Bidirectionalization of a methyl jasmonate-inducible plant promoter

A unidirectional promoter can be transformed into a bidirectional module by artificial methods. Here we report the bidirectionalization of the methyl jasmonate (MeJA)-inducible PtDrl02 promoter derived from poplar [(Populus tomentosa × P. bolleana) × P. tomentosa] in planta. Construction of the bidirectional PtDrl02 promoter (designated as mPtDrl02) was rapidly achieved by introducing a minimal 35S promoter in the opposite orientation to the 5' end of PtDrl02. β-Glucuronidase (GUS) and green fluorescent protein (GFP) reporter genes were also interchangeably linked to the 3'-and 5'-ends of mPtDrl02 to produce GFP/mPtDrl02/GUS and GUS/mPtDrl02/GFP vectors, respectively. Using the Agrobacterium-mediated transient expression approach, we demonstrated that the mPtDrl02 module was able to drive gene (GUS and GFP) expression in both orientations simultaneously. Furthermore, the cooperative and concurrent activity from both directions of the mPtDrl02 module was demonstrated following MeJA induction. To our knowledge, this is the first report of an artificial MeJA-responsive bidirectional promoter in perennial plants.     

Reduced protease activity in transformed rice cell suspension cultures expressing a proteinase inhibitor

In this study, we synthesized a synthetic serine proteinase inhibitor II gene (sPI-II) that harbored the chymotrypsin and trypsin inhibitor domains of the PI-II gene from Nicotiana alata. In an effort to reduce protease activity in a rice cell suspension culture, we first synthesized sPI-II using overlap PCR and then introduced the gene into a rice calli (Oryza sativa L. cv. Dongin) by particle bombardment-mediated transformation. The sPI-II gene was under the control of a rice alpha-amylase 3D promoter induced by sugar starvation. To verify the integration and expression of the sPI-II gene in the transformed rice cells, we employed genomic DNA PCR amplification and Northern blot analysis, respectively. The relative protease activity of the transformed cell suspension culture was reduced to approximately 23% when compared to the non-transformed culture. This indicates that a transformed suspension culture system expressing a proteinase inhibitor, may be a useful tool to protect against recombinant protein losses resulting from extracellular proteases.     

Zinc finger nuclease-mediated transgene deletion

A transgene, flanked by zinc finger nuclease (ZFN) cleavage sites, was deleted from a stably transformed plant by crossing it with a second plant expressing a corresponding ZFN gene. A target construct, containing a GUS reporter gene flanked by ZFN cleavage sites, a GFP reporter gene and a PAT selectable marker gene, was transformed into tobacco. Basta^®-resistant plants were regenerated and screened for GUS and GFP expression. A second construct, containing a ZFN gene driven by the constitutive CsVMV promoter and an HPT selectable marker gene, was also transformed into tobacco. Selected T₀ plants were grown to maturity and allowed to self-pollinate. Homozygous target plants, which expressed GUS and GFP, were crossed with homozygous ZFN plants, which expressed the ZFN gene. Numerous GUS-negative plants were observed among the hybrids with one particular cross displaying ~35% GUS-negative plants. Evidence for complete deletion of a 4.3 kb sequence comprising the GUS gene was obtained and sequence confirmed. Co-segregation in F₂ progenies of ‘truncated’ and ‘intact’ target sequences with expected reporter gene phenotypes were observed. Since ZFNs can be designed to bind and cleave a wide range of DNA sequences, these results constitute a general strategy for creating targeted gene deletions.     

水稻 ADP-葡萄糖焦磷酸化酶小亚基 I 基因的启动子分析

水稻（Oryce sativa L．）基因组中的ADP-葡萄糖焦磷酸化酶小亚基（ADP-Glucose pyrophosphorylase small subunit,OsAgpS）由两个基因编码,即OsAgpSl和OsAgpS2。其中OsAgpSl基因产生两个转录本OsAgpSla和OsAgpSlb,区别在第一个外显子的位置不同。通过RT—PCR方法分析了两个转录本在水稻组织和胚乳不同发育时期的表达特性;同时通过报告基因GUS检测了两个转录本上游转录调节区DNA片段的转录启动特性。结果表明,两个启动子与其下游转录本的表达模式完全一致,即OsAgpSla转录本和OsAgpSla上游启动子控制的GUS基因主要在胚乳中高水平表达,在叶片中有很低水平的表达;而OsAgpSlb转录本和OsAgpSlb上游启动子控制的GUS基因主要在叶片和胚乳发育早期低水平表达。这说明OsAgpSl基因产生的两个转录本是由不同的启动子控制转录的,OsAgpSla上游启动子可以作为胚乳表达用启动子。     

Expression of the peroxidase gene promoter (Shpx6b) from Stylosanthes humilis in transgenic plants during insect attack

Inducible promoters are important in regulating the expression of resistance genes when plants are attacked by insects or pathogens. Evaluation of the Shpx6b peroxidase promoter from the tropical forage legume Stylosanthes humilis[ Curtis MD, Rae AL, Rusu AG, Harrison SJ & Manners JM (1997) A peroxidase gene promoter induced by phytopathogens and methyl jasmonates in transgenic plants. Molecular Plant Microbial Interactions 10: 326–338] in transgenic tobacco plants Nicotiana tabacum L. (Solanaceae) demonstrated that this promoter could drive expression of both the β‐glucuronidase (GUS uidA gene of E. coli) and green fluorescent protein (GFP) reporter genes in leaf tissues during attack by chewing insects – larvae of potato tuber moth (PTM) Phthorimaea operculella Zeller (Lepidoptera: Gelechiidae) and sucking insects – green peach aphids Myzus persicae Sulzer (Homoptera: Aphididae). Strong GUS expression was present in tissues next to cells damaged by PTM larvae 24 h after infestation. With aphid infestation, GUS expression was limited to sites of feeding, and was observed 48 h after infestation. The expression of GFP mirrored that of GUS expression for both treatments, but was normally detected 48 h after infestation. Similarly, the exogenous application of methyl jasmonate (MeJa) induced GUS uniformly across leaf tissue, and mechanical wounding activated GUS expression at wound sites, similar to PTM larvae. GFP expression was observed 48 h after treatment, and for mechanical wounding GFP was localised in a manner similar to PTM damage. For MeJa treatment, GFP expression was more pronounced in cells around the midrib, and it was not uniformly induced across the leaf tissue. GUS reporter gene levels were also assayed to quantify expression, and the results were consistent with the observed histological patterns of expression. The results presented here show that the Shpx6b promoter switches on the expression of linked genes after damage by insect herbivores, and could be useful in regulating the expression of heterologous genes for insect and/or pathogen resistance in transgenic plants.     

Reporter gene introduction and transient expression in protoplasts of Porphyra yezoensis

The transient expression of foreign genes in the protoplasts of Porphyrayezoensis was examined using three recombinant vectors, pYez-Rub-GUS, pYez-Rub-GFP and pYez-Rub-LUC, which were constructed with the promoter sequence of the ribulose-bisphosphate-carboxylase / oxygenase (Rubisco) gene as a promoter and the bacterial β-glucuronidase (GUS), mutant of green fluorescent protein (S65T-GFP) and firefly luciferase (LUC) genes, respectively, as reporter genes. When the pYez-Rub-GUS was introduced into protoplasts by electroporation, cells stained dark blue by indigotin were observed after the histochemical GUS assay. GUS activity was also detected by quantitative enzyme assays with a chemiluminescent substrate. When the pYez-Rub-GFP was electroporated into protoplasts, the expression of GFP could be detected in vivo observations with fluorescence microscopy. However, the rates of gene expression cells to the total number of cells were different between the GUS and GFP genes. LUC activity was also detected by assay with a chemiluminescent substrate after the introduction of pYez-Rub-LUC into protoplasts, although the activity levels were considerably lower. Relatively high expression rates of introduced GUS genes were observed 3 to 5 days after electroporation. These results show that the promoter sequence of the chloroplast Rubisco gene functions as a promoter of foreign gene expression and that transient expression occurred in protoplasts of P. yezoensis after the introduction of foreign genes. This revised version was published online in August 2006 with corrections to the Cover Date.     

Kunitz-type protease inhibitors group B from Solanum palustre

Five Kunitz protease inhibitor group B genes were isolated from the genome of the diploid non-tuber-forming potato species Solanum palustre. Three of five new genes share 99% identity to the published KPI-B genes from various cultivated potato accessions, while others exhibit 96% identity. Spls-KPI-B2 and Spls-KPI-B4 proteins contain unique substitutions of the most conserved residues usually involved to trypsin and chymotrypsin-specific binding sites of Kunitz-type protease inhibitor (KPI)-B, respectively. To test the inhibition of trypsin and chymotrypsin by Spls-KPI proteins, five of them were produced in E. coli purified using a Ni-sepharose resin and ion-exchange chromatography. All recombinant Spls-KPI-B inhibited trypsin; K(i) values ranged from 84.8 (Spls-KPI-B4), 345.5 (Spls-KPI-B1), and 1310.6 nM (Spls-KPI-B2) to 3883.5 (Spls-KPI-B5) and 8370 nM (Spls-KPI-B3). In addition, Spls-KPI-B1 and Spls-KPI-B4 inhibited chymotrypsin. These data suggest that regardless of substitutions of key active-center residues both Spls-KPI-B4 and Spls-KPI-B1 are functional trypsin-chymotrypsin inhibitors.     

Isolation of pea matrix attachment region and study on its function in transgenic tobaccos

A DNA fragment containing consensus sequence of matrix attachment region (MAR) has been isolated from pea genome. Compared with original DNA sequence, one 115 bp-long repeat sequence is deleted in the obtained DNA sequence. DNA fragments located upstream and downstream of repeat DNA sequence respectively share 84% and 93% homology to the corresponding original sequence, and contain A-box or T-box and TATAA sequence, which is characteristics short sequence of MARs. To test the function of the DNA sequence, the plant expression vectors in which β-glucuronidase gene (GUS, uidA) was used as reporter gene were constructed and transferred into tobaccosvia Agrobacterium- mediated transformation procedure. Quantitative GUS assay showed that the average level of uidA expression was increased twofold for the presence of MAR, and the highest level of GUS activity of transgenic plants could be increased six times. The results cited above suggest that the isolated DNA sequence contains consensus sequence of MARs and has capability to increase expression level of gene in transgenic plants.     

Isolation of pea matrix attachment region and study on its function in transgenic tobaccos

A DNA fragment containing consensus sequence of matrix attachment region (MAR) has been isolated from pea genome. Compared with original DNA sequence, one 115 bp-long repeat sequence is deleted in the obtained DNA sequence. DNA fragments located upstream and downstream of repeat DNA sequence respectively share 84% and 93% homology to the corresponding original sequence, and contain A-box or T-box and TATAA sequence, which is characteristics short sequence of MARs. To test the function of the DNA sequence, the plant expression vectors in which β-glucuronidase gene (GUS, uidA) was used as reporter gene were constructed and transferred into tobaccos via Agrobacterium-mediated transformation procedure. Quantitative GUS assay showed that the average level of uidA expression was increased twofold for the presence of MAR, and the highest level of GUS activity of transgenic plants could be increased six times. The results cited above suggest that the isolated DNA sequence contains consensus sequence of MARs and     

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.     

Pearl millet cysteine protease inhibitor. Evidence for the presence of two distinct sites responsible for anti-fungal and anti-feedent activities.

Recently, pearl millet cysteine protease inhibitor (CPI) was, for the first time, shown to possess anti-fungal activity in addition to its anti-feedent (protease inhibitory) activity [Joshi, B.N. et al. (1998) Biochem. Biophys. Res. Commun. 246, 382-387]. Characterization of CPI revealed that it has a reversible mode of action for protease inhibition. The CD spectrum exhibited a 35% alpha helix and 65% random coil structure. The intrinsic fluorescence spectrum was typical of a protein devoid of tryptophan residues. Demetallation of Zn2+ resulted in a substantial change in the secondary and tertiary structure of CPI accompanied by the complete loss of anti-fungal and inhibitory activity indicating that Zn2+ plays an important role in maintaining both structural integrity and biological function. The differential response of anti-fungal and inhibitory activities to specific modifiers showed that there are two different reactive sites associated with anti-fungal and anti-feedent activity in CPI located on a single protein as revealed from its N-terminal sequence data (AGVCYGVLGNNLP). Modification of cysteine, glutamic/aspartic acid or argnine resulted in abolition of the anti-fungal activity of CPI, whereas modification of arginine led to an enhancement of the inhibitory activity in solution. Modification of histidine resulted in a twofold increase in the protease inhibitory activity without affecting the anti-fungal activity, whereas modification of serine led to selective inhibition of the protease inhibitory activity. The differential nature of the two activities was further supported by differences in the temperature stabilities of the anti-fungal (60 degrees C) and inhibitory (40 degrees C) activities. Binding of papain to CPI did not abolish the anti-fungal activity of CPI, supporting the presence of two active sites on CPI. The differential behavior of CPI towards anti-fungal and anti-feedent activity cannot be attributed to changes in conformation, as assessed by their CD and fluorescence spectra. The interaction of CPI modified for arginine or histidine with papain resulted in an enhancement of CPI activity accompanied by a slight decrease in fluorescence intensity of 15-20% at 343 nm. In contrast, modification of serine resulted in inhibition of CPI activity with a concomitant increase of 20% in the fluorescence intensity when complexed by the enzyme. This implies the involvement of enzyme-based tryptophan in the formation of a biologically active enzyme-inhibitor complex. The presence of anti-fungal and anti-feedent activity on a single protein, as evidenced in pearl millet CPI, opens up a new possibility of raising a transgenic plant resistant to pathogens, as well as pests, by transfer of a single CPI gene.     

Gene expression enhancement mediated by the 5′ UTR intron of the rice <Emphasis Type="Italic">rubi3</Emphasis> gene varied remarkably among tissues in transgenic rice plants

Introns are important sequence elements that modulate the expression of genes. Using the GUS reporter gene driven by the promoter of the rice (Oryza sativa L.) polyubiquitin rubi3 gene, we investigated the effects of the 5' UTR intron of the rubi3 gene and the 5' terminal 27 bp of the rubi3 coding sequence on gene expression in stably transformed rice plants. While the intron enhanced GUS gene expression, the 27-bp fused to the GUS coding sequence further augmented GUS expression level, with both varying among different tissues. The intron elevated GUS gene expression mainly at mRNA accumulation level, but also stimulated enhancement at translational level. The enhancement on mRNA accumulation, as determined by realtime quantitative RT-PCR, varied remarkably with tissue type. The augmentation by the intron at translational level also differed by tissue type, but to a lesser extent. On the other hand, the 27-bp fusion further boosted GUS protein yield without affecting mRNA accumulation level, indicating stimulation at translation level, which was also affected by tissue type. The research revealed substantial variation in the magnitudes of intron-mediated enhancement of gene expression (IME) among tissues in rice plants and the importance of using transgenic plants for IME studies.