The role of diatom glucose-6-phosphate dehydrogenase on lipogenic NADPH supply in green microalgae through plastidial oxidative pentose phosphate pathway

Commercial production of biofuel from oleaginous microalgae is often impeded by their slow growth rate than other fast-growing algal species. A promising strategy is to genetically engineer the fast-growing algae to accumulate lipids by expressing key lipogenic genes from oleaginous microalgae. However, lacking of strong expression cassette to transform most of the algal species and potential metabolic target to engineer lipid metabolism has hindered its biotechnological applications. In this study, we engineered the oxidative pentose phosphate pathway (PPP) of green microalga Chlorella pyrenoidosa for lipid enhancement by expressing a glucose-6-phosphate dehydrogenase (G6PD) from oleaginous diatom Phaeodactylum tricornutum. Molecular characterization of transformed lines revealed that heterologous PtG6PD was transcribed and expressed successfully. Interestingly, subcellular localization analyses revealed that PtG6PD was targeted to chloroplasts of C. pyrenoidosa. PtG6PD expression remarkably elevated NADPH content and consequently enhanced the lipid content without affecting growth rate. Collectively, this report represents a promising candidate to engineer lipid biosynthesis in heterologous hosts with notable commercial significance, and it highlights the potential role of plastidial PPP in supplying lipogenic NADPH in microalgae.

     

Development of genetic transformation methodologies for an industrially-promising microalga: Scenedesmus almeriensis

The development of the microalgal industry requires advances in every aspect of microalgal biotechnology. In this regard, the availability of genetic engineering tools for industrially-promising species is key. As Scenedesmus almeriensis has promise for industrial use, we describe here an Agrobacterium-based methodology that allows stable genetic transformation of it for the first time, thus opening the way to its genetic manipulation. Transformation was accomplished using two different antibiotic resistance genes [hygromicine phophotransferase (hpt) and Shble] and it is credited by PCR amplification of both hpt/Shble and GUS genes and by the β-glucuronidase activity of transformed cells. Nevertheless, the single 35S promoter seems unable to direct gene expression to a convenient level in S. almeriensis as suggested by the low GUS enzymatic activity. Temperature was critical for the transformation efficiency.     

利用饵料微藻表达抗菌肽及其初步应用

为了解抗菌肽在饵料微藻中表达后的抗菌特性,构建海洋微拟球藻(Nannochloropsis oceanica)、湖泊微拟球藻(N.limnetica)和三角褐指藻(Phaeodactylum tricornutum)的抗菌肽(源自虹鳟,Cath-1a)表达质粒,分别转化相应的微藻,检测转化子中抗菌肽的表达量和体外抑菌效果,将藻株作为鱼饲料添加剂喂食斑马鱼,初步分析了抗菌肽及藻体自身的岩藻黄素和多不饱和脂肪酸对鱼免疫系统的影响。结果表明,外源抗菌肽在3种微藻中均可以成功表达,体外抑菌试验表明,仅三角褐指藻对水产领域常见致病菌爱德华氏菌(Edwardsiella tarda)有一定的抑菌效果,然而抗菌肽的表达并未使3种藻株的体外抑菌性增加。添加藻粉对斑马鱼的生长无明显影响,通过检测鱼体肝脏中与抗氧化和免疫相关基因的表达水平及丙二醛的含量,表明添加藻粉可增强斑马鱼的抗氧化和抗炎症能力,表达抗菌肽(PtC组)能进一步提高斑马鱼的免疫力。另外,添加Pt6(富含岩藻黄素)藻粉组比添加PtC的抗炎效果更显著,表明三角褐指藻中的岩藻黄素和二十碳五烯酸对增强鱼的抗病能力具有潜在作用。     

Evaluation of electro‐coagulation–flocculation for harvesting marine and freshwater microalgae

Although microalgae are considered as a promising feedstock for biofuels, the energy efficiency of the production process needs to be significantly improved. Due to their small size and low concentration in the culture medium, cost‐efficient harvesting of microalgae is a major challenge. In this study, the use of electro‐coagulation–flocculation (ECF) as a method for harvesting a freshwater (Chlorella vulgaris) and a marine (Phaeodactylum tricornutum) microalgal species is evaluated. ECF was shown to be more efficient using an aluminum anode than using an iron anode. Furthermore, it could be concluded that the efficiency of the ECF process can be substantially improved by reducing the initial pH and by increasing the turbulence in the microalgal suspension. Although higher current densities resulted in a more rapid flocculation of the microalgal suspension, power consumption, expressed per kg of microalgae harvested, and release of aluminum were lower when a lower current density was used. The aluminum content of the harvested microalgal biomass was less than 1% while the aluminum concentration in the process water was below 2 mg L⁻¹. Under optimal conditions, power consumption of the ECF process was around 2 kWh kg⁻¹ of microalgal biomass harvested for Chlorella vulgaris and ca. 0.3 kWh kg⁻¹ for Phaeodactylum tricornutum. Compared to centrifugation, ECF is thus more energy efficient. Because of the lower power consumption of ECF in seawater, ECF is a particularly attractive method for harvesting marine microalgae. Biotechnol. Bioeng. 2011;108: 2320–2329. © 2011 Wiley Periodicals, Inc.     

大麦与油菜种皮特异启动子表达模式的比较

启动子位于转录起始位点上游并能特异性地结合RNA聚合酶,其作为调控序列驱动外源基因在异源植物中表达,从而实现转基因的高效性,具有时空表达特异性的启动子对获得有效转基因植物及产物具有重要意义。为了解种皮特异启动子的表达模式,该研究基于前期报道的序列,通过同源克隆的方法分别从大麦和油菜中克隆获得Gerb和Bntt两个种皮特异性启动子,并对其进行生物信息学分析,构建了Gerb::GUS和Bntt::GUS植物表达载体并转化拟南芥,通过组织化学染色观察了GUS的表达情况。结果表明:两种启动子序列中都含有多拷贝种皮特异表达启动子元件以及多种胁迫诱导响应元件;转基因拟南芥幼苗期,大麦Gerb种皮特异启动子驱动GUS全株表达且子叶和下胚轴较真叶和根中表达量高;油菜Bntt种皮特异启动子表达较弱;成株期,Gerb在不同组织(叶片、茎、花序和角果)中均有表达,未显示组织特异性;Bntt仅在叶片及角果维管束中有微弱表达。在各种非生物胁迫下,Gerb表达模式未发生显著变化,而Bntt仅在盐胁迫下显示很强的角果和种子特异性表达,其他胁迫未见明显表达。以上结果显示,大麦种皮特异性启动子Gerb和油菜种皮特异性启动子Bntt在时间和空间表达模式上存在差异,这对今后选择种皮特异启动子具有参考作用,但其具体机制仍需进一步研究验证。     

Tris not only controls the pH in microalgal cultures,but also feeds bacteria

Tris (Tris(hydroxymethyl)amino methane), a compound often used as a buffer in microalgal culture media, sustains active bacterial growth in non-axenic microalgal cultures when sodium phosphate is present. The low pH levels caused by bacterial growth and probably the depletion of phosphorus in the medium caused the collapse ofPhaeodactylum tricornutum cultures resulting in a reduction of microalgal growth from 32 x 10⁶ to 1.1 x 10⁶ cells ml^–1. This emphasizes the need for care when interpreting the results of non-axenic microalgae cultures in which Tris or other organic buffer is added.     

Expression of a polyubiquitin promoter isolated from Gladiolus

A polyubiquitin promoter (GUBQ1) including its 5′UTR and intron was isolated from the floral monocot Gladiolus because high levels of expression could not be obtained using publicly available promoters isolated from either cereals or dicots. Sequencing of the promoter revealed highly conserved 5′ and 3′ intron splicing sites for the 1.234 kb intron. The coding sequence of the first two ubiquitin genes showed the highest homology (87 and 86%, respectively) to the ubiquitin genes of Nicotiana tabacum and Oryza sativa RUBQ2. Transient expression following gene gun bombardment showed that relative levels of GUS activity with the GUBQ1 promoter were comparable to the CaMV 35S promoter in gladiolus, tobacco, rose, rice, and the floral monocot freesia. The highest levels of GUS expression with GUBQ1 were attained with Gladiolus. The full-length GUBQ1 promoter including 5′UTR and intron were necessary for maximum GUS expression in Gladiolus. The relative GUS activity for the promoter only was 9%, and the activity for the promoter with 5′UTR and 399 bp of the full-length 1.234 kb intron was 41%. Arabidopsis plants transformed with uidA under GUBQ1 showed moderate GUS expression throughout young leaves and in the vasculature of older leaves. The highest levels of transient GUS expression in Gladiolus have been achieved using the GUBQ1 promoter. This promoter should be useful for genetic engineering of disease resistance in Gladiolus, rose, and freesia, where high levels of gene expression are important.     

The integrative expression of GUS gene driven by FCP promoter in the seaweed Laminaria japonica (Phaeophyta)

In this study, the background activity of β-glucuronidase (GUS) was analyzed histochemically and fluorometrically in the negative control of Laminaria japonica (Phaeophyta) thalli, showing low level of activity. GUS gene transformation without selectable gene in L. japonica was performed using four different promoters, i.e., Cauliflower mosaic virus 35S promoter (CaMV35S) from cauliflower mosaic virus, ubiquitin promoter (UBI) from maize, adenine-methyl transfer enzyme gene promoter (AMT) from virus in green alga Chlorella, and fucoxanthin chlorophyll a/c-binding protein gene promoter (FCP) from diatom Phaeodactylum tricornutum. The GUS transient activity was determined fluorometrically after bombarding sliced parthenogenetic sporophytes explants, and it was found that the activity resulting from CaMV35S and FCP promoters (in 114.3 and 80.6 pmol MU min⁻¹ (mg protein)⁻¹, respectively) was higher than for the other two promoters. The female gametophytes were bombarded and regenerated parthenogenetic sporophytes. FCP was the only promoter that resulted in detectable GUS chimeric expression activity during histochemical staining and polymerase chain reaction. Results of Southern blot showed that GUS gene was integrated with the L. japonica genome.     

Evaluation of seed storage-protein gene 5′ untranslated regions in enhancing gene expression in transgenic rice seed

5′ untranslated regions (UTRs) are important sequence elements that modulate the expression of genes. Using the β-glucuronidase (GUS) reporter gene driven by the GluC promoter for the rice-seed storage-protein glutelin, we evaluated the potential of the 5′-UTRs of six seed storage-protein genes in enhancing the expression levels of the foreign gene in stable transgenic rice lines. All of the 5′-UTRs significantly enhanced the expression level of the GluC promoter without altering its expression pattern. The 5′-UTRs of Glb-1 and GluA-1 increased the expression of GUS by about 3.36- and 3.11-fold, respectively. The two 5′-UTRs downstream of the Glb-1, OsAct2 and CMV35S promoters also increased GUS expression level in stable transgenic rice lines or in transient expression protoplasts. Therefore, the enhancements were independent of the promoter sequence. Real-time quantitative RT-PCR analysis showed that the increase in protein production was not accompanied by alteration in mRNA levels, which suggests that the enhancements were due to increasing the translational efficiencies of the mRNA. The 5′-UTRs of Glb-1 and GluA-1, when combined with strong promoters, might be ideal candidates for high production of recombinant proteins in rice seeds.     

Transient expression and insertional mutagenesis of Puccinia triticina using biolistics

The fungal genus Puccinia contains more than 4,000 species. Puccinia triticina, causal agent of wheat leaf rust, is an economically significant, biotrophic basidiomycete. Little is known about the molecular biology of this group, and tools for understanding gene function have not yet been established. A set of parameters was established for the transient transformation of urediniospores. The expression of three heterologous promoters (actin, elongation factor 1-α, and Hss1, Heat Shock 70 protein), derived from Puccinia graminis, was evaluated along with the potential for insertional mutagenesis. The UidA (GUS) gene was used as a marker for transient expression. When transferred into P. triticina urediniospores, transient expression was observed across four helium pressures using one size of gold and three sizes of tungsten microprojectiles. Each of the three promoters displayed strong transient expression in germinated urediniospores; however, higher numbers of GUS-positive urediniospores were observed when either the actin or Hss1 promoters were used. Possible concomitant insertional mutagenesis of several avirulence genes was selected in wheat cultivars harboring the cognate resistance genes. Using a linearized cloning plasmid, stable integration into the genome was achieved as demonstrated by PCR and sequencing analysis.     

Construction of Stress Responsive Synthetic Promoters and Analysis of Their Activity in Transgenic Arabidopsis thaliana

To obtain strong inducible promoters to drive abiotic stress-inducible transgene expression with minimal negative effects, we constructed three artificial synthetic promoters (EKCM, EKCRM, and ECCRM) comprising multiple cis-acting stress-response elements. Each promoter was fused independently to the β-glucuronidase (GUS) reporter gene, and GUS expression was analyzed in stable expression systems in Arabidopsis thaliana. T2 transgenic progenies showed integration of the promoter-GUS construct in their genome. RT-PCR assays and histochemical staining analysis showed that GUS expression driven by each promoter increased under desiccation, cold, and high salt conditions. The activity of synthetic promoters, assessed by fluorometric quantitative analysis of GUS enzyme activity, was significantly higher than that of the rd29A promoter under various stress treatments. The most powerful promoter, EKCM, allowed about 1.29-fold in GUS activity relative to the rd29A promoter, on average, under dehydration conditions. All three synthetic promoters could drive stress-inducible GUS expression in different organs of transgenic Arabidopsis. These synthetic promoters represent valuable tools for improving the stress tolerance of crops.     

Isolation and characterization of root-specific phosphate transporter promoters from Medicago trunatula

Promoters of phosphate transporter genes MtPT1 and MtPT2 of Medicago truncatula were isolated by utilizing the gene-space sequence information and by screening of a genomic library, respectively. Two reporter genes, beta-glucuronidase (GUS) and green fluorescent protein (GFP) were placed under the control of the MtPT1 and MtPT2 promoters. These chimeric transgenes were introduced into Arabidopsis thaliana and transgenic roots of M. truncatula, and expression patterns of the reporter genes were assayed in plants grown under different phosphate (Pi) concentrations. The expression of GUS and GFP was only observed in root tissues, and the levels of expression decreased with increasing concentrations of Pi. GUS activities in roots of transgenic plants decreased 10-fold when the plants were transferred from 10 microM to 2 mM Pi conditions, however, when the plants were transferred back to 10 microM Pi conditions, GUS expression reversed back to the original level. The two promoters lead to different expression patterns inside root tissues. The MtPT1 promoter leads to preferential expression in root epidermal and cortex cells, while MtPT2 promoter results in strong expression in the vascular cylinder in the center of roots. Promoter deletion analyses revealed possible sequences involved in root specificity and Pi responsiveness. The promoters are valuable tools for defined engineering of plants, particularly for root-specific expression of transgenes.