Oxylipin biosynthesis in spikemoss Selaginella moellendorffii: Molecular cloning and identification of Divinyl ether (cas 109-93-3) synthases CYP74M1 and CYP74M3

Add time:08/24/2019    Source:sciencedirect.com

Nonclassical P450s of CYP74 family control the secondary conversions of fatty acid hydroperoxides to bioactive oxylipins in plants. At least ten genes attributed to four novel CYP74 subfamilies have been revealed by the recent sequencing of the spikemoss Selaginella moellendorffii Hieron genome. Two of these genes CYP74M1 and CYP74M3 have been cloned in the present study. Both recombinant proteins CYP74M1 and CYP74M3 were active towards the 13(S)-hydroperoxides of α-linolenic and linoleic acids (13-HPOT and 13-HPOD, respectively) and exhibited the activity of Divinyl ether (cas 109-93-3) synthase (DES). Products were analyzed by gas chromatography–mass spectrometry. Individual oxylipins were purified by HPLC and finally identified by their NMR data, including the 1H NMR, 2D-COSY, HSQC and HMBC. CYP74M1 (SmDES1) specifically converted 13-HPOT to (11Z)-etherolenic acid and 13-HPOD to (11Z)-etheroleic acid. CYP74M3 (SmDES2) turned 13-HPOT and 13-HPOD mainly to etherolenic and etheroleic acids, respectively. CYP74M1 and CYP74M3 are the first DESs detected in non-flowering plants. The obtained results demonstrate the existence of the sophisticated oxylipin biosynthetic machinery in the oldest taxa of vascular plants.

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