# abscisic acid

> chemical compound

**Wikidata**: [Q332211](https://www.wikidata.org/wiki/Q332211)  
**Wikipedia**: [English](https://en.wikipedia.org/wiki/Abscisic_acid)  
**Source**: https://4ort.xyz/entity/abscisic-acid


## References

1. abscisic acid. Global Substance Registration System
2. [CAS Common Chemistry](https://commonchemistry.cas.org/detail?cas_rn=21293-29-8)
3. ABSCISIC ACID. PubChem
4. ChEBI release 2020-09-01
5. Medical Subject Headings
6. (+)-ABSCISIC ACID. ChEMBL
7. 4MKV. Protein Data Bank
8. 3K3K. Protein Data Bank
9. 4DS8. Protein Data Bank
10. 4DSC. Protein Data Bank
11. 4DSB. Protein Data Bank
12. 3K90. Protein Data Bank
13. 5JO2. Protein Data Bank
14. 3UJL. Protein Data Bank
15. 3OQU. Protein Data Bank
16. 3KB0. Protein Data Bank
17. 3KB3. Protein Data Bank
18. 3ZVU. Protein Data Bank
19. 3QN1. Protein Data Bank
20. 3JRQ. Protein Data Bank
21. 3JRS. Protein Data Bank
22. 3W9R. Protein Data Bank
23. 3R6P. Protein Data Bank
24. 3KDJ. Protein Data Bank
25. 3KDI. Protein Data Bank
26. 4OIC. Protein Data Bank
27. (+)-Abscisic acid. ChemSpider
28. (+)-abscisic acid. ChEBI
29. Abscisic acid from Alternaria brassicae
30. Identification of abscisic acid in the seaweed Ascophyllum nodosum
31. The metabolism of analogs of abscisic acid in cercospora cruenta.
32. Biosynthesis of (+)-abscisic acid in Cercospora cruenta.
33. The metabolism of (2Z,4E)-.ALPHA.-ionylideneacetic acid in Cercospora cruenta, a fungus producing (+)-abscisic acid.
34. Incorporation of Farnesyl Pyrophosphate Derivertives into Abscisic Acid and Its Biosynthetic Intermediates in Cevcospova cruenta
35. The Metabolism of Analogs of Abscisic Acid inCercospora cruenta
36. Biosynthesis of abscisic acid in Cercospora pini-densiflorae
37. Biosynthesis of abscisic acid from α-ionylideneethanol in Cercospora pini-densiflorae
38. Cytotoxic constituents from the leaves of Cinnamomum subavenium
39. A novel sesquiterpenoid from the leaves of Cinnamomum subavenium
40. New metabolites from sponge-derived fungi Curvularia lunata and Cladosporium herbarum.
41. Potential cancer chemopreventive constituents of the leaves of Macaranga triloba.
42. Steryl epoxide, secobutanolide and butanolides from the stem wood of Machilus zuihoensis
43. Isolation of a plant growth inhibitory substance from garden peas (Pisum sativum L.) and its identification with (+)-abscisin-II
44. Occurrence and metabolism of 1′,4′-trans-diol of abscisic acid
45. A novel abscisic acid metabolite from seeds of Robinia pseudacacia
46. Abscisic Acid Accumulation by in Situ and Isolated Guard Cells of Pisum sativum L. and Vicia faba L. in Relation to Water Stress
47. Isolation of 4′-dihydroabscisic acid from immature seeds of Vicia faba
48. The identification of gibberellins in immature seeds of Vicia faba, and some chemotaxonomic considerations
49. UHPLC-ESI-QTOF-MS-based metabolic profiling of Vicia faba L. (Fabaceae) seeds as a key strategy for characterization in foodomics
50. Fast responses of metabolites in Vicia faba L. to moderate NaCl stress