The Expression of Shuni Virus Nucleocapsid Protein in Nicotiana benthamiana for Use as a Diagnostic Reagent
Master Thesis
2019
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Abstract
Many devastating zoonotic viruses such as West Nile and Rift Valley fever viruses are endemic to South Africa, affecting livestock and ultimately, through their arthropod vectors, also infecting humans. One such zoonotic virus that is of interest is Shuni virus (SHUV). SHUV belongs to the viral genus Orthobunyavirus, family Peribunyaviridae., and order Bunyavirales. Discovered in arthropods and humans in Nigeria, it was soon identified as a possible cause for cases of neurological disease in horses within South Africa. Studies have shown South African veterinarians who had come into contact with such cases tested positive for antibodies against the virus. Therefore, SHUV is being further investigated as a potential cause of neurological disease within humans and there is a need to develop appropriate quick and effective diagnostic reagents to allow for surveillance of the virus. The main focus for this study was the development of diagnostic reagents centred around the nucleocapsid (N) protein of the SHUV. The N proteins of closely related members of the order Bunyavirales have shown to be highly abundant in infection and cause an immune response in the infected hosts thus making it the ideal target. Using available SHUV genome sequences and data, the N protein gene was designed and synthesised to be expressed in both Escherichia coli and plant expression systems. The expression of the N protein in E. coli, followed by subsequent washing with BugBuster, led to a final mass of 5.1 mg of the SHUV N protein from a 1000 ml culture. This led to a SHUV N yield of 5.1 µg/ml of culture and was measured to make up 69.5% of the total soluble protein. The immunisation of rabbits with this recombinantly expressed SHUV N allowed for the development of polyclonal antibodies which were successfully used in immunoblot studies to detect plant produced SHUV N protein. Plants are an effective and possibly cheaper alternative production system to bacterial, mammalian, or insect cell cultures and thus the N protein was transiently expressed in N. benthamiana plants using Agrobacterium tumefaciens-mediated infiltration. The recombinant protein produced underwent purification using nickel affinity chromatography. This led to yields of 2.248 mg of SHUV N protein from 35 plants which gave a yield of 9.9 mg/kg of raw plant material. This purified plant produced N protein acted as an antigen for diagnostic assays such as ELISA, which was used to screen known SHUV infected sera. This led to mixed results due to the limited sera samples available. However, as a proof of concept, it has shown great potential and thus opens the door to a possible inexpensive dual-use assay for use in the diagnoses of both animal and human SHUV infection.
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Verbeek, M. 2019. The Expression of Shuni Virus Nucleocapsid Protein in Nicotiana benthamiana for Use as a Diagnostic Reagent.