Essential polyunsaturated fatty acids with more than two double bonds and length of carbon chain 18-22 must be taken in the diet to prevent diseases and imbalances caused by their deficiency. Terrestrial sources of polyunsaturated fatty acids are limited to only a few plant species whose large-scale cultivation is not possible and the production of their seeds and oil is ineffective. The complete biosynthetic pathway of fatty acids is known in organisms, including plants. After the first gene encoding the enzyme catalysing the initial steps of PUFA biosynthesis (ω-3 desaturase, Δ6-desaturase) were isolated, isolation of other genes encoding relevant enzymes of the PUFA pathway from different donor organisms followed. Genetic transformations of model plants by the desaturase- and elongase-encoding genes opened the way for the genetic engineering of oilseed crop species. Some of the developed transgenic plants produced PUFAs, including eicosapentaenoic and docosahexaenoic acids. Seed oils extracted from them were similar to fish oil. Tools of the synthetic biology can be applied in modifications of the PUFA pathway and also in overcoming of limitations when the gene and its expression product are absent in the pathway. Such progress in cereals (barley, wheat, maize) has been made only recently, when the first successful modifications of the ω-3 and ω-6 PUFA pathways succeeded. This review focuses on genetic modifications of the PUFA biosynthetic pathway in cereals in relation to the status reached in model plants and oilseed crops.
Keywords: Arley; Desaturation; Elongation; Genetic modification; LC-PUFAs; PUFAs; Wheat.
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