About: Abstract Methods that predict antibody epitopes could help to promote the development of diagnostic tools, vaccines or immunotherapies by affecting the epitope binding of antibodies during an immunological response to antigens. It is generally assumed that there is a direct relationship between antibody accessibility to antigens and accessible surface of proteins. Based on this assumption, prediction systems often includes solvent accessibility values calculated from the primary sequence of proteins or from their three dimensional structures as a predictive criterion. However, the current prediction systems seem weakly efficient in view of benchmark tests. We were interested in evaluating how amino acids that have been experimentally identified as epitopic elements could differ from the rest of the antigenic molecule at the level of surface exposure, hence we assessed the average accessibility of epitopes. The approach used here utilises published epitopes deduced from numerous identification techniques, including sequence scanning and structure visualisation after crystallography, and it involves many types of antigens from toxins to allergens. Our results show that epitopic residues are not distributed among any specific Relative Surface Accessibility and Protrusion Index values and that, in some cases, epitopes cover the entire antigenic sequence. These results led to the conclusion that the classification of known epitopes with respect to the experimental conditions used to identify them should be introduced before attempting to characterise epitopic areas in a generic way.

Facets (new session)
Description
Metadata
Settings
- owl:sameAs
- Inference Rule:

About: Abstract Methods that predict antibody epitopes could help to promote the development of diagnostic tools, vaccines or immunotherapies by affecting the epitope binding of antibodies during an immunological response to antigens. It is generally assumed that there is a direct relationship between antibody accessibility to antigens and accessible surface of proteins. Based on this assumption, prediction systems often includes solvent accessibility values calculated from the primary sequence of proteins or from their three dimensional structures as a predictive criterion. However, the current prediction systems seem weakly efficient in view of benchmark tests. We were interested in evaluating how amino acids that have been experimentally identified as epitopic elements could differ from the rest of the antigenic molecule at the level of surface exposure, hence we assessed the average accessibility of epitopes. The approach used here utilises published epitopes deduced from numerous identification techniques, including sequence scanning and structure visualisation after crystallography, and it involves many types of antigens from toxins to allergens. Our results show that epitopic residues are not distributed among any specific Relative Surface Accessibility and Protrusion Index values and that, in some cases, epitopes cover the entire antigenic sequence. These results led to the conclusion that the classification of known epitopes with respect to the experimental conditions used to identify them should be introduced before attempting to characterise epitopic areas in a generic way. Goto Sponge NotDistinct Permalink

An Entity of Type : fabio:Abstract, within Data Space : wasabi.inria.fr associated with source document(s)

Attributes	Values
type	abstract
value	Abstract Methods that predict antibody epitopes could help to promote the development of diagnostic tools, vaccines or immunotherapies by affecting the epitope binding of antibodies during an immunological response to antigens. It is generally assumed that there is a direct relationship between antibody accessibility to antigens and accessible surface of proteins. Based on this assumption, prediction systems often includes solvent accessibility values calculated from the primary sequence of proteins or from their three dimensional structures as a predictive criterion. However, the current prediction systems seem weakly efficient in view of benchmark tests. We were interested in evaluating how amino acids that have been experimentally identified as epitopic elements could differ from the rest of the antigenic molecule at the level of surface exposure, hence we assessed the average accessibility of epitopes. The approach used here utilises published epitopes deduced from numerous identification techniques, including sequence scanning and structure visualisation after crystallography, and it involves many types of antigens from toxins to allergens. Our results show that epitopic residues are not distributed among any specific Relative Surface Accessibility and Protrusion Index values and that, in some cases, epitopes cover the entire antigenic sequence. These results led to the conclusion that the classification of known epitopes with respect to the experimental conditions used to identify them should be introduced before attempting to characterise epitopic areas in a generic way.
Subject	Virology Immunology Immune system Antibodies Cancer immunotherapy Glycoproteins Antigenic determinant Reagents for biochemistry
part of	A generic approach to evaluate how B-cell epitopes are surface-exposed on protein structures
is abstract of	A generic approach to evaluate how B-cell epitopes are surface-exposed on protein structures
is hasSource of	covid:ann/target/a481f29957d5a4ff349748f701babd564f198600 covid:ann/target/bb8768672c232e1aa26b442594a9378d2f7a4fa1 covid:ann/target/b6141939423c89f266d00c4ffc337829695afdd0 covid:ann/target/ad06cd35cd0a2c53b68e1cd9b75c2f5486d71cce covid:ann/target/404643ba2e9d284af8862210137472918a9bed92 covid:ann/target/b96b9b7284575fa81dbb1f02bd02a71311715613 covid:ann/target/71cda659b891c39fa6fa6295be1fcee5a48094c5 covid:ann/target/81a7a0eadd4920fa4921a8f5a467a6dc99191f7f covid:ann/target/3012a95d5a7c2c841be8d7a601d60dccb5af236c covid:ann/target/e38307947796069a26f54fd377a1853177bb7cc6 covid:ann/target/8b295b3dbc6a7d11efdf13677d949404e3a20d4a covid:ann/target/30a2b221106ff6f8a06cb4b48413b6c865e7d174 covid:ann/target/38723ba53c751613ff9377742b84d162d5c470a5 covid:ann/target/9020ce4d49d8621cf5e98924fc891dbfb1e86a6b covid:ann/target/5daef12d97bbf3df3392411a17ef367b313ea4dd covid:ann/target/5fe8cf060c3f7a3f6c3007b829c70bf0fa055d42 covid:ann/target/95dcf47aba0b30fd502242e97f503c4a6f728ed2 covid:ann/target/3902138e434e80a4e003beca435bc496774e6ab2 covid:ann/target/a2609fe6fd3770a0faa2dfa3e8b3dfeaaaa370c4 covid:ann/target/f4dc2870afe02b3f37d0cb6e608f1237c5e8e428 covid:ann/target/e55891185eff91d67edd9cd0ce90d778f913ca44 covid:ann/target/0bd5268052aca9952abb5b6b7d6d676f64714d05 covid:ann/target/994c48caf6dc2f3e9fd502cdedb3e23f12cc035d covid:ann/target/8aa9d59aa3d69c6b64688a0b217e015a6866133f covid:ann/target/96a70c25ebfefac3b187d6dfce92cbacb77a2832 covid:ann/target/788105179ff84fd368ba1435368435db2de02b01 covid:ann/target/41954657d6da152172d6019f5f0e430cfb9ac4c7 covid:ann/target/e32e38e84f53351054d4e4cfe41968076c5b2631 covid:ann/target/9e384bd89794b20e67bd29a10de0b79cffaef35c covid:ann/target/4edda254c21c202989c033381a5f3aa74f573e50 covid:ann/target/18702e161d0ea2273f9a79a9572403809afb6c66 covid:ann/target/4d3943912894fc83a69ee000864a4a9e6c758ba5 covid:ann/target/9f693258fc7fcfe2b21b61bf4d226bd3b533f9b9 covid:ann/target/f833257312cee5246f80178b6d2fef60d475ef5c covid:ann/target/40c2a8fcbc167c8f849d29b864286d30e0534f78 covid:ann/target/269ec6efefb7476bba42b37d6dab8a5daf52444b covid:ann/target/8b6229f57565815540ef1841ee5f1502c55a814f covid:ann/target/5a84e6f1f5cc66a35b9fcf8f384413a29d15cb32 covid:ann/target/d816612f863f4b547bc3e9cbe9e48480b9c19fb6 covid:ann/target/339d447a1174f4e604e6dc50bbcc5dc518a9fa30 covid:ann/target/25fab8363fb2446541f3151485d1e1e0d4495e3e

Faceted Search & Find service v1.13.91 as of Mar 24 2020

Alternative Linked Data Documents: Sponger | ODE Content Formats:

RDF

ODATA

Microdata

About

OpenLink Virtuoso version 07.20.3229 as of Jul 10 2020, on Linux (x86_64-pc-linux-gnu), Single-Server Edition (94 GB total memory)
Data on this page belongs to its respective rights holders.
Virtuoso Faceted Browser Copyright © 2009-2025 OpenLink Software