Enhanced triacylglycerol production in the diatom Phaeodactylum tricornutum by inactivation of a Hotdog-fold thioesterase gene using TALEN-based targeted mutagenesis

Abstract: BackgroundIn photosynthetic oleaginous microalgae, acyl-CoA molecules are used as substrates for the biosynthesis of membrane glycerolipids, triacylglycerol (TAG) and other acylated molecules. Acyl-CoA can also be directed to beta-oxidative catabolism. They can be utilized by a number of lipid metabolic enzymes including endogenous thioesterases, which catalyze their hydrolysis to release free fatty acids. Acyl-CoA availability thus plays fundamental roles in determining the quantity and composition of membran… Show more

“…We demonstrate, using a marine alga as the cell factory, that screening proper engineering targets and manipulating a single gene can pull carbon flux to lipid production for TAG hyper‐accumulation, and the PtDGAT1 ‐overexressing P. tricornutum may serve as a promising feedstock for oil production. In addition to DGAT , there have been many reports about the manipulation of other genes for improved TAG production in P. tricornutum , such as genes involved in lipid metabolism (Balamurugan et al., 2017; Barka et al., 2016; Hamilton et al., 2014; Hao et al., 2018; Li et al., 2018; Niu et al., 2016; Wang et al., 2020), NADPH generation (Xue et al., 2015, 2017), carbon precursor production (Daboussi et al., 2014), and transcription factor (Kumar Sharma et al., 2019). The manipulation of multiple genes that provides the combination of pulling, pushing, and protection may have the potential to achieve even higher lipid level and production, which remains yet to be fully explored in the future.…”

Lipid production is more than doubled by manipulating a diacylglycerol acyltransferase in algae

“…We demonstrate, using a marine alga as the cell factory, that screening proper engineering targets and manipulating a single gene can pull carbon flux to lipid production for TAG hyper‐accumulation, and the PtDGAT1 ‐overexressing P. tricornutum may serve as a promising feedstock for oil production. In addition to DGAT , there have been many reports about the manipulation of other genes for improved TAG production in P. tricornutum , such as genes involved in lipid metabolism (Balamurugan et al., 2017; Barka et al., 2016; Hamilton et al., 2014; Hao et al., 2018; Li et al., 2018; Niu et al., 2016; Wang et al., 2020), NADPH generation (Xue et al., 2015, 2017), carbon precursor production (Daboussi et al., 2014), and transcription factor (Kumar Sharma et al., 2019). The manipulation of multiple genes that provides the combination of pulling, pushing, and protection may have the potential to achieve even higher lipid level and production, which remains yet to be fully explored in the future.…”

Lipid production is more than doubled by manipulating a diacylglycerol acyltransferase in algae

“…Unlike in plant leaf tissues, metabolic engineering of diatom TAG accumulation benefits from the existence of LD biogenesis and regulatory systems already in place. Various steps within the "push, pull, package, protect" paradigm have already has been accomplished in diatoms by over-expression of enzymes implicated in fatty acid and TAG biosynthesis [114,117,[240][241][242], modulating the acyl-CoA pool [243] or repression of lipid catabolism [124,125,244]. A deeper understanding of the mechanisms by which proteins are targeted to LDs could facilitate the engineering of LD-localized enzymes or metabolic pathways, which could allow for the customization of LD contents.…”

A Review of Diatom Lipid Droplets

“…Lipids were extracted and determined as previously described (Jiang et al ., 2014; Hao et al ., 2018) with some modifications. In brief, 30 ml of cultures at the logarithmic phase were harvested by centrifugation at 5500 rpm for 10 min and the pellets were freeze‐dried.…”

Cold adaptation in drylands: transcriptomic insights into cold‐stressed Nostoc flagelliforme and characterization of a hypothetical gene with cold and nitrogen stress tolerance