Agrobacterium-mediated transient transformation of annatto (Bixa orellana) hypocotyls with the GUS reporter gene

Hypocotyls from annatto seedlings, were inoculated with Agrobacterium tumefaciens harboring a binary vector, pBI.121 or pCAMBIA2301, containing the -glucuronidase (gus) gene. Histochemical GUS assay of infected hypocotyls from two annatto varieties showed transient gus gene expression between 3 and 12 days after inoculation.These authors contributed equally to this work.)     

Transient reporter gene (GUS) expression in creeping bentgrass (Agrostis palustris) is affected by in vivo nucleolytic activity

Leaf and callus tissues of a creeping bentgrass cultivar (Penn A4) had high nuclease activities that degraded exogenously added plasmid DNA. When callus tissue was incubated for 24 h with heparin, spermidine, aurintricarboxylic acid or polyethylene glycol, only heparin and spermidine were effective as in vitro nuclease inhibitors, protecting exogenously added plasmid DNA from degradation. When -glucuronidase (GUS) reporter gene activity was evaluated in heparin-treated (0.6%), 14-month old callus following microprojectile bombardment, GUS activity increased 1000-fold compared to equivalent aged untreated Penn A4 callus. Similar enhancement from heparin pretreatment (0.6% or 1.2%) was not observed in 6-month old callus. This is likely due to much higher activities of nuclease in the younger callus.     

Sucrose-regulated expression of a chimeric potato tuber gene in leaves of transgenic tobacco plants

Patatin is a family of lipid acyl hydrolases that accounts for 30 to 40% of the total soluble protein in potato tubers. Class-I patatin genes encode 98 to 99% of the patatin mRNA in tubers, but are not normally expressed in other tissues. They are not totally tuber-specific; however, since they can be induced to express at high levels in other tissues under conditions of sink limitation or in explants cultured on medium containing elevated levels of sucrose. To examine the evolution of the mechanisms that regulate patatin gene expression, we introduced a chimeric patatin--glucuronidase (GUS) gene containing 2.5 kb of 5 flanking sequence from the Class-I potato patatin gene PS20 into tobacco plants. The construct was not expressed at significant levels in leaves of juvenile plants or plantlets cultured in vitro, but was expressed at high levels in explants cultured on medium containing 0.3 to 0.4 M sucrose. While there were differences in the expression of the chimeric gene between transgenic tobacco and potato plants, the pattern of sucrose induction was very similar. These results suggest that the mechanism that controls patatin gene expression in potato tubers evolved from a widely distributed mechanism in which gene expression is regulated by the level of available photosynthate.     

Xylem-specific expression of a GRP1.8 promoter::4CL gene construct in transgenic tobacco

Lignin is a complex aromatic polymer of vascular plants that provides mechanical strength to the stem and protects cellulose fibres from chemical and biological degradation. 4-Coumarate:CoA ligases (EC 6.2.1.12) are key enzymes for the biosynthetic pathway of monolignols which is an important complex aromatic polymer for lignin biosynthesis and tree growth. Recently, 4-coumarate:CoA ligase has been used as exogenous gene in transgenic plants to genetically modify the lignin biosynthesis pathway. Since most lignin is produced in the vascular cells, a tissue-specific-expressed promoter in the vascular cell would be important and useful to change and modify the content of lignin. Here we report the existence of a promoter of GRP1.8 (the glycine-rich protein 1.8) in Sopho japonica L. (GenBank accession number AF250149) and studies on its function in transgenic tobacco. The promoter activity was analyzed in transgenic tobacco plants by histochemical staining of GUS gene expression driven by a 613-bp sjGRP1.8p promoter sequence. In sjGRP1.8p-GUS transgenic plants, intense GUS staining was detected in the xylem of the stem. To further investigate the regulation of the tissue-specific expression of the 4CL1 gene, we analyzed the activity of the 4CL1 gene which is sense orientated with the sjGRP1.8p promoter in transgenic tobacco. The Pto4CL1 gene was expressed in the stem of transgenic tobacco. The activity of the 4CL1 enzyme was increased 1–2-fold in the stem but not increased in the leaves of transgenic tobacco. In comparison with the control plants, the content of lignin was increased 25% in the stem but there was no increase in the leaves of transgenic tobacco.     

cDNA cloning and expression of a potato (Solanum tuberosum) invertase

A cDNA clone encoding an invertase isoenzyme has been isolated from a potato leaf cDNA library. The deduced amino acid sequence shows significant similarities to previously characterised invertases. The highest degree of overall similarity, including the signal peptide sequence, is to carrot cell wall invertase, suggesting that the potato gene encodes an apoplastic enzyme. Expression of the gene, as determined by RT-PCR, is detected in stem and leaf tissue, and at lower levels in tuber, but is absent from roots.     

Calmodulin gene family in potato: developmental and touch-induced expression of the mRNA encoding a novel isoform

Eight genomic clones of potato calmodulin (PCM1 to 8) were isolated and characterized. Sequence comparisons of different genes revealed that the deduced amino acid sequence of PCM1 had several unique substitutions, especially in the fourth Ca²⁺-binding area. The expression patterns of different genes were studied by northern analysis using the 3-untranslated regions as probes. The expression of PCM1, 5, and 8 was highest in the stolon tip and it decreased during tuber development. The expression of PCM6 did not vary much in the tissues tested, except in the leaves, where the expression was lower; whereas, the expression of PCM4 was very low in all the tissues. The expression of PCM2 and PCM3 was not detected in any of the tissues tested. Among these genes, only PCM1 showed increased expression following touch stimulation. To study the regulation of PCM1, transgenic potato plants carrying the PCM1 promoter fused to the -glucuronidase (GUS) reporter gene were produced. GUS expression was found to be developmentally regulated and touch-responsive, indicating a positive correlation between the expression of PCM1 and GUS mRNAs. These results suggest that the 5-flanking region of PCM1 controls developmental and touch-induced expression. X-Gluc staining patterns revealed that GUS localization is high in meristematic tissues such as the stem apex, stolon tip, and vascular regions.     

Influence of enzyme solution on protoplast culture and transient gene expression in maize (Zea mays L.)

The influence of two enzyme solutions, differing only in the presence or absence of Macerozyme, on protoplast yield, colony formation and transient GUS (-glucuronidase) activity was studied. For all parameters tested the presence of Macerozyme during protoplast isolation had a negative influence. Using an enzyme solution without Macerozyme suspension aggregates gave up to 4.4 times higher protoplast yield and plating efficiencies were increased up to 10-fold. Further, protoplasts isolated without macerozyme showed a 5.2-fold higher GUS activity in transient gene expression. Apart from the presence of Macerozyme, longer incubation (3 compared with 1.5 h) of cell aggregates in the enzyme solution also had a negative effect on transient transformation efficiency. These data demonstrate that protoplast isolation conditions have a profound effect on transient gene expression and it is proposed that these factors will also influence stable transformation efficiency.Abbreviations CP cellulase pectolyase - CPM cellulase pectolyase Macerozyme - 2,4-d 2,4-dichlorophenoxyacetic acid     

In situ detection of expression of thegus reporter gene in transgenic plants: ten years of blue genes

Among the methods now available to localize the sites of gene expression in plant materials, reporter genes based on thegus (uidA) gene ofEscherichia coli, which encodes a -glucuronidase (E.C. 3.2.1.31; GUS), have been the most widely used during the last ten years. The apparent simplicity of the histochemical GUS assay has been a major factor in the increase in articles usinggus genes. However, over the last four years, there have been occasional reports expressing doubts concerning the specificity of the observed localizations based on discrepancies between results obtained with GUS histochemistry and immunocytochemistry and/orin situ hybridization. This brief review compares the results obtained with immunocytochemistry with those obtained with various GUS substrates for histochemical studies. Certain sources of artefact are discussed, as are the limits that should be imposed on interpretation of GUS histochemistry results at the organ, tissue and cell levels.     

Tissue-specific expression directed by an Arabidopsis thaliana pre-ferredoxin promoter in transgenic tobacco plants

We have isolated and analyzed a pre-ferredoxin gene from Arabidopsis thaliana. This gene encodes a 148 amino acid precursor protein including a chloroplast transit peptide of 52 residues. Southern analysis shows the presence of a single copy of this ferredoxin (Fd) gene in the A. thaliana genome. Its expression is tissue-specific and positively affected by light. Response times, both to dark and light conditions, are remarkably rapid.A chimeric gene consisting of a 1.2 kb Fd promoter fragment fused to the -glucuronidase reporter gene was transferred to tobacco. This fusion gene is expressed in a tissue-specific way; it shows high levels of expression in green leaves, as compared to root tissue.     

Transient gene expression in cassava using high-velocity microprojectiles

The bacterial gene encoding -glucuronidase (GUS) was transiently expressed in cassava leaves following the introduction of the gene by microparticle bombardment. The DNA expression vector used to introduce the reporter gene is a pUC 19 derivative and consisted of a CaMV 35S promoter (P35S), the GUS coding region and 7S polyadenylation region. Several other promoters and regulating sequences were tested for efficiency in cassava leaves. Two derivatives of the P35S, one including a partial duplication of the upstream region of the P35S and the other containing a tetramer of the octopine synthase enhancer, were found to be expressed at three times the level of the P35S in cassava leaves. The ubiquitin 1 promoter fromArabidopsis thaliana was expressed at the same level as the P35S. No influence on the level of expression was observed when different 3 ends were used. The biolistic transient gene expression system in cassava leaves allows rapid analysis of gene constructs and can serve as a preliminary screen for chimeric gene function in the construction of transgenic cassava plants.