A novel alkaline protease with antiproliferative activity from fresh fruiting bodies of the toxic wild mushroom Amanita farinosa

A novel protease with a molecular mass of 15 kDa was purified from fresh fruiting bodies of the wild mushroom Amanita farinosa. The purification protocol entailed anion exchange chromatography on DEAE-cellulose, affinity chromatography on Affi-gel blue gel, cation exchange chromatography on SP-Sepharose, and gel filtration by fast protein liquid chromatography on Superdex 75. The protease was unadsorbed on DEAE-cellulose but adsorbed on Affi-gel blue gel and SP-Sepharose. It demonstrated a single 15-kDa band in sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS/PAGE) and a 15-kDa peak in gel filtration. The optimal pH and optimal temperature of the protease were pH 8.0 and 65 °C, respectively. Proliferation of human hepatoma HepG2 cells was inhibited by the protease with an IC(50) of 25 μM. The protease did not have antifungal or ribonuclease activity.     

A novel extracellular protease from Pseudomonas aeruginosa MCM B-327: enzyme production and its partial characterization

The focus of this study was on production, purification and characterization of dehairing protease from Pseudomonas aeruginosa MCM B-327, isolated from vermicompost pit soil. Optimum protease activity, 395 U mL(-1), was observed in the medium containing soybean meal and tryptone, at pH 7 and 30 °C. The crude enzyme exhibited dehairing activity. As compared to chemical method, enzymatic method of dehairing showed reduction in COD, TDS and TSS by 34.28%, 37.32% and 51.58%, respectively. Zymogram of crude enzyme on native-PAGE presented two bands with protease activity of molecular weights of 56 and 67 kDa. Both proteases showed dehairing activity. Out of these, 56kDa protease (PA02) was purified 3.05-folds with 2.71% recovery. The enzyme was active in pH range 7-9 and temperature 20-50 °C with optimum pH of 8 and temperature 35°C. Moreover, the enzyme activity of PA02 protease was not strongly inhibited by specific inhibitor showing the novel nature of enzyme compared to serine, cysteine, aspartyl and metalloproteases. Kinetic studies indicated that substrate specificity of PA02 protease was towards various natural and synthetic proteolytic substrates but inactive against collagen and keratin. These findings suggest protease secreted by P. aeruginosa MCM B-327 may have application in dehairing for environment-friendly leather processing.     

Characterization of two forms of hemagglutinin/protease produced by Vibrio cholerae non-O1

Two forms (34 kDa and 32 kDa) of hemagglutinin/protease produced by Vibrio cholerae non-O1 were characterized. The hemagglutinin/protease purified by immunoaffinity column chromatography using a monoclonal antibody was essentially a 34-kDa form. By incubation of the purified 34-kDa form at 37 degrees C, it was processed (autodigested) to the 32-kDa form. The N-terminal 20 amino acid sequences of both the 34- and 32-kDa forms were identical, suggesting that proteolytic processing at the C-terminal region of the 34-kDa hemagglutinin/protease resulted in the 32-kDa form. With this shift, protease activity increased, but hemagglutinating activity decreased, suggesting that the C-terminal region of the hemagglutinin/protease is related to hemagglutinating activity.     

Leishmania (Leishmania) amazonensis: purification and characterization of a promastigote serine protease

Pathogenic protozoan proteases play crucial roles in the host-parasite interaction, and its characterization contributes to the understanding of protozoan disease mechanisms. A Leishmania amazonensis promastigote protease was purified 36-fold, using aprotinin-agarose affinity chromatography and gel filtration high performance liquid chromatography, yielding a total recovery of 49%. The molecular mass of active enzyme obtained from native gel filtration HPLC and SDS-PAGE under conditions of reduction and non-reduction was 68 kDa, suggesting that the enzyme may exist as a monomer. The protease isoelectric point (pI) was around 4.45 and, as demonstrated by deglycosylation assay, it did not have any carbohydrate content. The optimal pH and temperature of the enzyme were 8.0 and 28 degrees C, respectively, determined using alpha-N-rho-tosyl-L-arginyl-methyl ester (L-TAME) as substrate. Assays of thermal stability indicated that 50% of the enzymatic activity was preserved after 4 min of pre-treatment at 42 degrees C and after 24 h of pre-treatment at 37 degrees C, both in the absence of substrate. Hemoglobin, bovine serum albumin (BSA), ovalbumin, and both gelatin and peptide substrates containing arginine in ester bound were hydrolyzed by 68 kDa protease. The insulin beta-chain was also hydrolyzed by the protease, and four peptidic bonds (L11-V12, E13-A14, L15-Y16, and Y16-L17) were susceptible to the 68-kDa protease action. Inhibition studies suggested that the enzyme belonged to a serine protease class inhibited by calcium ions and activated by manganese ions. These findings demonstrate that the L. amazonensis 68-kDa serine protease differs from those of other protozoan parasites.     

Studies on Protein Metabolism in Higher Plants

A leaf protease of tobacco whose activity was enhanced during curing was purified about 60 times with ammonium sulfate fractionation, ethanol precipitation, calcium phosphate gel treatment and Sephadex G-200 column chromatography, and some properties of the protease were examined. The purified enzyme showed the optimum pH at 5.5 and the optimum temperature at 60°C. The protease activity was stable between pH 4.5 and 5.5 at 50°G or at pH 5.5 below 40°C for 1 hr, but completely destroyed at 70°C during 1 hr. The protease activity was greatly activated by reducing agents such as cysteine, glutathione or mercaptoethanol and inhibited by p-chloromercuribenzoate, phenyl- mercuric acetate or silver ions. Metal ions except for silver ion and ethylenediamine tetraacetic acid did not affect the protease activity so far examined.     

Isolation of a glucosamine binding leguminous lectin with mitogenic activity towards splenocytes and anti-proliferative activity towards tumor cells

A dimeric 64-kDa glucosamine-specific lectin was purified from seeds of Phaseolus vulgaris cv. "brown kidney bean." The simple 2-step purification protocol involved affinity chromatography on Affi-gel blue gel and gel filtration by FPLC on Superdex 75. The lectin was absorbed on Affi-gel blue gel and desorbed using 1M NaCl in the starting buffer. Gel filtration on Superdex 75 yielded a major absorbance peak that gave a single 32-kDa band in SDS-PAGE. Hemagglutinating activity was completely preserved when the ambient temperature was in the range of 20 °C-60 °C. However, drastic reduction of the activity occurred at temperatures above 65 °C. Full hemagglutinating activity of the lectin was observed at an ambient pH of 3 to 12. About 50% activity remained at pH 0-2, and only residual activity was observed at pH 13-14. Hemagglutinating activity of the lectin was inhibited by glucosamine. The brown kidney bean lectin elicited maximum mitogenic activity toward murine splenocytes at 2.5 μM. The mitogenic activity was nearly completely eliminated in the presence of 250 mM glucosamine. The lectin also increased mRNA expression of the cytokines IL-2, TNF-α and IFN-γ. The lectin exhibited antiproliferative activity toward human breast cancer (MCF7) cells, hepatoma (HepG2) cells and nasopharyngeal carcinoma (CNE1 and CNE2) cells with IC(50) of 5.12 μM, 32.85 μM, 3.12 μM and 40.12 μM respectively after treatment for 24 hours. Flow cytometry with Annexin V and propidum iodide staining indicated apoptosis of MCF7 cells. Hoechst 33342 staining also indicated formation of apoptotic bodies in MCF7 cells after exposure to brown kidney bean lectin. Western blotting revealed that the lectin-induced apoptosis involved ER stress and unfolded protein response.     

An antifungal peptide from Phaseolus vulgaris cv. brown kidney bean

A 5.4-kDa antifungal peptide, with an N-terminal sequence highly homologous to defensins and inhibitory activity against Mycosphaerella arachidicola (IC(50)= 3 μM), Setospaeria turcica and Bipolaris maydis, was isolated from the seeds of Phaseolus vulgaris cv. brown kidney bean. The peptide was purified by employing a protocol that entailed adsorption on Affi-gel blue gel and Mono S and finally gel filtration on Superdex 75. The antifungal activity of the peptide against M. arachidicola was stable in the pH range 3-12 and in the temperature range 0°C to 80°C. There was a slight reduction of the antifungal activity at pH 2 and 13, and the activity was indiscernible at pH 0, 1, and 14. The activity at 90°C and 100°C was slightly diminished. Deposition of Congo red at the hyphal tips of M. arachidicola was induced by the peptide indicating inhibition of hyphal growth. The lack of antiproliferative activity of brown kidney bean antifungal peptide toward tumor cells, in contrast to the presence of such activity of other antifungal peptides, indicates that different domains are responsible for the antifungal and antiproliferative activities.     

Inhibition of chymotrypsin- and subtilisin-like serine proteases with Tk-serpin from hyperthermophilic archaeon Thermococcus kodakaraensis

A serpin homologue (Tk-serpin) from the hyperthermophilic archaeon Thermococcus kodakaraensis was overproduced in E. coli, purified, and characterized. Tk-serpin irreversibly inhibits Tk-subtilisin (TKS) from the same organism with the second-order association rate constants (k(ass)) of 5.2×103 M?1 s?1 at 40°C and 3.1×10? M?1 s?1 at 80°C, indicating that Tk-serpin inhibits TKS more strongly at 80°C than at 40°C. It also irreversibly inhibits chymotrypsin, subtilisin Carlsberg, and proteinase K at 40°C with the k(ass) values comparable to that for TKS at 80°C. Casein zymography showed that Tk-serpin inhibits these proteases by forming a SDS-resistant complex, which is typical to inhibitory serpins. The ratio of moles of Tk-serpin needed to inhibit 1 mol of protease (stoichiometry of inhibition, SI) varies from 40 to 80 at 20°C, but decreases to the minimum values of 3-7 as the temperature increases. The inhibitory activities of Tk-serpin for these proteases increase as the stabilities of these proteases decrease, suggesting that a flexibility of the active-site of protease is one of the determinants for susceptibility of protease to inhibition by Tk-serpin. This report showed for the first time that Tk-serpin inhibits both chymotrypsin- and subtilisin-like serine proteases and its inhibitory activity increases as the temperature increases up to 100°C.     

Diversity in biofilm formation and production of curli fimbriae and cellulose of Salmonella Typhimurium strains of different origin in high and low nutrient medium

The biofilm forming behavior of 51 Salmonella Typhimurium strains was determined in Tryptone Soya Broth (TSB) and 20 times diluted TSB (1/20TSB) at 25°C and 37°C. The results indicated that biofilm forming behavior is influenced by environmental conditions and associated with the origin of the strains. Clinical, outbreak-associated and retail product isolates showed dense biofilm formation in both media at 25°C, and in TSB also at 37°C. However, industrial isolates only showed dense biofilm formation in 1/20TSB at 25°C. By enumeration of biofilm cells, LIVE/DEAD staining and SEM analysis of biofilms it was found that the ratio of cells and extracellular matrix is affected by environmental conditions. Indeed, the genes involved in curli fimbriae and cellulose production are highly induced during biofilm formation at 25°C in 1/20TSB. This indicates that these are important matrix components during biofilm formation in 1/20TSB at 25°C and that other factors contribute to biofilm formation of clinical, outbreak-associated and retail product isolates at 37°C and/or nutrient-rich conditions.     

Production and properties of two collagenases from bacteria and their application for collagen extraction

Two collagenolytic protease (collagenase) producing bacteria, a Gram positive Bacillus cereus CNA1 and a Gram negative Klebsiella pneumoniae CNL3, were isolated under alkaline and acidic conditions, respectively. The production of collagenase by these two bacteria was optimized. Glycerol was the suitable carbon source for collagenase production by both strains. The optimal initial pH values for collagenase production by CNA1 and CNL3 were 7.5 and 6.0, respectively, and the optimal temperature was 37°C for both strains. The maximum activity of the partially purified collagenase from CNA1 was at pH 7.0 and 45°C. Its pH and thermal stability were in the range of 6-8 and below 40°C, respectively. The maximum activity of the partially purified collagenase from CNL3 was at pH 6.0 and 40°C. Its pH and thermal stability were in the range of 5-7 and below 37°C, respectively. The collagenase from CNL3 was more stable at a low pH compared with that from CNA1. Collagenases from both strains were used to extract collagen from salmon fish skin. The use of collagenases from CNA1 and CNL3 combined with acid treatment yielded a high collagen extraction of 54.6% and 53.0%, of the fish skin dry weight, respectively.     

Identification and characterization of calmodulin-binding proteins in mammalian sperm flagella

A calcium and calmodulin-regulated cyclic nucleotide phosphodiesterase has been shown to be an integral component of both rat and bovine sperm flagella. The calcium-activated enzyme was inhibited by both trifluoperazine (ID50 = 10 microM) and [ethylene-bis(oxyethylenenitrilo)]tetraacetic acid (EGTA), and the basal activity measured in the presence of EGTA was stimulated by limited proteolysis to that observed in the presence of calcium/calmodulin. 125I-Calmodulin binding to purified rat sperm flagella has been characterized and the flagellar-associated calmodulin-binding proteins identified by a combination of gel and nitrocellulose overlay procedures and by chemical cross-linking experiments using dimethyl suberimidate. 125I-Calmodulin bound to demembranated rat sperm flagella in a time- and concentration-dependent manner. At equilibrium, 30-40% of the bound 125I-calmodulin remains associated with the flagella after treatment with EGTA or trifluoperazine. The majority of the bound 125I-calmodulin, both the Ca2+-dependent and -independent, was displaced by excess calmodulin. A 67-kDa calmodulin-binding protein was identified by both the gel and nitrocellulose overlay procedures. In both cases, binding was dependent on Ca2+ and was totally inhibited by trifluoperazine, EGTA, and excess calmodulin. On nitrocellulose overlays, the concentration of calmodulin required to decrease binding of 125I-calmodulin by 50% was between 10(-10) and 10(-11) M. Limited proteolysis resulted in the total loss of all Ca2+-dependent binding to the 67-kDa polypeptide. Chemical cross-linking experiments identified a major calcium-dependent 125I-calmodulin:polypeptide complex in the 84-90-kDa molecular mass range and a minor complex of approximately 200 kDa. Immunoblot analysis showed that the major 67-kDa calmodulin-binding protein did not cross-react with polyclonal antibodies raised against either the calcium/calmodulin-regulated cyclic nucleotide phosphodiesterase or phosphoprotein phosphatase (calcineurin) from bovine brain.     

Purification and characterization of a novel extracellular protease from Bacillus cereus KCTC 3674

Bacillus cereus KCTC 3674 excretes several kinds of extracellular proteases into the growth medium. Two proteases with molecular masses of approximately 36-kDa and 38-kDa, as shown by SDS-PAGE, were purified from the culture broth. The 38-kDa protease was purified from B. cereus cultivated at 37 degrees C, and the 36-kDa protease was obtained from the B. cereus cultivated at 20 degrees C. The 38-kDa protease was identified as an extracellular neutral (metallo-) protease and was further characterized. The 36-kDa protease was shown to be a novel enzyme based on its N-terminal amino acid sequence, its identification as a metallo-enzyme that was strongly inhibited by EDTA and o-phenanthroline, its hemolysis properties, and its optimal pH and temperature for activity of 8.0 and 70 degrees C, respectively.     

Improved phosphate removal by selective sludge discharge in aerobic granular sludge reactors

Two lab-scale aerobic granular sludge sequencing batch reactors were operated at 20 and 30°C and compared for phosphorus (P) removal efficiency and microbial community composition. P-removal efficiency was higher at 20°C (>90%) than at 30°C (60%) when the sludge retention time (SRT) was controlled at 30 days by removing excess sludge equally throughout the sludge bed. Samples analyzed by fluorescent in situ hybridization (FISH) indicated a segregation of biomass over the sludge bed: in the upper part, Candidatus Competibacter phosphatis (glycogen-accumulating organisms--GAOs) were dominant while in the bottom, Candidatus Accumulibacter phosphatis (polyphosphate-accumulating organisms--PAOs) dominated. In order to favour PAOs over GAOs and hence improve P-removal at 30°C, the SRT was controlled by discharging biomass mainly from the top of the sludge bed (80% of the excess sludge), while bottom granules were removed in minor proportions (20% of the excess sludge). With the selective sludge removal proposed, 100% P-removal efficiency was obtained in the reactor operated at 30°C. In the meantime, the biomass in the 30°C reactor changed in color from brownish-black to white. Big white granules appeared in this system and were completely dominated by PAOs (more than 90% of the microbial population), showing relatively high ash content compared to other granules. In the reactor operated at 20°C, P-removal efficiency remained stable above 90% regardless of the sludge removal procedure for SRT control. The results obtained in this study stress the importance of sludge discharge mainly from the top as well as in minor proportions from the bottom of the sludge bed to control the SRT in order to prevent significant growth of GAOs and remove enough accumulated P from the system, particularly at high temperatures (e.g., 30°C).     

Pseudomonas aeruginosa A2 elastase: purification, characterization and biotechnological applications

An extracellular protease from Pseudomonas aeruginosa A2 grown in media containing shrimp shell powder as a unique source of nutriments was purified and characterized. The enzyme was purified to homogeneity from culture supernatant by ultrafiltration, Sephadex G-100 gel filtration and Sepharose Mono Q anion exchange chromatography, with a 2.23-fold increase in specific activity and 64.3% recovery. The molecular mass of the enzyme was estimated to be 34 kDa. Temperature and pH with highest activity were 60 °C and 8.0, respectively. The protease activity was inhibited by EDTA suggesting that the purified enzyme is a metalloprotease. The enzyme is stable in the presence of organic solvents mainly diethyl ether and DMSO. The lasB gene, encoding the A2 elastase, was isolated and its DNA sequence was determined. The A2 protease was tested for shrimp waste deproteinization in the process of chitin preparation. The percent of protein removal after 3 h hydrolysis at 40 °C with an enzyme/substrate (E/S) ratio of 5 U/mg protein was about 75%. Additionally, A2 proteolytic preparation demonstrated powerful depilating capabilities of hair removal from bovine skin. Considering its promising properties, P. aeruginosa A2 protease may be considered a potential candidate for future use in several biotechnological processes.     

A plasminogen-like protein selectively degrades stearoyl-CoA desaturase in liver microsomes

Stearoyl-CoA desaturase (SCD) is an integral membrane protein of the endoplasmic reticulum that is rapidly and selectively degraded when isolated liver microsomes are incubated at 37 degrees C. We previously reported the purification of a 90-kDa microsomal protein with SCD protease activity and characterized the inhibitor sensitivity of the protease. Here we show that the 90-kDa protein is a microsomal form of plasminogen (Pg) and that the purified SCD protease contains a spectrum of plasmin-like derivatives. The 90-kDa protein was identified as Pg by mass spectrometry of its tryptic peptides. The purified SCD protease reacted with Pg antibody, and immunoblotting demonstrated enrichment of Pg by the purification procedure established for the SCD protease. Analysis of microsomes by zymography demonstrated a single band of proteolytic activity at 70-kDa corresponding to the mobility of Pg in nonreduced polyacrylamide gels. When microsomes were incubated at 37 degrees C prior to zymography, an intense band of proteolytic activity developed at 30-kDa. The purified SCD protease displayed a spectrum of proteolytic bands ranging from 70 to 30 kDa. Degradation of SCD by the purified protease and by microsomes was inhibited by bdellin, a plasmin inhibitor from the medicinal leech Hirudo medicinalis. To explore the role of Pg in the degradation of SCD in vivo, we examined SCD expression and degradation in microsomes isolated from Pg-deficient (Pg-/-) mice. Compared with microsomes from wild-type littermate control mice, liver microsomes from Pg-/- mice had significantly higher levels of SCD. Degradation of SCD in microsomes from Pg-/- mice was markedly diminished, whereas liver microsomes from control mice showed rapid SCD degradation similar to that observed in rat liver microsomes. These findings indicate that SCD is degraded by a protease related to Pg and suggest that plasmin moonlights as an intracellular protease.     

LapG, required for modulating biofilm formation by Pseudomonas fluorescens Pf0-1, is a calcium-dependent protease

Biofilm formation by Pseudomonas fluorescens Pf0-1 requires the cell surface adhesin LapA. We previously reported that LapG, a periplasmic cysteine protease of P. fluorescens, cleaves the N terminus of LapA, thus releasing this adhesin from the cell surface and resulting in loss of the ability to make a biofilm. The activity of LapG is regulated by the inner membrane-localized cyclic-di-GMP receptor LapD via direct protein-protein interactions. Here we present chelation and metal add-back studies demonstrating that calcium availability regulates biofilm formation by P. fluorescens Pf0-1. The determination that LapG is a calcium-dependent protease, based on in vivo and in vitro studies, explains the basis of this calcium-dependent regulation. Based on the crystal structure of LapG of Legionella pneumophila in the accompanying report by Chatterjee and colleagues (D. Chatterjee et al., J. Bacteriol. 194:4415-4425, 2012), we show that the calcium-binding residues of LapG, D134 and E136, which are near the critical C135 active-site residue, are required for LapG activity of P. fluorescens in vivo and in vitro. Furthermore, we show that mutations in D134 and E136 result in LapG proteins no longer able to interact with LapD, indicating that calcium binding results in LapG adopting a conformation competent for interaction with the protein that regulates its activity. Finally, we show that citrate, an environmentally relevant calcium chelator, can impact LapG activity and thus biofilm formation, suggesting that a physiologically relevant chelator of calcium can impact biofilm formation by this organism.     

Effects of calcium and magnesium on a 41-kDa serine-dependent protease possessing collagen-cleavage activity

We report here the continued characterization of a 41-kDa protease expressed in the early stage of the sea urchin embryo. This protease was previously shown to possess both a gelatin-cleavage activity and an echinoderm-specific collagen-cleavage activity. In the experiments reported here, we have explored the biochemical nature of this proteolytic activity. Pepstatin A (an acidic protease inhibitor), 1,10-phenanthroline (a metalloprotease inhibitor), and E-64 (a thiol protease inhibitor) were without effect on the gelatin-cleavage activity of the 41-kDa species. Using a gelatin substrate gel zymographic assay, the serine protease inhibitors phenylmethylsulfonyl fluoride and benzamide appeared to partially inhibit gelatin-cleavage activity. This result was confirmed in a quantitative gelatin-cleavage assay using the water soluble, serine protease inhibitor [4-(2-aminoethyl)benzenesulfonylfluoride]. The biochemical character of this protease was further explored by examining the effects of calcium and magnesium, the major divalent cations present in sea water, on the gelatin-cleavage activity. Calcium and magnesium competed for binding to the 41-kDa collagenase/gelatinase, and prebound calcium was displaced by magnesium. Cleavage activity was inhibited by magnesium, and calcium protected the protease against this inhibition. These results identify calcium and magnesium as antagonistic agents that may regulate the proteolytic activity of the 41-kDa species.     

Purification of a Dithiothreitol-Sensitive Tetrameric Protease from Spinach PS II Membranes

A protease with a tetrameric quaternary structure was extractedwith 1 M NaCl from spinach PS II membranes and purified by hydrophobic,anion-exchange and gel-filtration chromatography using onlybuffers of high ionic strength. Gel-filtration chromatographyresulted in elution of the protease in fractions that correspondedto molecular masses of 156 kDa and 39 kDa, and re-chromatographyof either peak gave both peaks again. This result indicatesthat the protease is represented by an equilibrium between a156-kDa tetramer and a 39-kDa monomer. SDS-polyacrylamide gelelectrophoresis of the protease fractions revealed a polypeptidewhose molecular mass was 39 kDa without prior reduction, butthe molecular mass increased to 41 kDa after prior reductionwith dithiothreitol. This finding suggests that the monomerpossesses an intramolecular disulfide linkage whose reductioncauses a configurational change that increases the effectivemolecular size. The protease had maximum activity at pH 7.0–9.0.The activity was diminished by the presence of 5 mM NaCl andwas almost completely inhibited by 50 mM NaCl. These observationssuggest that an environment of low ionic strength is a prerequisitefor the activity of this enzyme. The protease was inhibitedby dithiothreitol, a result that indicates that the 39-kDa formmaintained by the disulfide linkage is essential for activity.Studies with protease inhibitors suggested that this enzymeis not a serine-protease. ¹Present address: Department of Biomolecular Science, Facultyof Science, Toho University, Miyama 2-2-1, Funabashi, 274 Japan (Received October 19, 1989; Accepted April 12, 1990)     

Systematic analysis of biochemical performance and the microbial community of an activated sludge process using ozone-treated sludge for sludge reduction

Two lab-scale bioreactors (reactors 1 and 2) were employed to examine the changes in biological performance and the microbial community of an activated sludge process fed with ozonated sludge for sludge reduction. During the 122 d operation, the microbial activities and community in the two reactors were evaluated. The results indicated that, when compared with the conventional reactor (reactor 1), the reactor that was fed with the ozonated sludge (reactor 2) showed good removal of COD, TN and cell debris, without formation of any excess sludge. In addition, the protease activity and intracellular ATP concentration of reactor 2 were increased when compared to reactor 1, indicating that reactor 2 had a better ability to digest proteins and cell debris. DGGE analysis revealed that the bacterial communities in the two reactors were different, and that the dissimilarity of the bacterial population was nearly 40%. Reactor 2 also contained more protozoa and metazoa, which could graze on the ozone-treated sludge debris directly.