Estudos moleculares das enzimas Fosfoseril-tRNA sintease de Trypanosoma brucei e Leishmania major e Seril-tRNA sintease de Trypanosoma brucei / Molecular studies the enzymes Fosfoseril-tRNA Kinase of the Trypanosoma brucei and Leishmania major and Seril-tRNA Sintetase of the Trypanosoma brucei

AUTOR(ES)

Jaqueline Pesciutti Evangelista

DATA DE PUBLICAÇÃO

2009

RESUMO

The translation process study is central role in the cellular metabolism and attracts the interest of several groups, in particular, the study of the 21º amino acid, the selenocystein. The selenocystein incorporation pathway was described in Escherichia coli and recently in eukaryotes. The first step of this pathway is initiated by Seryl-tRNA Synthetase that aminoacilates the Ser-tRNASec (SELC) with serine. In E. coli, the second step is performed by the Sec-synthase (SELA) that removes hydroxyl group of the serine side chain, forming an aminoacrylil intermediary. This serves as an acceptor of seleno phosphate generating the selenocystein. In eukaryotes, the similar process is performed by PSTK and SepSecS, which phosphorylate serine and adds the selenium, respectively. Interested in this pathway, we performed initial molecular studies of the Phosphoseryl-tRNA synthetase of Trypanosoma brucei and Leishmania major and Seryl-tRNA synthetase of Trypanosoma brucei. The gene that encodes T. brucei Phosphoseryl-tRNA synthetase was obtained with several mutations. However, the gene encoding the T. brucei Phosphoseryl-tRNA synthetase was cloned into pET28 vector and the enzyme was expressed in E. coli cells, however at low amounts hampering the intended experiments. Therefore we initiated the investigation of the enzyme involved in the first step of this pathway, the Seryl-tRNA Synthetase from T. brucei. The enzyme was already cloned and expressing in the soluble fraction of E. coli. The recombinant protein was purified using 60% ammonium sulfate precipitation, hydrophobic and nickel affinity chromatography. Native gel experiments, DLS and anisotropy fluorescence was performed and allowed to conclude that, after purification, the enzyme remains stable and free of aggregation, with a hydrodynamic radius of 4.32 nm, molecular weight of 110kDa. Above 150nM protein its entirely in the dimeric form. Information about Ser-tRNASec binding can now be obtained from the technique of anisotropy seen that initial experiments with SerRS add Ser-tRNASec be shown to be promising.

ASSUNTO(S)

proteínas kinetoplastida selenocysteine selenocisteína kinetoplastid. proteins

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