Abstract: This invention uses our knowledge of the mechanisms by which antigen is recognized by T cells to identify and prepare Plasmodium falciparum epitopes, and to develop epitope-based vaccines directed towards malaria. More specifically, this application communicates our discovery of pharmaceutical compositions and methods of use in the prevention and treatment of malaria. In particular, this application discloses isolated peptides comprising oligopeptides, for example the oligopeptides LLACAGLAY, FLIFFDLFLV, FMKAVCVEV, VLAGLLGNV, GLIMVLSFL, KILSVFFLA, GLLGNVSTV, VLLGGVGLVL, ILSVSSFLFV, QTNFKSLLR, LACAGLAYK, ALFFIIFNK, LLACAGLAYK, HVLSHNSYEK, FILVNLLIFH, FQDEENIGIY, PSDGKCNLY, YYIPHQSSL, FYFILVNLL, KYLVIVFLI and KYKLATSVL, or isolated peptides conjugated with T helper peptides that are used as antigens in epitope-based vaccines to prevent and/or treat malaria.

Abstract: This invention uses our knowledge of the mechanisms by which antigen is recognized by T cells to identify and prepare Plasmodium falciparum epitopes, and to develop epitope-based vaccines directed towards malaria. More specifically, this application communicates our discovery of pharmaceutical compositions and methods of use in the prevention and treatment of malaria. In particular, this application discloses isolated peptides comprising oligopeptides, for example the oligopeptide GVSENIFLK, or isolated peptides conjugated with T helper peptides that are used as antigens in epitope-based vaccines to prevent and/or treat malaria.

Abstract: The invention relates to the field of biology. In particular, the invention relates to a method and system for designing optimized multi-epitope vaccines having selected combinations of amino acid insertions at the junctions of the multi-epitope constructs so as to minimize the number of junctional epitopes and provide vaccines with increased immunogenicity.

Abstract: This invention uses our knowledge of the mechanisms by which antigen is recognized by T cells to identify and prepare HCV epitopes, and to develop epitope-based vaccines directed towards HCV. More specifically, this application communicates our discovery of pharmaceutical compositions and methods of use in the prevention and treatment of HCV infection.

Abstract: The invention relates to the field of biology. In particular, the invention relates to a method and system for designing optimized multi-epitope vaccines having selected combinations of amino acid insertions at the junctions of the multi-epitope constructs so as to minimize the number of junctional epitopes and provide vaccines with increased immunogenicity.

Abstract: The invention relates to the field of biology. In particular, the invention relates to a method and system for designing optimized multi-epitope vaccines having selected combinations of spacer nucleic acid at the junctions of the multi-epitope constructs encoding a plurality of CTL and/or HTL eoutioe oeotudes so as to minimize the number of junciontal epitopes and provide vaccines with increased immunogenicity.

Abstract: The invention relates to the field of biology. In particular, the invention relates to a method and system for designing optimized multi-epitope vaccines having selected combinations of amino acid insertions at the junctions of the multi-epitope constructs so as to minimize the number of junctional epitopes and provide vaccines with increased immunogenicity.