BackgroundAn R30 fraction from the growth medium of Aeropyrum pernix was analyzed for the protease that can digest the pathological prion protein isoform (PrPSc) from different species (human, bovine, deer and mouse).Methodology/Principal FindingsDegradation of the PrPSc isoform by the R30 fraction and the purified protease was evaluated using the 6H4 anti-PrP monoclonal antibody. Fragments from the N-terminal and C-terminal of PrPSc were also monitored by Western blotting using the EB8 anti-PrP monoclonal antibody, and by dot blotting using the C7/5 anti-PrP monoclonal antibody, respectively. For detection of smaller peptides from incomplete digestion of PrPSc, the EB8 monoclonal antibody was used after precipitation with sodium phosphotungstate. Characterization of the purified active protease from the R30 fraction was achieved, through purification by fast protein liquid chromatography, and identification by tandem mass spectrometry the serine metalloprotease pernisine. SDS-PAGE and zymography show the purified pernisine plus its proregion with a molecular weight of ca. 45 kDa, and the mature purified pernisine as ca. 23 kDa. The purified pernisine was active between 58°C and 99°C, and between pH 3.5 and 8.0. The temperature and pH optima of the enzymatic activity of the purified pernisine in the presence of 1 mM CaCl2 were 105°C ±0.5°C and pH 6.5±0.2, respectively.Conclusions/SignificanceOur study has identified and characterized pernisine as a thermostable serine metalloprotease that is secreted from A. pernix and that can digest the pathological prion protein PrPSc.
Abstract. Nucleic acid binding proteins have important roles in DNA and RNA packaging, stabilisation and repair, and in gene regulation, and they are therefore essential for all organisms. All of the known hyperthermophiles have at least one DNA sequence encoding for the Alba proteins. The Alba proteins are small (approximately 10 kDa), DNA-binding, basic proteins that appear to partly compensate for the lack of histones in the archaea Aeropyrum pernix and other hyperthermophiles. Two sequences of these potential histone counterparts, the Alba proteins, were identified in the Aeropyrum pernix genome (APE1832.1 and APE1823). By using a wide range of experimental techniques and by examining several combinations of expression systems the expression of recombinant Alba1 and Alba2 proteins was optimized. Co-expression of both of the Alba proteins was needed when isolating recombinant Alba2. The purification of both recombinant Alba1 and Alba2 His-tagged proteins were simplyfied in satisfactory yield. The electrophoretic mobility shift assay demonstrated the ability of the Alba1 and Alba2 proteins from Aeropyrum pernix to bind DNA. (doi: 10.5562/cca1772)
A gene coding for a mutarotase was isolated and characterised from the filamentous fungus Rhizopus nigricans. In order to determine the encoded enzyme's activity a recombinant protein was prepared in the baculovirus expression system and the mutarotase activity was determined. Expression studies showed that the gene is repressed by high as well as low concentrations of glucose and derepressed during deficiency of glucose. Besides the regulation at the level of transcription, an accelerative effect of glucose in growth medium on the mutarotase mRNA decay was also demonstrated. Moreover, a Southern hybridisation performed at lower temperatures suggested that the R. nigricans genome harbours a nucleotide sequence, that is homologous to the isolated gene.
A gene coding for a mutarotase was isolated and characterised from the filamentous fungus Rhizopus nigricans. In order to determine the encoded enzyme's activity a recombinant protein was prepared in the baculovirus expression system and the mutarotase activity was determined. Expression studies showed that the gene is repressed by high as well as low concentrations of glucose and derepressed during deficiency of glucose. Besides the regulation at the level of transcription, an accelerative effect of glucose in growth medium on the mutarotase mRNA decay was also demonstrated. Moreover, a Southern hybridisation performed at lower temperatures suggested that the R. nigricans genome harbours a nucleotide sequence, that is homologous to the isolated gene.
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