Development of a Nuclear Transformation System for Oleaginous Green Alga Lobosphaera

Microalgae are considered a promising source for various high value products, such as carotenoids, [omega]-3 and [omega]-6 polyunsaturated fatty acids (PUFA). The unicellular green alga Lobosphaera (Parietochloris) incisa is an outstanding candidate for the efficient phototrophic production of arach...

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Veröffentlicht in:PloS one 2014-08, Vol.9 (8)
Hauptverfasser: Zorin, Boris, Grundman, Omer, Khozin-Goldberg, Inna, Leu, Stefan, Shapira, Michal, Kaye, Yuval, Tourasse, Nicolas, Vallon, Olivier, Boussiba, Sammy
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Sprache:eng
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Zusammenfassung:Microalgae are considered a promising source for various high value products, such as carotenoids, [omega]-3 and [omega]-6 polyunsaturated fatty acids (PUFA). The unicellular green alga Lobosphaera (Parietochloris) incisa is an outstanding candidate for the efficient phototrophic production of arachidonic acid (AA), an essential [omega]-6 PUFA for infant brain development and a widely used ingredient in the baby formula industry. Although phototrophic production of such algal products has not yet been established, estimated costs are considered to be 2-5 times higher than competing heterotrophic production costs. This alga accumulates unprecedented amounts of AA within triacylglycerols and the molecular pathway of AA biosynthesis in L. incisa has been previously elucidated. Thus, progress in transformation and metabolic engineering of this high value alga could be exploited for increasing the efficient production of AA at competitive prices. We describe here the first successful transformation of L. incisa using the ble gene as a selection marker, under the control of the endogenous RBCS promoter. Furthermore, we have succeeded in the functional complementation of the L. incisa mutant strain P127, containing a mutated, inactive version of the delta-5 ([DELTA]5) fatty acid desaturase gene. A copy of the functional [DELTA]5 desaturase gene, linked to the ble selection marker, was transformed into the P127 mutant. The resulting transformants selected for zeocine resistant, had AA biosynthesis partially restored, indicating the functional complementation of the mutant strain with the wild-type gene. The results of this study present a platform for the successful genetic engineering of L. incisa and its long-chain PUFA metabolism.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0105223