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Fermentation and downstream process for high yield production of Plasmodium falciparum recombinant HRP II protein and its application in diagnosis
Authors:Anil K. Singh  T. N. Athmaram  Saurabh Shrivastava  S. Merwyn  G. S. Agarwal  N. Gopalan
Affiliation:1. Bio-process Scale up Facility, Defence Research and Development Establishment, Ministry of Defence (Govt. of India), Gwalior, 474 002, MP, India
2. Microbiology Division, Defence Research and Development Establishment, Ministry of Defence (Govt. of India), Gwalior, 474 002, MP, India
3. Vector Management Division, Defence Research and Development Establishment, Ministry of Defence (Govt. of India), Gwalior, 474 002, MP, India
Abstract:Malaria represents the world’s greatest public health problem in terms of number of people affected, levels of morbidity and mortality in tropical and subtropical countries. Malaria parasites are members of the Apicomplexa, family of Plasmodiidae. Histidine-rich protein-II secreted by Plasmodium falciparum is known to be a compelling marker in malaria diagnosis and follow-up. In our present study, we have optimized the batch fermentation and downstream process for large scale production of recombinant P. falciparum HRP-II 62 kDa protein for diagnostic application. The culture broth was effectively induced with IPTG twice at different time intervals to sustain induction for a long period. Batch fermentation resulted in a wet weight of 61.34 g/L and dry cell biomass 12.81 g/L. With the improved downstream process, purified recombinant protein had a yield of 304.60 mg/L. The authenticity of the purified recombinant protein was confirmed via western blotting using indigenously developed HRP-II specific monoclonal antibodies and known positive human clinical sera samples. Further, the reactivity of recombinant HRP-II protein was validated using commercially available immuno chromatographic strips. Indirect ELISA using recombinant purified protein recognized the P. falciparum specific antibodies in suspected human sera samples. Our results clearly suggest that the recombinant HRP-II protein produced via batch fermentation has immense potential for routine diagnostic application.
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