Harumi Sakuyama scite author profile

BackgroundMicroalgae have recently been attracting attention as a potential platform for the production of biofuels. Euglena gracilis, a unicellular phytoflagellate, has been proposed as an attractive feedstock to produce biodiesel because it can produce large amounts of wax esters, consisting of medium-chain fatty acids and alcohols with 14:0 carbon chains. E. gracilis cells highly accumulate a storage polysaccharide, a β-1,3-glucan known as paramylon, under aerobic conditions. When grown aerobically and then transferred into anaerobic conditions, E. gracilis cells degrade paramylon to actively synthesize and accumulate wax esters. Thus, the enhanced accumulation of paramylon through the genetic engineering of photosynthesis should increase the capacity for wax ester production.ResultsWe herein generated transgenic Euglena (EpFS) cells expressing the cyanobacterial fructose-1,6-/sedoheptulose-1,7-bisphosphatase (FBP/SBPase), which is involved in the Calvin cycle, to enhance its photosynthetic activity. FBP/SBPase was successfully expressed within Euglena chloroplasts. The cell volume of the EpFS4 cell line was significantly larger than that of wild-type cells under normal growth conditions. The photosynthetic activity of EpFS4 cells was significantly higher than that of wild type under high light and high CO2, resulting in enhanced biomass production, and the accumulation of paramylon was increased in transgenic cell lines than in wild-type cells. Furthermore, when EpFS cell lines grown under high light and high CO2 were placed on anaerobiosis, the productivity of wax esters was approximately 13- to 100-fold higher in EpFS cell lines than in wild-type cells.ConclusionOur results obtained here indicate that the efficiency of biomass production in E. gracilis can be improved by genetically modulating photosynthetic capacity, resulting in the enhanced production of wax esters. This is the first step toward the utilization of E. gracilis as a sustainable source for biofuel production under photoautotrophic cultivation.Electronic supplementary materialThe online version of this article (doi:10.1186/s13068-015-0264-5) contains supplementary material, which is available to authorized users.

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Generation of transplastomic lettuce with enhanced growth and high yield

Ichikawa¹,

Tamoi²,

Sakuyama³

et al. 2010

GM Crops

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We generated transplastomic lettuce plants expressing cyanobacterial fructose-1,6-/sedoheptulose-1,7-bisphosphatase (FBP/SBPase) in chloroplasts. Their photosynthetic capacity and productivity were increased 1.3-fold and 1.6-fold, respectively, compared with control plants transformed with pRL200, indicating that the introduction of the enzyme affects the photosynthetic capacity and growth of lettuce plants at ambient CO(2) levels (360 ppm).

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Characterization and physiological role of two types of chloroplastic fructose-1,6-bisphosphatases in Euglena gracilis

Ogawa

Kimura

Sakuyama

et al. 2015

Archives of Biochemistry and Biophysics

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Harumi Sakuyama

Enhancement of photosynthetic capacity in Euglena gracilis by expression of cyanobacterial fructose-1,6-/sedoheptulose-1,7-bisphosphatase leads to increases in biomass and wax ester production

Generation of transplastomic lettuce with enhanced growth and high yield

Characterization and physiological role of two types of chloroplastic fructose-1,6-bisphosphatases in Euglena gracilis

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