Molecular characterization of gene encoding an extracellular alkaline protease in Vibrio metschnikovii

The gene, vapK, encoding an extracellular alkaline protease, VapK, in Vibrio metschnikovii strain RH530 was cloned and expressed in Escherichia coli. The nucleotide sequence of the vapK revealed a single open reading frame of 1266 bp encoding 422 amino acids. The biochemical characteristics of the expressed protease were indistinguishable from those of VapK from the wild type strain. The recombinant VapK showed resistant activity to surfactants such as sodium -olefin sulfonate, polyoxyethylene oxide, SDS and urea. The surfactant, sodium alkylbenzenesulfonate, strongly inhibited the activity of re-VapK. However in the presence of POE or Na₂SO₄, its activity was completely restored. By N-terminal sequencing of VapK, the cleavage site for the mature protease could be identified. The cleavage site was Ala¹⁴⁰ and the calculated molecular mass of the mature enzyme was 29 609 Da, corresponding to the purified VapK. The active sites and putative calcium binding sites of recombinant VapK (re-VapK) were highly conserved when compared to subtilisin Carlsberg.     

Characterization of an alkaline serine protease from an alkaline-resistant Pseudomonas sp.: Cloning and expression of the protease gene in Escherichia coli

Summary A gene, aprP, encoding an extracellular alkaline serine protease from a newly isolated Pseudomonas sp. KFCC 10818 was cloned and characterized. Nucleotide sequence analysis revealed an open reading frame of 1,266 nucleotides which could encode a polypeptide comprised of 422 amino acids. The C-terminal 283 residues showed an overall sequence homology with the subtilisin-type serine proteases. When expressed in E. coli, the alkaline protease, AprP, was released to the culture medium. The purified AprP was most active at pH 11. The k _Cat/K _m value of this enzyme was 9.2 × 10³ S^–1mM^–1, which is much higher than those of subtilisins.     

The ABC-exporter genes involved in the lipase secretion are clustered with the genes for lipase, alkaline protease, and serine protease homologues in Pseudomonas fluorescens no. 33

In Pseudomonas fluorescens no. 33, the lipase gene is clustered with the genes for alkaline protease, AprDEF exporter, and two homologue proteins of Serratia serine proteases (pspA and pspB). Secretion of the lipase and alkaline protease through AprDEF was shown in the Escherichia coli cells. Interestingly, the E. coli cells carrying the pspA gene secreted PspA to the media AprDEF-independently.     

Nucleotide sequence of a genomic and a cDNA clone encoding an extracellular alkaline protease of Aspergillus fumigatus

An Aspergillus fumigatus extracellular alkaline protease (ALP) which is an enzyme of the subtilisin family is a potential virulent factor of the fungus. The gene encoding ALP was isolated from a genomic library made from DNA of an A. fumigatus isolate. The nucleotide sequence of this gene was compared to that of a cDNA encoding A. oryzae ALP and to that of a cDNA from A. fumigatus encoding the mature ALP protein. Mature A. fumigatus ALP contains 282 amino acids and is encoded by three exons. The pre-proenzyme has a leader sequence of 121 amino acids.     

Purification and characterization of an extracellular alkaline serine protease with dehairing function from Bacillus pumilus

An extracellular alkaline serine protease (called DHAP), produced by a Bacillus pumilus strain, demonstrates significant dehairing function. This protease is purified by hydrophobic interaction chromatography, ion exchange, and gel filtration. DHAP had a pI of 9.0 and a molecular weight of approximately 32,000 Dalton. It shows maximal activity at pH 10 and with a temperature of 55 degrees C; the enzyme activity can be completely inhibited by phenylmethylsulfonyl fluoride (PMSF) and diisopropyl fluorophosphates (DFP). The first 20 amino acid residues of the purified DHAP have been determined with a sequence of AQTVPYGIPQIKAPAVHAQG. Alignment of this sequence with other alkaline protease demonstrates its high homology with protease from another B. pumilus strain.     

Cloning and expression of a novel protease gene encoding an extracellular neutral protease from Bacillus subtilis.

We have cloned from Bacillus subtilis a novel protease gene (nprB) encoding a neutral protease by using a shotgun cloning approach. The gene product was determined to have a molecular mass of 60 kDa. It has a typical signal peptide-like sequence at the N-terminal region. The expression of nprB can be stimulated by using a B. subtilis strain, WB30, carrying a sacU(h)h mutation. Expression of this protease gene results in production of a 37-kDa protease in the culture medium. The first five amino acid residues from the N terminus of the mature protease were determined to be Ala-Ala-Gly-Thr-Gly. This indicates that the protease is synthesized in a preproenzyme form. The purified protease has a pH optimum of around 6.6, and its activity can be inhibited by EDTA, 1,10-phenanthroline (a zinc-specific chelator), and dithiothreitol. It retained 65% of its activity after treatment at 65 degrees C for 20 min. Sequence comparison indicates that the mature form of this protease has 66% homology with the two thermostable neutral proteases from B. thermoproteolyticus and B. stearothermophilus. It also shares 65, 61, and 56% homology with the thermolabile neutral proteases from B. cereus, B. amyloliquefaciens, and B. subtilis, respectively. The zinc-binding site and the catalytic residues are all conserved among these proteases. Sequence homology extends into the "propeptide" region. The nprB gene was mapped between metC and glyB and was not required for growth or sporulation.     

Identification of serine protease,serine protease homolog and prophenoloxidase genes in Spodoptera frugiperda (Lepidoptera: Noctuidae)

In insects, proteolytic cascades medicated by serine proteases (SPs), serine protease homologs (SPHs) and prophenoloxidases (PPOs) control several physiological processes, notably the innate immunity. However, no attempts have been made to identify and characterize these genes in Spodoptera frugiperda, one of the most destructive agricultural pests. In this study, 83 SPs, 26 SPHs and four PPOs were respectively identified in S. frugiperda genome based on homology blast against those of other insects. We then analyzed the domain organization of these proteins and assigned them into different groups by phylogenetic reconstruction. Furthermore, the mRNA levels of clip-domain SPs/SPHs (cSPs/cSPHs) and PPOs were quantified in response to a mixed infection of Micrococcus luteus and Escherichia coli, and obvious accumulations were recorded in immune tissues, including hemocytes and fat body. In the latter study, we profiled the expression patterns of highly expressed cSPs and PPOs in different developmental stages, including egg, larva, pupa, female and male adults. It was shown that most cSPs were abundantly expressed in adults, while PPOs were detected at high levels in both egg and larval stages. These current findings substantially add to our understanding of the roles of S. frugiperda SPs, SPHs and PPOs in immune regulation and further lay a solid foundation for uncovering the interaction mechanisms between insects and pathogens.     

Concentrating alkaline serine protease,subtilisin, using a temperature-sensitive hydrogel

Summary The alkaline serine protease, subtilisin, produced by Bacillus licheniformis was concentrated using hydrogel ultrafiltration. Separation efficiency at 15° and 20°C was 84 % but decreased above 25°C.     

Purification and characterization of extracellular alkaline serine protease from Stenotrophomonas maltophilia strain S-1

AIMS: The present study was conducted by screening soil bacteria in an attempt to isolate a bacterium that produced extracellular alkaline protease, and for purification and characterization of the protease. METHODS AND RESULTS: Soil bacteria were screened by growth on casein as the sole carbon source. Characterization of a strain isolated from soil of Abashiri, Japan indicated a taxonomic affiliation to Stenotrophomonas maltophilia, and was named S-1 strain. The purified S-1 protease, designed S. maltophilia Protease-1 (SmP-1), exhibited an optimal pH of 12.0, optimal reaction temperature of 50 degrees C and a molecular mass of approximately 40 kDa by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). The cleavage sites of the oxidized-insulin B chain by SmP-1 were identified as Leu6-Cys7, Cys7-Gly8, Tyr16-Leu17 and Leu17-Val18. The N-terminal amino acid sequence of the purified alkaline protease was determined as NH2-SASAPMVSGVAALVLE. CONCLUSION: A novel extracellular alkaline serine protease was isolated from S. maltophilia strain S-1. The optimal pH of the proteolytic activity was pH 12.0. SIGNIFICANCE AND IMPACT OF THE STUDY: The extremely high optimal pH and heat stability of the alkaline serine protease SmP-1 might make it widely applicable to food and other industries.     

Cloning, expression and purification of extracellular serine protease Esp, a biofilm-degrading enzyme, from Staphylococcus epidermidis

Aims: Staphylococcus epidermidis Esp, an extracellular serine protease, inhibits Staphylococcus aureus biofilm formation and nasal colonization. To further expand the biotechnological applications of Esp, we developed a highly efficient and economic method for the purification of recombinant Esp based on a Brevibacillus choshinensis expression–secretion system. Methods and Results: The esp gene was fused with the N‐terminal Sec‐dependent signal sequence of the B. choshinensis cell wall protein and a C‐terminal hexa‐histidine‐tag gene. The recombinant Esp was expressed and secreted into the optimized medium as an immature form and subsequently activated by thermolysin. The mature Esp was easily purified by a single purification step using nickel affinity chromatography and showed proteolytic activity as well as Staph. aureus biofilm destruction activity. Conclusions: The purification yield of the developed extracellular production system was 5 mg recombinant mature Esp per 20‐ml culture, which was much higher than that of an intracellular production system in Escherichia coli (3 mg recombinant Esp per 1‐l culture). Significance and Impact of the Study: Our findings will be a powerful tool for the production and purification of recombinant Esp and also applicable to a large variety of recombinant proteins used for basic researches and biotechnological applications.     

Overexpression of serine alkaline protease encoding gene in Bacillus species: performance analyses

Bacillus species carrying subC gene encoding serine alkaline protease (SAP) enzyme were developed in order to increase the yield and selectivity in the bioprocess for SAP production. For this aim, subC gene was cloned into pHV1431 Escherichia coli–Bacillus shuttle vector, and transferred into nine host Bacillus species, i.e. B. alvei, B. amyloliquefaciens, B. badius, B. cereus, B. coagulans, B. firmus, B. licheniformis, B. sphaericus and B. subtilis. The influence of the host Bacillus species on SAP production on a defined medium with glucose was investigated in bioreactor systems. For each of the recombinant (r-) Bacillus species, effects of initial glucose concentration on cell growth and SAP production were investigated; and, physiological differences and similarities between the wild-type and r-Bacillus species are discussed. The highest biomass concentration was obtained with r-B. coagulans as 3.8 kg m⁻³ at the initial glucose concentration of C_Go=20 kg m⁻³ and the highest volumetric SAP activity was obtained with r-B. amyloliquefaciens as 1650 U cm⁻³ at C_Go=20 kg m⁻³. Overall SAP activity per amount of substrate consumed was the highest for r-B. sphaericus (137 U g⁻¹ cm⁻³) and r-B. licheniformis (130 U g⁻¹ cm⁻³). Among the r-Bacillus species the highest activity increase compared to the wild types was obtained with r-B. sphaericus while the lowest increase was obtained with r-B. amyloliquefaciens and r-B. licheniformis due to high SAP production potential of the wild-type strains. During storage of the host microorganisms, r-B. alvei and r-B. amyloliquefaciens were not able to bear the recombinant plasmid, probably, due to the restriction enzymes synthesized. Due to the highest stable volumetric activities r-B. licheniformis (950 U cm⁻³) and r-B. sphaericus (820 U cm⁻³) appear to be the favorable hosts for the production of SAP. All the r-Bacillus species excreted organic acids oxaloacetic and succinic acids, but, none excreted the amino acid valine. The variations in by-product distributions with each recombinant organism were also discussed.     

Gene structure and expression of the gene from Beauveria bassiana encoding bassiasin I, an insect cuticle-degrading serine protease

Genomic and cDNA encoding Beauveria bassiana bassiasin I, a potential cuticle-degrading serine protease, were isolated and analysed. Bassiasin I gene is comprised of 1137 bp (379 aa) and 3 introns which are 69, 62 and 68 bp long. The comparison of a deduced amino acid sequence with Metarhizium anisopliae Pr1, B. bassiana Pr1, and proteinase K showed high homology. When the cDNA including the intact signal peptide was expressed in E. coli, a clear proteolytic-degraded zone on LB-skimmed milk plates was observed.     

Physicochemical and biological properties of an extracellular serine protease of Aeromonas sobria

Previously, we cloned a protease gene of Aeromonas sobria, determined its nucleotide sequence and established a method of purifying its product. In this study, we examined the properties of the purified protease. The protease was temperature-labile and had an optimal pH of 7.5. Metallo-protease inhibitors and a cysteine protease inhibitor did not block the proteolytic activity of the enzyme. The treatment with reagents to modify sulfhydryl group did not reduce the activity. But, serine protease inhibitors did, showing that it was a serine protease. Subsequently, we examined the ability of the protease to enhance vascular permeability in dorsal skin. The protease showed activity and the reaction was inhibited by a simultaneously injected antihistaminic agent. Histopathological examination showed that mast cells appeared around the site where the protease was injected. These findings show that the vascular permeability-enhancing effect of the protease is due to histamine released at the site. Furthermore, we found that a soybean trypsin inhibitor (Kunitz) did not block the proteolytic action of the protease in vitro, but inhibited its vascular permeability-enhancing activity in skin. This suggests that a trypsin-like protease from skin mediates the activity of the protease to enhance its vascular permeability.     

Characterization of the Lactococcus lactis nisin A operon genes nisP, encoding a subtilisin-like serine protease involved in precursor processing, and nisR, encoding a regulatory protein involved in nisin biosynthesis.

Biosynthesis of the lantibiotic peptide nisin by Lactococcus lactis NIZO R5 relies on the presence of the conjugative transposon Tn5276 in the chromosome. A 12-kb DNA fragment of Tn5276 including the nisA gene and about 10 kb of downstream DNA was cloned in L. lactis, resulting in the production of an extracellular nisin precursor peptide. This peptide reacted with antibodies against either nisin A or the synthetic leader peptide, suggesting that it consisted of a fully modified nisin with the nisin leader sequence still attached to it. This structure was confirmed by N-terminal sequencing and 1H-nuclear magnetic resonance analysis of the purified peptide. Deletion studies showed that the nisR gene is essential for the production of this intermediate. The deduced amino acid sequence of the nisR gene product indicated that the protein belongs to the family of two-component regulators. The deduced amino acid sequence of NisP, the putative product of the gene upstream of nisR, showed an N-terminal signal sequence, a catalytic domain with a high degree of similarity to those of subtilisin-like serine proteases, and a putative C-terminal membrane anchor. Cell extracts of Escherichia coli overexpressing nisP were able to cleave the nisin precursor peptide, producing active, mature nisin. A similar activation was obtained with whole cells but not with membrane-free extracts of L. lactis strains carrying Tn5276 in which the nisA gene had been inactivated. The results indicate that the penultimate step in nisin biosynthesis is secretion of precursor nisin without cleavage of the leader peptide, whereas the last step is the cleavage of the leader peptide sequence from the fully maturated nisin peptide.     

Molecular cloning, sequencing, and expression of cDNA encoding serine protease with fibrinolytic activity from earthworm

An earthworm, Lumbricus rubellus, produces alkaline trypsin-like proteases that are greater than trypsins in their stability and strong tolerance to organic solvents. cDNAs encoding strong fibrinolytic proteases (F-III-2 and F-III-1) in the six isozymes were cloned and sequenced to study their stability-structure relationship. The cDNAs of F-III-2 and F-III-1 comprised 1011 and 973 bp and included open reading frames that encode polypeptides of 245 and 246 amino acid residues, respectively. The deduced amino acid sequences of F-III-2 and F-III-1 have 7 and 8 activation peptides in the N-termini respectively, indicating that they are translated as proenzymes and modified to active forms by posttranslational processing. They showed similarity to mammalian serine proteases and conserved the catalytic amino acid residues, however, neither arginine nor lysine residues were present in the autolysis region. The gene encoding the native form of F-III-2 was expressed in Pichia pastoris to produce and secrete the earthworm protease in the culture medium, which dissolves an artificial fibrin plate.     

Characterization of genes encoding rat tonin and a kallikrein-like serine protease

Tissue kallikreins are a group of serine proteases which may function as peptide hormone processing enzymes. Two rat kallikrein genomic clones (RSKG-5 and RSKG-50) were sequenced and characterized. The rat tonin gene and a kallikrein-like gene were found in clones RSKG-5 and RSKG-50, respectively. The tonin gene is 4146 base pairs in length, with both the variant CCAAA and TTTAAA boxes in the 5'-end region and an AATAAA polyadenylation signal at the 3' end of the gene. It has five exons which are separated by four introns. Sequence analysis of 3.7-kb 5' upstream and 7.5-kb 3' downstream of the tonin gene failed to reveal a second kallikrein gene. Sequence comparisons of the RSKG-5 exons with tonin cDNA revealed that only one base in the 3'-noncoding region was different from that in the previously reported rat tonin cDNA. Characteristic TC- and TG-repeated sequences were also found in the first and second introns of the tonin gene. The tonin gene encodes a preprotonin of 259 amino acids (aa). The active enzyme consists of 235 aa and is preceded by a deduced signal peptide of 17 aa and a profragment of 7 aa. Northern blot analysis indicates that RSKG-5 is expressed in a sex-dependent manner in rat submandibular gland, with a higher level expressed in males. The RSKG-50 gene was truncated at an EcoRI site in the second intron, excluding its 5' end. Compared to the coding sequence of pancreatic kallikrein, 12 nucleotides have been deleted in exon 3 of the RSKG-50 gene. The nucleotide sequences of the third, fourth, and fifth exons of the RSKG-50 gene encode a polypeptide of 188 aa residues. The translated peptide is 80% homologous to rat pancreatic kallikrein and 75% homologous to rat tonin in the corresponding regions. Key residues in the RSKG-50 gene product indicate a serine protease with kallikrein-like cleavage specificity at basic amino acids.     

Reelin is a serine protease of the extracellular matrix.

Reelin is an extracellular matrix protein that plays a pivotal role in development of the central nervous system. Reelin is also expressed in the adult brain, notably in the cerebral cortex, where it might play a role in synaptic plasticity. The mechanism of action of reelin at the molecular level has been the subject of several hypotheses. Here we show that reelin is a serine protease and that proteolytic activity is relevant to its function, since (i) Reelin expression in HEK 293T cells impairs their ability to adhere to fibronectin-coated surfaces, and adhesion to fibronectin is restored by micromolar concentrations of diisopropyl phosphorofluoridate, a serine hydrolase inhibitor; (ii) purified Reelin binds FP-Peg-biotin, a trap probe which irreversibly binds to serine residues located in active catalytic sites of serine hydrolases; (iii) purified Reelin rapidly degrades fibronectin and laminin, while collagen IV is degraded at a much slower rate; fibronectin degradation is inhibited by inhibitors of serine proteases, and by monoclonal antibody CR-50, an antibody known to block the function of Reelin both in vitro and in vivo. The proteolytic activity of Reelin on adhesion molecules of the extracellular matrix and/or receptors on neurons may explain how Reelin regulates neuronal migration and synaptic plasticity.     

Purification and properties of a serine protease from Pseudomonas matophilia.

The extracellular protease of Pseudomonas maltophilia was partially purified by ammonium sulfate precipitation and chromatography on Sephadex G-75 and Bio-rex 70. Gel electrophoresis revealed minor impurities. The enzyme exhibited the following properties: (i) molecular weight, 35,000; (ii) A see article; 10.8; (iii) isoelectric point, 9.3; (iv) pH optimum, 10.0; (v)s20, w equal 3.47. The enzyme was rapidly inactivated by ethylenediaminetetracetate, but activity could be partially restored with divalent cations. Of those tested, Ca2+, Sr2+, Ba2+, Co2+, Cu2+, Mg2+, and Zn2+ were all effective. Both phenylmethylsulfonylfluoride and diisopropylfluorophosphate were powerful inhibitors of protease activity, but L-1-tosylamide-2-phenylethylchloromethyl ketone, iodoacetic acid, and iodoacetamide were without effect. The enzyme hydrolyzed the esters N-acetyl-L-tyrosine ethyl ester and alpha-N-benzoyl-L-arginine ethyl ester (BAEE) with Km values of 10.4 and 3.4 mM, respectively. The hydrolysis of BAEE was also inhibited by phenylarsonic acids. The kinetics of inhibition by m-nitrophenylarsonate were of the mixed type, and the K1 was 1.8 mM. The data followed a theoretical curve for a 1:1 enzyme-inhibitor complex with a dissociation constant of 1.8 mM. Inhibition by m-nitrophenylarsonate was pH dependent and followed a theoretical curve for the titration of a protonated group with a pKa of 7.0.