heptadeca-1,8,11,14-tetraene
blocks T-cell activation; isolated from the oil of Inula helenium; structure in first source
Also Known As:
aplotaxene
Networked: 2
relevant articles (0 outcomes,
0 trials/studies)
Bio-Agent Context: Research Results
Experts
| 1. | Chen, Ziqiang:
1 article
(03/2020)
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| 2. | Hu, Huiling:
1 article
(03/2020)
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| 3. | Li, Qijuan:
1 article
(03/2020)
|
| 4. | Wang, Wenjun:
1 article
(03/2020)
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| 5. | Wang, Zhanguo:
1 article
(03/2020)
|
| 6. | Xie, Yu:
1 article
(03/2020)
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| 7. | Yan, Xiaomin:
1 article
(03/2020)
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| 8. | Yu, Ziwei:
1 article
(03/2020)
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| 9. | Choi, Eun-Ju:
1 article
(12/2013)
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| 10. | Choi, Hyun-Kyu:
1 article
(12/2013)
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Related Diseases
| 1. | Immune System Diseases (Immune Disorders)
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| 2. | Gastrointestinal Diseases (Functional Gastrointestinal Disorders)
03/01/2020
- " Orthogonal partial least squares discriminant analysis (OPLS-DA) further showed that compounds including costol, aplotaxene, caryophyllene, humulene, and β-eudesmol, together with the characteristic compounds of the two species, could be regarded as potential markers for differentiation, among which β-eudesmol, which is richer in Vladimiriae Radix, and β-patchoulene, which is unique to Vladimiriae Radix, have potential therapeutic effects on gastrointestinal diseases. "
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