Talk:Coronaric acid

assorted problems
Occurrence - such as (Helianthus annus) - delete ( & )

metabolize linoleic acid to (+)12?S,13?R-epoxy-9?(Z)-octadecaenoic acid and (-)12?R,13?S-epoxy-9?(Z)-octadecaenoic acid, i.e. the (+) and (-) epoxy optical isomers of coronaric acid

This? same CYP epoxygenases

carbon 9?,10? rather than 12?,13? double bond

9?S,10?R-epoxy-12?(Z)-octadecaenoic and 9?R,10?S-epoxy-12?(Z)-octadecaenoic acids. This (+) and (-) optical mixture is often termed vernolic acid or? when studied in plants and leukotoxin when studied in mammals (and optical should either be deleted or changed to optical isomer)

Coronoric? acid is found in urine

as a result of the spontaneous process of autooxidation.[7] This autoxidation - inconsistent autooxidation vs. autoxidation

Toxicities - to that of other structurally unrelated leukotoxins viz., - delete ,

and when injected into rodents produce? (add s)

counterparts, 9S,10R- and 9R,10S-dihydroxy-12(Z)-octadecaenoic acids by soluable - either delete, after counterparts or add , after acids

acting primarily if not exclusively through its dihydroxy counterparts, is responsible for or contribute? (add s)

Vernolic acid (i.e. leukotoxin) shares a similar metabolic fate in being converted by soluble epoxide hydrolase to its dihydroxy counterparts and? toxic actions of these hydroxide counterparts

Other activities - with the epoxides of arachidonic acid, i.e. the epoxyeicosatreienoates? 108.18.223.247 (talk) 07:57, 11 November 2020 (UTC)