2016
DOI: 10.1084/jem.20151960
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Reverse vaccinology 2.0: Human immunology instructs vaccine antigen design

Abstract: Traditionally, vaccines have been developed empirically by isolating, inactivating, and injecting the microorganisms (or portions of them) that cause disease (Table 1; Rappuoli, 2014). Two decades ago, genome sequencing revolutionized this process, allowing for the discovery of novel vaccine antigens starting directly from genomic information. The process was named "reverse vaccinology" to underline that vaccine design was possible starting from sequence information without the need to grow pathogens (Rappuoli… Show more

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Cited by 333 publications
(250 citation statements)
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References 101 publications
(130 reference statements)
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“…6). In this approach, researchers mine the thousands of proteins encoded by bacterial genes in search of possible vaccine candidates, such as proteins that are exposed on the cell surface.…”
Section: Deploy Vaccines To Fight Superbugsmentioning
confidence: 99%
See 1 more Smart Citation
“…6). In this approach, researchers mine the thousands of proteins encoded by bacterial genes in search of possible vaccine candidates, such as proteins that are exposed on the cell surface.…”
Section: Deploy Vaccines To Fight Superbugsmentioning
confidence: 99%
“…For example, scientists are analysing the atomic structure of antigens with a view to modifying them to make them more effective as vaccines. Progress in immunology and synthetic biology, too, are likely to make it possible for researchers to tackle diseases that have so far remained out of reach, such as respiratory syncytial virus and cytomegalovirus 6 .…”
Section: Deploy Vaccines To Fight Superbugsmentioning
confidence: 99%
“…If a vaccine that induces a cellular response is needed, for example a tuberculosis vaccine [22] or a parasite vaccine against leishmaniasis [23], the software must search for antigens that can be recognized by the major histocompatibility complex (MHC) molecules present in T lymphocytes [4]. On the other hand, if a humoral response is required, the software needs to identify antigens for B cells, for example, in the case of inluenza virus or HIV [24,25]. There is software that speciically searches for sequential epitopes for B cells, including BCPREDS, BepiPred, BEpro or PEPITO, ABCpred, Bcepred, IgPred, and BCEP.…”
Section: Immunoinformaticsmentioning
confidence: 99%
“…5 This approach led to today's suite of licensed vaccines. However, the traditional approach had limited scope for identifying potential novel antigens (neoantigens).…”
Section: Reverse Vaccinologymentioning
confidence: 99%