A Critical Assessment of COVID-19 Genomic Vaccines

Abstract

Vaccines are instrumental tools to fight against novel and re-emerging pathogens and curb pandemics. Vaccination has been an integral part of the multifaceted public health response to the COVID-19 pandemic. Diverse vaccine platforms have been designed and are currently at different stages of development. Some vaccines are still in early biological testing, while others have been launched after being approved by regulatory agencies worldwide. Genomic vaccines that deliver parts of the viral DNA or RNA to host cells have gained popularity recently due to their high efficiency and fast manufacture. Furthermore, recent clinical studies encouraged the use of different vaccine platforms within the primary vaccination course to enhance the efficacy of vaccination. Herein, we discuss COVID-19 genomic vaccines, which deliver viral genetic material to host cells through diverse biotechnology platforms, including viral vector vaccines, messenger RNA nucleic acid vaccines, and DNA nucleic acid vaccines. We compare and contrast vaccine characteristics, composition, and pros and cons among different genomic vaccine platforms as well as non-genomic vaccines. This review summarizes all current knowledge about COVID-19 genomic vaccines, which could be highly valuable to researchers interested in public health and vaccine development.

Keywords: .andemic.; .athogens; .mmunogenicity; COVID-19 genomic vaccines; COVID-19 messenger RNA (mRNA) vaccines; DNA vaccines.