Co-expression of double-stranded RNA and viral capsid protein in the novel engineered Escherichia coli DualX-B15(DE3) strain
Background: Viruses cause significant economic losses to shrimp aquaculture worldwide. In severe cases, they can lead to 100% mortality within a matter of days, hence the aquaculture industry requires antiviral strategies to minimize economic impacts. Currently, a double-stranded RNA (dsRNA)-based p...
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th-mahidol.771812022-08-04T16:05:03Z Co-expression of double-stranded RNA and viral capsid protein in the novel engineered Escherichia coli DualX-B15(DE3) strain Kitti Wuthisathid Thawatchai Chaijarasphong Charoonroj Chotwiwatthanakun Monsicha Somrit Kallaya Sritunyalucksana Ornchuma Itsathitphaisarn Mahidol University Thailand National Center for Genetic Engineering and Biotechnology Immunology and Microbiology Medicine Background: Viruses cause significant economic losses to shrimp aquaculture worldwide. In severe cases, they can lead to 100% mortality within a matter of days, hence the aquaculture industry requires antiviral strategies to minimize economic impacts. Currently, a double-stranded RNA (dsRNA)-based platform has been proven effective at a laboratory scale. The bottleneck for its industrialization is the lack of low-cost, efficient and practical delivery approaches. In an effort to bridge the gap between laboratory and farm applications, virus-like particles (VLP) have been used as nanocarriers of dsRNA. However, the implementation of this approach still suffers from high costs and a lengthy procedure, co-expression of subunits of VLP or capsid proteins (CPs) and dsRNA can be the solution for the problem. CP and dsRNA are traditionally expressed in two different E. coli hosts: protease-deficient and RNase III-deficient strains. To condense the manufacturing of dsRNA-containing VLP, this study constructed a novel E. coli strain that is able to co-express viral capsid proteins and dsRNA in the same E. coli cell. Results: A novel bacterial strain DualX-B15(DE3) was engineered to be both protease- and RNase III-deficiency via P1 phage transduction. The results revealed that it could simultaneously express recombinant proteins and dsRNA. Conclusion: Co-expression of viral capsid proteins and dsRNA in the same cell has been shown to be feasible. Not only could this platform serve as a basis for future cost-effective and streamlined production of shrimp antiviral therapeutics, it may be applicable for other applications that requires co-expression of recombinant proteins and dsRNA. 2022-08-04T08:46:40Z 2022-08-04T08:46:40Z 2021-12-01 Article BMC Microbiology. Vol.21, No.1 (2021) 10.1186/s12866-021-02148-8 14712180 2-s2.0-85103161732 https://repository.li.mahidol.ac.th/handle/123456789/77181 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85103161732&origin=inward |
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Immunology and Microbiology Medicine Kitti Wuthisathid Thawatchai Chaijarasphong Charoonroj Chotwiwatthanakun Monsicha Somrit Kallaya Sritunyalucksana Ornchuma Itsathitphaisarn Co-expression of double-stranded RNA and viral capsid protein in the novel engineered Escherichia coli DualX-B15(DE3) strain |
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Background: Viruses cause significant economic losses to shrimp aquaculture worldwide. In severe cases, they can lead to 100% mortality within a matter of days, hence the aquaculture industry requires antiviral strategies to minimize economic impacts. Currently, a double-stranded RNA (dsRNA)-based platform has been proven effective at a laboratory scale. The bottleneck for its industrialization is the lack of low-cost, efficient and practical delivery approaches. In an effort to bridge the gap between laboratory and farm applications, virus-like particles (VLP) have been used as nanocarriers of dsRNA. However, the implementation of this approach still suffers from high costs and a lengthy procedure, co-expression of subunits of VLP or capsid proteins (CPs) and dsRNA can be the solution for the problem. CP and dsRNA are traditionally expressed in two different E. coli hosts: protease-deficient and RNase III-deficient strains. To condense the manufacturing of dsRNA-containing VLP, this study constructed a novel E. coli strain that is able to co-express viral capsid proteins and dsRNA in the same E. coli cell. Results: A novel bacterial strain DualX-B15(DE3) was engineered to be both protease- and RNase III-deficiency via P1 phage transduction. The results revealed that it could simultaneously express recombinant proteins and dsRNA. Conclusion: Co-expression of viral capsid proteins and dsRNA in the same cell has been shown to be feasible. Not only could this platform serve as a basis for future cost-effective and streamlined production of shrimp antiviral therapeutics, it may be applicable for other applications that requires co-expression of recombinant proteins and dsRNA. |
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Mahidol University |
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Mahidol University Kitti Wuthisathid Thawatchai Chaijarasphong Charoonroj Chotwiwatthanakun Monsicha Somrit Kallaya Sritunyalucksana Ornchuma Itsathitphaisarn |
| format |
Article |
| author |
Kitti Wuthisathid Thawatchai Chaijarasphong Charoonroj Chotwiwatthanakun Monsicha Somrit Kallaya Sritunyalucksana Ornchuma Itsathitphaisarn |
| author_sort |
Kitti Wuthisathid |
| title |
Co-expression of double-stranded RNA and viral capsid protein in the novel engineered Escherichia coli DualX-B15(DE3) strain |
| title_short |
Co-expression of double-stranded RNA and viral capsid protein in the novel engineered Escherichia coli DualX-B15(DE3) strain |
| title_full |
Co-expression of double-stranded RNA and viral capsid protein in the novel engineered Escherichia coli DualX-B15(DE3) strain |
| title_fullStr |
Co-expression of double-stranded RNA and viral capsid protein in the novel engineered Escherichia coli DualX-B15(DE3) strain |
| title_full_unstemmed |
Co-expression of double-stranded RNA and viral capsid protein in the novel engineered Escherichia coli DualX-B15(DE3) strain |
| title_sort |
co-expression of double-stranded rna and viral capsid protein in the novel engineered escherichia coli dualx-b15(de3) strain |
| publishDate |
2022 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/77181 |
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1763489994607951872 |