A promoter derived from taro bacilliform badnavirus drives strong expression in transgenic banana and tobacco plants

Taro bacilliform virus (TaBV) is a pararetrovirus of the genus Badnavirus which infects the monocotyledonous plant, taro ( Colocasia esculenta). A region of the TaBV genome spanning nucleotides 6,281 to 12 (T1200), including the 3' end of open reading frame 3 (ORF 3) and the intergenic region to the end of the tRNA(met)-binding site, was tested for promoter activity along with four different 5' deletion fragments (T600, T500, T250 and T100). In transient assays, only the T1200, T600, T500 fragments were shown to have promoter activity in taro leaf, banana suspension cells and tobacco callus. When these three promoters were evaluated in stably transformed, in vitro-grown transgenic banana and tobacco plants, all were found to drive near-constitutive expression of either the green fluorescent protein or beta-glucuronidase (GUS) reporter gene in the stem (or pseudostem), leaves and roots, with strongest expression observed in the vascular tissue. In transgenic banana leaves, the T600 promoter directed four-fold greater GUS activity than that of the T1200, T500 and the maize polyubiquitin-1 promoters. In transgenic tobacco leaves, the levels of GUS expression directed by the three promoters was between four- and ten-fold lower than that of the double Cauliflower mosaic virus 35S promoter. These results indicate that the TaBV-derived promoters may be useful for the high-level constitutive expression of transgenes in either monocotyledonous or dicotyledonous species.     

Comparative expression of β-glucuronidase with five different promoters in transgenic carrot (<Emphasis Type="Italic">Daucus carota</Emphasis> L.) root and leaf tissues

Tissue-specific patterns and levels of protein expression were characterized in transgenic carrot plants transformed with the β-glucuronidase (GUS) gene driven by one of five promoters: Cauliflower mosaic virus 35S (35S) and double 35S (D35S), Arabidopsis ubiquitin (UBQ3), mannopine synthase (mas2) from Agrobacterium tumefaciens or the rooting loci promoter (rolD) from A. rhizogenes. Five independently transformed carrot lines of each promoter construct were assessed for GUS activity. In leaves, activity was highest in plants with the D35S, 35S and UBQ3 promoters, while staining was weak in plants with the mas2 promoter, and only slight visual staining was present in the leaf veins of plants containing rolD promoter . Strong staining was seen in the lateral roots, including root tips, hairs and the vascular tissues of plants expressing the 35S, D35S and UBQ3. Lateral roots of plants containing the rolD construct also showed staining in these tissues while the mas2 promoter exhibited heightened staining in the root tips. Relatively strong GUS staining was seen throughout the tap root with all the promoters tested.. When GUS expression was quantified, the UBQ3 promoter provided the highest activity in roots of mature plants, while plants with the D35S and 35S promoter constructs had higher activity in the leaves. Although plants containing the mas2 promoter had higher levels of activity compared to the rolD plants, these two promoters were significantly weaker than D35S, 35S and UBQ3. The potential for utilization of specific promoters to target expression of desired transgenes in carrot tissues is demonstrated.     

Promoters derived from banana bunchy top virus-associated components S1 and S2 drive transgene expression in both tobacco and banana

Potential promoter regions of the Banana bunchy top virus (BBTV)-associated DNA components S1 and S2 were fused to the #-glucuronidase reporter gene and assessed for activity in both tobacco (Nicotiana tabacum cv. Xanthi) and banana (Musa spp. cv. Bluggoe). Transient assays indicated that all the S1- and S2-derived promoters were active and had greater expression in tobacco than banana. In stably transformed tobacco and banana, the S1- and S2-derived promoters directed expression in root meristems and trichomes. The S1 promoter was also expressed in the vascular tissue of leaves and roots, while both the S1 and S2 promoters were active in tobacco leaf trichomes and pollen. In banana, expression was significantly enhanced by the inclusion of the maize polyubiquitin intron 3' to the promoter. Interestingly, there was some evidence to indicate that S1 promoter fragments containing part of the open reading frame at the 5' end of the promoter had enhanced activity, suggesting that promoter elements may not be confined to the non-coding region.     

Introns and their positions affect the translational activity of mRNA in plant cells

In an attempt to further increase transgene expression levels in plants over and above the enhancement obtained with a 5′ untranslated leader intron, three different maize introns were inserted at three different positions within the coding sequence of the luciferase reporter gene. Constructs were transformed into maize (Black Mexican Sweet) cells and protoplasts, and their activity determined. Although all introns tested were correctly spliced, only one of them in a particular position was able to enhance gene expression. Correct splicing sites were used for intron removal and the quantity of luciferase mRNA produced did not differ significantly. These data indicate that both the position and the sequence of an intron have marked effects on expression levels, suggesting that nuclear processing of the pre-mRNA determines final expression levels through the structure of the mRNP.     

Transient gene expression after electroporation of protoplasts derived from embryogenic maize callus

Protoplasts isolated from embryogenic callus cultures derived from immature embryos ofZea mays L. are suitable for analysis of transient gene expression using electroporation-mediated DNA transfer. Expression of introduced genes is comparable to the levels obtained with protoplasts from Black Mexican Sweet suspension cultures. Two different promoters, that directing synthesis of the 35S RNA of cauliflower mosaic virus and the maizeAdh1 promoter were placed in front of the luciferase reporter gene to assess protoplast gene expression and the impact of an intron on expression level.Abbreviations 35S promoter isolated from CaMV - CaMV cauliflower mosaic virus - Adh1 maize gene encoding Alcohol dehydrogenase-1 enzyme - BMS suspension cultures of the Black Mexican Sweet maize variety     

High frequency callus formation from maize protoplasts

Summary A solid feeder layer technique was developed to improve callus formation of Black Mexican Sweet maize (Zea mays L.) suspension culture protoplasts. Protoplasts were plated in 0.2 ml liquid media onto a cellulose nitrate filter on top of agarose-solidified media in which Black Mexican Sweet suspension feeder cells were embedded. Callus colony formation frequencies exceeding 10% of the plated protoplasts were obtained for densities of 10³–10⁵ protoplasts/ 0.2 ml, which was 100- to 1,000-fold higher than colony formation frequencies obtained for conventional protoplast plating methods such as liquid culture or embedding in agarose media. Compared with conventional methods, the feeder layer method gave higher colony formation frequencies for three independently maintained Black Mexican Sweet suspension lines. Differences among the three lines indicated that colony formation frequencies might also be influenced by the suspension culture maintenance regime and length of time on different 2,4-dichlorophenoxyacetic acid concentrations. The callus colony formation frequency reported is an essential prerequesite for recovering rare mutants or genetically transformed maize protoplasts.     

Silicon carbide fiber-mediated DNA delivery into plant cells

Summary Silicon carbide fiber-mediated delivery of DNA into intact plant cells was investigated. Black Mexican Sweet (BMS) maize (Zea mays) and tobacco (Nicotiana tabacum) suspension culture cells were vortexed in the presence of liquid medium, plasmid DNA encoding -glucuronidase (GUS), and silicon carbide fibers. Penetration of BMS cells by the silicon carbide fibers was observed by scanning electron microscopy of vortexed cells. Following fiber and DNA treatment, BMS cells transiently expressed GUS activity at a mean frequency of 139.5 units (one unit = one blue cell or one colony of blue cells) per sample. Treated tobacco cells expressed an average of 373 GUS units per sample. Untreated controls did not exhibit GUS activity. These results indicate that the silicon carbide fibers-vortex procedure can be used to rapidly and inexpensively deliver foreign DNA into intact plant cells for investigations of transient gene expression.Abbreviations BMS Black Mexican Sweet maize suspension cultures - MS Murashige and Skoog salts - GUS -glucuronidase - 2,4-D 2,4 dichlorophenoxyacetic acid     

Multiple domains exist within the upstream activator sequence of the octopine synthase gene.

It is known that a 16-base pair palindrome (ACGTAAGCGCTTACGT) located upstream of the ocs gene can activate a maize adh1 promoter in a transient expression system [Ellis et al. (1987). EMBO J. 6, 11-16; Ellis et al. (1987). EMBO J. 6, 3203-3208]. We have determined that this palindrome is also essential for ocs promoter activity in tobacco calli. In addition, sequences immediately adjacent to this palindrome, both 5' and 3', modulate its activity. The palindrome is sensitive to the differentiated state of the plant cells in which it resides; it is active in calli and the leaves of small shoots but is inactive in the leaves of rooted plants. We have tested upstream sequences from two other T-DNA genes that have homology to this palindrome for their ability to activate the octopine synthase promoter in tobacco calli. The upstream region from the mannopine synthase gene can activate the octopine synthase promoter, but an upstream region from the gene implicated in octopine and nopaline secretion cannot activate the promoter.     

Imidazolinones and acetohydroxyacid synthase from higher plants: properties of the enzyme from maize suspension culture cells and evidence for the binding of imazapyr to acetohydroxyacid synthase in vivo

Acetohydroxyacid synthase has been purified from maize (Zea mays, var Black Mexican Sweet) suspension culture cells 49-fold by a combination of ion exchange chromatography, gel filtration, and hydroxyapatite chromatography. Use of the nondenaturing, zwitterionic detergent 3-([3-cholamidopropyl]dimethyl-ammonio)-1-propanesulfonate was necessary to dissociate the enzyme from the heterogeneous, high molecular weight aggregates in which it appears to reside in vitro. The solubilized maize acetohydroxyacid synthase had a relative molecular mass of 440,000. The purified enzyme was highly unstable. Acetohydroxyacid synthase activities in crude extracts of excised maize leaves and suspension cultured cells were reduced 85 and 58%, respectively, by incubation of the tissue with 100 micromolar (excised leaves) and 5 micromolar (suspension cultures) of the imidazolinone imazapyr prior to enzyme extraction, suggesting that the inhibitor binds tightly to the enzyme in vivo. Binding of imazapyr to maize acetohydroxyacid synthase could also be demonstrated in vitro. Evidence is presented which suggests that the interaction between imazapyr and the enzyme is reversible. Imazapyr also exhibited slow-binding properties when incubated with maize cell acetohydroxyacid synthase in extended time course experiments. Initial and final K_i values for the inhibition were 15 and 0.9 micromolar, respectively. The results suggest that imazapyr is a slow, tight-binding inhibitor of acetohydroxyacid synthase.