In Silico Vaccine Design and Expression of the Multi-Component Protein Candidate against the Toxoplasma gondii Parasite from MIC13, GRA1, and SAG1 Antigens.

IF 0.9 4区医学 Q4 PARASITOLOGY Iranian Journal of Parasitology Pub Date : 2023-07-01 DOI:10.18502/ijpa.v18i3.13753

Zahra Hosseininejad, Ahmad Daryani, Mahdi Fasihi-Ramandi, Hossein Asgarian-Omran, Reza Valadan, Tooran Nayeri, Samira Dodangeh, Shahabeddin Sarvi

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Abstract

Background: We aimed to design a B and T cell recombinant protein vaccine of Toxoplasma gondii with in silico approach. MIC13 plays an important role in spreading the parasite in the host body. GRA1 causes the persistence of the parasite in the parasitophorous vacuole. SAG1 plays a role in host-cell adhesion and cell invasion.

Methods: Amino acid positions 73-272 from MIC13, 71-190 from GRA1, and 101-300 from SAG1 were selected and joined with linker A(EAAAK)A. The structures, antigenicity, allergenicity, physicochemical properties, as well as codon optimization and mRNA structure of this recombinant protein called MGS1, were predicted using bioinformatics servers. The designed structure was synthesized and then cloned in pET28a (+) plasmid and transformed into Escherichia coli BL21.

Results: The number of amino acids in this antigen was 555, and its antigenicity was estimated to be 0.6340. SDS-PAGE and Western blotting confirmed gene expression and successful production of the protein with a molecular weight of 59.56kDa. This protein will be used in our future studies as an anti-Toxoplasma vaccine candidate in animal models.

Conclusion: In silico methods are efficient for understanding information about proteins, selecting immunogenic epitopes, and finally producing recombinant proteins, as well as reducing the time and cost of vaccine design.

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用MIC13、GRA1和SAG1抗原设计和表达抗弓形虫寄生虫的多组分候选蛋白。

背景：我们旨在设计一种弓形虫B和T细胞重组蛋白疫苗。MIC13在寄生虫在宿主体内的传播中起着重要作用。GRA1导致寄生虫在寄生液泡中持续存在。SAG1在宿主细胞粘附和细胞侵袭中发挥作用。方法：选择MIC13的73～272位、GRA1的71～190位和SAG1的101～300位氨基酸，用连接子A（EAAAK）A连接。利用生物信息学服务器预测了这种名为MGS1的重组蛋白的结构、抗原性、致敏性、理化性质以及密码子优化和mRNA结构。合成了所设计的结构，然后将其克隆到pET28a（+）质粒中，并转化到大肠杆菌BL21中。结果：该抗原中的氨基酸数为555，其抗原性估计为0.6340。SDS-PAGE和Western印迹证实了该蛋白的基因表达和成功生产，其分子量为59.56kDa。该蛋白将在我们未来的研究中用作动物模型中的抗弓形虫候选疫苗。结论：计算机方法可以有效地了解蛋白质信息，选择免疫原性表位，最终生产重组蛋白质，并减少疫苗设计的时间和成本。

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来源期刊

Iranian Journal of Parasitology PARASITOLOGY-

CiteScore

1.80

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Iranian Journal of Parasitology (IJP) is the official publication of Iranian Society of Parasitology (ISP) launched in 2006. The society was inaugurated in 1994 and pursues the improvement of the knowledge on the parasites and parasitic diseases, exchange of scientific knowledge with foreign societies, publicity activities, and consultation on the parasitic diseases, and intimate relationship among society members. The main aims of the Journal are: contribution to the field of Parasitology, including all aspects of parasites and parasitic diseases (medical and veterinary) and related fields such as Entomology which may be submitted by scientists from Iran and all over the world.