Refolding of metacaspase 5 from Trypanosoma cruzi, structural characterization and the influence of c-terminal in protein recombinant production
Autor: | Jhenifer Yonara De Lima, Emanuella de Castro Andreassa, Tatiana de Arruda Campos Brasil de Souza, Louise U. Kurt, Paulo C. Carvalho, Marlon D.M. Santos |
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Rok vydání: | 2021 |
Předmět: |
Chagas disease
biology Drug discovery Trypanosoma cruzi Protozoan Proteins Computational biology biology.organism_classification medicine.disease Inclusion bodies Metacaspase Protein Refolding Recombinant Proteins law.invention Protein structure Protein Domains law Caspases Protein biosynthesis Recombinant DNA medicine Biotechnology |
Zdroj: | Protein expression and purification. 191 |
ISSN: | 1096-0279 |
Popis: | Metacaspases are known to have a fundamental role in apoptosis-like, a programmed cellular death (PCD) in plants, fungi, and protozoans. The last includes several parasites that cause diseases of great interest to public health, mostly without adequate treatment and included in the neglected tropical diseases category. One of them is Trypanosoma cruzi which causes Chagas disease and has two metacaspases involved in its PCD: TcMCA3 and TcMCA5. Their roles seemed different in PCD, TcMCA5 appears as a proapoptotic protein negatively regulated by its C-terminal sequence, while TcMCA3 is described as a cell cycle regulator. Despite this, the precise role of TcMCA3 and TcMCA5 and their atomic structures remain elusive. Therefore, developing methodologies to allow investigations of those metacaspases is relevant. Herein, we produced full-length and truncated versions of TcMCA5 and applied different strategies for their folded recombinant production from E. coli inclusion bodies. Biophysical assays probed the efficacy of the production method in providing a high yield of folded recombinant TcMCA5. Moreover, we modeled the TcMCA5 protein structure using experimental restraints obtained by XLMS. The experimental design for novel methods and the final protocol provided here can guide studies with other metacaspases. The production of TcMCA5 allows further investigations as protein crystallography, HTS drug discovery to create potential therapeutic in the treatment of Chagas' disease and in the way to clarify how the PCD works in the parasite. |
Databáze: | OpenAIRE |
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