A multigene approach secures hydroxy fatty acid production in Arabidopsis

Abstract A central goal of green chemistry is to produce industrially useful fatty acids in oilseed crops. Although genes encoding suitable fatty acid-modifying enzymes are available from more than a dozen wild species, progress has been limited because expression of these enzymes in transgenic plan...

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Published in:Journal of experimental botany 2022-05, Vol.73 (9), p.2875-2888
Main Authors: Lunn, Daniel, Wallis, James G, Browse, John
Format: Article
Language:English
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Summary:Abstract A central goal of green chemistry is to produce industrially useful fatty acids in oilseed crops. Although genes encoding suitable fatty acid-modifying enzymes are available from more than a dozen wild species, progress has been limited because expression of these enzymes in transgenic plants produces only low yields of the desired products. For example, fatty acid hydroxylase 12 (FAH12) from castor (Ricinus communis) produces only 17% hydroxy fatty acids (HFAs) when expressed in Arabidopsis (Arabidopsis thaliana), compared with 90% HFAs in castor seeds. The transgenic plants also have reduced oil content and seed vigor. Here, we review experiments that have provided for steady increased HFA accumulation and oil content. This research has led to exciting new discoveries of enzymes and regulatory processes in the pathways of both seed oil synthesis and lipid metabolism in other parts of the plant. Recent investigations have revealed that HFA-accumulating seeds are unable to rapidly mobilize HFA-containing triacylglycerol (TAG) storage lipid after germination to provide carbon and energy for seedling development, resulting in reduced seedling establishment. These findings present a new opportunity to investigate a different, key area of lipid metabolism—the pathways of TAG lipolysis and β-oxidation in germinating seedlings. Successful efforts to increase the accumulation of industrially useful hydroxy fatty acids in transgenic plants have led to important new discoveries about the pathways and regulation of plant lipid synthesis more broadly.
ISSN:0022-0957
1460-2431
DOI:10.1093/jxb/erab533