A novel dicistronic AAV vector using a short IRES segment derived from hepatitis C virus genome

Adeno-associated virus (AAV) vectors have a limited capacity for packaging DNA. To insert both a therapeutic gene and a selectable marker gene in the same AAV vector efficiently, we developed a novel dicistronic AAV vector containing a 230 base pairs (bp) internal ribosome entry site (IRES) element derived from hepatitis C virus (HCV) genome and a 420 bp blasticidin S-resistance gene (bsr) as a small selectable marker in the second cistron. The 650 bp HCV IRES-bsr construct was placed downstream of the 3′ end of the luciferase gene (Luc) under the control of the human cytomegalovirus (CMV) promoter. This dicistronic gene conferred blasticidin S-resistance to 293 cells besides luciferase activity, when examined not only by transfection but also by transduction using AAV vectors. The dicistronic AAV vector harbouring HCV IRES-bsr is capable of expressing a therapeutic gene of up to 3.6 kilobases (kb) (including promoter/enhancer elements) as well as a selectable marker gene. If a selectable marker gene is not necessary, this vector is able to incorporate two different kinds of therapeutic genes more easily than that containing EMCV IRES. The dicistronic AAV vector described here is useful for expressing many kinds of cDNA besides a selectable marker.     

Stable expression of insect GABA receptors in insect cell lines promoters for efficient expression of Drosophila and mosquito Rdl GABA receptors in stably transformed mosquito cell lines

We are interested in establishing stably transformed insect cell lines efficiently expressing the insect γ-aminobutyric acid (GABA) receptor subunit gene Resistance to dieldrin or Rdl. In order to facilitate this we utilized a system based on stable transformation of Aedes albopictus mosquito cell lines using the dihydrofolate reductase (dhfr) gene as a selectable marker. Here we report the production of stable mosquito cell lines carrying high copy numbers of Rdl genes from both Drosophila and Aedes aegypti mosquitoes and the subsequent high efficiency expression of functional GABA gated chloride ion channels. We also used this system to compare the activity of a range of immediate early baculovirus promoters in mosquito cell culture and demonstrate that IE1 promoter constructs work efficiently across insect species. Results are discussed in relation to the potential use of these constructs in the genetic transformation of non-Drosophilid insects.     

The mosquito dihydrofolate reductase gene functions as a dominant selectable marker in transfected cells

An Aedes albopictus dihydrofolate reductase gene was used to construct two chimeric DNA vectors that functioned as dominant selectable markers in transfected, wild type mosquito cells. Stably transformed clones were recovered after 10–15 days in the presence of selective medium containing 1 μM methotrexate. The transformed clones contained an estimated 100–500 copies of transfected DNA per nucleus. Combined data from Southern blots and in situ hybridization to metaphase chromosomes indicated that transfected DNA was likely integrated into chromosomes both as repeated structures and as randomly integrated single copy molecules, with minimal rearrangement of coding sequences. Transfected DNA was stably maintained under selective conditions, but in some cases was lost when cells were maintained for prolonged periods in the absence of methotrexate. These observations provide a general framework for further development of stable gene transfer systems for mosquito cells in culture.     

稀有鮈鲫HSP70基因启动子的克隆及功能分析

热休克蛋白70(HSP70)作为一种分子伴侣,在环境毒理学中受到广泛研究。前期研究表明稀有鮈鲫HSP70基因(GrHSP70)表达量与五氯酚(pentachlorophenol, PCP)处理的浓度和时间在肝脏中呈现剂量/时间-依赖效应。为探究启动子在热休克蛋白70表达调控中的作用,根据已知的GrHSP70 cDNA序列,采用染色体步移技术克隆了GrHSP70的5'侧翼区的核苷酸序列。生物信息学分析从预测的转录起始位点(C)起的5'侧翼区域共1 487bp,潜在的转录因子结合位点包括雌激素响应元件(ERE)、Sp1结合位点(Sp1)、糖皮质激素响应元件(GRE)、TATA结合蛋白(TBP)、CCAAT/增强子蛋白结合位点(C/EBP)、Oct-1结合位点(Oct-1)、GATA转录因子结合位点(GATA-1)等。实验构建了含有启动子缺失片段的萤火虫萤光素酶(firefly luciferase)和海肾萤光素酶(renilla luciferase)报告基因表达载体,瞬时转染HeLa细胞后,利用双荧光活性检测确定获得的GrHSP70启动子具有启动活性,其核心启动位点位于转录起始点上游-1 487~-1 093bp。同时,用不同浓度PCP暴露成功转染了重组质粒(pGL-HSP70 promoter-Luc+)的HeLa细胞,培养24h后检测双荧光活性,与对照相比,随PCP浓度的增加,荧光活性均显著增加。说明在稀有鮈鲫肝脏中PCP会通过激活GrHSP70启动子来诱导GrHSP70表达,但PCP在稀有鮈鲫体内通过何种机制来调节HSP70的合成,仍然需要进一步研究。     

Marker Gene Controversy in Transgenic Plants

Biosafety implications of selectable marker genes that are integrated into the transgenic plants are discussed. In the laboratory, selectable marker genes are used at two stages to distinguish transformed cells out of a large population of nontransformed cells: 1) initial assembly of gene cassettes is generally done in E. coli on easily manipulatable plasmid vectors that contain the selectable marker genes which often code for antibiotic inactivating enzymes, and 2) Then the gene cassettes are inserted into the plant genome by various transformation methods. For selection of transformed plant cells, antibiotic and herbicide resistance genes are widely used. Consequently, transgenic plants can end up with DNA sequences of selectable markers that are functional in E. coli and plants. The potential for horizontal gene transfer of selectable markers from transgenic plants to other organisms both in the environment and in the intestine of humans and animals is evaluated. Mechanisms and consequences of the transfer of marker genes from plants to other organisms is examined. Strategies to avoid marker genes in plants are discussed. It is possible to avoid the use of controversial selectable markers in the construction of transgenic plants.     

基于转录组分析高温抑制广东虫草原基形成的调控网络

在大型真菌原基形成和子实体发育的过程中,温度是一个极其关键的因素,高温显著影响多种食用菌原基的形成和子实体的品质。广东虫草是中国华南地区特有的虫草类新食品原料,其子实体富含多种活性成分和营养成分,且能够进行较大规模人工栽培。然而,温度对广东虫草原基形成的影响及调控机制尚不清楚。本研究通过不同温度处理不同时间段,发现29℃处理3d抑制了广东虫草原基的形成;对29℃处理3d处理前后的菌丝阶段（CK）和原基阶段（CK-P和HT-P）样品进行转录组测序分析,高温处理后原基阶段的两个组中发现1 682个差异表达基因,其中1 015个上调表达和667个下调表达。在碳水化合物代谢途径中,多个糖酵解和三羧酸循环及葡聚糖和海藻糖合成相关基因在高温处理后呈现下调表达;在原基样品中,多个热激蛋白基因（Hsp10、Hsp23、DnaJ、Hsp70、Hsp90和Hsp98）和转录因子C2H2转录水平显著上调表达。本研究结果基于分子水平揭示了高温影响原基形成过程中能量代谢和相关基因的差异表达,为后续利用广东虫草抗逆相关基因资源培育新品种奠定了重要的基础。     

Alternative selectable markers for potato transformation using minimal T-DNA vectors

Alternative selection systems for plant transformation are especially valuable in clonal crops, such as potato (Solanum tuberosum L.), to pyramid transgenes into the same cultivar by successive transformation events. We have modified the pGPTV series of binary vectors to construct pMOA1 to pMOA5, resulting in a series of essentially identical binary vectors except for the presence of different selectable marker genes. These selectable marker genes are tightly inserted between the left and right T-DNA borders and confer resistance to kanamycin (nptII), hygromycin (hpt), methotrexate (dhfr), phosphinothricin (bar), or phleomycin (ble). The T-DNA of all the vectors is based on the minimal features necessary for plant transformation, with no extraneous DNA segments that may be unacceptable to regulatory authorities for general release of transgenic plants. A series of unique restriction sites exists between the right border and each selectable marker gene for subsequent insertion of useful genes. We have also developed improved culture procedures for potato transformation and used the pMOA1 to pMOA5 binary vectors to define stringent selection conditions for each marker gene. Combining these advances improved the frequency of recovering transformed potato plants while maintaining a low frequency of escapes. The relative efficiency of recovering transgenic potato lines with each selectable marker gene can be summarised as: kanamycin resistance>hygromycin resistance>phosphinothricin resistance>phleomycin resistance>methotrexate resistance.     

Variables Controlling the Expression Level of Exogenous Genes in Dictyostelium

Ectopic expression of genes from recombinant plasmids is commonly used to study gene function. In Dictyostelium, three drug resistance cassettes are commonly used as selectable markers in vectors. We report here a comparative study of the expression of green fluorescent protein (GFP) gene from vectors containing each of the drug-resistant cassettes. The expression was highest in cells transformed with the vectors containing the neomycin-resistant cassette (pDNeoGFP), followed by the hygromycin-resistant cassette (pDHygGFP) and the blasticidin-resistant cassette (pDBsrGFP). The level of GFP expression was directly related to the copy number of the vector in transformants. In turn, the copy number of the vector depended on the drug resistance cassette as well as the concentration of the drug used in selection. In general, cells with higher copy numbers could be selected by a higher drug concentration. The expression of GFP was also affected by the method of transformation. For pDHygGFP, expression of GFP was much higher in cells transformed by electroporation than those transformed by calcium phosphate coprecipitation. However, only a slight difference was observed for pDNeoGFP or pDBsrGFP.     

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.     

Isolation of a functional copy of the human BRCA1 gene by transformation-associated recombination in yeast

The BRCA1 gene, mutations of which contribute significantly to hereditary breast cancer, was not identified in the existing YAC and BAC libraries. The gene is now available only as a set of overlapping fragments that form a contig. In this work we describe direct isolation of a genomic copy of BRCA1 from human DNA by transformation-associated recombination (TAR) cloning. Despite the presence of multiple repeats, most of the primary BRCA1 YAC isolates did not contain detectable deletions and could be stably propagated in a host strain with conditional RAD52. Similar to other circular YACs, 90 kb BRCA1 YACs were efficiently and accurately retrofitted into bacterial artificial chromosomes (BACs) with the Neo^R mammalian selectable marker and transferred as circular BAC/YACs in E. coli cells. The BRCA1 BAC/YAC DNAs were isolated from bacterial cells and were used to transfect mouse cells using the Neo^R gene as selectable marker. Western blot analysis of transfectants showed that BRCA1 YACs isolated by a TAR cloning contained a functional gene. The advantage of this expression vector is that the expression of BRCA1 is generated from its own regulatory elements and does not require additional promoter elements that may result in overexpression of the protein. In contrast to the results with cDNA expression vectors, the level of BRCA1 expression from this TAR vector is stable, does not induce cell death, maintains serum regulation, and approximates the level of endogenously expressed BRCA1 in human cells. The entire isolation procedure of BRCA1 described in this paper can be accomplished in approximately 10 days and can be applied to isolation of gene from clinical material. We propose that the opportunity to directly isolate normal and mutant forms of BRCA1 will greatly facilitate analysis of the gene and its contribution to breast cancer.     

Chromosomal localization of foreign genes in Petunia hybrida

Summary A F1 hybrid of Petunia hybrida, heterozygous for at least one marker on each of the seven chromosomes, was transformed with a modified strain of Agrobacterium tumefaciens in which the phytohormone biosynthetic genes in the transferred DNA (T-DNA) were replaced with a NOS/NPTII/NOS chimeric gene and a wildtype nopaline synthase (NOS) gene. The chimeric gene, which confers kanamycin resistance, was used as selectable marker during the transformation process and the NOS gene was used as a scorable marker in the genetic studies. After plants had been regenerated from the transformed tissues, the transgenic plants that expressed both of these markers were backcrossed to the parental lines. The offspring were examined for the segregation of the NOS gene and the Petunia markers. Genetic mapping was thus accomplished in a single generation.By Southern hybridization analysis we confirmed the presence of the expected T-DNA fragments in the transformed plants. Four out of the six plants presented here, had just one monomeric T-DNA insertion. The sizes of the plant/T-DNA junction fragments suggest that the integration occurred in different sites of the Petunia genome. One transformant gave a more complicated hybridization pattern and possibly has two T-DNA inserts. Another transgenic plant was earlier reported (Fraley et al. 1985) to have two, possibly tandemly repeated T-DNAs.Data is presented on the genetic localization of the T-DNA inserts in six independently obtained transgenic plants. The T-DNA inserts in three plants were mapped to chromosome I. However, the distances between the NOS gene and the marker gene on this chromosome were significantly different. In another transgenic plant the NOS gene was coinherited with the marker on chromosome IV. Two other transgenic plants have the T-DNA insert on chromosome III. A three point cross enabled us to determine that both plants have the NOS gene distally located from the peroxidaseA (prxA) marker and both plants showed about 18% recombination. However, Southern hybridization analysis shows that the sizes of the plant/T-DNA junction fragments in these transgenic plants are different, thus suggesting that the integrations occurred in different sites.     

Positive-negative selection and T-DNA stability in Arabidopsis transformation

We have analysed the application of positive-negative selection for the selection of homologous recombination interactions between the chromosome and a T-DNA molecule after transformation of plant cells. Two different genomic loci in a cell suspension of Arabidopsis thaliana were chosen to study gene targeting events. One was the chalcone synthase (CHS) gene present as a single copy and the second an hemizygous chromosomally inserted T-DNA containing the hpt gene, conferring resistance to hygromycin, flanked by CHS sequences. The target lines were transformed with replacement-type T-DNA vectors which contained a positive selectable marker flanked by the regions of the CHS gene and a negative selectable marker to counter-select random insertions. As negative marker we used the Escherichia coli codA gene encoding cytosine deaminase, conferring upon the cells sensitivity to 5-flourocytosine (5-FC). Doubly selected transformants represent 1–4% of the primary transformed cells. Targeting events were not found at the chalcone synthase locus nor at the artificial hpt locus in a total of 4379 doubly selected calli, corresponding to at least 109475 individual primary transformants. We show by PCR and Southern analysis that the 5-FC resistance in the majority of these cells is associated with substantial deletions of the T-DNA molecule from the right-border end.     

Expression of a foreign eukaryotic gene in Saccharomyces cerevisiae: beta-galactosidase from Kluyveromyces lactis

Three recombinant DNA vectors carrying the β-galactosidase structural gene, LAC4, from the yeast Kluyveromyces lactis were constructed and transformed into Saccharomyces cerevisiae. All transformants expressed the β-galactosidase activity of LAC4. However, the level of enzyme activity varied, being highest in cells transformed with vectors which are maintained as multicopy plasmids and lowest in cells transformed with a vector which integrates into chromosomes. Enzyme levels probably reflect gene dosage. LAC4 is very stable when integrated into a chromosome, but unstable when carried on a plasmid. Therefore, stability is a property of the recombinant vector rather than of LAC4, LAC4-coded β-galactosidase synthesized in either S. cerevisiae or in K. lactis is the same as judged by two-dimensional polyacrylamide gel electrophoresis. However, S. cerevisiae transformed with     

Transposon-mediated generation of targeting vectors for the production of gene knockouts

Vectors used for gene targeting experiments usually consist of a selectable marker flanked by two regions of homology to the targeted gene. In a homologous recombination event, the selectable marker replaces an essential element of the target gene rendering it inactive. Other applications of gene targeting technology include gene replacement (knockins) and conditional vectors which allow for the generation of inducible or tissue-specific gene-targeting events. The assembly of gene-targeting vectors is generally a laborious process requiring considerable technical skill. The procedures presented here report the application of transposons as tools for the construction of targeting vectors. Two mini-Mu transposons were sequentially inserted by in vitro transposition at each side of the region targeted for deletion. One such transposon carries an antibiotic resistance marker suitable for selection in mammalian cells. A deletion is then generated between the two transposons either by LoxP-induced recombination or by restriction digestion followed by ligation. This deletion removes part of both transposons plus the targeted region in between, leaving a transposon carrying the selectable marker flanked by two arms which are homologous to the targeted gene. Targeting vectors constructed using these transposons were electroporated into embryonic stem cells and shown to be effective in gene-targeting events.     

Cloning of the blasticidin S deaminase gene (BSD) from Aspergillus terreus and its use as a selectable marker for Schizosaccharomyces pombe and Pyricularia oryzae

Aspergillus terreus produces a unique enzyme, blasticidin S deaminase, which catalyzes the deamination of blasticidin S (BS), and in consequence confers high resistance to the antibiotic. A cDNA clone derived from the structural gene for BS deaminase (BSD) was isolated by transforming Escherichia coli with an Aspergillus cDNA expression library and directly selecting for the ability to grow in the presence of the antibiotic. The complete nucleotide sequene of BSD was determined and proved to contain an open reading frame of 393 bp, encoding a polypeptide of 130 amino acids. Comparison of its nulceotide sequence with that of bsr, the BS deaminase gene isolated from Bacillus cereus, indicated no homology and a large difference in codon usage. The activity of BSD expressed in E. coli was easily quantified by an assay based on spectrophotometric recording. The BSD gene was placed in a shuttle vector for Schizosaccharomyces pombe, downstream of the SV40 early region promoter, and this allowed direct selection with BS at high frequency, following transformation into the yeast. The BSD gene was also employed as a selectable marker for Pyricularia oryzae, which could not be transformed to BS resistance by bsr. These results promise that the BSD gene will be useful as a new dominant selectable marker for eukaryotes.     

Generation and effective enrichment of selectable human cytomegalovirus mutants using site-directed insertion of the neo gene

Studies on the biology and function of human cytomegalovirus (HCMV) genes have been hampered by the limited number of viral mutants available for genetic analyses. We have developed a simple procedure to generate and enrich for HCMV recombinants. By inserting the bacterial neo gene, encoding neomycin/kanamycin phosphotransferase, into the large HCMV DNA genome using homologous recombination, selectable mutants of this complex herpesvirus were isolated for the first time. The synthesis of Neo from the viral genome was used to effectively enrich for recombinant viruses (re-viruses) in permissive culture cells grown in the presence of Geneticin (G418). A quick assay for Neo activity in infected cells, based on phosphorylation of kanamycin (Km), was used to easily identify viral recombinants in the process of screening and isolation. This procedure, not used previously to identify re-viruses, proved to be very useful for screening of large numbers of HCMV recombinants. Analysis of re-virus by Southern blotting revealed that the insertion of the marker gene had resulted in the expected deletion of the open reading frames, TRL 13/14 and UL 1–5, of HCMV. Re-virus was stable and showed no differences in growth kinetics as compared to wild-type (wt) virus. The insertion of a selectable marker gene into the HCMV genome and identification of viral recombinants by the Km phosphorylation assay, as presented here, provides the rationale for effective generation, enrichment and stable propagation of HCMV mutants.