The recombinant expression and purification of viral proteins are a key component in the study of the immune response of viruses, as well as the creation of diagnostic techniques for the detection of viruses. For structurally simple proteins, one commonly used technique is the production of recombinant proteins in bacterial expression systems, which enable the large-scale synthesis and purification of recombinant viral proteins. In this technique, the cDNA encoding for a viral protein is cloned into a bacterial expression vector (with an appropriate purification tag), produced in a modified bacterial culture, and optimized for maximum protein production in a minimal amount of time. In this chapter, a protocol for the production of Rift Valley fever virus nucleoprotein is described. This protein has been previously shown to highly antigenic (and thus, is used in diagnostic tests), and has also been shown to be a potent inducer of the T-cell response following Rift Valley fever virus infection. The protocol outlined in this chapter describes the cloning of the cDNA of RVFV nucleoprotein into a bacterial expression vector, which also contains a fusion protein for optimal protein expression and solubilization, as well as a poly-histidine tag for efficient purification This chapter also describes the steps required for bacterial transformation, culture, lysis, purification and dialysis of RVFV nucleoprotein, resulting in a recombinant protein preparation, which can be upscaled to produce milligram quantities of protein product, which in turn can be used for downstream immunological and diagnostic applications.
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http://dx.doi.org/10.1007/978-1-0716-4338-9_13 | DOI Listing |
Introduction: Rift Valley Fever (RVF) has caused outbreaks in Africa, impacting human health and animal trade. Recently, sporadic detections among humans and animals in East Africa have replaced large-scale outbreaks. We assessed RVF knowledge levels in East and Central Africa across countries with different epidemiological profiles.
View Article and Find Full Text PDFMethods Mol Biol
December 2024
Department of Pathology, The Sealy Institute for Vaccine Sciences, The Center for Biodefense and Emerging Infectious Diseases, The University of Texas Medical Branch at Galveston, Galveston, TX, USA.
Oropouche fever, a mosquito- or midge-borne emerging zoonotic disease endemic to South and Central America, manifests as a dengue-like acute febrile illness with occasional occurrences of meningitis or meningoencephalitis. The causative agent, Oropouche virus (OROV), belongs to the genus Orthobunyavirus within the family Peribunyaviridae. Its tripartite negative-sense RNA genome comprises small (S), medium (M), and large (L) segments, encoding structural N, Gn/Gc, and L proteins, respectively.
View Article and Find Full Text PDFMethods Mol Biol
December 2024
Wageningen Bioveterinary Research (WBVR), RA, Lelystad, The Netherlands.
High-density suspension cultures of insect cells offer a scalable and serum-free system for the expression of recombinant proteins. Rift Valley fever virus (RVFV), an arthropod-borne virus spread by mosquitoes, contains two envelop glycoproteins Gn and Gc. These glycoproteins are crucial for eliciting neutralizing antibodies that can offer protection against RVFV infection.
View Article and Find Full Text PDFMethods Mol Biol
December 2024
Faculty of Veterinary Medicine, Department of Pathology, Fundamental and Applied Research for Animals and Health (FARAH), University of Liège, Liège, Belgium.
The recombinant expression and purification of viral proteins are a key component in the study of the immune response of viruses, as well as the creation of diagnostic techniques for the detection of viruses. For structurally simple proteins, one commonly used technique is the production of recombinant proteins in bacterial expression systems, which enable the large-scale synthesis and purification of recombinant viral proteins. In this technique, the cDNA encoding for a viral protein is cloned into a bacterial expression vector (with an appropriate purification tag), produced in a modified bacterial culture, and optimized for maximum protein production in a minimal amount of time.
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