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Plant-Expressed Receptor Binding Domain of the SARS-CoV-2 Spike Protein Elicits Humoral Immunity in Mice

Vaccines (Basel). 2021-09; 
Puna Maya Maharjan, Jinyeong Cheon, Jiyun Jung, Haerim Kim, Jaewon Lee, Minjeong Song, Gi Uk Jeong, Youngchan Kwon, Byoungshik Shim, Sunghwa Choe
Products/Services Used Details Operation
Codon Optimization The nucleotide sequences encoding amino acid residues 319–541 of the S protein (Protein ID YP_009724390.1) corresponding to its RBD were codon-optimized to improve expression in N. benthamiana and synthesized by GenScript Get A Quote

摘要

The current 15-month coronavirus disease-19 (COVID-19) pandemic caused by SARS-CoV-2 has accounted for 3.77 million deaths and enormous worldwide social and economic losses. A high volume of vaccine production is urgently required to eliminate COVID-19. Inexpensive and robust production platforms will improve the distribution of vaccines to resource-limited countries. Plant species offer such platforms, particularly through the production of recombinant proteins to serve as immunogens. To achieve this goal, here we expressed the receptor binding domain (RBD) of the SARS-CoV-2 spike (S) protein in the glycoengineered-tobacco plant to provide a candidate subunit vaccine. This recombinant RBD elicited humoral imm... More

关键词

COVID-19, Nicotiana benthamiana, SARS-CoV-2, glycoengineering, humoral immunity, neutralizing antibody, plant specific glycosylation, plant-based vaccine, receptor binding domain (RBD), transient expression
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