Immunoinformatics-driven design of a conserved RNA-dependent RNA polymerase-based multi-epitope vaccine against avian infectious bronchitis virus
Reza Rezaei, Gholamreza Nikbakht Brujeni, Bahman Abedi Kiasari, Fateme Frootan, Mohammad Hossein Mokhtarian, Salar Golabdar

TL;DR
This paper presents a new multi-epitope vaccine design targeting a conserved protein in avian infectious bronchitis virus to provide broad and lasting immunity in chickens.
Contribution
The novel vaccine targets the conserved RNA-dependent RNA polymerase of IBV, potentially overcoming limitations of strain-specific vaccines.
Findings
The multi-epitope vaccine construct showed favorable physicochemical properties and structural stability.
Molecular docking confirmed strong binding to chicken TLR7 with stable interactions.
Immune simulations predicted strong humoral and cellular immune responses with Th1 cytokine production.
Abstract
Avian infectious bronchitis virus (IBV) is a highly contagious coronavirus that causes severe respiratory, renal, and reproductive disease in chickens, resulting in significant economic losses in the poultry industry worldwide. The high mutation and recombination rates of IBV, especially in structural proteins like the spike glycoprotein, limit the effectiveness of current live attenuated and inactivated vaccines. This study aimed to design and computationally evaluate a novel multi-epitope vaccine (MEV) targeting the highly conserved RNA-dependent RNA polymerase (RdRp) of IBV in order to provide broad and lasting immune protection. The RdRp protein (NCBI: NP_740629.1) was chosen as the vaccine target due to its high sequence conservation and crucial role in viral replication. B-cell lymphocyte, cytotoxic T-lymphocyte, and helper T-lymphocyte epitopes were predicted using various…
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Taxonomy
Topicsvaccines and immunoinformatics approaches · Machine Learning in Bioinformatics · Diverse Scientific Research Studies
