α-Amylase from germinating soybean (Glycine max) seeds – Purification,characterization and sequential similarity of conserved and catalytic amino acid residues

Starch hydrolyzing amylase from germinated soybeans seeds (Glycine max) has been purified 400-fold to electrophoretic homogeneity with a final specific activity of 384 units/mg. SDS–PAGE of the final preparation revealed a single protein band of 100 kDa, whereas molecular mass was determined to be 84 kDa by MALDI–TOF and gel filtration on Superdex-200 (FPLC). The enzyme exhibited maximum activity at pH 5.5 and a pI value of 4.85. The energy of activation was determined to be 6.09 kcal/mol in the temperature range 25–85 °C. Apparent Michaelis constant (K_m(app)) for starch was 0.71 mg/mL and turnover number (k_cat) was 280 s^?1 in 50 mM sodium acetate buffer, pH 5.5. Thermal inactivation studies at 85 °C showed first-order kinetics with rate constant (k) equal to 0.0063 min^?1. Soybean α-amylase showed high specificity for its primary substrate starch. High similarity of soybean α-amylase with known amylases suggests that this α-amylase belongs to glycosyl hydrolase family 13. Cereal α-amylases have gained importance due to their compatibility for biotechnological applications. Wide availability and easy purification protocol make soybean as an attractive alternative for plant α-amylase. Soybean can be used as commercially viable source of α-amylase for various industrial applications.     

Psychrophilic α-amylase from Aeromonas veronii NS07 isolated from farm soils

Among 120 isolates examined in this study, three isolates were selected for amylase production on starch agar plates following incubation at 10 °C. Identification by 16SrRNA on selected bacterium disclosed the highest similarity for protean regions of this gene as Aeromonas veronii NS07. A 63 kDa psychrophilic amylase enzyme from NS07 strain was purified by two-steps chromatography. The enzyme had the highest specific activity at pH 4 and was active at the range of temperatures from 0 to 50 °C, although the optimum temperature for enzyme activity was found at 10 °C. Analysis of the N-terminal amino acid sequencing disclosed 20 amino acids from purified amylase which had no similarity with other known α-amylases, indicating that the presented enzyme was novel. Amylase activity was enhanced in relation to optimum activity with the presence of sodium sulphate (161%), MnCl₂ (298%), CaCl₂ (175%), FeCl₂ (182%), MgCl₂ (237%), ZnCl₂ (169%), NiCl₂ (139%), NaCl (158%), each at 5 mM, while EDTA, phenylmethane sulphonylfluoride (PMSF) (3 mM), urea (8 M) and SDS (1%) inhibited the enzyme up to 5%, 2%, 80% and 18%, respectively. NS07 strain seems to be suitable as biocatalyst for practical use in liquefaction of starch at low temperatures, detergent and textile industries.     

Forming nanoparticles of α-amylase and embedding them into solid surfaces

In the current work nanoparticles (NPs) of α-amylase were generated in an aqueous solution using high-intensity ultrasound, and were subsequently immobilized on polyethylene (PE) films, or polycarbonate (PC) plates, or on microscope glass slides. The α-amylase NPs coated on the solid surfaces have been characterized by ESEM, TEM, FTIR, XPS and AFM. The substrates immobilized with α-amylase were used for hydrolyzing soluble potato starch to maltose. The amount of enzyme introduced in the substrates, leaching properties, and the catalytic activity of the immobilized enzyme were compared. The catalytic activity of the amylase deposited on the three solid surfaces was compared to that of the same amount of free enzyme at different pHs and temperatures. α-Amylase coated on PE showed the best catalytic activity in all the examined parameters when compared to native amylase, especially at high temperatures. When immobilized on glass, α-amylase showed better activity than the native enzyme over all pH and temperature values studied. However, the immobilization on PC did not improve the enzyme activity at any pH and any temperature compared to the free amylase. The kinetic parameters, K_m and V_max were also calculated. The amylase coated PE showed the most favorable kinetic parameters (K_m = 5 g L⁻¹ and V_max = 5E−07 mol mL⁻¹ min⁻¹). In contrast, the anchored enzyme-PC exhibited unfavorable kinetic parameters (K_m = 16 g L⁻¹, V_max = 4.2E−07 mol mL⁻¹ min⁻¹). The corresponding values for amylase-glass were K_m = 7 g L⁻¹, V_max = 1.8E−07 mol mL⁻¹ min⁻¹, relative to those obtained for the free enzyme (K_m = 6.6 g L⁻¹, V_max = 3.3E−07 mol mL⁻¹ min⁻¹).     

Purification and biochemical characterization of a novel SDS and surfactant stable,raw starch digesting,and halophilic α-amylase from a moderately halophilic bacterium,Nesterenkonia sp. strain F

An extracellular halophilic α-amylase from Nesterenkonia sp. strain F was purified to homogeneity by 80% ethanol precipitation, Q-Sepharose anion exchange and Sephacryl S-200 gel filtration chromatography, with a 10.8-fold increase in specific activity. The molecular mass of the amylase was estimated to be 100 kDa and 106 kDa by SDS–PAGE and gel filtration chromatography, respectively. The enzyme showed maximal activity at pH 7.5 and 45 °C. The amylase was active in a wide range of salt concentrations (0–4 M) with its maximum activity at 0.5 M NaCl or 1 M KCl and was stable at the salts concentrations between 1 M and 4 M. Fe³⁺, Cu²⁺, Zn²⁺ and Al³⁺ strongly inhibited the enzyme, whereas Ca²⁺ stimulated the amylase activity. The α-amylase was inhibited by EDTA, but was not inhibited by PMSF and β-mercaptoethanol. The enzyme showed remarkable stability towards 0.5% SDS and sarcosyl, and 2% each of Triton X-100, Tween 80 and Tween 20. K_m value of the amylase for soluble starch was 4.5 mg/ml. The amylase hydrolyzed 38% of raw wheat starch and 20% of corn starch in a period of 48 h. The major products of soluble starch hydrolysis were maltose, maltotriose and maltotetraose, indicating an α-amylase activity.     

Effects of exposure to sublethal propiconazole on intestine-related biochemical responses in rainbow trout,Oncorhynchus mykiss

The effect of long-term (30 days) exposure to PCZ (0.2, 50, and 500 μg l^?1) on intestine-related biochemical markers in rainbow trout was investigated. Multiple biomarkers were measured, including digestive enzymes (proteolytic enzymes and amylase), antioxidant responses (TBARS, CP, SOD, CAT, GR and GPx) and energy metabolic parameters (RNA/DNA ratio, Na⁺-K⁺-ATPase). Exposure to 500 μg l^?1 PCZ led to significantly inhibited (p < 0.01) proteolytic enzyme and amylase activity. Activities of the antioxidant enzymes SOD, CAT, and GPx gradually increased at lower PCZ concentrations (0.2 and 50 μg l^?1). At the highest concentration (500 μg l^?1), oxidative stress was apparent as significant higher (p < 0.05) lipid peroxidation and protein carbonyls, associated with an inhibition of antioxidant enzymes activity. Moreover, energy metabolic parameters (RNA/DNA ratio, Na⁺-K⁺-ATPase) were significantly inhibited (p < 0.01) in the intestines of fish exposed to 500 μg l^?1 PCZ, compared with controls. We suggest that long-term exposure to PCZ could result in several responses in intestine-related biochemical markers, which potentially could be used as indicators for monitoring residual PCZ present in the aquatic environment.     

Optimization and immobilization of amylase obtained from halotolerant bacteria isolated from solar salterns

The objective of the present study was to isolate halotolerant bacteria from the sediment sample collected from Marakanam Solar Salterns, Tamil Nadu, India using NaCl supplemented media and screened for amylase production. Among the 22 isolates recovered, two strains that had immense potential were selected for amylase production and designated as P1 and P2. The phylogenetic analysis revealed that P1 and P2 have highest homology with Pontibacillus chungwhensis (99%) and Bacillus barbaricus (100%). Their amylase activity was optimized to obtain high yield under various temperature, pH and NaCl concentration. P1 and P2 strain showed respective, amylase activity maximum at 35 °C and 40 °C; pH 7.0 and 8.0; 1.5 M and 1.0 M NaCl concentration. Further under optimized conditions, the amylase activity of P1 strain (49.6 U mL^?1) was higher than P2 strain. Therefore, the amylase enzyme isolated from P. chungwhensis P1 was immobilized in sodium alginate beads. Compared to the free enzyme form (49.6 U mL^?1), the immobilized enzyme showed higher amylase activity as 90.3 U mL^?1. The enzyme was further purified partially and the molecular mass was determined as 40 kDa by SDS–PAGE. Thus, high activity of amylase even under increased NaCl concentration would render immense benefits in food processing industries.     

Age-specific digestion of Tenebrio molitor (Coleoptera: Tenebrionidae) and inhibition of proteolytic and amylolytic activity by plant proteinaceous seed extracts

Tenebrio molitor L. (Coleoptera: Tenebrionidae), is an international and serious pest of stored products. So far nothing is known about the activity for each growth stage digestive enzyme regarding this insect species. Thus, the aim of the current study was to get in depth analysis of the stage specific digestion and to investigate the effect of cereal (wheat cultivars including MV17, Aflak, Sivand, Saymon, and Zare) and legume (bean) seed extracts on the two main digestive enzymes i.e. α-amylases and proteases. Therefore, gut enzymes were extracted using distilled water and wheat cultivars and bean seed proteinaceous compounds were extracted using 0.1 M NaCl. Results showed that a steady state increase in the number and amount of digestive enzyme activities from first to fourth instar larvae was seen in both enzyme and in gel assays. In the first instar larvae (L1) only one band of α-amylase activity was seen (A1), whereas in the second (L2), third (L3), fourth (L4) and fifth (L5) instar larvae as well as in the adult (A) more than one amylase band (up to 4 isoenzymes) was seen. The same pattern was observed for α and β glucosidases and proteases. Probit analysis showed that bean and MV17 inhibited the amylase activity with an I₅₀ of 9.73 and 7.4 μg, respectively. The same cultivar seed extract inhibited protease activity with I₅₀s of 11.54 and 6.5 μg proteins. It is concluded that proteinaceous extract of cereals and bean seeds have a strong potential to be used in this pest management.     

The correction of reaction rates in continuous fluorometric assays of enzymes

The kinetic data obtained from the action of a cathepsin D-like enzyme from Biomphalaria glabrata hepatopancreas (digestive gland) on MOCAc-Gly-Lys-Pro-Ile-Leu-Phe-Phe-Arg-Leu-Lys(DNp)-D–Arg-NH₂, was studied as a data prototype, generated by means of a fluorogenic substrate. An initial fluorescence, due to incomplete energy transfer, of about 8% of the values attained after complete substrate hydrolysis; a non-linear standard curve even at μM concentrations and an exponential decay of the steady state fluorescence of reaction product of the order of 10^− 4 × s^− 1 were the main analytical problems encountered. The standard curves for fluorescence of the substrate reaction product after 48 h of hydrolysis, and the reference compound MOCAc-Pro-Leu-Gly-NH₂, were fitted by polynomial approximation and the point derivates used as calibration factors. Time dependence of the calibration factor for the reaction product was − 2.96 × 10^− 4 a.u μM^− 1 × s^− 1 that is, in the same order of observed enzymic reaction rates. A mathematical treatment was devised for obtaining rates corrected for errors derived from the three analytical problems indicated. The method is of general application in continuous fluorometric assays, irrespective of the particular enzyme used, but of special value for substrates that present significant initial fluorescence. The reaction rates were 11% higher; as calculated by means of the calibration factor [substrate] ÷ (final − initial fluorescence intensities), which is the prevalent procedure in the literature; leading to underestimation of K_m and overestimation of V_max.     

Nylon capsule method and alfalfa hay crude protein digestibility evaluation

In a trial with two dairy cows we have determined crude protein total tract digestibility (TTDP_NC) by a new nylon capsule method. Nylon capsules were made of nylon cloth with 42 μm apertures. The capsule shape was lenticular, with 10 mm external diameter and 8 mm internal diameter. The capsules were loaded with two stainless steel balls of 149 mg total weight. The average weight of a sample (milled alfalfa hay) in one capsule was 12.9 mg. In each of the two periods 1260 capsules were inserted orally into each of the two cows. Mean capsule passage time (CPT) through the digestive tract was 36.1 h (s.e. 0.49). The total tract dry matter digestibility determined by the nylon capsule method (TTDM_NC) was significantly (P < 0.05) influenced by the time which the capsules spent in the digestive tract. When CPT was 25.4 h, TTDM_NC was 64.8%, while with CPT 50.4 h it was 70.3%. The mean value of TTDP_NC was 93.8%. A similar value, 92.3%, was obtained by calculation based on the values determined by the nylon bag and the mobile bag methods. The results have shown that it is possible to use the nylon capsule method for the determination of total tract digestibility of individual feed components in cattle.     

A Kazal-type serine proteinase inhibitor from chicken liver (clTI-1): Purification,primary structure,and inhibitory properties

Low-molecular-mass trypsin inhibitor (clTI-1; chicken liver Trypsin Inhibitor-1) was purified from chicken liver by extraction with perchloric acid, ammonium sulfate precipitation, a combination of ethanol-acetone fractionation followed by gel filtration, ion-exchange chromatography and RP-HPLC on a C18 column. The inhibitor occurs in two isoforms with molecular masses of 5938.56 and 6026.29 Da (determined by MALDI TOFF mass spectrometry). The complete amino acid sequences of both isoforms were determined (UniProtKB/Swiss-Prot P85000; ISK1L_CHICK). The inhibitor shows a high homology to Kazal-type family inhibitors, especially to trypsin/acrosin inhibitors and pancreatic secretory trypsin inhibitors. clTI-1 inhibits both bovine and porcine trypsin (K_a = 1.1 × 10⁹ M^?1 and 2.5 × 10⁹ M^?1, respectively). Significant differences were shown in the inhibition of the anionic and cationic forms of chicken trypsin (K_a = 4.5 × 10⁸ M^?1 and 1.2 × 10¹⁰ M^?1). Weak interaction with human plasmin (K_a = 1.2 × 10⁷ M^?1) was also revealed.     

Comparative kinetic study between moving bed biofilm reactor-membrane bioreactor and membrane bioreactor systems and their influence on organic matter and nutrients removal

New technologies regarding wastewater treatment have been developed. Among these technologies, the moving bed biofilm reactor combined with membrane bioreactor (MBBR-MBR) is a recent solution alternative to conventional processes. This paper presents the results obtained from three wastewater treatment plants working in parallel. The first wastewater treatment plant consisted of a membrane bioreactor (MBR), the second one was a MBBR-MBR system containing carriers both in anoxic and aerobic zones, and the last one consisted of a MBBR-MBR system which contained carriers only in the aerobic zone. The reactors operated with a hydraulic retention time of 26.47 h. During the study, the difference between the experimental plants was not statistically significant concerning organic matter and nutrients removal. However, different tendencies regarding nutrients removal are shown by the three wastewater treatment plants. In this sense, the performances in terms of nitrogen and phosphorus removal of the MBBR-MBR system which contained carriers only in the aerobic zone (67.34 ± 11.22% and 50.65 ± 11.13%, respectively) were slightly better than those obtained from another experimental plants. As a whole, the pilot plant which consisted of a MBR showed better performance from the point of view of the kinetics of the heterotrophic and autotrophic biomass with values of μ_m,H = 0.00858 h⁻¹, μ_m,A = 0.07646 h⁻¹, K_M = 2.37 mg O₂ L⁻¹ and K_NH = 1.31 mg N L⁻¹.     

α-Amylase (AmyP) of glycoside hydrolase subfamily GH13_37 is resistant to various toxic compounds

The α-amylase (AmyP) from a marine metagenomic library shows very low sequence similarity with characterized α-amylases and belongs to a new glycoside hydrolase subfamily GH13_37. This amylase retained above 87% residual activity in the presence of metal ions (concentrations <10 mM) tested except Hg²⁺ and was strongly stimulated by 5 mM Cu²⁺. AmyP was active over a wide range of salt concentration (0–3 M) with the optimal concentration at 1 M. The enzyme exhibited 119, 106, 108, 42 and 31% of its activity the presence of 2% Tween 20, Tween 40, Triton X-100, SDS and CTAB, respectively, showing excellent resistance. Oxidizing agents (H₂O₂ and NaClO₃) not strongly inactivated the enzyme. DTT was found to greatly enhance the activity (to 198% of original activity), while 2-mercaptoethanol had no significant effect on the enzyme. Moreover, AmyP retained considerable activity in both hydrophobic solvents and hydrophilic solvents, and n-octanol even increased the amylase activity to 113%. Compared to other α-amylases capable of resisting toxic compounds, AmyP was the first α-amylase with such broad spectrum resistance.     

The postabsorptive and postprandial metabolic rates of praying mantises: Comparisons across species,body masses,and meal sizes

The metabolic rate of an animal affects the amount of energy available for its growth, activity and reproduction and, ultimately, shapes how energy and nutrients flow through ecosystems. Standard metabolic rate (SMR; when animals are post-absorptive and at rest) and specific dynamic action (SDA; the cost of digesting and processing food) are two major components of animal metabolism. SMR has been studied in hundreds of species of insects, but very little is known about the SMR of praying mantises. We measured the rates of CO₂ production as a proxy for metabolic rate and tested the prediction that the SMR of mantises more closely resembles the low SMR of spiders – a characteristic generally believed to be related to their sit-and-wait foraging strategy. Although few studies have examined SDA in insects we also tested the prediction that mantises would exhibit comparatively large SDA responses characteristic of other types of predators (e.g., snakes) known to consume enormous, protein-rich meals. The SMR of the mantises was positively correlated with body mass and did not differ among the four species we examined. Their SMR was best described by the equation μW = 1526 * g^0.745 and was not significantly different from that predicted by the standard ‘insect-curve’; but it was significantly higher than that of spiders to which mantises are ecologically more similar than other insects. Mantises consumed meals as large as 138% of their body mass and within 6–12 h of feeding and their metabolic rates doubled before gradually returning to prefeeding rates over the subsequent four days. We found that the SDA responses were isometrically correlated with meal size and the relative cost of digestion was 38% of the energy in each meal. We conclude that mantises provide a promising model to investigate nutritional physiology of insect predators as well as nutrient cycling within their ecological communities.     

Production,purification, and characterization of two extremely halotolerant,thermostable, and alkali-stable α-amylases from Chromohalobacter sp. TVSP 101

The halophilic bacterial strain Chromohalobacter sp. TVSP 101 was shown to produce extracellular, halotolerant, alkali-stable and moderately thermophilic α-amylase activity. The culture conditions for higher amylase production were optimized with respect to NaCl, pH, temperature and substrates. Maximum amylase production was achieved in a medium containing 20% NaCl or 15% KCl at pH 9.0 and 37 °C in the presence of 0.5% rice flour and tryptone. Addition of 50 mM CaCl₂ to the medium increased amylase production by 29%. Two kinds of amylase activity, designated amylase I and amylase II, were purified from culture filtrates to homogeneity with molecular masses of 72 and 62 kDa, respectively. Both enzymes had maximal activity at pH 9.0 and 65 °C in the presence of 0–20% (w/v) NaCl but amylase I was much more stable in the absence of NaCl than amylase II. The enzymes efficiently hydrolyzed carbohydrates to yield maltotetraose, maltotriose, maltose, and glucose as the end products.     

Purification and characterization of cyanogenic β-glucosidase from wild apricot (Prunus armeniaca L.)

β-Glucosidase catalyzes the sequential breakdown of cyanogenic glycosides in cyanogenic plants. The β-glucosidase from Prunus armeniaca L. was purified to 8-fold, and 20% yield was obtained, with a specific activity of 281 U/mg protein. The enzyme showed maximum activity in 0.15 M sodium citrate buffer, pH 6, at 35 °C with p-nitrophenylglucopyranoside as substrate. The β-glucosidase from wild apricot was used successfully for the saccharification of cellobiose into D-glucose. This enzyme has a V_max of 131.6 μmol min⁻¹ mg⁻¹ protein, K_m of 0.158 mM, K_cat of 144.8 s⁻¹, K_cat/K_m of 917.4 mM⁻¹ s⁻¹, and K_m/V_max of 0.0012 mM min mg μmole⁻¹, using cellobiose as substrate. The half-life, deactivation rate coefficient, and activation energy of this β-glucosidase were 12.76 h, 1.509 × 10⁻⁵ s⁻¹, and 37.55 kJ/mol, respectively. These results showed that P. armeniaca is a potential source of β-glucosidase, with high affinity and catalytic capability for the saccharification of cellulosic material.     

Synthesis,anti-inflammatory activity and modeling studies of cycloartane-type terpenes derivatives isolated from Parthenium argentatum

The 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced edema model in mice determined the anti-inflammatory activities in vivo of argentatins A, B and D, the main cycloartenol-type triterpenes present in Parthenium argentatum. Our results showed that argentatin B (ED₅₀ = 1.5 × 10⁻⁴ mmol/ear) and argentatin A (ED₅₀ = 2.8 × 10⁻⁴ mmol/ear) were more potent anti-inflammatory agents than indomethacin (ED₅₀ = 4.5 × 10⁻⁴ mmol/ear), the reference drug. Based on these findings, we decided to evaluate 13 derivatives of argentatins A and B. All the derivatives showed anti-inflammatory activity in the TPA-induced edema model in mice. The most active compound was 25-nor-cycloart-3, 16-dione-17-en-24-oic acid, obtained from argentatin A (ED₅₀ = 1.4 × 10⁻⁴ mmol/ear). Argentatin B was assayed as inhibitor of COX-2 activity one of the key enzymes involved in the TPA assay. The results showed that argentatin B at 15 μM doses inhibited 77% COX-2 activity. Docking studies suggest that argentatin B interacts with Arg 120, a key residue for COX-2 activity.     

The effects of feeding on the swimming performance and metabolic response of juvenile southern catfish,Silurus meridionalis,acclimated at different temperatures

To test whether the effects of feeding on swimming performance vary with acclimation temperature in juvenile southern catfish (Silurus meridionalis), we investigated the specific dynamic action (SDA) and swimming performance of fasting and feeding fish at acclimation temperatures of 15, 21, 27, and 33 °C. Feeding had no effect on the critical swimming speeding (U_crit) of fish acclimated at 15 °C (p = 0.66), whereas it elicited a 12.04, 18.70, and 20.98% decrease in U_crit for fish acclimated at 21, 27 and 33 °C, respectively (p < 0.05). Both the maximal postprandial oxygen consumption rate (VO_2peak) and the active metabolic rate (VO_2active, maximal aerobic sustainable metabolic rate of fasting fish) increased significantly with temperature (p < 0.05). The postprandial maximum oxygen consumption rates during swimming (VO_2max) were higher than the VO_2active of fasting fish at all temperature groups (p < 0.05). The VO_2max increased with increasing temperature, but the relative residual metabolic scope (VO_2max? VO_2peak) during swimming decreased with increasing in temperature. The present study showed that the impairment of postprandial swimming performance increased with increasing temperature due to the unparalleled changes in the catfish's central cardio-respiratory, peripheral digestive and locomotory capacities. The different metabolic strategies of juvenile southern catfish at different temperatures may relate to changes in oxygen demand, imbalances in ion fluxes and dissolved oxygen levels with changes in temperature.     

A concise synthesis and evaluation of new malonamide derivatives as potential α-glucosidase inhibitors

A series of new malonamide derivatives were synthesized by Michael addition reaction of N¹,N³-di(pyridin-2-yl)malonamide into α,β-unsaturated ketones mediated by DBU in DCM at ambient temperature. The inhibitory potential of these compounds in vitro, against α-glucosidase enzyme was evaluated. Result showed that most of malonamide derivatives were identified as a potent inhibitors of α-glucosidase enzyme. Among all the compounds, 4K (IC₅₀ = 11.7 ± 0.5 μM) was found out as the most active one compared to standard drug acarbose (IC₅₀ = 840 ± 1.73 μM). Further cytotoxicity of 4a–4m were also evaluated against a number of cancer and normal cell lines and interesting results were obtained.     

Anaerobic treatment of low-strength wastewater with a high fraction of particulate matter in an unconventional two-phase ASBRs system

The results of a two-phase anaerobic system using anaerobic sequencing batch reactors (ASBRs), treating low-strength wastewater (COD ∼ 500 mg/L) with a high fraction of particulate organic matter (70%, COD basis), are presented. Two reactors in series were used; the first one was hydrolytic–acidogenic, while the second one was methanogenic. This configuration was proposed to promote high efficiency solids removal. During the experiment, 69% and 50% efficiencies of total COD removal were obtained for OLRs of 0.63 and 1.22 kgCOD/(m³ d), respectively. Values of the solubilized organic fraction (SOF) achieved in the hydrolytic–acidogenic reactor were within the range of 0.3–0.6 gCOD_solubilized/gpCOD_removed, and the average acidified organic fraction (AOF) was 0.6 gCOD_VFA-produced/gsCOD_fed. The methanogenic reactor had a VFA removal fraction (VFARF) between 0.4 and 0.6 gCOD_VFA-removed/gCOD_VFA-fed for the OLR of 0.63 and 1.22. The two-phase ASBR system is suitable, and can be implemented, for the anaerobic treatment of this kind of wastewater.