Cre-lox univector acceptor vectors for functional screening in protoplasts: analysis of <Emphasis Type="Italic">Arabidopsis</Emphasis> donor cDNAs encoding ABSCISIC ACID INSENSITIVE1-like protein phosphatases

The 14,200 available full length Arabidopsis thaliana cDNAs in the universal plasmid system (UPS) donor vector pUNI51 should be applied broadly and efficiently to leverage a “functional map-space” of homologous plant genes. We have engineered Cre-lox UPS host acceptor vectors (pCR701- 705) with N-terminal epitope tags in frame with the loxH site and downstream from the maize Ubiquitin promoter for use in transient protoplast expression assays and particle bombardment transformation of monocots. As an example of the utility of these vectors, we recombined them with several Arabidopsis cDNAs encoding Ser/Thr protein phosphatase type 2C (PP2Cs) known from genetic studies or predicted by hierarchical clustering meta-analysis to be involved in ABA and stress responses. Our functional results in Zea mays mesophyll protoplasts on ABA-inducible expression effects on the Late Embryogenesis Abundant promoter ProEm:GUS reporter were consistent with predictions and resulted in identification of novel activities of some PP2Cs. Deployment of these vectors can facilitate functional genomics and proteomics and identification of novel gene activities. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Structural feature of sorghum chloroplast psbA gene and regulation effects of its 5'-noncoding region*

Comparative analysis reveals remarkahle homology between the sequences of bothpsbA gene nucleotides and the inferred amino acids of sorghum, a C₄ plant, and those of rice, a C₃ plant. The 5′-noncoding region of sorghumpsbA gene contains the conservative promoter elements, “—35” element and “—10” element, like the prokaryote and the promoter element, TATA box, like the eukaryote. As compared with that of the rice, an extra sequence of 7 bp is found in the leader sequence of the mRNA in the former. Using anin vitro system, it has been demonstrated that protein factor exists in sorghum chloroplast protein extract which specifically hinds to the 5′-noncoding region ofpsbA gene. Measurement of the expression of luciferase shows a 2–5 time greater reaction of the expression plasmids pALqs which contain leader region of sorghumpsbA gene than that of the expression plasmids pALqr which contain leader region of ricepsbA gene inE. coli. Project supported by the Chinese National “863” and “973” Projects     

Development of a Gateway-compatible two-component expression vector system for plants

Genetic transformation of plants offers the possibility of functional characterization of individual genes and the improvement of plant traits. Development of novel transformation vectors is essential to improve plant genetic transformation technologies for various applications. Here, we present the development of a Gateway-compatible two-component expression vector system for Agrobacterium-mediated plant transformation. The expression system contains two independent plasmid vector sets, the activator vector and the reporter vector, based on the concept of the GAL4/UAS trans-activation system. The activator vector expresses a modified GAL4 protein (GAL4-VP16) under the control of specific promoter. The GAL4-VP16 protein targets the UAS in the reporter vector and subsequently activates reporter gene expression. Both the activator and reporter vectors contain the Gateway recombination cassette, which can be rapidly and efficiently replaced by any specific promoter and reporter gene of interest, to facilitate gene cloning procedures. The efficiency of the activator–reporter expression system has been assessed using agroinfiltration mediated transient expression assay in Nicotiana benthamiana and stable transgenic expression in Arabidopsis thaliana. The reporter genes were highly expressed with precise tissue-specific and subcellular localization. This Gateway-compatible two-component expression vector system will be a useful tool for advancing plant gene engineering.

     

Structural feature of sorghum chloroplastpsbA gene and regulation effects of its 5′-noncoding region

Comparative analysis reveals remarkahle homology between the sequences of bothpsbA gene nucleotides and the inferred amino acids of sorghum, a C₄ plant, and those of rice, a C₃ plant. The 5′-noncoding region of sorghumpsbA gene contains the conservative promoter elements, “—35” element and “—10” element, like the prokaryote and the promoter element, TATA box, like the eukaryote. As compared with that of the rice, an extra sequence of 7 bp is found in the leader sequence of the mRNA in the former. Using anin vitro system, it has been demonstrated that protein factor exists in sorghum chloroplast protein extract which specifically hinds to the 5′-noncoding region ofpsbA gene. Measurement of the expression of luciferase shows a 2–5 time greater reaction of the expression plasmids pALqs which contain leader region of sorghumpsbA gene than that of the expression plasmids pALqr which contain leader region of ricepsbA gene inE. coli.     

Construction of two Gateway vectors for gene expression in fungi

We report the construction of two Gateway fungal expression vectors pCBGW and pGWBF. The pCBGW was generated by introducing an expression cassette, which consists of a Gateway recombinant cassette (attR1-Cmr-ccdB-attR2) under the control of fungal promoter PgpdA and a terminator TtrpC, into the multiple cloning site of fungal vector pCB1004. The pGWBF is a binary vector, which was generated from the plant expression vector pGWB2 by replacing the CaMV35S promoter with PgpdA. The pGWBF can be transformed into fungi efficiently with Agrobacterium-mediated transformation. The applicability of two newly constructed vectors was tested by generating the destination vectors pGWBF-GFP and pCBGW-GFP and examining the expression of GFP gene in Trichoderma viride and Gibberella fujikuroi, respectively. Combining with the advantage of Gateway cloning technology, pCBGW and pGWBF will be useful in fungi for large-scale investigation of gene functions by constructing the interested gene destination/expression vectors in a high-throughput way.     

High efficiency plastid transformation in potato and regulation of transgene expression in leaves and tubers by alternative 5′ and 3′ regulatory sequences

Transformation of potato plastids is limited by low transformation frequencies and low transgene expression in tubers. In order to improve the transformation efficiency, we modified the regeneration procedure and prepared novel vectors containing potato flanking sequences for transgene integration by homologous recombination in the Large Single Copy region of the plastome. Vector delivery was performed by the biolistic approach. By using the improved regeneration procedure and the potato flanking sequences, we regenerated about one shoot every bombardment. This efficiency corresponds to 15–18-fold improvement compared to previous results with potato and is comparable to that usually achieved with tobacco. Further, we tested five promoters and terminators, and four 5′-UTRs, to increase the expression of the gfp transgene in tubers. In leaves, accumulation of GFP to about 4% of total soluble protein (TSP) was obtained with the strong promoter of the rrn operon, a synthetic rbcL-derived 5′-UTR and the bacterial rrnB terminator. GFP protein was detected in tubers of plants transformed with only four constructs out of eleven. Best results (up to approximately 0.02% TSP) were achieved with the rrn promoter and rbcL 5′-UTR construct, described above, and another containing the same terminator, but with the promoter and 5′-UTR from the plastid clpP gene. The results obtained suggest the potential use of clpP as source of novel regulatory sequences in constructs aiming to express transgenes in amyloplasts and other non-green plastids. Furthermore, they represent a significant advancement of the plastid transformation technology in potato, of relevance to its implementation in potato breeding and biotechnology.     

Extensive homologous recombination between introduced and native regulatory plastid DNA elements in transplastomic plants

Homologous recombination within plastids directs plastid genome transformation for foreign gene expression and study of plastid gene function. Though transgenes are generally efficiently targeted to their desired insertion site, unintended homologous recombination events have been observed during plastid transformation. To understand the nature and abundance of these recombination events, we analyzed transplastomic tobacco lines derived from three different plastid transformation vectors utilizing two different loci for foreign gene insertion. Two unintended recombinant plastid DNA species were formed from each regulatory plastid DNA element included in the transformation vector. Some of these recombinant DNA species accumulated to as much as 10–60% of the amount of the desired integrated transgenic sequence in T0 plants. Some of the recombinant DNA species undergo further, “secondary” recombination events, resulting in an even greater number of recombinant plastid DNA species. The abundance of novel recombinant DNA species was higher in T0 plants than in T1 progeny, indicating that the ancillary recombination events described here may have the greatest impact during selection and regeneration of transformants. A line of transplastomic tobacco was identified containing an antibiotic resistance gene unlinked from the intended transgene insertion as a result of an unintended recombination event, indicating that the homologous recombination events described here may hinder efficient recovery of plastid transformants containing the desired transgene. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Development of a pair of bifunctional expression vectors for <Emphasis Type="Italic">Escherichia coli</Emphasis> and <Emphasis Type="Italic">Bacillus licheniformis</Emphasis>

A pair of bifunctional expression vectors, pBL-WZX and pHY-WZX, for Escherichia coli and Bacillus licheniformis was constructed to express interesting genes in a secretory manner. The vectors contain an expression cassette consisted of the promoter and signal peptide region of B. licheniformis amyL as well as an artificial multiple cloning site and a terminator and utilize kanamycin-resistance and/or tetracycline-resistance for selection in both B. licheniformis and E. coli. Both vectors contain a part of 3′ terminal fragment of B. licheniformis amyL. The 5′-terminal or 3′-terminal fragment of B. licheniformis amyL can cause the integration and amplification of expression cassette in the chromosome of B. licheniformis under a kanamycin-selection pressure. pBL-WZX is an integrational vector while pHY-WZX is free one for B. licheniformis. Both vectors were succeeded in secretory expression of manL in both B. licheniformis and E. coli.     

Several cis-elements including a palindrome involved in pollen-specific activity of SBgLR promoter

SBgLR (Solanum tuberosum genomic lysine-rich) is a pollen-specific gene cloned from potato (Solanum tuberosum L.). The region from −269 to −9 (The A of translation start site “ATG” as +1) of the SBgLR promoter was identified as critical for gene specific expression in pollen grains. Sequence analysis indicates a palindromic sequence “TTTCTATTATAATAGAAA” in the −227 to −209 region, in which two pollen-specific motifs TTTCT and AGAAA surround a unique putative TATA box. Moreover, nine putative pollen-specific motifs are located in the region between the TATA box and ATG. We placed the −227 to −9 region (reserving the palindrome) and the −222 to −9 region (breaking the palindrome) downstream of the CaMV35S enhancer, respectively, to construct two fusion promoters. Histochemical assays in transgenic plants demonstrated that the region from −222 to −9 is necessary and sufficient for pollen-specific expression of the uidA gene. However, the region of −227 to −9 is incapable of driving GUS expression in pollen grains and parts of vegetative tissues. A series of 5′ deletions from −269 to −9 of SBgLR promoter were constructed. A transient expression assay indicated that the region from the −227 to −9 suppressed gfp gene expression in pollen, and a positive regulatory element was present in the region of −253 to −227. The function of the palindromic sequence as a repressor inhibiting gene expression in pollen was further confirmed by the mutated promoter, breaking the palindrome by substituting its 3′-flanking five base pairs, which resumes the reporter gene expression in mature pollen.     

pORE: a modular binary vector series suited for both monocot and dicot plant transformation

We present a series of 14 binary vectors suitable for Agrobacterium-mediated transformation of dicotyledonous plants and adaptable for biolistic transformation of monocotyledonous plants. The vector size has been minimized by eliminating all non-essential elements from the vector backbone and T-DNA regions while maintaining the ability to replicate independently. The smallest of the vector series is 6.3 kb and possesses an extensive multiple cloning site with 21 unique restriction endonuclease sites that are compatible with common cloning, protein expression, yeast two-hybrid and other binary vectors. The T-DNA region was engineered using a synthetic designer oligonucleotide resulting in an entirely modular system whereby any vector element can be independently exchanged. The high copy number ColE1 origin of replication has been included to enhance plasmid yield in Escherichia coli. FRT recombination sites flank the selectable marker cassette regions and allow for in planta excision by FLP recombinase. The pORE series consists of three basic types; an ‘open’ set for general plant transformation, a ‘reporter’ set for promoter analysis and an ‘expression’ set for constitutive expression of transgenes. The sets comprise various combinations of promoters (P _HPL, P _ENTCUP2 and P _TAPADH), selectable markers (nptII and pat) and reporter genes (gusA and smgfp).     

Plastid transformation in eggplant (<Emphasis Type="Italic">Solanum melongena</Emphasis> L.)

We have developed a method for plastid transformation in eggplant (Solanum melongena L.), a solanaceous plant species. Plastid transformation in eggplant was achieved by bombardment of green stem segments with pPRV111A plastid expression vector carrying the aadA gene encoding aminoglycoside 3′′-adenylyltransferase. Biolistic delivery of the pPRV111A plasmid yielded transplastomic plants at a frequency of two per 21 bombarded plates containing 25 stem explants each. Integration of the aadA gene in the plastome was verified by PCR analysis and also by Southern blotting using 16S rDNA (targeting sequence) and the aadA gene as a probe. Transplastomic expression of the aadA gene was verified by RT-PCR. The development of transplastomic technology in eggplant may open up exciting possibilities for novel gene introduction and expression in the engineered plastome for agronomic or pharmaceutical traits.     

A hybrid promoter-containing vector for direct cloning and enhanced expression of PCR-amplified ORFs in mammalian cells

An efficient vector, designated as pCAGX, was designed for direct cloning and enhanced expression of PCR-amplified ORFs in mammalian cells. It relied on the well-known TA-cloning principle, and utilized the CMV enhancer/chicken β-actin/rabbit β-globin (CAG) hybrid promoter instead of the classical CMV promoter to drive more efficient transgene expression in wider host cells. The specially designed cassette under CAG hybrid promoter contained two tandemly arrayed XcmI sites which were spaced by an additional EcoRV site. For direct cloning and expressing PCR-amplified ORFs, the T-vector was prepared by further digesting the EcoRV-linearized pCAGX with XcmI to produce T tails on both 3′-ends, which could efficiently minimize the non-recombinant background of T-vector and eliminate the necessity of selective marker genes such as LacZ that allowed blue/white screening. Various PCR fragments in length were prepared to verify the cloning efficiency by ligation with this vector, and GFP gene expression under control of the CAG hybrid promoter in different host cells was assayed by flow cytometry. The results indicated that this vector was higher efficient, especially suitable for cloning and expressing a number of interesting ORFs in parallel, and higher-level transgene expression in different mammalian cells was obtained than the reported vectors using the CMV promoter.     

Effect of an enhanced CaMV 35S promoter and a fruit-specific promoter on uida gene expression in transgenic tomato plants

Summary Two different promoters, a cauliflower mosaic virus (CaMV) 35S promoter with a 5′-untranslated leader sequence from alfalfa mosaic virus RNA4 (designated as CaMV 35S/AMV) and an E-8 fruit-ripening-specific promoter, were compared to evaluate their effects on expression of the uidA reporter gene in transgenic tomato plants. In order to generate sufficient numbers of transgenic tomato plants, both a reliable regeneration system and an efficient Agrobacterium transformation protocol were developed using 8-d-old cotyledons of tomato (Lycopersicon ecsulentum Mill. cv. Swifty Belle). Two sets of constructs, both derivatives of the binary vector pBI121, were used in transformation of tomato whereby the uidA gene was driven either by the CaMV 35S/AMV or the E-8 fruit-ripening-specific promoter. Southern blot hybridization confirmed the stable integration of the chimeric uidA gene into the tomato genome. Fruit and leaf tissues were collected from T₀ and T₁ plants, and assayed for β-glucuronidase (GUS) enzyme activity. As expected, both vegetative and fruit tissues of transgenic plants carrying the uidA gene under the control of CaMV 35S/AMV showed varying levels of GUS activity, while no expression was observed in vegetative tissues of transgenic plants carrying the uidA gene driven by the E-8 promoter. All fruits from transgenic plants produced with both sets of constructs displayed expression of the uidA gene. However, when this reporter gene was driven by the CaMV 35S/AMV, GUS activity levels were significantly higher than when it was driven by the E-8 fruit-specific promoter. The presence/absence of the uidA gene in T₁ plants segregated in a 3∶1 Mendelian ratio.     

三个方便实用的植物表达载体构建与验证

为满足植物功能基因组学研究及转基因安全性需要,本研究根据一些国内外引进或商业化的植物表达载体及其相关元件,构建了3个适合于植物,尤其是单子叶植物转化的表达载体,即p AH006、p WMB022和p WMB025。p AH006载体包含由玉米泛素ubi启动子调控的GUS基因和bar基因的完整T-DNA区域,此区段能够被酶切回收,可用于单子叶植物农杆菌介导转化效率评价及基因枪介导线状DNA转化效果研究;p WMB022载体携带由双35S启动子调控的玉米色素基因Lc和C1,可用作基因枪介导的共转化筛选标记,直观筛选含目标基因转基因材料;p WMB025载体携带由ubi启动子调控的、商业化转基因植物中广泛利用的EPSPS基因,可用于禾谷类作物农杆菌或基因枪介导的遗传转化,载体多克隆位点可通过酶切方式更换目标基因。酶切鉴定结合农杆菌或基因枪介导的小麦幼胚愈伤组织或叶片转化验证此3个载体表明,载体构建正确,其标记基因、可视化基因和报告基因均能正常表达。这3个载体的构建对于小麦等植物转化效率提升、安全型转基因作物获得和植物功能基因组学研究等具有重要意义。     

Expression Enhancement of a Rice Polyubiquitin Gene Promoter

An 808 bp promoter from a rice polyubiquitin gene, rubi3, has been isolated. The rubi3 gene contained an open reading frame of 1140 bp encoding a pentameric polyubiquitin arranged as five tandem, head-to-tail repeats of 76 aa. The 1140 bp 5′ UTR intron of the gene enhanced its promoter activity in transient expression assays by 20-fold. Translational fusion of the GUS reporter gene to the coding sequence of the ubiquitin monomer enhanced GUS enzyme activity in transient expression assays by 4.3-fold over the construct containing the original rubi3 promoter (including the 5′ UTR intron) construct. The enhancing effect residing in the ubiquitin monomer coding sequence has been narrowed down to the first 9 nt coding for the first three amino acid residues of the ubiquitin protein. Mutagenesis at the third nucleotide of this 9 nt sequence still maintains the enhancing effect, but leads to translation of the native GUS protein rather than a fusion protein. The resultant 5′ regulatory sequence, consisting of the rubi3 promoter, 5′ UTR exon and intron, and the mutated first 9 nt coding sequence, has an activity nearly 90-fold greater than the rubi3 promoter only (without the 5′ UTR intron), and 2.2-fold greater than the maize Ubi1 gene promoter (including its 5′ UTR intron). The newly created expression vector is expected to enhance transgene expression in monocot plants. Considering the high conservation of the polyubiquitin gene structure in higher plants, the observed enhancement in gene expression may apply to 5′ regulatory sequences of other plant polyubiquitin genes.     

Next generation synthetic vectors for transformation of the plastid genome of higher plants

Plastid transformation vectors are E. coli plasmids carrying a plastid marker gene for selection, adjacent cloning sites and flanking plastid DNA to target insertions in the plastid genome by homologous recombination. We report here on a family of next generation plastid vectors carrying synthetic DNA vector arms targeting insertions in the rbcL-accD intergenic region of the tobacco (Nicotiana tabacum) plastid genome. The pSS22 plasmid carries only synthetic vector arms from which the undesirable restriction sites have been removed by point mutations. The pSS24 vector carries a c-Myc tagged spectinomycin resistance (aadA) marker gene whereas in vector pSS30 aadA is flanked with loxP sequences for post-transformation marker excision. The synthetic vectors will enable direct manipulation of passenger genes in the transformation vector targeting insertions in the rbcL-accD intergenic region that contains many commonly used restriction sites. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

An Improved pPZP Vector for Agrobacterium-mediated Plant Transformation

We report a new and improved pPZP vector (pPZP3425) for efficient plant transformation. This vector is derived from the widely used pPZP100 series of binary Agrobacterium vectors. One disadvantage of these vectors is the use of chloramphenicol resistance for selection in Escherichia coli and Agrobacteria. We have therefore included a kanamycin resistance gene for selection in Agrobacterium. Furthermore, the strong 35S CaMV promoter driving the plant resistance gene has been replaced by the weaker nos promoter because it has been shown that the 35S promoter driving the plant resistance marker can lead to ectopic expression of the transgene. During replacement of the 35S promoter, the NcoI site within the plant resistance gene has been removed, and NcoI can now be used for cloning purposes within the expression cassette which consists of an intron-containing gus gene driven by a strong constitutive promoter (35S promoter with doubled enhancer plus omega-element as translational enhancer). Thus, a single vector can conveniently be used for two purposes: (1) for overexpression of proteins by replacing the gus gene by the coding sequence of choice and (2) for creation of promoter:gus fusions by substituting the constitutive promoter by any other promoter. We demonstrate the usefulness of this vector for cloning a promoter:gus fusion and in planta transformation of Arabidopsis.     

Conservation in wheat high-molecular-weight glutenin gene promoter sequences: comparisons among loci and among alleles of the GLU-B1-1 locus

 The high-molecular-weight glutenin (HMW) genes and encoded subunits are known to be critical for wheat quality characteristics and are among the best-studied cereal research subjects. Two lines of experiments were undertaken to further understand the structure and high expression levels of the HMW-glutenin gene promoters. Cross hybridizations of clones of the paralogous x-type and y-type HMW-glutenin genes to a complete set of six genes from a single cultivar showed that each type hybridizes best within that type. The extent of hybridization was relatively restricted to the coding and immediate flanking DNA sequences. Additional DNA sequences were determined for four published members of the HMW-glutenin gene family (encoding subunits Ax2^*, Bx7, Dx5, and Dy10) and showed that the flanking DNA of the examined genes diverge at approximately −1200 bp 5′ to the start codon and 200–400 bp 3′ to the stop codon. These divergence sites may indicate the boundaries of sequences important in gene expression. In addition, promoter sequences were determined for alleles of the Bx gene (Glu-B1-1), a gene reported to show higher levels of expression than other HMW-glutenin genes and with variation among cultivars. The sequences of Bx promoters from three cultivars and one wild tetraploid wheat indicated that all Bx alleles had few differences and contained a duplicated portion of the promoter sequence “cereal-box” previously suspected as a factor in higher levels of expression. Thus, the “cereal-box” duplication preceeded the origin of hexaploid wheat, and provides no evidence to explain the variations in Bx subunit synthesis levels. One active Bx allele contained a 185-bp insertion that evidently resulted from a transposition event. Received: 5 August 1997 / Accepted: 6 November 1997