# emodin

> chemical compound

**Wikidata**: [Q4348178](https://www.wikidata.org/wiki/Q4348178)  
**Wikipedia**: [English](https://en.wikipedia.org/wiki/Emodin)  
**Source**: https://4ort.xyz/entity/emodin


## References

1. emodin. Global Substance Registration System
2. [CAS Common Chemistry](https://commonchemistry.cas.org/detail?cas_rn=518-82-1)
3. emodin. PubChem
4. ChEBI release 2020-09-01
5. Gene Ontology release 2019-11-16
6. EMODIN. ChEMBL
7. 3BQC. Protein Data Bank
8. 3ED0. Protein Data Bank
9. 3PZH. Protein Data Bank
10. 3CSD. Protein Data Bank
11. 3RI3. Protein Data Bank
12. 3Q9W. Protein Data Bank
13. 3Q9X. Protein Data Bank
14. 2RHC. Protein Data Bank
15. 2RHR. Protein Data Bank
16. 2RH4. Protein Data Bank
17. 1F0Q. Protein Data Bank
18. 3C13. Protein Data Bank
19. Freebase Data Dumps. 2013
20. Emodin. ChemSpider
21. Phytotoxic compounds from the new coprophilous fungus guanomyces polythrix
22. Phytotoxic naphthopyranone derivatives from the coprophilous fungus Guanomyces polythrix.
23. Electrospray liquid chromatography-mass spectrometry of the leaf extract of Rhamnus prinoides
24. Emodin and emodinanthrone rhamnoside acetates from fruits of Rhamnus prinoides
25. Toxicity ofSenna obtusifolia fresh and fermented leaves (kawal),Senna alata leaves and some products fromSenna alata on rats
26. Alatinone, an anthraquinone from Cassia alata
27. Revision of the structure of alatinone to emodin
28. Anthracene derivatives in tissue culture of Cassia senna L
29. Studies on the constituents of the seeds of Cassia obtusifolia: The structures of two new lactones, isotoralactone and cassialactone
30. Chemical investigation on Cassia occidentalis Linn. Part I. Isolation and structure of cassiollin, a new xanthone
31. Anthraquinone rhamnosides from Cassia javanica root bark
32. Two new bitetrahydroanthracenes from Roots of Cassia occidentalis L.
33. A new anthraquinone from Cassia sophera heartwood
34. Chemical constituents of the flowers of Cassia occidentalis
35. Studies on the constituents of the roots of Cassia torosa. I. The structures of two new naphthalenic lactones.
36. A Phytochemical Study of Some Cassia Species Cultivated in Egypt
37. Studies on the evaluation of crude drug. I. Quantitative estimation of anthraquinones in Cassia seeds.
38. Phlegmacins and anhydrophlegmacinquinones: Dimeric hydroanthracenes from seedlings of Cassia torosa
39. Composition of sicklepod (Cassia obtusifolia) toxic weed seeds
40. Metabolites from in vitro cultures of Cassia didymobotrya
41. Anthraquinones and Terpenoids from Cassia javanica Leaves
42. Formation of pigments by the tissue culture of Cassia occidentalis.
43. Chemical and spectral studies of novel keto-alcohols from the leaves of Cassia auriculata
44. Anthraquinone Formation in Callus Cultures of Cassia podocarpa
45. Anthraquinoids from Cassia nomame
46. Anthraquinones and flavonoids of Cassia laevigata roots
47. 13C NMR spectral analysis of anthraquinone derivatives from Rumex alpinus
48. Ethnopharmacologic study of Chinese rhubarb
49. Anthraquinone and stilbene derivatives from the cultivated Korean Rhubarb Rhizomes
50. Analysis of anthraquinones inRheum franzenbachii Münt (rhubarb) by thin-layer chromatography