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ABSTRACT: A new protease, named SsMTP was identified from the archeon Sulfolobus solfataricus. The enzyme is associated to the cell-membrane and over-produced in response to the peptide-enriched media. SsMTP has a molecular mass of 120 kDa showing optimal activity at pH 2.0 in the temperature range 70 - 90 degrees C, and a half-life of 20 days at 80 degrees C. Primary structure analysis revealed that SsMTP represents a novel type of multi-domain thermopsin-like protease containing the catalytic domain followed by two distinct domains, PKD and Y_Y_Y, which are usually involved in a range of protein-protein interactions among the extracellular proteins.
Protein and Peptide Letters 12/2009; 17(1):78-85. · 1.94 Impact Factor
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Viviana De Luca,
Giovanna Maria,
Gaia De Mauro, Giuliana Catara,
Vincenzo Carginale,
Giuseppe Ruggiero,
Antonio Capasso,
Elio Parisi,
Sebastien Brier,
John R Engen,
Clemente Capasso
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ABSTRACT: The present review surveys several recent studies of the aspartic proteinases from Antarctic Notothenioidei, a dominating fish group that has developed a number of adjustments at the molecular level to maintain metabolic function at low temperatures. Given the unique peculiarities of the Antarctic environment, studying the features of Antarctic aspartic proteinases could provide new insights into the role of these proteins in fish physiology. We describe here: (1) the biochemical properties of a cathepsin D purified from the liver of the hemoglobinless icefish Chionodraco hamatus; (2) the biochemical characterization of Trematomus bernacchii pepsins variants A1 and A2 obtained by heterologous expression in bacteria; and (3) the identification of two closely related, novel aspartic proteinases from the liver of the two Antarctic fish species mentioned above. Overall, the results show that Notothenioidei aspartic proteinases display a number of characteristics that are remarkably different from those of mammalian aspartic proteinases, including high turnover number or high catalytic efficiency. We have named the newly identified aspartic proteinases "Nothepsins" and classified them relative to aspartic proteinases from other species.
Marine Genomics 03/2009; 2(1):1-10. · 1.55 Impact Factor
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ABSTRACT: The specific inhibition of serine proteinases, which are crucial switches in many important physiological processes, is of great value both for basic research and for therapeutic applications. In this study, we report the molecular cloning of the sso0767 gene from Sulfolobus solfataricus, and the functional characterization of its product, SsCEI, which represents the first archaeal phosphatidylethanolamine-binding protein (PEBP)-serine proteinase inhibitor, reported to date. SsCEI is a monomer protein with a molecular mass of 19.0 kDa and a pI of 6.7, which is able to inhibit the serine proteases alpha-chymotrypsin and elastase with K(i) values of 0.08 and 0.1 microM, respectively. Moreover SsCEI is extremely resistant to both thermal inactivation and proteolytic attack suggesting compact folding of the protein. Within the I51 family, the archaeal inhibitor shows strong similarity to the human and murine members. The three-dimensional model of SsCEI revealed a general beta-fold and the presence of an anion-binding pocket, the hallmark of the PEBP family. Moreover SsCEI binds the cognate proteases according to a common, substrate-like standard mechanism. Point mutation experiments supported the prediction of the protease-binding site located on the surface at the C- terminal region of the protein. Interestingly, searches based on preidentified structural reactive loop motifs revealed the occurrence of a sequence (T123-N130) that is not represented in all serine-protease inhibitor families. This unique motif may provide new insights into both the inhibitor/protease binding mode and the specific biological functions of SsCEI within the PEBP family.
Journal of Proteome Research 02/2009; 8(1):327-34. · 5.11 Impact Factor
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ABSTRACT: Citrus are natural hosts of several viroids, which are plant pathogens composed exclusively of a non-protein-coding, small single-stranded circular RNA that is able to replicate autonomously in susceptible hosts. They are responsible for symptoms such as stunting, leaf epinasty, and chlorosis. Citrus viroid III (CVd-III) has been long regarded as a possible dwarfing agent of citrus grafted on trifoliate orange and its hybrids. To investigate molecular mechanisms involved in pathogenesis, the messenger RNA (mRNA) differential display technique was here applied to identify genes whose transcription was significantly altered in leaves of Etrog citron (Citrus medica) infected by CVd-III (variant b). Of eighteen genes identified, thirteen were up-regulated by viroid infection, while five were down-regulated. Except for two genes that encode proteins of unknown function, the remaining genes are mainly involved in plant defence/stress responses, signal transduction, amino acid transport, and cell wall structure. Among the up-regulated genes, it is noteworthy a suppressor of RNA silencing that might be involved in viroid and virus pathogenicity. The functions of these genes are discussed.
Biochimica et Biophysica Acta 05/2007; 1769(4):228-35. · 4.66 Impact Factor
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ABSTRACT: The archaeon Aeropyrum pernix grows optimally at 90 degrees C and derives energy primarily from aerobic degradation of complex proteinaceous substrates. The ability of these nutrients to sustain growth is generally associated with the presence of oligopeptide transport systems, such as the well-known protein-dependent ATP-binding cassette (ABC) transporters. This study is concerned with the isolation and characterisation of the first archaeal oligopeptide-binding protein (OppA(Ap)) from the extracellular medium of A. pernix. The protein shows a pI of 3.9 and a molecular mass of about 90 kDa under native conditions. By using a proteomic approach, the OppA(Ap)-encoding gene was identified (APE1583) and about 55% of the protein amino-acid sequence was validated. The extracellular purified protein was able to efficiently bind oligopeptide substrates such as Xenopsin. The amount of a liganded peptide to OppA(Ap) was about 70% at 90 degrees C using a 1/100 (w/w) OppA(Ap)/substrate ratio. Sequence comparisons showed a weak but significant similarity of OppA(Ap) with bacterial oligopeptide binding proteins. Furthermore, APE1583 neighbouring genes encode for the cognate components of an ABC transport system, suggesting that these ORFs are organised in an operon-like structure, with OppA(Ap )as the extracellular component for the uptake of oligopeptides.
Extremophiles 11/2006; 10(5):393-402. · 2.94 Impact Factor
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ABSTRACT: A new serine-carboxyl proteinase, called kumamolisin-ac , was purified from the thermoacidophilic bacterium Alicycloba-cillus acidocaldarius. The enzyme is a monomeric protein of 45 kDa, active over a wide temperature range (5.0 Á708C) and extremely acidic pHs (1.0 Á4.0), showing maximal proteolytic activity at pH 2.0 and 608C. Interestingly, kumamolisin-ac displayed a significant proteolytic activity even at 58C, thus suggesting a sort of cold-adaptation for this enzyme. The protease was remarkably stable at high temperatures (t 1/2 at 808C, 10 h, pH 2.0) and over a broad range of pH (2.0 Á7.0). Substrate analysis indicated that kumamolisin-ac was active on a variety of macromolecular substrates, such as haemoglobin, hide powder azure, and azocoll. In particular, a high specific activity was detected towards collagen. The corresponding gene was cloned, expressed and the recombinant protease, was found to be homologous to proteases of the 'S53' family. From the high identity with kumamolisin and kumamolisin-As , known as collagenolytic proteases, kumamolisin-ac can be considered as the third collagenolytic affiliate within the 'S53' family. Cleavage specificity investigation of kumamolisin-ac revealed a unique primary cleavage site in bovine insulin B-chain, whereas a broad specificity was detected using bovine a-globin as substrate. Thus, kumamolisin-ac could represent an attractive candidate for industrial-scale biopeptide production under thermoacidophilic conditions.
Biocatalysis and Biotransformation 01/2006; 24:258. · 0.90 Impact Factor
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ABSTRACT: The cleavage specificity of Pernisine, a subtilisin-like protease from the hyperthermophilic archaeon Aeropyrum pernix, was established by mass spectrometry, analysing the peptides generated by digestion of oxidised bovine insulin B chain. The specificity was explored by changing several factors such as substrate/enzyme ratio, temperature and reaction media. Using a S/E ratio of 1000 (w/w) and a temperature of 60 °C, five primary cleavage sites in the insulin B chain were detected suggesting a broad specificity of Pernisine, which is different from that found for other bacterial subtilisin-like proteases. When the S/E ratio and/or temperature were increased, a higher selectivity of Pernisine was observed with a unique cleavage site occurring between Leu15 and Tyr16. In addition, the influence on the enzymatic hydrolysis of different organic solvent concentrations was investigated. The results demonstrated that Pernisine could specifically digest the peptide substrate even in the presence of 80% acetonitrile solution or 30% dimethyl sulfoxyde. Thereby the cleavage specificity of Pernisine can be opportunely modulated by controlling the in vitro digestion conditions, suggesting that this enzyme could be an attractive candidate to use in a variety of biotechnological applications.
Enzyme and Microbial Technology 05/2005; · 2.37 Impact Factor
