An Allergen Portrait Gallery: Representative Structures and an Overview of IgE Binding Surfaces

An Allergen Portrait Gallery: Representative Structures and an Overview of IgE Binding Surfaces

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Recent progress in the biochemical classification and structural determination of allergens and allergen–antibody complexes has enhanced our understanding of the molecular determinants of allergenicity. Databases of allergens and their epitopes have facilitated the clustering of allergens according...

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Main Authors: Ovidiu Ivanciuc, Werner Braun, Randall M. Goldblum, Terumi Midoro-Horiuti, Catherine H. Schein
Format: Article
Language:English
Published: SAGE Publishing 2010-10-01
Series:Bioinformatics and Biology Insights
Online Access:http://la-press.com/an-allergen-portrait-gallery-representative-structures-and-an-overview-a2289
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spelling doaj-623d6608c8c34b2e976976d31e1a66792020-11-25T03:43:55ZengSAGE PublishingBioinformatics and Biology Insights1177-93222010-10-0120104113125An Allergen Portrait Gallery: Representative Structures and an Overview of IgE Binding SurfacesOvidiu IvanciucWerner BraunRandall M. GoldblumTerumi Midoro-HoriutiCatherine H. ScheinRecent progress in the biochemical classification and structural determination of allergens and allergen–antibody complexes has enhanced our understanding of the molecular determinants of allergenicity. Databases of allergens and their epitopes have facilitated the clustering of allergens according to their sequences and, more recently, their structures. Groups of similar sequences are identified for allergenic proteins from diverse sources, and all allergens are classified into a limited number of protein structural families. A gallery of experimental structures selected from the protein classes with the largest number of allergens demonstrate the structural diversity of the allergen universe. Further comparison of these structures and identification of areas that are different from innocuous proteins within the same protein family can be used to identify features specific to known allergens. Experimental and computational results related to the determination of IgE binding surfaces and methods to define allergen-specific motifs are highlighted. http://la-press.com/an-allergen-portrait-gallery-representative-structures-and-an-overview-a2289
collection DOAJ
language English
format Article
sources DOAJ
author Ovidiu Ivanciuc
Werner Braun
Randall M. Goldblum
Terumi Midoro-Horiuti
Catherine H. Schein
spellingShingle Ovidiu Ivanciuc
Werner Braun
Randall M. Goldblum
Terumi Midoro-Horiuti
Catherine H. Schein
An Allergen Portrait Gallery: Representative Structures and an Overview of IgE Binding Surfaces
Bioinformatics and Biology Insights
author_facet Ovidiu Ivanciuc
Werner Braun
Randall M. Goldblum
Terumi Midoro-Horiuti
Catherine H. Schein
author_sort Ovidiu Ivanciuc
title An Allergen Portrait Gallery: Representative Structures and an Overview of IgE Binding Surfaces
title_short An Allergen Portrait Gallery: Representative Structures and an Overview of IgE Binding Surfaces
title_full An Allergen Portrait Gallery: Representative Structures and an Overview of IgE Binding Surfaces
title_fullStr An Allergen Portrait Gallery: Representative Structures and an Overview of IgE Binding Surfaces
title_full_unstemmed An Allergen Portrait Gallery: Representative Structures and an Overview of IgE Binding Surfaces
title_sort allergen portrait gallery: representative structures and an overview of ige binding surfaces
publisher SAGE Publishing
series Bioinformatics and Biology Insights
issn 1177-9322
publishDate 2010-10-01
description Recent progress in the biochemical classification and structural determination of allergens and allergen–antibody complexes has enhanced our understanding of the molecular determinants of allergenicity. Databases of allergens and their epitopes have facilitated the clustering of allergens according to their sequences and, more recently, their structures. Groups of similar sequences are identified for allergenic proteins from diverse sources, and all allergens are classified into a limited number of protein structural families. A gallery of experimental structures selected from the protein classes with the largest number of allergens demonstrate the structural diversity of the allergen universe. Further comparison of these structures and identification of areas that are different from innocuous proteins within the same protein family can be used to identify features specific to known allergens. Experimental and computational results related to the determination of IgE binding surfaces and methods to define allergen-specific motifs are highlighted.
url http://la-press.com/an-allergen-portrait-gallery-representative-structures-and-an-overview-a2289
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