Design of a Dual-Promoter Expression Vector Harboring Sag1 and Gra7 Genes From Toxoplasma Gondii (Rh Strain)

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Design of a Dual-Promoter Expression Vector Harboring Sag1 and Gra7 Genes From Toxoplasma Gondii (Rh Strain) Pubmed

Ayazian Mavi S¹ ; Keshavarz H^{1, 2} ; Modarresi MH³ ; Mohebali M^{1, 2} ; Shojaee S¹ ; Saffari M³ ; Salimi M¹

Show Affiliations

1. Department of Medical Parasitology and Mycology, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran
2. Center for Research of Endemic Parasites of Iran (CREPI), Tehran University of Medical Sciences, Tehran, Iran
3. Department of Medical Genetics, Faculty of Medicine, Tehran University of Medical Sciences, Tehran, Iran

Source: Tropical Biomedicine Published:2018

Abstract

Toxoplasmosis, a parasitic disease caused by Toxoplasma gondii, has possible irreparable consequences in immunocompromised patients and fetuses. Finding an effective method of prevention, such as vaccination, is crucial because of the global distribution of the parasite and the lack of effective anti-toxoplasmosis drugs. The Sag1 and Gra7 antigens of T. gondii can induce strong humoral and cell-mediated immune responses. Therefore, to develop a novel DNA vaccine against toxoplasmosis, we prepared a eukaryotic construct expressing the Sag1 and Gra7 genes of T. gondii (RH strain). We then verified the ability of this construct to produce the corresponding Sag1 and Gra7 antigens in mammalian cells. Using specific primers, the complete coding sequences of Sag1 and Gra7 genes were amplified by polymerase chain reaction (PCR) from the genomic DNA of T. gondii. Then, both genes were subcloned into pVitro2-neo-mcs plasmid. The pVitro-Sag1–Gra7 construct was subjected to colony PCR, enzymatic digestion, and sequencing to confirm successful subcloning. Sag1 and Gra7 expression in HeLa cells was investigated. Sag1 and Gra7 were successfully subcloned in pVitro2-neo-mcs plasmid. The expression of Sag1 and Gra7 in HeLa cells was confirmed through Western blot analysis. The recombinant pVitro-Sag1–Gra7 construct that simultaneously produces Sag1 and Gra7 antigens in one mammalian cell may be used to develop a novel protective vaccine against toxoplasmosis. © 2018, Malaysian Society for Parasitology. All rights reserved.

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Style	Citing Format
MLA	Ayazian Mavi S, et al.. "Design of a Dual-Promoter Expression Vector Harboring Sag1 and Gra7 Genes From Toxoplasma Gondii (Rh Strain)." Tropical Biomedicine, vol. 35, no. 1, 2018, pp. 126-134.
APA	Ayazian Mavi S, Keshavarz H, Modarresi MH, Mohebali M, Shojaee S, Saffari M, Salimi M (2018). Design of a Dual-Promoter Expression Vector Harboring Sag1 and Gra7 Genes From Toxoplasma Gondii (Rh Strain). Tropical Biomedicine, 35(1), 126-134.
Chicago	Ayazian Mavi S, Keshavarz H, Modarresi MH, Mohebali M, Shojaee S, Saffari M, Salimi M. "Design of a Dual-Promoter Expression Vector Harboring Sag1 and Gra7 Genes From Toxoplasma Gondii (Rh Strain)." Tropical Biomedicine 35, no. 1 (2018): 126-134.
Harvard	Ayazian Mavi S et al. (2018) 'Design of a Dual-Promoter Expression Vector Harboring Sag1 and Gra7 Genes From Toxoplasma Gondii (Rh Strain)', Tropical Biomedicine, 35(1), pp. 126-134.
Vancouver	Ayazian Mavi S, Keshavarz H, Modarresi MH, Mohebali M, Shojaee S, Saffari M, et al.. Design of a Dual-Promoter Expression Vector Harboring Sag1 and Gra7 Genes From Toxoplasma Gondii (Rh Strain). Tropical Biomedicine. 2018;35(1):126-134.
BibTex	@article{ author = {Ayazian Mavi S and Keshavarz H and Modarresi MH and Mohebali M and Shojaee S and Saffari M and Salimi M}, title = {Design of a Dual-Promoter Expression Vector Harboring Sag1 and Gra7 Genes From Toxoplasma Gondii (Rh Strain)}, journal = {Tropical Biomedicine}, volume = {35}, number = {1}, pages = {126-134}, year = {2018} }
RIS	TY - JOUR AU - Ayazian Mavi S AU - Keshavarz H AU - Modarresi MH AU - Mohebali M AU - Shojaee S AU - Saffari M AU - Salimi M TI - Design of a Dual-Promoter Expression Vector Harboring Sag1 and Gra7 Genes From Toxoplasma Gondii (Rh Strain) JO - Tropical Biomedicine VL - 35 IS - 1 SP - 126 EP - 134 PY - 2018 ER -

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