FolkKB

Dyer's Woad

Isatis tinctoria

蓼蓝(Isatis tinctoria),通常被称为靛蓝或染料木,传统上在医学实践中并未广泛使用。然而,最近的科学研究显示了令人鼓舞的结果。研究表明,蓼蓝的遗传因素可能有助于植物对根腐病的抵抗力,并通过植物防御反应增强根部抗病机制。此外,将烟草与蓼蓝轮作可以改善土壤养分含量、微生物多样性和烟草叶片质量,从而有可能提高作物生产价值。科学证据还表明,蓼蓝中的化合物可能具有治疗RSV肺炎的潜力,通过AhR介导的机制增强肺屏障完整性;然而,需要进一步研究来确认这些发现。尚未记录与该植物相关的重大安全问题或药物相互作用。

速览
最佳证据
D
注意事项

仅供参考。传统用法并不代表已被证实有效。证据与安全性各不相同,请查阅所引来源。

科学怎么说

  • 研究在Raphanobrassica的R5号染色体上鉴定出一个主要的根肿病抗性位点,其中包括来自菘蓝(Isatis tinctoria)的候选基因CRR5.5.11。 D PMID
  • 壳聚糖衍生的碳点显著增强了菘蓝(Isatis tinctoria)对根腐病的抵抗力,通过激活植物防御反应。 D PMID
  • 靛蓝来自菘蓝显示出在RSV肺炎中通过AhR激活增强肺屏障完整性的治疗潜力,尽管仍需更多研究。 D PMID
  • 烟草与菘蓝轮作可增加土壤养分含量、微生物多样性和烟草叶片质量,高于单一作物种植。 D PMID

Frequently asked questions

What is Dyer's Woad?

Dyer's Woad (Isatis tinctoria) 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 Dyer's Woad?

4 sourced findings are recorded for Dyer's Woad; the strongest carries evidence grade D. For example: 研究在Raphanobrassica的R5号染色体上鉴定出一个主要的根肿病抗性位点,其中包括来自菘蓝(Isatis tinctoria)的候选基因CRR5.5.11。

How strong is the evidence for Dyer's Woad?

The strongest finding for Dyer's Woad carries evidence grade D — preliminary or traditional. Grades run A (strongest) to D (preliminary or traditional).

Is Dyer's Woad safe? What are the side effects?

No major safety issues are recorded for Dyer's Woad in our sources, but the data may be incomplete. Consult a qualified professional before use.

Does Dyer's Woad interact with medications?

No drug interactions are recorded for Dyer's Woad in our sources. This does not rule them out — check with a pharmacist.

What are the common names of Dyer's Woad?

Dyer's Woad is also known as: Вайда красильная, Pastel des teinturiers.

Is Dyer's Woad 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.

来源

  1. T2 Rotation-driven changes in physicochemical properties modulate soil microbial diversity and community complexity in tobacco-woad soils. literature abstract metadata
  2. T2 Chitosan-Derived Carbon Dots Enhance Root Rot Resistance in Isatis Tinctoria L. by Enhancing Plant Defense Responses. literature abstract metadata
  3. T2 Synthetic Raphanobrassica Genome Reveals Functional and Evolutionary Insights Into Clubroot Resistance Genes on Chromosome R5. literature abstract metadata
  4. T2 Therapeutic potential of Isatidis Radix alkaloids in RSV pneumonia: A focus on AhR-mediated pulmonary barrier repair. literature abstract metadata