Pinellia ternata
Pinellia ternata
Pinellia ternata, also known as Ban Xia in traditional Chinese medicine, is a plant traditionally used in East Asian herbal practices for various conditions. While its specific traditional uses are not extensively documented, it has been studied for its potential therapeutic properties. Scientific evidence suggests that JBX1, a heat-tolerant strain of Pinellia ternata, shows enhanced thermotolerance through metabolic adjustments under heat stress. Additionally, research indicates that leaf shape variation in the plant is regulated by hormones, particularly auxins (IAA), and is associated with differences in gene expression among leaf types. The study also identified potential targets for its anti-lung cancer activity, including FGFR4, CDK2, JAK2, KDR, PAK4, PTK2, and PDGFRA, based on in-silico predictions. Furthermore, key genes involved in the alkaloid synthesis pathway of Pinellia ternata have been identified, providing insights into its biosynthesis mechanism. Safety records for Pinellia ternata show no major issues recorded, and there are currently no reported drug interactions associated with its use.
- Beste Evidenz
- D
- Warnhinweise
- —
Nur zur Information. Traditionelle Anwendung bedeutet keine nachgewiesene Wirksamkeit. Evidenz und Sicherheit variieren — siehe die angegebenen Quellen.
Was die Wissenschaft sagt
- JBX1, eine wärmetolerante Form von Pinellia ternata, zeigt erhöhte grundlegende Wärmetoleranz durch koordinierte Metabolismus-Regulierungen und dynamische Reprogrammierung unter Wärmebelastung.
- Die Studie identifizierte potentielle Ziele wie FGFR4, CDK2, JAK2, KDR, PAK4, PTK2 und PDGFRA für die antilungenkrebsaktive Wirkung von Pinellia ternata durch in-silico-Methoden.
- Die Studie zeigte an, dass die Blattohrsformänderungen bei Pinellia ternata durch Hormone, insbesondere IAA, reguliert werden und mit genetischen Ausdrucksunterschieden zwischen den Blatttypen assoziiert sind.
- The study identified key genes involved in alkaloid synthesis in Pinellia ternata, providing insights into its alkaloid biosynthesis pathway.
Frequently asked questions
What is Pinellia ternata?
Pinellia ternata (Pinellia ternata) 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 Pinellia ternata?
4 sourced findings are recorded for Pinellia ternata; the strongest carries evidence grade D. For example: JBX1, eine wärmetolerante Form von Pinellia ternata, zeigt erhöhte grundlegende Wärmetoleranz durch koordinierte Metabolismus-Regulierungen und dynamische Reprogrammierung unter Wärmebelastung.
How strong is the evidence for Pinellia ternata?
The strongest finding for Pinellia ternata carries evidence grade D — preliminary or traditional. Grades run A (strongest) to D (preliminary or traditional).
Is Pinellia ternata safe? What are the side effects?
No major safety issues are recorded for Pinellia ternata in our sources, but the data may be incomplete. Consult a qualified professional before use.
Does Pinellia ternata interact with medications?
No drug interactions are recorded for Pinellia ternata in our sources. This does not rule them out — check with a pharmacist.
Is Pinellia ternata 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.
Quellen
- T2 Identification and functional verification of key genes involved in alkaloid biosynthesis in Pinellia ternata. literature abstract metadata
- T2 In-silico prediction of multi‑target mechanisms of Pinellia ternata phytochemicals in lung cancer: Evidence from a graph‑attention‑guided virtual screening and multi‑scale simulations. literature abstract metadata
- T2 Phytohormone and transcriptome analyses unravel the molecular mechanisms of heterophylly in Pinellia ternata. literature abstract metadata
- T2 Integrated Metabolomic and Transcriptomic Analyses Reveal the Differential Molecular Mechanisms Underlying Heat Stress Responses in Two Pinellia ternata Germplasms. literature abstract metadata