Development of a luciferase reporter gene, luxCt, for Chlamydomonas reinhardtii chloroplast

Luciferase reporter genes have been successfully used in a variety of organisms to examine gene expression in living cells, but are yet to be successfully developed for use in chloroplast. Green fluorescent protein (gfp) has been used as a reporter of chloroplast gene expression, but because of high auto-fluorescence, very high levels of GFP accumulation are required for visualization in vivo. We have developed a luciferase reporter for chloroplast by synthesizing the two-subunit bacterial luciferase (lux)AB, as a single fusion protein in Chlamydomonas reinhardtii chloroplast codon bias. We expressed a chloroplast luciferase gene, luxCt, in C. reinhardtii chloroplasts under the control of the ATPase alpha subunit (atpA) or psbA promoter and 5' untranslated regions (UTRs) and the rubisco large subunit (rbcL) 3' UTR. We show that luxCt is a sensitive reporter of chloroplast gene expression, and that luciferase activity can be measured in vivo using a charge coupled device (CCD) camera or in vitro using a luminometer. We further demonstrate that luxCt protein accumulation, as measured by Western blot analysis, is proportional to luminescence, as determined both in vivo and in vitro, and that luxCt is capable of reporting changes in chloroplast gene expression during a dark to light shift. These data demonstrate the utility of the luxCt gene as a versatile and sensitive reporter of chloroplast gene expression in living cells.     

A new in vitro translation system for non-radioactive assay from tobacco chloroplasts: effect of pre-mRNA processing on translation in vitro

We previously developed an in vitro translation system derived from tobacco chloroplasts. Here, we report a significantly improved in vitro translation system. By modifying preparation procedures for chloroplast extracts and reaction conditions, we achieved 100-fold higher translation activity than the previous system. The new system does not require the supplement of Escherichia coli tRNAs due to the omission of micrococcal nuclease treatment, thus the tRNA population reflects the intrinsic tRNA population in tobacco chloroplasts. The rate of translation initiation from a variety of chloroplast mRNAs may be measured by monitoring the fluorescence intensity of synthesized green fluorescent protein, which is a non-radioactive detection method. Incorporation of an amino acid linked to a fluorescent dye also allows detection of the translation products in vitro. Using our new system, we found that mRNAs carrying unprocessed or processed atpH and rbcL 5'-UTRs were efficiently translated at similar rates, whereas translation of mRNAs with processed atpB and psbB 5'-UTRs was more efficient than those with unprocessed 5'-UTRs. These results suggest that the role of 5'-UTR processing in the regulation of chloroplast gene expression differs between mRNAs. The new in vitro translation system will be a powerful tool to investigate the mechanism of chloroplast mRNA translation.     

贵州喀斯特石漠化过程中的土壤有机碳与容重关系

测定了不同石漠化等级的西南喀斯特生态系统的土壤容重和土壤有机碳.结果表明:西南喀斯特生态系统的土壤容重为0.91～1.37 kg cm-3,土壤有机碳含量变化较大,为8.1～58.9 g kg-1.在0～40 cm的土层中,没有发生石漠化的生态系统的有机碳储量达16.91 kg m-2,伴随着石漠化程度的加剧,土壤有机...     

叶绿体转化三角褐指藻表达外源蛋白

为建立三角褐指藻(Phaeodacty lum tricornutum)叶绿体表达体系,从其叶绿体基因组中克隆了rnS-trnI、trnAml序列作为遗传转化同源重组序列,并以氯霉素抗性基因(CAT)表达盒作为筛选标记,以及绿色荧光蛋白基因(GFP)表达盒作为报告基因.以TA克隆载体pMD19-T为基础,将CAT表达盒...     

来源于Pyrococcus furiosus的耐高温α-淀粉酶基因在衣藻叶绿体中的表达

来源于Pyrococcusfuriosus的耐高温α-淀粉酶是一种重要的酒精工业用酶,在植物中表达耐高温α-淀粉酶可以大大降低用植物秸秆生产酒精的成本。选择衣藻叶绿体基因组同源片段clpP-trnL-petB-chlL-rpl23-rpl2和壮观霉素抗性基因,构建了来源于Pyrococcusfuriosus的耐高温α-淀粉酶基因的衣藻叶绿体表达载体p64A。通过基因枪将其导入衣藻叶绿体中,经壮观霉素抗性(100mg/L)筛选,获得了9个抗性衣藻转化子。转化子经过抗性继代筛选后,经PCR、Southernblot检测分析及暗培养,证实耐高温α-淀粉酶基因已整合到衣藻叶绿体基因组中并得到表达。酶活性检测表明,转基因衣藻表达产物具有耐高温α-淀粉酶活性,每克鲜重衣藻最高达77.5u。实验结果证明在植物叶绿体中表达工业酶制剂是可行的。     

Stable chloroplast transformation of immature scutella and inflorescences in wheat (Triticum aestivum L.)

Chloroplast transformation in wheat was achieved by bombardment of scutella from immature embryos and immature inflorescences, respectively. A wheat chloroplast site-specific expression vector, pBAGNRK, was constructed by placing an expression cassette containing neomycin phosphotransferase II (nptII) and green fluorescent protein (gfp) as selection and reporter genes, respectively, in the intergenic spacer between atpB and rbcL of wheat chloroplast genome. Integration of gfp gene in the plastome was identified by polymerase chain reaction (PCR) analysis and Southern blotting using gfp gene as a probe. Expression of GFP protein was examined by western blot. Three positive transformants were obtained and the Southern blot of partial fragment of atpB and rbcL (targeting site) probes verified that one of them was homoplasmic. Stable expression of GFP fluorescence was confirmed by confocal microscopy in the leaf tissues from T(1) progeny seedlings. PCR analysis of gfp gene also confirmed the inheritance of transgene in the T(1) progeny. These results strengthen the feasibility of wheat chloroplast transformation and also give a novel method for the introduction of important agronomic traits in wheat through chloroplast transformation.     

A synthetic gene coding for the green fluorescent protein (GFP) is a versatile reporter in Chlamydomonas reinhardtii†

The use of Chlamydomonas reinhardtii as a model system has been hindered by difficulties encountered in expressing foreign genes. We have synthesised a gene encoding green fluorescent protein (GFP) adapted to the codon usage of C. reinhardtii (cgfp). After verifying the gene was functional in Escherichia coli, the cgfp was fused in frame to the phleomycin resistance gene ble from Streptoalloteichus hindustanus and expressed in C. reinhardtii under control of the rbcS2 promoter and intron sequences. The GFP-fluorescence was seen only in the nucleus demonstrating the nuclear accumulation of the Ble-GFP fusion protein. The cgfp was also fused to the chlamyopsin gene, cop, and expressed in C. reinhardtii under control of the cop promoter. The eyespot became fluorescent indicating that the opsin-GFP fusion protein was correctly directed into the eyespot along with the endogenous unmodified opsin. We conclude that cgfp provides a useful tool to visualize protein synthesis and localisation in vivo in C. reinhardtii and possibly in related green algal species.     

Localization and function of SulP,a nuclear-encoded chloroplast sulfate permease in<Emphasis Type="Italic"> Chlamydomonas reinhardtii</Emphasis>

Recent work [H.-C. Chen et al. (2003) Planta 218:98-106] reported on the genomic, proteomic, phylogenetic and evolutionary aspects of a putative nuclear gene ( SulP) encoding a chloroplast sulfate permease in the model green alga Chlamydomonas reinhardtii. In this article, evidence is provided for the envelope localization of the SulP protein and its function in the uptake and assimilation of sulfate by the chloroplast. Localization of the SulP protein in the chloroplast envelope was concluded upon isolation of C. reinhardtii chloroplasts, followed by fractionation into envelope and thylakoid membranes and Western blotting of these fractions with specific polyclonal antibodies raised against the recombinant SulP protein. The function of the SulP protein was probed in antisense transformants of C. reinhardtii having lower expression levels of the SulP gene. Results showed that cellular sulfate uptake capacity was lowered as a consequence of attenuated SulP gene expression in the cell, directly affecting rates of de novo protein biosynthesis in the chloroplast. The antisense transformants exhibited phenotypes of sulfate-deprived cells, displaying slow rates of light-saturated oxygen evolution, low levels of Rubisco in the chloroplast and low steady-state levels of the photosystem-II D1 reaction-center protein. The role of the chloroplast sulfate transport in the uptake and assimilation of sulfate in C. reinhardtii is discussed along with its impact on the repair of photosystem-II from a frequently occurring photo-oxidative damage and potential use for the elucidation of the H(2)-evolution-related metabolism in this green alga.     

The microalga Chlamydomonas reinhardtii as a platform for the production of human protein therapeutics

Microalgae are a diverse group of eukaryotic photosynthetic microorganisms. While microalgae play a crucial role in global carbon fixation and oxygen evolution, these organisms have recently gained much attention for their potential role in biotechnological and industrial applications, such as the production of biofuels. We investigated the potential of the microalga Chlamydomonas reinhardtii to be a platform for the production of human therapeutic proteins. C. reinhardtii is a unicellular freshwater green alga that has served as a popular model alga for physiological, molecular, biochemical and genetic studies. As such, the molecular toolkit for this microorganism is highly developed, including well-established methods for genetic transformation and recombinant gene expression. We transformed the chloroplast genome of C. reinhardtii with seven unrelated genes encoding for current or potential human therapeutic proteins and found that four of these genes supported protein accumulation to levels that are sufficient for commercial production. Furthermore, the algal-produced proteins were bioactive. Thus, the microalga C. reinhardtii has the potential to be a robust platform for human therapeutic protein production.     

Recombination and Heterologous Expression of Aliophycocyanin Gene in the Chloroplast of Chlamydomonas reinhardtii

Heterogeneous expression of multiple genes in the nucleus of transgenic plants requires theintroduction of an individual gene and the subsequent backcross to reconstitute multi-subunit proteins ormetabolic pathways.In order to accomplish the expression of multiple genes in a single transformationevent,we inserted both large and small subunits of allophycocyanin gene (apcA and apcB) into Chlamydomonasreinhardtii chloroplast expression vector,resulting in papc-S.The constructed vector was then introducedinto the chloroplast of C.reinhardtii by micro-particle bombardment.Polymerase chain reaction and Southernblot analysis revealed that the two genes had integrated into the chloroplast genome.Western blot andenzyme-linked immunosorbent assay showed that the two genes from the prokaryotic cyanobacteria couldbe correctly expressed in the chloroplasts of C.reinhardtii.The expressed foreign protein in transformantsaccounted for about 2%-3% of total soluble proteins.These findings pave the way to the reconstitution ofmulti-subunit proteins or metabolic pathways in transgenic C.reinhardtii chloroplasts in a single transformationevent.     

Studies on Insect Resistance of Bt Transplastomic Plants and the Phenotype of Their Progenies

Insecticidal protein gene CrylA (c) from Bacillus thuringiensis (Bt toxin gene) was placed under the control of psbA5'- and 3'- regulatory regions of rice (Oryza sativa L. ) chloroplast to construct Bt expression cassette, which was ligated with selectable marker aadA cassette and homology regions of tobacco ( Nicotiana tabacum L. ) chloroplast genome to generate transformation vector pTRS8. Leaves of tobacco plant cv. NC89 were transformed with particle bombardment method, plastid transformants were selected by their resistance to 500 mg/L of spectinomycin. Some transplastomic plants were toxic to the third-instar larvae of Helicoverpa zea, and the growth of the survived insects was remarkably inhibited. Genetic and molecular analyses of T1 and T2 progenies of plants with highly efficient insect resistance showed that Bt toxin gene had been inherited in progenies, and spectinomycin resistance was inherited maternally.     

Recombination and heterologous expression of allophycocyanin gene in the chloroplast of Chlamydomonas reinhardtii

Heterogeneous expression of multiple genes in the nucleus of transgenic plants requires the introduction of an individual gene and the subsequent backcross to reconstitute multi-subunit proteins or metabolic pathways. In order to accomplish the expression of multiple genes in a single transformation event, we inserted both large and small subunits of allophycocyanin gene （apcA and apcB） into Chlamydomonas reinhardtii chloroplast expression vector, resulting in papc-S. The constructed vector was then introduced into the chloroplast of C. reinhardtii by micro-particle bombardment. Polymerase chain reaction and Southern blot analysis revealed that the two genes had integrated into the chloroplast genome. Western blot and enzyme-linked immunosorbent assay showed that the two genes from the prokaryotic cyanobacteria could be correctly expressed in the chloroplasts of C. reinhardtii. The expressed foreign protein in transformants accounted for about 2%-3% of total soluble proteins. These findings pave the way to the reconstitution of multi-subunit proteins or metabolic pathways in transgenic C. reinhardtii chloroplasts in a single transformation event.     

Sequences downstream of the translation initiation codon are important determinants of translation efficiency in chloroplasts

The objective of this study was to determine if mRNA sequences downstream of the translation initiation codon are important for translation of plastid mRNAs. We have employed a transgenic approach, measuring accumulation of the neomycin phosphotransferase (NPTII) reporter enzyme translationally fused with 14 N-terminal amino acids encoded in the rbcL or atpB plastid genes. NPTII accumulation from wild-type and mutant rbcL and atpB segments was compared. We report that silent mutations in the rbcL segment reduced NPTII accumulation 35-fold. In contrast, mutations in the atpB mRNA reduced NPTII accumulation only moderately from approximately 7% (w/w) to approximately 4% (w/w) of the total soluble cellular protein, indicating that the importance of sequences downstream of the translation initiation codon are dependent on the individual mRNA. Information provided here will facilitate transgene design for high-level expression of recombinant proteins in chloroplasts by translational fusion with the N-terminal segment of highly expressed plastid genes or by introduction of silent mutations in the N-terminal part of the coding region.