Utilization of genomic sequence information to develop malaria vaccines

Recent advances in the fields of genomics, proteomics and molecular immunology offer tremendous opportunities for the development of novel interventions against public health threats, including malaria. However, there is currently no algorithm that can effectively identify the targets of protective...

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Veröffentlicht in:	Journal of experimental biology 2003-11, Vol.206 (Pt 21), p.3789-3802
Hauptverfasser:	Doolan, D L, Aguiar, J C, Weiss, W R, Sette, A, Felgner, P L, Regis, D P, Quinones-Casas, P, Yates, 3rd, J R, Blair, P L, Richie, T L, Hoffman, S L, Carucci, D J
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Sprache:	eng
Schlagworte:	Animals Antigens, Protozoan - genetics Epitopes - genetics Gene Expression Genome, Protozoan Malaria Vaccines - genetics Models, Immunological Open Reading Frames - genetics Plasmodium falciparum - genetics Polymerase Chain Reaction Protein Array Analysis Vaccines, Synthetic
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container_end_page	3802
container_issue	Pt 21
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container_title	Journal of experimental biology
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creator	Doolan, D L Aguiar, J C Weiss, W R Sette, A Felgner, P L Regis, D P Quinones-Casas, P Yates, 3rd, J R Blair, P L Richie, T L Hoffman, S L Carucci, D J
description	Recent advances in the fields of genomics, proteomics and molecular immunology offer tremendous opportunities for the development of novel interventions against public health threats, including malaria. However, there is currently no algorithm that can effectively identify the targets of protective T cell or antibody responses from genomic data. Furthermore, the identification of antigens that will stimulate the most effective immunity against the target pathogen is problematic, particularly if the genome is large. Malaria is an attractive model for the development and validation of approaches to translate genomic information to vaccine development because of the critical need for effective anti-malarial interventions and because the Plasmodium parasite is a complex multistage pathogen targeted by multiple immune responses. Sterile protective immunity can be achieved by immunization with radiation-attenuated sporozoites, and anti-disease immunity can be induced in residents in malaria-endemic areas. However, the 23 Mb Plasmodium falciparum genome encodes more than 5,300 proteins, each of which is a potential target of protective immune responses. The current generation of subunit vaccines is based on a single or few antigens and therefore might elicit too narrow a breadth of response. We are working towards the development of a new generation vaccine based on the presumption that duplicating the protection induced by the whole organism may require a vaccine nearly as complex as the organism itself. Here, we present our strategy to exploit the genomic sequence of P. falciparum for malaria vaccine development.
doi_str_mv	10.1242/jeb.00615
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The current generation of subunit vaccines is based on a single or few antigens and therefore might elicit too narrow a breadth of response. We are working towards the development of a new generation vaccine based on the presumption that duplicating the protection induced by the whole organism may require a vaccine nearly as complex as the organism itself. 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The current generation of subunit vaccines is based on a single or few antigens and therefore might elicit too narrow a breadth of response. We are working towards the development of a new generation vaccine based on the presumption that duplicating the protection induced by the whole organism may require a vaccine nearly as complex as the organism itself. 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subjects	Animals Antigens, Protozoan - genetics Epitopes - genetics Gene Expression Genome, Protozoan Malaria Vaccines - genetics Models, Immunological Open Reading Frames - genetics Plasmodium falciparum - genetics Polymerase Chain Reaction Protein Array Analysis Vaccines, Synthetic
title	Utilization of genomic sequence information to develop malaria vaccines
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