环鼻蜱幼虫融合组织蛋白酶L和原肌球蛋白基因候选疫苗的设计

Z. Asadollahi, S. Nabian, M. Taheri, E. Ebrahimzadeh, M. Ranjbar, Razi Vaccine
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引用次数: 1

摘要

引言:关于新出现的蜱对杀螨剂的耐药性,研究已转向免疫方法等替代方法。疫苗制备是一种替代方法,选择合适的具有高免疫诱导效力的蛋白质是先决条件。此外,根据研究,使用一种以上的蛋白质可以更好地增强免疫诱导和抗体产生。从选定的蛋白质中选择免疫原性表位并用合适的接头连接它们是疫苗设计的新方法之一。材料和方法:基于Rhipipcephalus tick的组织蛋白酶和原肌球蛋白蛋白都被认为是有效的免疫原性抗原的事实,我们用免疫信息学方法预测了这些蛋白的免疫原表位。在研究的表位中,使用了多种生物信息学工具所满足的表位。结果:最后,通过组装选定的表位并将其与连接体连接,设计了多面体结构。结论:利用免疫信息学工具,我们预测了环纹头蜱幼虫两个基因作为融合有效候选疫苗的特性,即组织蛋白酶和原肌球蛋白。
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Designing of potential vaccine candidates of fused cathepsin L and tropomyosin genes of Rhipicephalus (Boophilus) annulatus tick larva
Introduction: Regarding emerging tick resistance against acaricides, researches have been shifted toward alternative approaches such as immunologic methods. Vaccine preparation is an alternative way in which choosing appropriate protein with high immune induction potency is a prerequisite. In addition according to studies, using more than one protein could better enhance the immune induction and antibody production. Choosing immunogenic epitopes from selected proteins and adjoining them with a suitable linker is one of the novel approaches in vaccine design. Materials and methods: Based on the fact that both cathepsin and tropomyosin proteins of Rhipicephalus tick were previously recognized as potent immunogenic antigens, we predicted the immunogenic epitopes of these proteins by immunoinformatic methods. Among studied epitopes, those that were met by multiple bioinformatics tools were used. Results: Finally, the polytopic construction was designed by assembling the selected epitopes and connecting them with linkers. Conclusion: Using immunoinformatic tools, we predicted the characteristics of two genes of Rhipicephalus annulatus tick larva as fused potent vaccine candidates namely, cathepsin and tropomyosin.
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