Construction of a multi-epitope protein for human Toxocara canis detection: Immunoinformatics approach multi-epitope construct for T. canis serodiagnosis

Toxocariasis is a global public health concern, particularly in children. Serological diagnosis of the infection is routinely applied to detect specific anti-Toxocara antibodies. Current in silico study was contrived to design a multi-epitope protein using a wide array of immunoinformatics web serve...

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Bibliographic Details
Published in:Informatics in medicine unlocked 2021, Vol.26, p.100732, Article 100732
Main Authors: Shams, Morteza, Nourmohammadi, Hassan, Asghari, Ali, Basati, Gholam, Majidiani, Hamidreza, Naserifar, Razi, Irannejad, Hamid
Format: Article
Language:English
Subjects:
Immunoinformatics
Multi-epitope
Serodiagnosis
Synthetic protein
Toxocara canis
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Summary:Toxocariasis is a global public health concern, particularly in children. Serological diagnosis of the infection is routinely applied to detect specific anti-Toxocara antibodies. Current in silico study was contrived to design a multi-epitope protein using a wide array of immunoinformatics web servers for improved serodiagnosis. Top, high-ranked B-cell epitopes as well as IL-4 and IL-10 inducing epitopes were predicted, screened and selected to construct the chimeric protein. Then, prediction of antigenicity, solubility and physico-chemical features, secondary and tertiary structures, 3D model refinement and validations was done using various web servers. Finally, conformational B-cell epitopes were determined for possible protein-antibody interactions. Moreover, the final construct was subjected to disulfide engineering, codon adaptation, in silico cloning as well as molecular docking with human TLR-2 molecule. In conclusion, this multi-epitope construct needs to be evaluated experimentally, in order to be used in commercial serodiagnostic kits. •This an in-depth in silico analysis on Toxocara canis TES antigens.•Potential B-cell, IL-4 and IL-10 inducing epitopes were determined in this study.•The designed multi-epitope protein was evaluated for many biochemical characteristics.•Bioinformatics revealed several interesting aspects of the protein as a diagnostic candidate.
ISSN:2352-9148
2352-9148
DOI:10.1016/j.imu.2021.100732