DOI

The genetic variability of population may explain different individual immune responses to the SARS-CoV-2 virus. The use of genome- and peptidome-based technologies makes it possible to develop vaccines by optimizing the target antigens. The computer modeling methodology provides the scientific community with a more complete list of immunogenic peptides, including a number of new and cross-reactive candidates. Studies conducted independently of each other with different approaches provide a high degree of confidence in the reproducibility of results. Most of the effort in developing vaccines and drugs against SARS-CoV-2 is directed towards the thorn glycoprotein (protein S), a major inducer of neutralizing antibodies. Several vaccines have been shown to be effective in the preclinical studies and have been tested in the clinical trials to combat the COVID-19 infection. This review presents the profile of in silico predicted immunogenic peptides of the SARS-CoV-2 virus for the subsequent functional validation and vaccine development, and highlights the current advances in the development of subunit vaccines to combat COVID-19, taking into account the experience that has been previously achieved with SARS-CoV and MERS-CoV. The immunoinformatics techniques reduce the time and cost of developing vaccines that together can stop this new viral infection.
Translated title of the contributionCOMPUTER SIMULATION IN THE DEVELOPMENT OF VACCINES AGAINST COVID-19 BASED ON THE HLA-SYSTEM ANTIGENS
Original languageRussian
Pages (from-to)51-70
JournalКлиническая практика
Volume12
Issue number3
DOIs
StatePublished - 2021

    Research areas

  • CORONAVIRUS, IMMUNOGENIC PEPTIDES, ANTIGEN, vaccine, Epitope, Computational prediction, Computer simulation in silico, IMMUNOINFORMATICS

ID: 89306408