Mosaic vaccine design targeting mutational spike protein of SARS- CoV-2: An immunoinformatics approach

Introduction: Presently, the development of effective vaccines against SARS-CoV-2 is absolutely necessary, especially regarding the emergence of new variants that cause increasing morbidity and fatalities. Methods: In the present study we designed a mosaic vaccine targeting the mutational spike prot...

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Hauptverfasser: Ysrafil, Ysrafil, Imran, Arlan K., Wicita, Prisca Syafriani, Kamba, Vyani, Mohamad, Fihrina, Ismail, Ismail, Nurung, Ayyub Harly, Gama, Noviyanty Indjar, Pratiwi, Sari Eka, Astuti, Indwiani, Nainu, Firzan, Emran, Talha Bin
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container_title Bioimpacts
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creator Ysrafil, Ysrafil
Imran, Arlan K.
Wicita, Prisca Syafriani
Kamba, Vyani
Mohamad, Fihrina
Ismail, Ismail
Nurung, Ayyub Harly
Gama, Noviyanty Indjar
Pratiwi, Sari Eka
Astuti, Indwiani
Nainu, Firzan
Emran, Talha Bin
description Introduction: Presently, the development of effective vaccines against SARS-CoV-2 is absolutely necessary, especially regarding the emergence of new variants that cause increasing morbidity and fatalities. Methods: In the present study we designed a mosaic vaccine targeting the mutational spike protein of COVID-19 using a bioinformatics approach. Various immunoinformatics tools were utilized to provide the highest potential for a mosaic vaccine that could activate immune responses against COVID-19. Results: The evaluation of the constructed vaccine revealed that it is antigenic and immunogenic as well as nonallergenic. The physicochemical properties also show promising characteristics, including being highly stable and hydrophilic. As expected, the vaccine shows strong interactions with several important receptors including angiotensin-converting enzyme 2 (ACE2), Toll-like receptor 3 (TLR3) and TLR8 by the lowest energy level, docking score and binding free energy. The vaccine binds to receptors via certain amino acids using various types of binding including salt bridges, hydrogen bonds, and other means. As shown in computationally derived models, the interactions promote activation of the immune response by eliciting the release of various cytokines, antibodies, memory B and T cells, as well as increasing of natural killer cell and dendrite cell counts. Conclusion: Therefore, the novel designed mosaic vaccine could be considered as a potential vaccine candidate for immediate production to stem the continuing and tragic effects of the COVID-19 pandemic. However, several advanced experimental studies should be conducted to ensure and verify the effectivity and safety against SARS‑CoV‑2 in vivo.
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As shown in computationally derived models, the interactions promote activation of the immune response by eliciting the release of various cytokines, antibodies, memory B and T cells, as well as increasing of natural killer cell and dendrite cell counts. Conclusion: Therefore, the novel designed mosaic vaccine could be considered as a potential vaccine candidate for immediate production to stem the continuing and tragic effects of the COVID-19 pandemic. 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title Mosaic vaccine design targeting mutational spike protein of SARS- CoV-2: An immunoinformatics approach
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