coronafacic acid
a polyketide that is coupled to coronamic acid by coronafacate ligase to form coronatine; structure given in first source; RN refers to (3aS-(3aalpha,6beta,7aalpha))-isomer
Networked: 7
relevant articles (0 outcomes,
0 trials/studies)
Bio-Agent Context: Research Results
Experts
| 1. | Gogolev, Yuri V:
1 article
(11/2022)
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| 2. | Gogoleva, Natalia E:
1 article
(11/2022)
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| 3. | Gorshkov, Vladimir Y:
1 article
(11/2022)
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| 4. | Ogorodnikova, Anna V:
1 article
(11/2022)
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| 5. | Parfirova, Olga I:
1 article
(11/2022)
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| 6. | Petrova, Olga E:
1 article
(11/2022)
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| 7. | Smirnova, Elena O:
1 article
(11/2022)
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| 8. | Toporkova, Yana Y:
1 article
(11/2022)
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| 9. | Tsers, Ivan D:
1 article
(11/2022)
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| 10. | Altowairish, Mead S:
1 article
(04/2015)
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Related Diseases
| 1. | Hypochromic Anemia (Chlorosis)
04/01/1985
- " whole, unhydrolyzed coronatine molecule is probably necessary to elicit both the ethylene and chlorosis responses since neither hydrolysis product (coronafacic acid and coronamic acid AEC]) is effective alone. " 06/01/1997
- " Pseudomonas syringae pv. glycinea PG4180 produces coronatine (COR), a chlorosis-inducing phytotoxin that consists of the polyketide coronafacic acid (CFA) coupled via an amide bond to the ethylcyclopropyl amino acid coronamic acid (CMA). " 02/03/1995
- " Pseudomonas syringae pv. glycinea PG4180 produces the chlorosis-inducing phytotoxin coronatine (COR), which consists of a polyketide component, coronafacic acid (CFA), ligated by an amide bond to coronamic acid (CMA), an ethylcyclopropyl amino-acid derived from isoleucine. " 10/29/1993
- " Pseudomonas syringae pv. glycinea PG4180 produces a chlorosis-inducing phytotoxin, coronatine (COR), which consists of a polyketide component, coronafacic acid (CFA), which is coupled via amide bond formation to coronamic acid (CMA), an ethylcyelopropyl amino acid (aa) derived from isoleucine. "
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| 2. | Infections
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| 3. | Scabies (Sarcoptic Mange)
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| 4. | Latent Infection
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