Artificial neural network for prediction of antigenic activity for a major conformational epitope in the hepatitis C virus NS3 protein

Motivation: Insufficient knowledge of general principles for accurate quantitative inference of biological properties from sequences is a major obstacle in the rationale design of proteins with predetermined activities. Due to this deficiency, protein engineering frequently relies on the use of comp...

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Bibliographic Details
Published in:Bioinformatics 2008-09, Vol.24 (17), p.1858-1864
Main Authors: Lara, James, Wohlhueter, Robert M., Dimitrova, Zoya, Khudyakov, Yury E.
Format: Article
Language:English
Subjects:
Algorithms
Amino Acid Sequence
Antigen-Antibody Complex - chemistry
Antigen-Antibody Complex - immunology
Antigen-Antibody Complex - ultrastructure
Antigens - chemistry
Antigens - immunology
Antigens - ultrastructure
Biological and medical sciences
Epitope Mapping - methods
Fundamental and applied biological sciences. Psychology
General aspects
Mathematics in biology. Statistical analysis. Models. Metrology. Data processing in biology (general aspects)
Molecular Sequence Data
Neural Networks (Computer)
Pattern Recognition, Automated - methods
Protein Conformation
Sequence Analysis, Protein - methods
Structure-Activity Relationship
Viral Nonstructural Proteins - chemistry
Viral Nonstructural Proteins - immunology
Viral Nonstructural Proteins - ultrastructure
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Summary:Motivation: Insufficient knowledge of general principles for accurate quantitative inference of biological properties from sequences is a major obstacle in the rationale design of proteins with predetermined activities. Due to this deficiency, protein engineering frequently relies on the use of computational approaches focused on the identification of quantitative structure–activity relationship (SAR) for each specific task. In the current article, a computational model was developed to define SAR for a major conformational antigenic epitope of the hepatitis C virus (HCV) non-structural protein 3 (NS3) in order to facilitate a rationale design of HCV antigens with improved diagnostically relevant properties. Results: We present an artificial neural network (ANN) model that connects changes in the antigenic properties and structure of HCV NS3 recombinant proteins representing all 6 HCV genotypes. The ANN performed quantitative predictions of the enzyme immunoassay (EIA) Signal/Cutoff (S/Co) profiles from sequence information alone with 89.8% accuracy. Amino acid positions and physicochemical factors strongly associated with the HCV NS3 antigenic properties were identified. The positions most significantly contributing to the model were mapped on the NS3 3D structure. The location of these positions validates the major associations found by the ANN model between antigenicity and structure of the HCV NS3 proteins. Availability: Matlab code is available at the following URL address: http://bio-ai.myeweb.net/box_widget.html Contact: jlara@cdc.gov; yek0@cdc.gov Supplementary information: Supplementary data are available at Bioinformatics online.
ISSN:1367-4803
1460-2059
1367-4811
DOI:10.1093/bioinformatics/btn339