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Received: June 17, 2024; Revised: July 8, 2024; Accepted: July 11, 2024
The lipoxygenase cascade in plants is a source of oxylipins (oxidized fatty acid derivatives), which play an important role in regulatory processes and formation of plant response to stress factors. Some of the most common enzymes of the lipoxygenase cascade are 13-specific hydroperoxide lyases (HPLs, also called hemiacetal synthases) of the CYP74B subfamily. In this work, we identified and cloned the CYP74B34 gene from carrot (Daucus carota L.) and described the biochemical properties of the corresponding recombinant enzyme. The CYP74B34 enzyme was active towards 9- and 13-hydroperoxides of linoleic (9-HPOD and 13-HPOD, respectively) and α-linolenic (9-HPOT and 13-HPOT, respectively) acids. CYP74B34 specifically converted 9-HPOT and 13-HPOT into aldo acids (HPL products). The transformation of 13-HPOD led to the formation of aldo acids and epoxyalcohols [products of epoxyalcohol synthase (EAS) activity] as major and minor products, respectively. At the same time, conversion of 9-HPOD resulted in the formation of epoxyalcohols as the main products and aldo acids as the minor ones. Therefore, CYP74B34 is the first enzyme with a double HPL/EAS activity described in carrot. The presence of these catalytic activities was confirmed by analysis of the oxylipin profiles for the roots from young seedlings and mature plants. In addition, we substituted amino acid residues in one of the catalytically essential sites of the CYP74B34 and CYP74B33 proteins and investigated the properties of the obtained mutant enzymes.
KEY WORDS: lipoxygenase cascade, cytochromes P450, CYP74 family, hydroperoxide lyase, epoxy alcohol synthase, Daucus carotaDOI: 10.1134/S0006297924080108
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Copyright (C) 2024 BioProt Network All rights reserved. |
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