Molecular analysis of the acetolactate synthase gene of Chlamydomonas reinhardtii and development of a genetically engineered gene as a dominant selectable marker for genetic transformation

Genomic and cDNA clones of the acetolactate synthase (ALS) gene of Chlamydomonas reinhardtii have been isolated from a mutant, c85-20 (Hartnett et al., 1987), that is resistant to high concentrations of sulfometuron methyl (SMM) and related sulfonylurea herbicides. Comparison of the ALS gene sequences from the wild-type and the SMM resistant (SMMr) strains revealed two amino acid differences in the mature enzyme, a lysine to threonine change at position 257 (K257T) and a leucine to valine change at position 294 (L294V). Transformation of wild-type C. reinhardtii with the mutant ALS gene produced no transformants with ability to grow in the presence of a minimum toxic concentration of SMM (3 microm). Substitution of the ALS promoter with the promoter of the C. reinhardtii Rubisco small subunit gene (RbcS2) permitted recovery of SMMr colonies. In vitro mutagenesis of the wild-type ALS gene to produce various combinations of mutations (K257T, L294V and W580L) indicated that the K257T mutation was necessary and sufficient to confer the SMMr phenotype. Optimum transformation rates were obtained with two constructs (pJK7 and pRP-ALS) in which all introns in the coding region were present. Rates of transformation with construct pJK7 were approximately 2.5 x 10-4 transformants/cell (i.e. one transformant for each of 4000 initial cells) using electroporation and 8.5 x 10-6 transformants/cell using the glass bead vortexing method. These results suggest that pJK7 and pRP-ALS can serve as important additional dominant selectable markers for the genetic transformation of C. reinhardtii.     

Metabolic engineering of ketocarotenoids biosynthesis in the unicelullar microalga Chlamydomonas reinhardtii

Most higher plants and microalgae are not able to synthesize ketocarotenoids. In this study the unicellular chlorophyte Chlamydomonas reinhardtii has been genetically engineered with the beta-carotene ketolase cDNA from Haematococcus pluvialis, bkt1 (GeneBank accession no. X86782), involved in the synthesis of astaxanthin, to obtain a transgenic microalga able to synthesize ketocarotenoids. The expression of bkt1 was driven by the Chlamydomonas constitutive promoter of the rubisco small subunit (RbcS2) and the resulting protein was directed to the chloroplast by the Chlamydomonas transit peptide sequences of Rubisco small subunit (RbcS2) or Ferredoxin (Fd). In all transformants containing the bkt1 gene fused to the RbcS2 or the Fd transit peptides a new pigment with the typical ketocarotenoid spectrum was detected. Surprisingly this ketocarotenoid was not astaxanthin nor canthaxanthin. The ketocarotenoid was identified on the basis of its mass spectrum as 3,3'-dihydroxy-beta,varepsilon-carotene-4-one (4-keto-lutein) or its isomer ketozeaxanthin.     

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.     

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.     

Transformation of Chlamydomonas reinhardtii CW-15 with the hygromycin phosphotransferase gene as a selective marker

To transform Chlamydomonas reinhardtii Dang. Cells, plasmid pCTVHyg was constructed with the use of the Escherichia coli hygromycin phosphotransferase gene (hpt) controlled by the SV40 early promoter. Cells of the CW-15 mutant strain were transformed by electroporation, with the yield reaching 10(3) hygromycin-resistant (HygR) clones per 10(6) recipient cells. The exogenous DNA integrated in the Ch. reinhardtii nuclear genome showed stable transmission for approximately 350 cell generations, while hygromycin resistance was expressed as an unstable character. Codon usage was compared for the hpt gene and Ch. reinhardtii nuclear genes. The results testified that codon usage bias, which is characteristic of Ch. reinhardtii, is not the major factor affecting foreign gene expression. The advantages of the selective system for studying Ch. reinhardtii transformation with heterologous genes are discussed.     

The promoter–terminator of chrysanthemum<Emphasis Type="Italic"> rbcS1</Emphasis> directs very high expression levels in plants

Transgenic plants are increasingly used as production platforms for various proteins, yet protein expression levels in the range of the most abundant plant protein, ribulose-1,5-bisphosphate carboxylase have not yet been achieved by nuclear transformation. Suitable gene regulatory 5' and 3' elements are crucial to obtain adequate expression. In this study an abundantly transcribed member (rbcS1) of the ribulose-1,5-bisphosphate carboxylase small-subunit gene family of chrysanthemum (Chrysanthemum morifolium Ramat.) was cloned. The promoter of rbcS1 was found to be homologous to promoters of highly expressed rbcS gene members of the plant families Asteraceae, Fabaceae and Solanaceae. The regulatory 5' and 3' non-translated regions of rbcS1 were engineered to drive heterologous expression of various genes. In chrysanthemum, the homologous rbcS1 cassette resulted in a beta-glucuronidase (gusA) accumulation of, at maximum, 0.88% of total soluble protein (population mean 0.17%). In tobacco (Nicotiana tabacum L.), the gusA expression reached 10% of total soluble protein. The population mean of 2.7% was found to be 7- to 8-fold higher than for the commonly used cauliflower mosaic virus (CaMV) 35S promoter (population mean 0.34%). RbcS1-driven expression of sea anemone equistatin in potato (Solanum tuberosum L.), and potato cystatin in tomato (Lycopersicon esculentum Mill.) yielded maximum levels of 3-7% of total soluble protein. The results demonstrate, that the compact 2-kb rbcS1 expression cassette provides a novel nuclear transformation vector that generates plants with expression levels of up to 10% of total protein.     

Construction of modular tandem expression vectors for the green alga Chlamydomonas reinhardtii using the Cre/lox-system

The successful expression of foreign genes mainly depends on both a reliable method for transformation and a suitable promoter sequence. We created a series of modular plasmids that facilitate the rapid construction of large tandem vectors for transgene expression under the control of different promoter sequences in Chlamydomonas reinhardtii. Tandem vectors carrying expression cassettes for Renilla luciferase and a metabolic selection marker (ARG7) were manufactured by fusing two plasmids in vitro using Cre/lox site-specific recombination. Supercoiled and linear plasmids were used to transform an arginine auxotrophic Chlamydomonas strain, and rates of co-expression as well as levels of luciferase activity were monitored for frequently used promoters (HSP70A, LHCB1, PSAD, and the chimeric HSP70A/RBCS2). Linearized tandem vectors generally increased the co-expression frequency (up to 77%) compared with standard cotransformation protocols. Most transformants showed a single and complete integration event confirming the close linkage of active selectable marker and reporter gene within the nuclear genome. The analysis of luciferase activity showed expression levels within three orders of magnitude for the promoters used, with the artificial HSP70A/RRBCS2 being the most active. For 69% of all luminescent transformants carrying the HSP70A promoter luciferase expression was enhanced by heatshock, indicating physiological promoter function in a transgenic context.     

不同启动子调控外源基因在斑玉蕈中的表达分析

启动子是控制基因转录的重要顺式元件,也是遗传转化实验中驱动外源基因表达的重要工具。在同一真菌中,不同启动子驱动外源基因表达水平可能存在明显差异。因此,选择合适的启动子是提高外源基因表达水平的关键。本研究分别应用花椰菜病毒35S RNA（cauliflower mosaic virus 35S RNA,CaMV35S）和斑玉蕈甘油醛-3-磷酸脱氢酶（Hypsizygus marmoreus glyceraldehyde-3-phosphate dehydrogenase,HmGPD）基因的启动子构建了两个遗传转化质粒,在斑玉蕈中分别驱动外源的植物花青素合成基因表达,并利用来自刺芹侧耳的萎锈灵抗性基因进行转基因筛选。两个质粒通过农杆菌介导转化斑玉蕈单核菌株后,对具有萎锈灵抗性的转化子经PCR方法进行转基因验证,并运用实时荧光定量PCR对阳性转化子中外源基因的表达水平进行比较分析。结果表明,CaMV35S和HmGPD基因的启动子均成功驱动了植物花青素合成基因在斑玉蕈中转录,为增强基因表达而引入的内含子在转录过程中均被正确切割。其中,HmGPD启动子驱动外源基因表达水平比CaMV35S启动子驱动外源基因表达水平强22-36倍。     

Evolutionary rates and expression level in Chlamydomonas

In many biological systems, especially bacteria and unicellular eukaryotes, rates of synonymous and nonsynonymous nucleotide divergence are negatively correlated with the level of gene expression, a phenomenon that has been attributed to natural selection. Surprisingly, this relationship has not been examined in many important groups, including the unicellular model organism Chlamydomonas reinhardtii. Prior to this study, comparative data on protein-coding sequences from C. reinhardtii and its close noninterfertile relative C. incerta were very limited. We compiled and analyzed protein-coding sequences for 67 nuclear genes from these taxa; the sequences were mostly obtained from the C. reinhardtii EST database and our C. incerta EST data. Compositional and synonymous codon usage biases varied among genes within each species but were highly correlated between the orthologous genes of the two species. Relative rates of synonymous and nonsynonymous substitution across genes varied widely and showed a strong negative correlation with the level of gene expression estimated by the codon adaptation index. Our comparative analysis of substitution rates in introns of lowly and highly expressed genes suggests that natural selection has a larger contribution than mutation to the observed correlation between evolutionary rates and gene expression level in Chlamydomonas.     

Isolation and characterization of a complementary DNA clone for an algal pre-apoplastocyanin

We have isolated a cDNA clone for the Chlamydomonas reinhardtii pre-apoplastocyanin. The sequence contains codons for the complete pre-protein including a two-domain, lumen-targeting transit sequence and the mature apoprotein. The transit sequence (47 amino acids) is the shortest one described for chloroplast lumenal proteins, and like other C. reinhardtii lumen-targeting transit sequences appears to lack an uncharged amino-terminal domain usually present in plant lumen-directing sequences. The mature protein is deduced to be 98 amino acids in length and shows highest primary sequence similarity (74-76% identity) to other unicellular algal plastocyanins. Southern hybridization analysis of C. reinhardtii genomic DNA indicates the presence of a single nuclear gene, as is the case for all other plastocyanin genes characterized to date, although the algal gene might be interrupted. Codon usage in this gene reflects the high GC content of C. reinhardtii nuclear DNA, but is more highly biased than that found in the C. reinhardtii copper-repressible gene for the functionally equivalent pre-apocytochrome c552 (perhaps contributing to the more efficient synthesis in vivo of plastocyanin over cytochrome c552). The deduced physical properties of this plastocyanin are compared to those of the C. reinhardtii plastidic cytochrome c552.     

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.