Independent translation of ORFs in dicistronic operons, synthetic building blocks for polycistronic chloroplast gene expression

Yu, Qiguo; Tungsuchat-Huang, Tarinee; Verma, Kanak; Radler, Megan R.; Maliga, Pál

doi:10.1111/tpj.14864

Cited by 14 publications

(18 citation statements)

References 74 publications

(90 reference statements)

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“…The use of a purified, commercially available GFP as reference protein was also our first choice for quantification of the GFP-Fc1 fusion, however this method inflated accumulation measurements almost 9-fold. Heterologous protein expression at these levels should produce a heavy band in the Coomassie gels and a metabolic burden on the transplastomic plants, as our previous experience shows 26 but neither of which occurred here. We found greater accuracy using the previously characterized MRR13 transplastomic tobacco line as a reference for measuring GFP-Fc1 accumulation.…”

Section: Discussionmentioning

confidence: 48%

“…This is because the N-terminus of IGF-I is important for receptor engagement 23 . To avoid this issue, we look to generate an additional system for oral delivery of therapeutic proteins using the Immunoglobulin G (IgG) fragment crystallizable (Fc) domain for fusion of recombinant protein at the C-terminus, and a chloroplast expression system that consistently delivers high expression levels [24][25][26][27] . We generated chloroplast transformation vectors carrying recombinant proIGF-I and Mstn propeptide fused to the IgG fragment crystallizable (Fc) domain to promote absorption through the epithelial lining of the small intestine 28-30 .…”

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confidence: 99%

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Chloroplast transformation for bioencapsulation and oral delivery using the immunoglobulin G fragment crystallizable (Fc) domain

LaManna

Chou

Lei

et al. 2023

Preprint

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Proinsulin Like Growth Factor (prolGF1) and myostatin (Mstn) regulate muscle regeneration when intravenously delivered. We set out to test if chloroplast bioencapsulated forms of these proteins may serve as a non-invasive means of drug delivery through the digestive system. We created tobacco (Nicotiana tabacum) plants carrying GFP-Fc1, proIGF-I-Fc1, and Mstn-Fc1 fusion genes, in which fusion with the immunoglobulin G Fc domain improved both protein stability and absorption in the small intestine. No transplastomic plants were obtained with the Mstn-Fc1 gene, suggesting that the protein is toxic to plant cells. proIGF-I-Fc1 protein levels were too law to enable in vivo testing. However, GFP-Fc1 accumulated at a high level, enabling evaluation of chloroplast-made Fc fusion proteins for oral delivery. Tobacco leaves were lyophilized for testing in a mouse system. We report that the orally administered GFP-Fc fusion protein (5.45 µg/g GFP-Fc) has been taken up by the intestinal epithelium cells, evidenced by confocal microscopy. GFP-Fc subsequently entered the circulation where it was detected by ELISA. Data reported here confirm that chloroplast expression and oral administration of lyophilized leaves is a potential delivery system of therapeutic proteins fused with Fc, with the advantage that the proteins may be stored at room temperature.

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Section: Discussionmentioning

confidence: 48%

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confidence: 99%

Chloroplast transformation for bioencapsulation and oral delivery using the immunoglobulin G fragment crystallizable (Fc) domain

LaManna

Chou

Lei

et al. 2023

Preprint

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“…A construct employing the leader sequence of the Bacillus thuringiensis cry9Aa2 gene served as a control; L cry9Aa2 was previously shown to yield only stable dicistronic mRNA( Fig. 1C , pMRR13 ) (Yu et al, 2017; Yu et al, 2020). We previously reported results in tobacco for the monocistronic and dicistronic constructs harboring the maize L atpH GG UTR (pQY3 and pAI5, respectively) (Rojas et al, 2019) but they were analyzed again here as a point of comparison for other constructs.…”

Section: Resultsmentioning

confidence: 99%

“…3A ). The control, the cry9Aa2 5’ UTR in the aadA - gfp intergenic region, has been shown previously not to yield processed monocistronic RNA in plastids (Yu et al, 2020). The monocistronic gfp mRNA with the wild type tobacco atpH 5’ UTR is ∼4 times more abundant, indicating more efficient protection of the mRNA by the cognate wild type tobacco PPR10 protein ( Di-L atpH Nt , Fig.…”

Section: Resultsmentioning

confidence: 99%

Posttranscriptional tuning of gene expression over a large dynamic range in synthetic tobacco chloroplast operons

Yu,

Tungsuchat-Huang,

Ioannou

et al. 2024

Preprint

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Achieving balanced gene expression within synthetic operons requires a spectrum of expression levels. Here we investigate the expression of gfp reporter gene in tobacco chloroplasts, guided by variants of the plastid atpH 5' UTR, which harbors a binding site for PPR10, a protein that activates atpH at the post-transcriptional level. Our findings reveal that endogenous tobacco PPR10 confers distinct levels of reporter activation when coupled with the tobacco and maize atpH 5' UTRs in different design contexts. Notably, high GFP expression was not coupled to stabilization of monocistronic gfp transcripts in dicistronic reporter lines, adding to the evidence that PPR10 activates translation via a mechanism that is independent of its stabilization of monocistronic transcripts. Furthermore, the incorporation of a tRNA upstream of the UTR nearly abolishes gfp mRNA (and GFP protein), resulting in a substantial reduction in GFP accumulation. When combined with a mutant atpH 5' UTR, the tRNA leads to an exceptionally low level of transgene expression. Collectively, this approach allows for tuning reporter gene expression across a wide range, spanning from 0.02% to 25% of the total soluble cellular protein (TSP). These findings highlight the toolbox available for plastid synthetic biology applications requiring multigene expression at varying levels.

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“…The number of traits and genes that will need to be transformed or crossed into elite maize lines will grow in the future. Besides the current crossbreeding strategy, other advanced techniques for introducing large number of genes are in the pipeline, including the following: polycistronic expression in chloroplast [152], Binary Bacterial Artificial Chromosomes [153] or mini chromosomes [154,155]. However, all of these approaches still await routine use.…”

Section: Genetic Engineeringmentioning

confidence: 99%

Genetic Approaches to Enhance Multiple Stress Tolerance in Maize

Malenica

Dunić

Vukadinović

et al. 2021

Genes

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The multiple-stress effects on plant physiology and gene expression are being intensively studied lately, primarily in model plants such as Arabidopsis, where the effects of six stressors have simultaneously been documented. In maize, double and triple stress responses are obtaining more attention, such as simultaneous drought and heat or heavy metal exposure, or drought in combination with insect and fungal infestation. To keep up with these challenges, maize natural variation and genetic engineering are exploited. On one hand, quantitative trait loci (QTL) associated with multiple-stress tolerance are being identified by molecular breeding and genome-wide association studies (GWAS), which then could be utilized for future breeding programs of more resilient maize varieties. On the other hand, transgenic approaches in maize have already resulted in the creation of many commercial double or triple stress resistant varieties, predominantly weed-tolerant/insect-resistant and, additionally, also drought-resistant varieties. It is expected that first generation gene-editing techniques, as well as recently developed base and prime editing applications, in combination with the routine haploid induction in maize, will pave the way to pyramiding more stress tolerant alleles in elite lines/varieties on time.

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Independent translation of ORFs in dicistronic operons, synthetic building blocks for polycistronic chloroplast gene expression

Cited by 14 publications

References 74 publications

Chloroplast transformation for bioencapsulation and oral delivery using the immunoglobulin G fragment crystallizable (Fc) domain

Chloroplast transformation for bioencapsulation and oral delivery using the immunoglobulin G fragment crystallizable (Fc) domain

Posttranscriptional tuning of gene expression over a large dynamic range in synthetic tobacco chloroplast operons

Genetic Approaches to Enhance Multiple Stress Tolerance in Maize

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