Development of endogenous promoters that drive high-level expression of introduced genes in the model diatom Phaeodactylum tricornutum.

The marine diatom Phaeodactylum tricornutum is attractive for basic and applied diatom research. We isolated putative endogenous gene promoters derived from genes that are highly expressed in P. tricornutum: the fucoxanthin chlorophyll a/c-binding protein (FCP) C gene, the vacuolar ATP synthase 16-kDa proteolipid subunit (V-ATPase C) gene, the clumping factor A gene and the solute carrier family 34 member 2 gene. Five putative promoter regions were isolated, linked to an antibiotic resistance gene (Sh ble) and transformed into P. tricornutum. Using quantitative RT-PCR, the promoter activities in the transformants were analyzed and compared to that of the diatom endogenous gene promoter, the FCP A gene promoter which has been used for the transformation of P. tricornutum. Among the five isolated potential promoters, the activity of the V-ATPase C gene promoter was approximately 2.73 times higher than that of the FCP A gene promoter. The V-ATPase C gene promoter drove the expression of Sh ble mRNA transcripts under both light and dark conditions at the stationary phase. These results suggest that the V-ATPase C gene promoter is a novel tool for the genetic engineering of P. tricornutum.

Nuclear transformation of the diatom Phaeodactylum tricornutum using PCR-amplified DNA fragments by microparticle bombardment.

We have developed a method for marine diatom transformation by microparticle bombardment using polymerase chain reaction (PCR)-amplified DNA fragments. We constructed a circular vector (approximately 5000 bp) containing an fcpA promoter from Phaeodactylum tricornutum, antibiotic-resistance genes and terminator from Cylindrotheca fusiformis (a "gene cassette"). Then the various lengths of linear vectors (+0-+1000 linear vectors) were then PCR-amplified from the circular plasmid. The transformants of P. tricornutum transfected with the linear vectors were obtained in the triplicate experiments. Transformation efficiencies using PCR-amplified short linear vectors containing the gene cassette and additional DNA regions of 0, 50, and 500 bp at both ends of the gene cassette (+0-+500 linear vectors) did not significantly differ from one another or from the efficiency of the +1000 linear vector. Transformation efficiencies using the linear vectors were lower than that using the circular vector, but were not significantly different. The ratios of the number of transformants containing the whole region of the gene cassette to those of transformants transfected using linear vectors of various lengths were determined. An extension (≧50 bp) of DNA fragments was effective for introducing the whole region of the gene cassette into the genomic DNA. In using various amounts of the +50 linear vector (37.5-300 fmol/shot), we observed that transformation efficiencies using 37.5 fmol (52.2 ng)/shot of the linear vector were not significantly different from those obtained using 300 fmol of the linear vector. The 300 fmol quantity was set considering the quantity of the circular plasmid (1 µg=approx. 300 fmol) and the 37.5 fmol quantity was set for quick and easy preparation of approximately 500 ng of the linear short vector needed for triplicate transformation experiments in one PCR tube containing 50 µl of PCR cocktail. Integrating the gene cassette of the short linear vectors as well as that of the full length of the linear vector (+1000 linear vector) into the chromosomal DNA was determined using Southern blot analysis. The short linear vectors tended to result in smaller numbers of insertions than those of the supercoiled plasmid. This simple and time-saving transformation method using microparticle bombardment with PCR-amplified DNA fragments permitted both functional analysis of diatom-specific genes and development of diatom strains useful for further biotechnological applications.

Characterization of marine diatom-infecting virus promoters in the model diatom Phaeodactylum tricornutum.

Viruses are considered key players in phytoplankton population control in oceans. However, mechanisms that control viral gene expression in prominent microalgae such as diatoms remain largely unknown. In this study, potential promoter regions isolated from several marine diatom-infecting viruses (DIVs) were linked to the egfp reporter gene and transformed into the Pennales diatom Phaeodactylum tricornutum. We analysed their activity in cells grown under different conditions. Compared to diatom endogenous promoters, novel DIV promoter (ClP1) mediated a significantly higher degree of reporter transcription and translation. Stable expression levels were observed in transformants grown under both light and dark conditions, and high levels of expression were reported in cells in the stationary phase compared to the exponential phase of growth. Conserved motifs in the sequence of DIV promoters were also found. These results allow the identification of novel regulatory regions that drive DIV gene expression and further examinations of the mechanisms that control virus-mediated bloom control in diatoms. Moreover, the identified ClP1 promoter can serve as a novel tool for metabolic engineering of diatoms. This is the first report describing a promoter of DIVs that may be of use in basic and applied diatom research.

Effect of an Introduced Phytoene Synthase Gene Expression on Carotenoid Biosynthesis in the Marine Diatom Phaeodactylum tricornutum.

Carotenoids exert beneficial effects on human health through their excellent antioxidant activity. To increase carotenoid productivity in the marine Pennales Phaeodactylum tricornutum, we genetically engineered the phytoene synthase gene (psy) to improve expression because RNA-sequencing analysis has suggested that the expression level of psy is lower than other enzyme-encoding genes that are involved in the carotenoid biosynthetic pathway. We isolated psy from P. tricornutum, and this gene was fused with the enhanced green fluorescent protein gene to detect psy expression. After transformation using the microparticle bombardment technique, we obtained several P. tricornutum transformants and confirmed psy expression in their plastids. We investigated the amounts of PSY mRNA and carotenoids, such as fucoxanthin and ß-carotene, at different growth phases. The introduction of psy increased the fucoxanthin content of a transformants by approximately 1.45-fold relative to the levels in the wild-type diatom. However, some transformants failed to show a significant increase in the carotenoid content relative to that of the wild-type diatom. We also found that the amount of PSY mRNA at log phase might contribute to the increase in carotenoids in the transformants at stationary phase.