Insights into structural vaccinology harnessed for universal coronavirus vaccine development.

IF 2.1 Q4 IMMUNOLOGY
Chin Peng Lim, Chiuan Herng Leow, Hui Ting Lim, Boon Hui Kok, Candy Chuah, Jonas Ivan Nobre Oliveira, Malcolm Jones, Chiuan Yee Leow
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引用次数: 0

Abstract

Structural vaccinology is pivotal in expediting vaccine design through high-throughput screening of immunogenic antigens. Leveraging the structural and functional characteristics of antigens and immune cell receptors, this approach employs protein structural comparison to identify conserved patterns in key pathogenic components. Molecular modeling techniques, including homology modeling and molecular docking, analyze specific three-dimensional (3D) structures and protein interactions and offer valuable insights into the 3D interactions and binding affinity between vaccine candidates and target proteins. In this review, we delve into the utilization of various immunoinformatics and molecular modeling tools to streamline the development of broad-protective vaccines against coronavirus disease 2019 variants. Structural vaccinology significantly enhances our understanding of molecular interactions between hosts and pathogens. By accelerating the pace of developing effective and targeted vaccines, particularly against the rapidly mutating severe acute respiratory syndrome coronavirus 2 and other prevalent infectious diseases, this approach stands at the forefront of advancing immunization strategies. The combination of computational techniques and structural insights not only facilitates the identification of potential vaccine candidates but also contributes to the rational design of vaccines, fostering a more efficient and targeted approach to combatting infectious diseases.

利用结构疫苗学的洞察力开发通用冠状病毒疫苗。
通过高通量筛选免疫原性抗原,结构疫苗学在加快疫苗设计方面发挥着关键作用。这种方法利用抗原和免疫细胞受体的结构和功能特征,通过蛋白质结构比较来确定关键致病成分的保守模式。分子建模技术,包括同源建模和分子对接,可分析特定的三维(3D)结构和蛋白质相互作用,为候选疫苗和靶蛋白之间的三维相互作用和结合亲和力提供宝贵的见解。在本综述中,我们将深入探讨如何利用各种免疫信息学和分子建模工具来简化2019年冠状病毒疾病变种的广谱保护性疫苗的开发。结构疫苗学极大地增强了我们对宿主与病原体之间分子相互作用的理解。通过加快开发有效和有针对性疫苗的步伐,特别是针对快速变异的严重急性呼吸系统综合征冠状病毒 2 和其他流行传染病的疫苗,这种方法站在了推进免疫战略的最前沿。计算技术与结构洞察力的结合不仅有助于确定潜在的候选疫苗,还有助于疫苗的合理设计,从而促进采用更高效、更有针对性的方法来防治传染病。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.70
自引率
3.70%
发文量
29
审稿时长
8 weeks
期刊介绍: Clin Exp Vaccine Res, the official English journal of the Korean Vaccine Society, is an international, peer reviewed, and open-access journal. It covers all areas related to vaccines and vaccination. Clin Exp Vaccine Res publishes editorials, review articles, special articles, original articles, case reports, brief communications, and correspondences covering a wide range of clinical and experimental subjects including vaccines and vaccination for human and animals against infectious diseases caused by viruses, bacteria, parasites and tumor. The scope of the journal is to disseminate information that may contribute to elaborate vaccine development and vaccination strategies targeting infectious diseases and tumors in human and animals. Relevant topics range from experimental approaches to (pre)clinical trials for the vaccine research based on, but not limited to, basic laboratory, translational, and (pre)clinical investigations, epidemiology of infectious diseases and progression of all aspects in the health related issues. It is published printed and open accessed online issues (https://ecevr.org) two times per year in 31 January and 31 July. Clin Exp Vaccine Res is linked to many international databases and is made freely available to institutions and individuals worldwide
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