Kasi Azhakanandam scite author profile

Rapid and cost-effective virus-derived transient expression systems for plants are invaluable in elucidating gene function and are particularly useful in plant species for which transformation-based methods are unavailable or are too time and labor demanding, such as wheat () and maize (). The virus-mediated overexpression (VOX) vectors based on and described previously for these species are incapable of expressing free recombinant proteins of more than 150 to 250 amino acids, are not suited for high-throughput screens, and have other limitations. In this study, we report the development of a VOX vector based on a monopartite single-stranded positive sense RNA virus, (genus). In this vector, PV101, the gene of interest was inserted downstream of the duplicated subgenomic promoter of the viral coat protein gene, and the corresponding protein was expressed in its free form. The vector allowed the expression of a 239-amino acid-long GFP in both virus-inoculated and upper uninoculated (systemic) leaves of wheat and maize and directed the systemic expression of a larger approximately 600-amino acid protein, GUSPlus, in maize. Moreover, we demonstrated that PV101 can be used for in planta expression and functional analysis of apoplastic pathogen effector proteins such as the host-specific toxin ToxA of Therefore, this VOX vector opens possibilities for functional genomics studies in two important cereal crops.

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Gene expression enhancement mediated by the 5′ UTR intron of the rice rubi3 gene varied remarkably among tissues in transgenic rice plants

Sivamani

Azhakanandam

et al. 2008

Mol Genet Genomics

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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.

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T-DNA transfer, integration, expression and inheritance in rice: effects of plant genotype and Agrobacterium super-virulence

Azhakanandam

McCabe

Power

et al. 2000

Journal of Plant Physiology

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Amplicon-plus targeting technology (APTT) for rapid production of a highly unstable vaccine protein in tobacco plants

et al. 2007

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High-level expression of transgenes is essential for cost-effective production of valuable pharmaceutical proteins in plants. However, transgenic proteins often accumulate in plants at low levels. Low levels of protein accumulation can be caused by many factors including post-transcriptional gene silencing (PTGS) and/or rapid turnover of the transgenic proteins. We have developed an Amplicon-plus Targeting Technology (APTT), by using novel combination of known techniques that appears to overcome both of these factors. By using this technology, we have successfully expressed the highly-labile L1 protein of canine oral papillomavirus (COPV L1) by infecting transgenic tobacco plants expressing a suppressor of post-transcriptional gene silencing (PTGS) with a PVX amplicon carrying a gene encoding L1, and targeting the vaccine protein into the chloroplasts. Further, a scalable ''wound-and-agrospray'' inoculation method has been developed that will permit high-throughput Agrobacterium inoculation of Nicotiana tabacum, and a spray-only method (named ''agrospray'') for use with N. benthamiana to allow large-scale application of this technology. The good yield and short interval from inoculation to harvest characteristic of APTT, combined with the potential for high-throughput achieved by use of the agrospray inoculation protocol, make this system a very promising technology for producing high value recombinant proteins, especially those known to be highly labile, in plants for a wide range of applications including producing vaccines against rapidly evolving pathogens and for the rapid response needed to meet bio-defense emergencies.

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