Abstract
BackgroundPernisine is an extracellular serine protease from the hyperthermophilic Archaeon Aeropyrum pernix K1. Low yields from the natural host and expression problems in heterologous hosts have limited the potential applications of pernisine in industry.Methodology/ Principal FindingsThe challenges of pernisine overexpression in Escherichia coli were overcome by codon preference optimisation and de-novo DNA synthesis. The following forms of the pernisine gene were cloned into the pMCSGx series of vectors and expressed in E. coli cells: wild-type (pernisinewt), codon-optimised (pernisineco), and codon-optimised with a S355A mutation of a predicted active site (pernisineS355Aco). The fusion-tagged pernisines were purified using fast protein liquid chromatography equipped with Ni2+ chelate and gel filtration chromatography columns. The identities of the resultant proteins were confirmed with N-terminal sequencing, tandem mass spectrometry analysis, and immunodetection. Pernisinewt was not expressed in E. coli at detectable levels, while pernisineco and pernisineS355Aco were expressed and purified as 55-kDa proforms with yields of around 10 mg per litre E. coli culture. After heat activation of purified pernisine, the proteolytic activity of the mature pernisineco was confirmed using zymography, at a molecular weight of 36 kDa, while the mutant pernisineS355Aco remained inactive. Enzymatic performances of pernisine evaluated under different temperatures and pHs demonstrate that the optimal enzymatic activity of the recombinant pernisine is ca. 100°C and pH 7.0, respectively.Conclusions/ SignificanceThese data demonstrate that codon optimisation is crucial for pernisine overexpression in E. coli, and that the proposed catalytic Ser355 has an important role in pernisine activity, but not in its activation process. Pernisine is activated by autoproteolytical cleavage of its N-terminal proregion. We have also confirmed that the recombinant pernisine retains the characteristics of native pernisine, as a calcium modulated thermostable serine protease.
Highlights
The thermostable serine protease pernisine is potentially useful to various industries, from the cleaning industry to medical fields, where high temperatures or harsh conditions are encountered [1,2]
The pernisine gene consists of 1293 bp (European Molecular Biology Laboratory: BAA79718.2), and it was amplified using specified primers and the genomic DNA (gDNA) of A. pernix K1 or the synthetic codon-optimised genes as templates
We have shown that codon optimisation is a key step for the successful expression of pernisine in E. coli from a distant host like Archaea
Summary
The thermostable serine protease pernisine is potentially useful to various industries, from the cleaning industry to medical fields, where high temperatures or harsh conditions are encountered (e.g., with denaturants, reductants or detergents) [1,2]. The Archaeon Thermococcous kodakaraensis, which is closely related to Aeropyrum pernix, was shown to degrade PrPSc through its subtilisin (Tk-subtilisin) activity and through its subtilisin-like serine protease [3,4]. PrPSc is not completely degraded by mesophile proteases, and at high temperatures, thermostable proteases like pernisine can be exploited [2]. Based on gene sequence alignment, pernisine is a subtilisin-like serine protease (i.e., a subtilase) with the catalytic triad of Asp149, His184 and Ser355 [6]. Pernisine is an extracellular serine protease from the hyperthermophilic Archaeon Aeropyrum pernix K1. Low yields from the natural host and expression problems in heterologous hosts have limited the potential applications of pernisine in industry
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