Several studies have recently been

Several studies have recently been performed to characterizeproteases from different microorganisms, including fungi, such asMicrosporum [4] and Alternaria [5], and bacteria, such as Bacil-lus [6] and Pseudomonas [7]. In fact, the production of proteasesby microorganisms is greatly influenced by media components,
http://dx.doi.org/10.1016/j.ijbiomac.2015.06.006
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872 M. Ben Elhoul et al. / International Journal of Biological Macromolecules 79 (2015) 871–882
especially carbon and nitrogen sources, and by physical factors,such as temperature, pH, incubation time, agitation, and inoculumdensity [8]. Although protease production is an inherent property ofall organisms, only the microbes that produce a substantial amountof extracellular protease have been commercially exploited. Whileproteases from bacteria have been extensively purified and char-acterized, little attention has been paid to actinomycetes. They are,a Gram-positive mycelium-forming bacterial group that exhibitsa complex developmental cycle, able to degrade macromoleculesin the soil, being particularly efficient in the breakdown of pro-teins [9,10]. The ability of these bacteria to produce large amountsof enzymes, as proteases with varied substrate specificities, offersanother highly valued property. Of particular interest, alkaline pro-teases have recently been reported to offer promising candidatesfor a wide range of biotechnological applications [4].Most of the studies so far performed on Streptomyces havefocused on antibiotic production already used in human and animalhealth care [11]; only few reports are currently available on theirenzymatic potential [12–17]. Furthermore, the relatively low sta-bility and catalytic activity under relevant operational conditions,namely high temperature and pH values and presence of deter-gents, have often precluded the adoption of Streptomyces enzymesinto wide-scale applications. In this context, the isolation andscreening of new proteolytically active Streptomyces strains frompetroleum reservoirs could open new opportunities for the discov-ery of novel strains for the production of organic solvent-stableproteases in highly alkaline conditions. Accordingly, the presentstudy reports, for the first time, on the purification, biochemi-cal, and molecular characterization of an alkaline protease (calledSTAP) from S. koyangensis strain TN650 isolated from a Tunisian off-shore oil field. It also provides basic information on the potentialuse of the STAP as a potential candidate for future applications indetergent formulations and non-aqueous peptide biocatalysis.