Shahram Shokrian Hajibehzad scite author profile

The Ipa operon contains four genes (IpaA, IpaB, IpaC, and IpaD), all assumed to be mandatory factors in the invasion process of Shigella spp. Of these, IpaD is argued to play the most critical role in invasion of Shigella dysenteriae into epithelial cells of the human gut, which often results in shigellosis disease. The potential expression of S. dysenteriae invasion plasmid antigen D (IpaD) was examined in the leaves of four plant hosts-Nicotiana tabacum, N. benthamiana, lettuce (Lactuca sativa), and soybean (Glycine max)-transformed with constructs containing different expression elements. The highest yields of IpaD, obtained by targeting the protein to ER-derived protein bodies, were more than 1.21-fold (in soybean) and 1.48-fold (in N. benthamiana) higher than when protein was targeted to apoplastic compartments, based on total soluble protein (TSP). IpaD production in N. benthamiana was more abundant than in N. tabacum, lettuce, or soybean, averaging 2.2 ng of IpaD μg −1 TSP and with a maximum of 3.4 ng IpaD μg −1 TSP with the bestperforming construct (pCAMBIA-ZCIpaD), corresponding to 15.7 μg IpaD g −1 fresh leaf weight. Quantitative RT-PCR suggested that the Cucumber mosaic virus 2b silencing suppressor could efficiently enhance transient expression of IpaD mRNA approximately 4-fold in N. benthamiana at 96 h after infiltration. Finally, with pCAMBIA-ZCIpaD, containing Cowpea mosaic virus UTRs as possible expression enhancers, the accumulation of IpaD in agroinfiltrated N. benthamiana was nearly 2-fold that was obtained with constructs not containing UTRs. This is the first report describing the effects of several important signal peptides and translational enhancers on IpaD antigen production in four different plant hosts. These results seem to indicate a promising route for the production of therapeutic IpaD antigen in vitro, as a candidate vaccine for human shigellosis.

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Arabidopsis thaliana rosette habit is controlled by combined light and energy signaling converging on transcriptional control of the TALE homeobox gene ATH1

Hajibehzad

Silva

Peeters

et al. 2023

New Phytologist

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In the absence of light signals, Arabidopsis plants fail to develop the rosette habit typical for this species. Instead, plants display caulescent growth due to elongation of rosette internodes. This aspect of photomorphogenic development has been paid little attention and molecular events involved, downstream of photoreceptor signaling, remain to be identified.Using a combination of genetic and molecular approaches, we show that Arabidopsis rosette habit is a photomorphogenic trait controlled by induction of ARABIDOPSIS THALI-ANA HOMEOBOX GENE1 (ATH1) as downstream target of multiple photoreceptors.ATH1 induction prevents rosette internode elongation by maintaining the shoot apical meristem (SAM) rib zone area inactive and requires inactivation of photomorphogenesis inhibitors, including PHYTOCHROME INTERACTING FACTOR (PIF) proteins. ATH1 activity results in tissue-specific inhibition of PIF expression, establishing double-negative feedbackregulation at the SAM. Light-requirement for ATH1 expression can be overcome by high sugar availability to the SAM. Both sugar and light signals that induce ATH1 and, subsequently, rosette habit are mediated by TOR kinase.Collectively, our data reveal a SAM-specific, double-negative ATH1-PIF feedback loop at the basis of rosette habit. Upstream, TOR kinase functions as central hub integrating light and energy signals that control this for Arabidopsis quintessential trait.

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Plant Molecular Pharming Methods, Tools, Challenges Ahead for Production of Recombinant Proteins, and Potential Solutions

Hajibehzad¹,

Mohseni²,

Dolati³

et al. 2022

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