Conserved binding regions provide the clue for peptide-based vaccine development: A chemical perspective

Synthetic peptides have become invaluable biomedical research and medicinal chemistry tools for studying functional roles, i.e., binding or proteolytic activity, naturally-occurring regions' immunogenicity in proteins and developing therapeutic agents and vaccines. Synthetic peptides can mimic...

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Fecha de publicación:: 2017

Institución:: Universidad del Rosario

Repositorio:: Repositorio EdocUR - U. Rosario

Idioma:: eng

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dc.title.spa.fl_str_mv	Conserved binding regions provide the clue for peptide-based vaccine development: A chemical perspective
title	Conserved binding regions provide the clue for peptide-based vaccine development: A chemical perspective
spellingShingle	Conserved binding regions provide the clue for peptide-based vaccine development: A chemical perspective Lymphocyte antigen receptor Malaria vaccine Peptide Protein binding Amino acid sequence Animal Binding site Chemistry Haplorhini Human Immunology Major histocompatibility complex Metabolism Molecular model Plasmodium falciparum Protein conformation Amino acid sequence Animals Binding sites Haplorhini Humans Major histocompatibility complex Malaria vaccines Peptides Plasmodium falciparum Protein binding Protein conformation Immunogenicity Malaria vaccine Structure Synthetic peptides Therapeutics antigen molecular t-cell Models Receptors
title_short	Conserved binding regions provide the clue for peptide-based vaccine development: A chemical perspective
title_full	Conserved binding regions provide the clue for peptide-based vaccine development: A chemical perspective
title_fullStr	Conserved binding regions provide the clue for peptide-based vaccine development: A chemical perspective
title_full_unstemmed	Conserved binding regions provide the clue for peptide-based vaccine development: A chemical perspective
title_sort	Conserved binding regions provide the clue for peptide-based vaccine development: A chemical perspective
dc.subject.keyword.spa.fl_str_mv	Lymphocyte antigen receptor Malaria vaccine Peptide Protein binding Amino acid sequence Animal Binding site Chemistry Haplorhini Human Immunology Major histocompatibility complex Metabolism Molecular model Plasmodium falciparum Protein conformation Amino acid sequence Animals Binding sites Haplorhini Humans Major histocompatibility complex Malaria vaccines Peptides Plasmodium falciparum Protein binding Protein conformation Immunogenicity Malaria vaccine Structure Synthetic peptides Therapeutics
topic	Lymphocyte antigen receptor Malaria vaccine Peptide Protein binding Amino acid sequence Animal Binding site Chemistry Haplorhini Human Immunology Major histocompatibility complex Metabolism Molecular model Plasmodium falciparum Protein conformation Amino acid sequence Animals Binding sites Haplorhini Humans Major histocompatibility complex Malaria vaccines Peptides Plasmodium falciparum Protein binding Protein conformation Immunogenicity Malaria vaccine Structure Synthetic peptides Therapeutics antigen molecular t-cell Models Receptors
dc.subject.keyword.eng.fl_str_mv	antigen molecular t-cell Models Receptors
description	Synthetic peptides have become invaluable biomedical research and medicinal chemistry tools for studying functional roles, i.e., binding or proteolytic activity, naturally-occurring regions' immunogenicity in proteins and developing therapeutic agents and vaccines. Synthetic peptides can mimic protein sites; their structure and function can be easily modulated by specific amino acid replacement. They have major advantages, i.e., they are cheap, easily-produced and chemically stable, lack infectious and secondary adverse reactions and can induce immune responses via T- and B-cell epitopes. Our group has previously shown that using synthetic peptides and adopting a functional approach has led to identifying Plasmodium falciparum conserved regions binding to host cells. Conserved high activity binding peptides' (cHABPs) physicochemical, structural and immunological characteristics have been taken into account for properly modifying and converting them into highly immunogenic, protection-inducing peptides (mHABPs) in the experimental Aotus monkey model. This article describes stereo-electron and topochemical characteristics regarding major histocompatibility complex (MHC)-mHABP-T-cell receptor (TCR) complex formation. Some mHABPs in this complex inducing long-lasting, protective immunity have been named immune protection-inducing protein structures (IMPIPS), forming the subunit components in chemically synthesized vaccines. This manuscript summarizes this particular field and adds our recent findings concerning intramolecular interactions (H-bonds or-interactions) enabling proper IMPIPS structure as well as the peripheral flanking residues (PFR) to stabilize the MHCII-IMPIPS-TCR interaction, aimed at inducing long-lasting, protective immunological memory. © 2017 by the authors. Licensee MDPI, Basel, Switzerland.1.
publishDate	2017
dc.date.created.spa.fl_str_mv	2017
dc.date.accessioned.none.fl_str_mv	2020-05-25T23:57:12Z
dc.date.available.none.fl_str_mv	2020-05-25T23:57:12Z
dc.type.eng.fl_str_mv	article
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dc.type.spa.spa.fl_str_mv	Artículo
dc.identifier.doi.none.fl_str_mv	https://doi.org/10.3390/molecules22122199
dc.identifier.issn.none.fl_str_mv	14203049
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url	https://doi.org/10.3390/molecules22122199 https://repository.urosario.edu.co/handle/10336/22627
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dc.language.iso.spa.fl_str_mv	eng
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dc.relation.citationIssue.none.fl_str_mv	No. 12
dc.relation.citationTitle.none.fl_str_mv	Molecules
dc.relation.citationVolume.none.fl_str_mv	Vol. 22
dc.relation.ispartof.spa.fl_str_mv	Molecules, ISSN:14203049, Vol.22, No.12 (2017)
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dc.publisher.spa.fl_str_mv	MDPI AG
institution	Universidad del Rosario
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Conserved binding regions provide the clue for peptide-based vaccine development: A chemical perspective

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