.
Does Olivier odorant interact with medications?
No drug interactions are recorded for Olivier odorant in our sources. This does not rule them out — check with a pharmacist.
What are the common names of Olivier odorant?
Olivier odorant is also known as: Fragrant olive, Sweet olive, Tea olive.
Is Olivier odorant a proven treatment?
No. FolkKB is informational only. Traditional use and early findings are not proof of efficacy or safety — consult a qualified professional and never self-treat.
Sources
- T2 Integrated phenotypic, physiological, transcriptomic and metabolomic analyses uncover the mechanisms underlying root and leaf responses of Osmanthus fragrans to Pb toxicity. literature abstract metadata
- T2 The MADS-box Transcription Factor OfDEFA Orchestrates Floral Aroma Biosynthesis in Osmanthus fragrans Flowers through a Dual-Layer Transcriptional Regulatory Network. literature abstract metadata
- T2 Integrated multi-omics analysis revealed the response mechanism of Osmanthus fragrans leaves against the infection by Botryosphaeria dothidea. literature abstract metadata
- T2 Breaking the interfacial stability bottleneck of Zn anode via biomass carbon dots-enabled endogenous hybrid interphase. literature abstract metadata