EpitoCore: Mining Conserved Epitope Vaccine Candidates in the Core Proteome of Multiple Bacteria Strains

EpitoCore: Mining Conserved Epitope Vaccine Candidates in the Core Proteome of Multiple Bacteria Strains

In reverse vaccinology approaches, complete proteomes of bacteria are submitted to multiple computational prediction steps in order to filter proteins that are possible vaccine candidates. Most available tools perform such analysis only in a single strain, or a very limited number of strains. But th...

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Bibliographic Details
Main Authors: Tayna S. Fiuza, João P. M. S. Lima, Gustavo A. de Souza
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-05-01
Series:Frontiers in Immunology
Subjects:
reverse vaccinology
pangenome
prokaryotes
epitope prediction
vaccine candidates
bioinformatics
Online Access:https://www.frontiersin.org/article/10.3389/fimmu.2020.00816/full
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spelling doaj-69398a53d3da49ab87923304053837432020-11-25T02:19:33ZengFrontiers Media S.A.Frontiers in Immunology1664-32242020-05-011110.3389/fimmu.2020.00816526711EpitoCore: Mining Conserved Epitope Vaccine Candidates in the Core Proteome of Multiple Bacteria StrainsTayna S. Fiuza0João P. M. S. Lima1João P. M. S. Lima2Gustavo A. de Souza3Gustavo A. de Souza4Bioinformatics Multidisciplinary Environment, Universidade Federal do Rio Grande Do Norte-UFRN, Natal, BrazilBioinformatics Multidisciplinary Environment, Universidade Federal do Rio Grande Do Norte-UFRN, Natal, BrazilDepartment of Biochemistry, Universidade Federal do Rio Grande do Norte-UFRN, Natal, BrazilBioinformatics Multidisciplinary Environment, Universidade Federal do Rio Grande Do Norte-UFRN, Natal, BrazilDepartment of Biochemistry, Universidade Federal do Rio Grande do Norte-UFRN, Natal, BrazilIn reverse vaccinology approaches, complete proteomes of bacteria are submitted to multiple computational prediction steps in order to filter proteins that are possible vaccine candidates. Most available tools perform such analysis only in a single strain, or a very limited number of strains. But the vast amount of genomic data had shown that most bacteria contain pangenomes, i.e., their genomic information contains core, conserved genes, and random accessory genes specific to each strain. Therefore, in reverse vaccinology methods it is of the utmost importance to define core proteins and core epitopes. EpitoCore is a decision-tree pipeline developed to fulfill that need. It provides surfaceome prediction of proteins from related strains, defines core proteins within those, calculate their immunogenicity, predicts epitopes for a given set of MHC alleles defined by the user, and then reports if epitopes are located extracellularly and if they are conserved among the core homologs. Pipeline performance is illustrated by mining peptide vaccine candidates in Mycobacterium avium hominissuis strains. From a total proteome of ~4,800 proteins per strain, EpitoCore predicted 103 highly immunogenic core homologs located at cell surface, many of those related to virulence and drug resistance. Conserved epitopes identified among these homologs allows the users to define sets of peptides with potential to immunize the largest coverage of tested HLA alleles using peptide-based vaccines. Therefore, EpitoCore is able to provide automated identification of conserved epitopes in bacterial pangenomic datasets.https://www.frontiersin.org/article/10.3389/fimmu.2020.00816/fullreverse vaccinologypangenomeprokaryotesepitope predictionvaccine candidatesbioinformatics
collection DOAJ
language English
format Article
sources DOAJ
author Tayna S. Fiuza
João P. M. S. Lima
João P. M. S. Lima
Gustavo A. de Souza
Gustavo A. de Souza
spellingShingle Tayna S. Fiuza
João P. M. S. Lima
João P. M. S. Lima
Gustavo A. de Souza
Gustavo A. de Souza
EpitoCore: Mining Conserved Epitope Vaccine Candidates in the Core Proteome of Multiple Bacteria Strains
Frontiers in Immunology
reverse vaccinology
pangenome
prokaryotes
epitope prediction
vaccine candidates
bioinformatics
author_facet Tayna S. Fiuza
João P. M. S. Lima
João P. M. S. Lima
Gustavo A. de Souza
Gustavo A. de Souza
author_sort Tayna S. Fiuza
title EpitoCore: Mining Conserved Epitope Vaccine Candidates in the Core Proteome of Multiple Bacteria Strains
title_short EpitoCore: Mining Conserved Epitope Vaccine Candidates in the Core Proteome of Multiple Bacteria Strains
title_full EpitoCore: Mining Conserved Epitope Vaccine Candidates in the Core Proteome of Multiple Bacteria Strains
title_fullStr EpitoCore: Mining Conserved Epitope Vaccine Candidates in the Core Proteome of Multiple Bacteria Strains
title_full_unstemmed EpitoCore: Mining Conserved Epitope Vaccine Candidates in the Core Proteome of Multiple Bacteria Strains
title_sort epitocore: mining conserved epitope vaccine candidates in the core proteome of multiple bacteria strains
publisher Frontiers Media S.A.
series Frontiers in Immunology
issn 1664-3224
publishDate 2020-05-01
description In reverse vaccinology approaches, complete proteomes of bacteria are submitted to multiple computational prediction steps in order to filter proteins that are possible vaccine candidates. Most available tools perform such analysis only in a single strain, or a very limited number of strains. But the vast amount of genomic data had shown that most bacteria contain pangenomes, i.e., their genomic information contains core, conserved genes, and random accessory genes specific to each strain. Therefore, in reverse vaccinology methods it is of the utmost importance to define core proteins and core epitopes. EpitoCore is a decision-tree pipeline developed to fulfill that need. It provides surfaceome prediction of proteins from related strains, defines core proteins within those, calculate their immunogenicity, predicts epitopes for a given set of MHC alleles defined by the user, and then reports if epitopes are located extracellularly and if they are conserved among the core homologs. Pipeline performance is illustrated by mining peptide vaccine candidates in Mycobacterium avium hominissuis strains. From a total proteome of ~4,800 proteins per strain, EpitoCore predicted 103 highly immunogenic core homologs located at cell surface, many of those related to virulence and drug resistance. Conserved epitopes identified among these homologs allows the users to define sets of peptides with potential to immunize the largest coverage of tested HLA alleles using peptide-based vaccines. Therefore, EpitoCore is able to provide automated identification of conserved epitopes in bacterial pangenomic datasets.
topic reverse vaccinology
pangenome
prokaryotes
epitope prediction
vaccine candidates
bioinformatics
url https://www.frontiersin.org/article/10.3389/fimmu.2020.00816/full
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