Design of an epitope-based peptide vaccine against the SARS-CoV-2: a vaccine-informatics approach

Abstract The recurrent and recent global outbreak of the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) has turned into a global concern which has infected more than 42 million people all over the globe, and this number is increasing in hours. Unfortunately, no vaccine or specific trea...

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Published inBriefings in bioinformatics Vol. 22; no. 2; pp. 1309 - 1323
Main Authors Alam, Aftab, Khan, Arbaaz, Imam, Nikhat, Siddiqui, Mohd Faizan, Waseem, Mohd, Malik, Md Zubbair, Ishrat, Romana
Format Journal Article
LanguageEnglish
Published England Oxford University Press 22.03.2021
Oxford Publishing Limited (England)
Subjects
Amino Acid Sequence
Antigens
Bone marrow
Case Study
CD4 antigen
CD8 antigen
Cell differentiation
Clusters
Computational Biology
Coronaviruses
COVID-19
COVID-19 - immunology
COVID-19 - prevention & control
Differentiation
Epitope mapping
Epitopes, B-Lymphocyte - chemistry
Epitopes, B-Lymphocyte - immunology
Epitopes, T-Lymphocyte - chemistry
Epitopes, T-Lymphocyte - immunology
Glycoproteins
Grooves
Histocompatibility antigen HLA
HLA Antigens - chemistry
Horizon
Humans
In vivo methods and tests
Informatics
Leukocytes
Lymphocytes T
Molecular Docking Simulation
Peptide mapping
Peptides
SARS-CoV-2 - immunology
Severe acute respiratory syndrome coronavirus 2
Vaccine development
Vaccines
Vaccines, Subunit - chemistry
Vaccines, Subunit - immunology
Viral diseases
COVID-19
population coverage
epitope prediction
T- and B-cell
molecular docking
vaccinomics
allergenicity
immunogenicity
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Abstract Abstract The recurrent and recent global outbreak of the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) has turned into a global concern which has infected more than 42 million people all over the globe, and this number is increasing in hours. Unfortunately, no vaccine or specific treatment is available, which makes it more deadly. A vaccine-informatics approach has shown significant breakthrough in peptide-based epitope mapping and opens the new horizon in vaccine development. In this study, we have identified a total of 15 antigenic peptides [including thymus cells (T-cells) and bone marrow or bursa-derived cells] in the surface glycoprotein (SG) of SARS-CoV-2 which is nontoxic and nonallergenic in nature, nonallergenic, highly antigenic and non-mutated in other SARS-CoV-2 virus strains. The population coverage analysis has found that cluster of differentiation 4 (CD4+) T-cell peptides showed higher cumulative population coverage over cluster of differentiation 8 (CD8+) peptides in the 16 different geographical regions of the world. We identified 12 peptides ((LTDEMIAQY, WTAGAAAYY, WMESEFRVY, IRASANLAA, FGAISSVLN, VKQLSSNFG, FAMQMAYRF, FGAGAALQI, YGFQPTNGVGYQ, LPDPSKPSKR, QTQTNSPRRARS and VITPGTNTSN) that are $80\hbox{--} 90\%$ identical with experimentally determined epitopes of SARS-CoV, and this will likely be beneficial for a quick progression of the vaccine design. Moreover, docking analysis suggested that the identified peptides are tightly bound in the groove of human leukocyte antigen molecules which can induce the T-cell response. Overall, this study allows us to determine potent peptide antigen targets in the SG on intuitive grounds, which opens up a new horizon in the coronavirus disease (COVID-19) research. However, this study needs experimental validation by in vitro and in vivo.
AbstractList The recurrent and recent global outbreak of the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) has turned into a global concern which has infected more than 42 million people all over the globe, and this number is increasing in hours. Unfortunately, no vaccine or specific treatment is available, which makes it more deadly. A vaccine-informatics approach has shown significant breakthrough in peptide-based epitope mapping and opens the new horizon in vaccine development. In this study, we have identified a total of 15 antigenic peptides [including thymus cells (T-cells) and bone marrow or bursa-derived cells] in the surface glycoprotein (SG) of SARS-CoV-2 which is nontoxic and nonallergenic in nature, nonallergenic, highly antigenic and non-mutated in other SARS-CoV-2 virus strains. The population coverage analysis has found that cluster of differentiation 4 (CD4+) T-cell peptides showed higher cumulative population coverage over cluster of differentiation 8 (CD8+) peptides in the 16 different geographical regions of the world. We identified 12 peptides ((LTDEMIAQY, WTAGAAAYY, WMESEFRVY, IRASANLAA, FGAISSVLN, VKQLSSNFG, FAMQMAYRF, FGAGAALQI, YGFQPTNGVGYQ, LPDPSKPSKR, QTQTNSPRRARS and VITPGTNTSN) that are $80\hbox{--} 90\%$ identical with experimentally determined epitopes of SARS-CoV, and this will likely be beneficial for a quick progression of the vaccine design. Moreover, docking analysis suggested that the identified peptides are tightly bound in the groove of human leukocyte antigen molecules which can induce the T-cell response. Overall, this study allows us to determine potent peptide antigen targets in the SG on intuitive grounds, which opens up a new horizon in the coronavirus disease (COVID-19) research. However, this study needs experimental validation by in vitro and in vivo.
Abstract The recurrent and recent global outbreak of the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) has turned into a global concern which has infected more than 42 million people all over the globe, and this number is increasing in hours. Unfortunately, no vaccine or specific treatment is available, which makes it more deadly. A vaccine-informatics approach has shown significant breakthrough in peptide-based epitope mapping and opens the new horizon in vaccine development. In this study, we have identified a total of 15 antigenic peptides [including thymus cells (T-cells) and bone marrow or bursa-derived cells] in the surface glycoprotein (SG) of SARS-CoV-2 which is nontoxic and nonallergenic in nature, nonallergenic, highly antigenic and non-mutated in other SARS-CoV-2 virus strains. The population coverage analysis has found that cluster of differentiation 4 (CD4+) T-cell peptides showed higher cumulative population coverage over cluster of differentiation 8 (CD8+) peptides in the 16 different geographical regions of the world. We identified 12 peptides ((LTDEMIAQY, WTAGAAAYY, WMESEFRVY, IRASANLAA, FGAISSVLN, VKQLSSNFG, FAMQMAYRF, FGAGAALQI, YGFQPTNGVGYQ, LPDPSKPSKR, QTQTNSPRRARS and VITPGTNTSN) that are $80\hbox{--} 90\%$ identical with experimentally determined epitopes of SARS-CoV, and this will likely be beneficial for a quick progression of the vaccine design. Moreover, docking analysis suggested that the identified peptides are tightly bound in the groove of human leukocyte antigen molecules which can induce the T-cell response. Overall, this study allows us to determine potent peptide antigen targets in the SG on intuitive grounds, which opens up a new horizon in the coronavirus disease (COVID-19) research. However, this study needs experimental validation by in vitro and in vivo.
The recurrent and recent global outbreak of the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) has turned into a global concern which has infected more than 42 million people all over the globe, and this number is increasing in hours. Unfortunately, no vaccine or specific treatment is available, which makes it more deadly. A vaccine-informatics approach has shown significant breakthrough in peptide-based epitope mapping and opens the new horizon in vaccine development. In this study, we have identified a total of 15 antigenic peptides [including thymus cells (T-cells) and bone marrow or bursa-derived cells] in the surface glycoprotein (SG) of SARS-CoV-2 which is nontoxic and nonallergenic in nature, nonallergenic, highly antigenic and non-mutated in other SARS-CoV-2 virus strains. The population coverage analysis has found that cluster of differentiation 4 (CD4 + ) T-cell peptides showed higher cumulative population coverage over cluster of differentiation 8 (CD8 + ) peptides in the 16 different geographical regions of the world. We identified 12 peptides ((LTDEMIAQY, WTAGAAAYY, WMESEFRVY, IRASANLAA, FGAISSVLN, VKQLSSNFG, FAMQMAYRF, FGAGAALQI, YGFQPTNGVGYQ, LPDPSKPSKR, QTQTNSPRRARS and VITPGTNTSN) that are \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{upgreek} \usepackage{mathrsfs} \setlength{\oddsidemargin}{-69pt} \begin{document} }{}$80\hbox{--} 90\%$\end{document} identical with experimentally determined epitopes of SARS-CoV, and this will likely be beneficial for a quick progression of the vaccine design. Moreover, docking analysis suggested that the identified peptides are tightly bound in the groove of human leukocyte antigen molecules which can induce the T-cell response. Overall, this study allows us to determine potent peptide antigen targets in the SG on intuitive grounds, which opens up a new horizon in the coronavirus disease (COVID-19) research. However, this study needs experimental validation by in vitro and in vivo .
Author Imam, Nikhat
Ishrat, Romana
Siddiqui, Mohd Faizan
Alam, Aftab
Waseem, Mohd
Khan, Arbaaz
Malik, Md Zubbair
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  surname: Ishrat
  fullname: Ishrat, Romana
  email: rishrat@jmi.ac.in
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Issue 2
Keywords COVID-19
population coverage
epitope prediction
T- and B-cell
molecular docking
vaccinomics
allergenicity
immunogenicity
Language English
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    fullname: Knutson
– volume: 47
  start-page: 45
  year: 1978
  ident: 2021032314290302500_ref32
  article-title: Prediction of the secondary structure of proteins from their amino acid sequence
  publication-title: Adv Enzymol Relat Areas Mol Biol
  contributor:
    fullname: Chou
SSID ssj0020781
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Snippet Abstract The recurrent and recent global outbreak of the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) has turned into a global concern which...
The recurrent and recent global outbreak of the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) has turned into a global concern which has...
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StartPage 1309
SubjectTerms Amino Acid Sequence
Antigens
Bone marrow
Case Study
CD4 antigen
CD8 antigen
Cell differentiation
Clusters
Computational Biology
Coronaviruses
COVID-19
COVID-19 - immunology
COVID-19 - prevention & control
Differentiation
Epitope mapping
Epitopes, B-Lymphocyte - chemistry
Epitopes, B-Lymphocyte - immunology
Epitopes, T-Lymphocyte - chemistry
Epitopes, T-Lymphocyte - immunology
Glycoproteins
Grooves
Histocompatibility antigen HLA
HLA Antigens - chemistry
Horizon
Humans
In vivo methods and tests
Informatics
Leukocytes
Lymphocytes T
Molecular Docking Simulation
Peptide mapping
Peptides
SARS-CoV-2 - immunology
Severe acute respiratory syndrome coronavirus 2
Vaccine development
Vaccines
Vaccines, Subunit - chemistry
Vaccines, Subunit - immunology
Viral diseases
Title Design of an epitope-based peptide vaccine against the SARS-CoV-2: a vaccine-informatics approach
URI https://www.ncbi.nlm.nih.gov/pubmed/33285567
https://www.proquest.com/docview/2529967549
https://search.proquest.com/docview/2468340337
https://pubmed.ncbi.nlm.nih.gov/PMC7799329
Volume 22
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