Purification and characterization of thermostable cellulase from Enterobacter cloacae IP8 isolated from decayed plant leaf litter

Cellulases are important in the hydrolysis of lignocellulosic materials and thereby contribute to biomass conversion into fuels and chemicals. A cellulase-producing bacterium was isolated from decayed plant leaf litter in soil of a botanical garden. Based on morphological, biochemical and 16S rRNA gene sequencing, it was identified as Enterobacter cloacae IP8, with gene bank accession number NR118568.1. The bacterial cellulase was purified in a three-step procedure using lyophilization, ion exchange chromatography (QAE Sephadex A-50) and gel filtration (Biogel P-100). Two isoforms of the enzyme were purified 1.21 and 1.23 folds, respectively, with yields of 30 and 29% for isoforms A and B, respectively. Apparent molecular weights of 36.61?±?1.40 and 14.1?±?0.10?kDa were obtained for isoforms A and B, respectively, using gel filtration chromatography. Kinetic parameters K_m and V_max were 0.13?±?0.04?mg/ml and 3.84?±?0.05?U/ml/min, respectively, for isoform A and 0.58?±?0.06?mg/ml and 13.8?±?0.10?U/ml/min, respectively, for isoform B. Optimum pH (7.0) and temperature (60?°C) of cellulase activity were determined for both isoforms A and B. Na⁺ and Ca²⁺ enhanced the activities of both isoforms. Mg²⁺ inhibited the enzyme activity at concentrations 4–15?mM but, while it stimulated the activity of isoform A at concentrations 15–200?mM, it inhibited that of isoform B at same concentration range. The strong inhibition of the enzyme by ethylenediaminetetraacetic acid (EDTA) confirmed the enzyme as a metalloenzyme. These results reveal the purified cellulase from E. cloacae IP8 as a thermostable, acidic to neutral metalloenzyme, suggesting that it has good potential for biotechnological applications.     

Life table of Gaeolaelaps aculeifer (Acari: Laelapidae) feeding on larvae of Lycoriella auripila (Diptera: Sciaridae) with stage-specific estimates of consumption

Gaeolaelaps aculeifer (Canestrini, 1883) is a soil-dwelling predatory mite with potential for use as a biological control agent of fungus gnats (Diptera: Sciaridae) in mushroom production. The life table, predation rate and population growth rate of G. aculeifer on a diet of larvae of the sciarid fly, Lycoriella auripila, at 23?±?1°C, 60?±?5% RH and a photoperiod of 0:24 (L:D)?h was investigated. The results revealed that the duration of egg, larva, protonymph, deutonymph, females and males of G. aculeifer were 3.8?±?0.1, 1.4?±?0.1, 3.9?±?0.1, 4.1?±?0.1, 67.7?±?2.8 and 60.3?±?3.1 days, respectively. Net reproductive rate (R₀) was 54.8?±?7.1 offspring, intrinsic rate of increase (r) was 0.12?±?0.01 offspring day^?1, finite rate of increase (λ) was 1.13?±?0.01 day^?1and mean generation time (T) was 32.3?±?0.6 days. The predator consumed a mean of 0.08?±?0.05, 1.73?±?0.18, 3.16?±?0.28 and 75.9?±?7.1 third instar L. auripila larvae during the larval (1.3?±?0.1 days), protonymph (3.9?±?0.1 days), deutonymph (4.1?±?0.1 days) and adult (52.6?±?2.2 days) stages. Population parameters and consumption rates suggest that G. aculeifer has good potential as a biological control agent of L. auripila in mushroom production.     

A novel thermoacidophilic endoglucanase, Ba-EGA, from a new cellulose-degrading bacterium, Bacillus sp.AC-1

A newly discovered bacterium, strain AC1, containing cellulase was isolated from the gastric juice of the mollusca, Ampullaria crosseans. Analysis of the 16S rDNA sequence and carbon sources revealed that the bacterium belonged to the genus Bacillus. A novel endoglucanase (Ba-EGA) was purified from culture supernatants of the bacterium growing in CMC-Na (low viscosity) induction medium. The cellulase was purified about 150-fold by ammonium sulfate fractionation, ion exchange, hydrophobic, and gel filtration chromatography, with a specific activity of 35.0 IU/mg. The molecular mass of the enzyme was 67 kDa. N-terminal amino acid sequencing revealed a sequence of SDYNYVEVLQKSILF, which had high homology with endoglucanases from the Bacillus and Clostridium species. The maximal activity of the enzyme with the substrate of CM-cellulose is at pH 4.5–6.5 and 70°C, respectively. The studies on pH and temperature stability showed that the Ba-EGA is stable enough between pH 7.5 and 10.5 at 30°C for 2 h, and more than 80% of the activity still remains when incubation was prolonged to 1 h at 50°C. The activity of the enzyme was significantly inhibited by Fe²⁺, Cu²⁺ (5.0 mM of each), and sodium dodecyl sulfate (SDS) (0.5%) and obviously activated by Tween 20 and Triton X-100 (0.25% each). Binding studies revealed that the Ba-EGA had cellulose-binding domain.     

Inhibition of purified bovine liver glutathione reductase with some metal ions

Glutathione reductase (GR; E.C. 1.6.4.2) is a flavoprotein that catalyzes the NADPH-dependent reduction of oxidized glutathione (GSSG). In this study we tested the effects of Al³⁺, Ba²⁺, Ca²⁺, Li⁺, Mn²⁺, Mo⁶⁺, Cd²⁺, Ni²⁺, and Zn²⁺ on purified bovine liver GR. In a range of 10?μM–10?mM concentrations, Al³⁺, Ba²⁺, Li⁺, Mn²⁺, and Mo⁶⁺, and Ca²⁺ at 5?μM–1.25?mM, had no effect on bovine liver GR. Cadmium (Cd²⁺), nickel (Ni²⁺), and zinc (Zn²⁺) showed inhibitory effects on this enzyme. The obtained IC₅₀ values of Cd²⁺, Ni²⁺, and Zn²⁺ were 0.08, 0.8, and 1?mM, respectively. Cd²⁺ inhibition was non-competitive with respect to both GSSG (Ki_GSSG 0.221?±?0.02?mM) and NADPH (Ki_NADPH 0.113?±?0.008?mM). Ni²⁺ inhibition was non-competitive with respect to GSSG (Ki_GSSG 0.313?±?0.01?mM) and uncompetitive with respect to NADPH (Ki_NADPH 0.932?±?0.03?mM). The effect of Zn²⁺ on GR activity was consistent with a non-competitive inhibition pattern when the varied substrates were GSSG (Ki_GSSG 0.320?±?0.018?mM) and NADPH (Ki_NADPH 0.761?±?0.04?mM), respectively.     

Characterization of marine bacterial carbonic anhydrase and their CO2 sequestration abilities based on a soil microcosm

Abstract

The novel technology of biological carbon sequestration using microbial enzymes have numerous advantages over conventional sequestration strategies. In the present study, extracellular carbonic anhydrase (CA) producing bacteria were isolated from water samples in the Arabian Sea, India. A potential isolate, Bacillus safensis isolate AS-75 was identified based on 16S rDNA sequence analysis. The culture conditions suitable for CA production were 32?°C incubation temperature with 4% NaCl and 10?mM Zn supplementation. Experimental optimization of culture conditions enhanced enzyme activity to 265?U mL^?1. CA specific gene was characterized and based on the analysis, the CA of B. safensis isolate AS-75 was a leucine (11.3%) with α-helices as the dominant component in its secondary structure. Based on soil microcosm studies, CA could sequester CO₂ by 95.4%?±?0.11% in sterilized soil with enzyme microcosm. Hence, the application of enzyme was found to be more effective in removing CO₂.     

Thermostable glucose-tolerant glucoamylase produced by the thermophilic fungus Scytalidium thermophilum

Glucoamylase produced byScytalidium thermophilum was purified 80-fold by DEAE-cellulose, ultrafiltration and CM-cellulose chromatography. The enzyme is a glycoprotein containing 9.8% saccharide, pI of 8.3 and molar mass of 75 kDa (SDS-PAGE) or 60 kDa (Sepharose 6B). Optima of pH and temperature with starch or maltose as substrates were 5.5/70 °C and 5.5/65 °C, respectively. The enzyme was stable for 1 h at 55 °C and for about 8 d at 4 °C, either at pH 7.0 or pH 5.5. Starch, amylopectin, glycogen, amylose and maltose were the substrates preferentially hydrolyzed. The activity was activated by 1 mmol/L Mg²⁺ (27%), Zn²⁺ (21%), Ba²⁺ (8%) and Mn²⁺ (5%).K _m and {ie11-1} values for starch and maltose were 0.21 g/L, 62 U/mg protein and 3.9 g/L, 9.0 U/mg protein, respectively. Glucoamylase activity was only slightly inhibited by glucose up to a 1 mol/L concentration.     

In vitro effects of some drugs on human erythrocyte glutathione reductase

The effects of ketotifen, meloxicam, phenyramidol–HCl and gadopentetic acid on the enzyme activity of GR were studied using human erythrocyte glutathione reductase (GR) enzymes in vitro. The enzyme was purified 209-fold from human erythrocytes in a yield of 19% with 0.31?U/mg. The purification procedure involved the preparation of haemolysate, ammonium sulphate precipitation, 2′′,5′-ADP Sepharose 4B affinity chromatography and Sephadex G-200 gel filtration chromatography. Purified enzyme was used in the in vitro studies. In the in vitro studies, IC₅₀ values and K_i constants were 0.012?mM and 0.0008?±?0.00021?mM for ketotifen; 0.029?mM and 0.0061?±?0.00127?mM for meloxicam; 0.99?mM and 0.4340?±?0.0890?mM for phenyramidol–HCl; 138?mM and 28.84?±?4.69?mM for gadopentetic acid, respectively, showing the inhibition effects on the purified enzyme. Phenyramidol–HCl showed competitive inhibition, whereas the others showed non-competitive inhibition.     

Thermodynamics of the slow–fast transition in bacteriophage T2L

We have measured the thermodynamic parameters of the slow-fast tail-fiber reorientation transition on T2L bateriophage. Proportions of the virus in each form were determined from peak-height measurements in sedimention-velocity runs and from average diffusion coefficients obtained by quasielastic laser light scattering. Computer simulation of sedimentation confirmed that there were no undetected intermediates in the transition, which was analyzed as a two-state process. Van't Hoff-type plots of the apparent equilibrium constant and of the pH midpoint of the transition as function of reciprocal temperature led to the following estimates of the thermodynamic parameters for the transition at pH 6.0 and 20°C: ΔH° = ?139 ± 18Kcal mol^?1, ΔS° = ?247 ± 46 cal K^?1 mol^?1, and ΔG° = ?66 ± 22 kcal mol^?1. Per mole of protons taken up in the transition, the analogous quantities were ?15.9 ± 1.7 kcal mol^?1, ?26.3 ± 2.2 cal K^?1 mol^?1, and ?8.22 ± 1.8 kcal mol^?1. The net number of protons taken up was about 8.5 ± 1.5. The large values of the thermodynamic functions are consistent with a highly cooperative reaction and with multiple interactions between the fibres and the remainder of the phage. The negative entropy of the transition is probably due to immobilization of the fibres.     

In vitro fibrinolytic activity of an enzyme purified from Bacillus amyloliquefaciens strain KJ10 isolated from soybean paste

A fibrinolytic protease secreting producing Bacillus amyloliquefaciens strain KJ10 was initially screened from the fermented soybean. Maximum productivity was obtained in the culture medium after 40 h incubation, 34 °C incubation temperature at pH 8.0. Fibrinolytic protease production was enhanced in the culture medium with 1% sucrose (3712 ± 52 U/mL), 1% (w/v) yeast extract (3940 ± 28 U/mL) and 0.1% MgSO₄ (3687 ± 38 U/mL). Enzyme was purified up to 22.9-fold with 26%recovery after Q-Sepharose HP column chromatography. After three steps purification, enzyme activity was 1606U/mg and SDS-PAGE analysis revealed 29 kDa protein and enzyme band was detected by zymograpy. Enzyme was highly active at pH 8.0, at wide temperature ranges (40 °C ? 55 °C) and was activated by Mn²⁺ (102 ± 3.1%) and Mg²⁺ (101.4 ± 2.9%) ions. The purified fibrinolytic enzyme was highly specific against N-Suc-Ala-Ala-Pro-Phe-pNA (189 mmol/min/mL) and clot lytic activity reached 28 ± 1.8% within 60 minin vitro. The purified fibrinolytic enzyme showed least erythrocytic lysis activity confirmed safety to prevent various health risks, including hemolytic anemia. Based on this study, administration of fibrinolytic enzyme from B. amyloliquefaciens strain KJ10 is safe for clinical applications.     

Synthesis of geranyl propionate in a solvent-free medium using Rhizomucor miehei lipase covalently immobilized on chitosan–graphene oxide beads

The chemical route of producing geranyl propionate involves the use of toxic chemicals, liberation of unwanted by-products as well as problematic separation process. In view of such problems, the use of Rhizomucor miehei lipase (RML) covalently bound onto activated chitosan–graphene oxide (RML-CS/GO) support is suggested. Following analyses using Fourier transform infrared spectroscopy, field emission scanning electron microscopy, transmission electron microscopy, and thermogravimetry, properties of the RML-CS/GO were characterized. A response surface methodological approach using a 3-level-four-factor (incubation time, temperature, substrate molar ratio, and stirring rate) Box–Behnken design was used to optimize the experimental conditions to maximize the yield of geranyl propionate. Results revealed that 76?±?0.02% of recovered protein had yielded 7.2?±?0.04?mg?g^?1 and 211?±?0.3%?U?g^?1 of the maximum protein loading and esterification activity, respectively. The actual yield of geranyl propionate (49.46%) closely agreed with the predicted value (49.97%) under optimum reaction conditions (temperature: 37.67°C, incubation time: 10.20?hr, molar ratio (propionic acid:geraniol): 1:3.28, and stirring rate: 100.70?rpm) and hence, verifying the suitability of this approach. Since the method is performed under mild conditions, the RML-CS/GO biocatalyst may prove to be an environmentally benign alternative for producing satisfactory yield of geranyl propionate.     

Characterization of an ethanol‐tolerant 1,4‐β‐xylosidase produced by Pichia membranifaciens

Aims: The purification and biochemical properties of the 1,4‐β‐xylosidase of an oenological yeast were investigated. Methods and Results: An ethanol‐tolerant 1,4‐β‐xylosidase was purified from cultures of a strain of Pichia membranifaciens grown on xylan at 28°C. The enzyme was purified by sequential chromatography on DEAE cellulose and Sephadex G‐100. The relative molecular mass of the enzyme was determined to be 50 kDa by SDS‐PAGE. The activity of 1,4‐β‐xylosidase was optimum at pH 6·0 and at 35°C. The activity had a K_m of 0·48 ± 0·06 mmol l^?1 and a V_max of 7·4 ± 0·1 μmol min^?1 mg^?1 protein for p‐nitrophenyl‐β‐d ‐xylopyranoside. Conclusions: The enzyme characteristics (pH and thermal stability, low inhibition rate by glucose and ethanol tolerance) make this enzyme a good candidate to be used in enzymatic production of xylose and improvement of hemicellulose saccharification for production of bioethanol. Significance and Impact of the Study: This study may be useful for assessing the ability of the 1,4‐β‐xylosidase from P. membranifaciens to be used in the bioethanol production process.     

Cloning,expression and biochemical characterization of a β-carbonic anhydrase from the soil bacterium Enterobacter sp. B13

A recombinant carbonic anhydrase (CA, EC 4.2.1.1) from the soil-dwelling bacterium Enterobacter sp. B13 was cloned and purified by Co²⁺ affinity chromatography. Bioinformatic analysis showed that the new enzyme (denominated here B13-CA) belongs to the β-class CAs and to possess 95% homology with the ortholog enzyme from Escherichia coli encoded by the can gene, whereas its sequence homology with the other such enzyme from E. coli (encoded by the cynT gene) was of 33%. B13-CA was characterized kinetically as a catalyst for carbon dioxide hydration to bicarbonate and protons. The enzyme shows a significant catalytic activity, with the following kinetic parameters at 20?°C and pH of 8.3: k_cat of 4.8?×?10⁵?s^?1 and k_cat/K_m of 5.6?×?10⁷ M^?1?×?s^?1. This activity was potently inhibited by acetazolamide which showed a K_I of 78.9?nM. Although only this compound was investigated for the moment as B13-CA inhibitor, further studies may reveal new classes of inhibitors/activators of this enzyme which may show biomedical or environmental applications, considering the posssible role of this enzyme in CaCO₃ biomineralization processes.     

Production,characterization, and immobilization of partially purified surfactant–detergent and alkali-thermostable protease from newly isolated Aeromonas caviae

Proteolytic Aeromonas caviae P-1-1 growing at wide-ranging pH (7.0–11.0) and moderate salinity (0–5% NaCl) was isolated from cattle shed of Thanjavur, India. It produced lipase, gelatinase, and polyhydroxybutyrate. Different culture conditions, incubation time, carbon and nitrogen sources, vitamins, amino acids, surfactants, and metal ions for optimal growth and protease production of P-1-1 were examined. Maximum protease (0.128?U/mL) production was achieved with 1% fructose, 1% yeast extract, 0.1% ammonium sulfate, 3% NaCl, 0.1% CaCl₂?·?2H₂O, 1% glycine, 0.1% vitamin E, and 0.1% Tween-40 at pH 8.0 after 42?hr of incubation at 37°C. It was active over broad range of pH (7.0–12.0), temperature (15–100°C), and salinity (0–9% NaCl) with optima at pH 10.0, 55°C, and 3% NaCl. It retained 65 and 48% activities at pH 12.0 and 100°C, respectively. Partially purified protease was highly stable (100%) within pH range 7.0–12.0 and salinities of 0–5% NaCl for 48?hr. Cu²⁺, Mn²⁺, Co²⁺, and Ca²⁺ did not inhibit its activity. Its stability at extreme pHs, temperatures, and in the presence of surfactants and commercial detergents suggests its possible application in laundry detergents. Partially purified protease was immobilized and reused. This is the first report of alkali-thermotolerant, surfactant–detergent-stable partially purified extracellular protease from A. caviae.     

Potential application of immobilized streptokinase extracted from Streptococcus equinus VIT_VB2

Streptokinase purified from Streptococcus equinus VIT_VB2 isolated from bovine milk sample was immobilized in various solid supports namely entrapment in agarose gel, calcium alginate beads and gelatin gel by cross-linking with formaldehyde. Immobilization of streptokinase in calcium alginate beads showed maximum efficiency (81.8?±?1.06%) when compared with entrapment with agarose gel (55.6?±?2.17%) and cross-linked gelatin formaldehyde gel (71.0?±?1.54%). The purified SK activity was expressed maximum in calcium alginate (1%) and gelatin gel (0.25%) with 1292.68?±?1.33 and 1121.9?±?1.2?U?mL^?1, respectively. Similarly, SK entrapped in gelatin gel and calcium alginate showed maximum in vitro blood clot lysis activity with 77.67?±?2.64% and 76.16?±?2.72%, respectively. The immobilized SK in gelatin gel showed complete clot lysis within 15?min; hence, this application of the study could be used in the treatment of superficial thrombophlebitis, phlebitis, and venous thrombosis. These beads were used for three repeated cycles to check the conversion of substrates into their products, and we concluded that SK can be immobilized in the suitable matrices. Therefore, this helps in the drug-delivery strategies in highly efficient way, moreover, economically competent process in the pharmaceutics.     

Purification and characterization of a chitinase from Serratia proteamaculans

A chitinase gene from Serratia proteamaculans 18A1 was cloned, sequenced, and expressed in Escherichia coli M15. Recombinant enzyme (ChiA) was purified by Ni-NTA affinity column chromatography. The ChiA gene contains an open reading frame (ORF), encoding an endochitinase with a deduced molecular weight 60 kDa and predicted isoelectric point of 6.35. Comparison of ChiA with other chitinases revealed a modular structure containing an N-terminal PKD-domain, a family 18 catalytic domain and a C-terminal putative chitin-binding domain. Turn over rate (K _cat) of the enzyme was determined using colloidal chitin (49.71 ± 1.15 S^?1) and crystalline β-chitin (17.20 ± 0.83 S^?1) as substrates. The purified enzyme was active over a broad range of pH (pH 4.5–9.0) and temperature (4–70°C) with a peak activity at pH 5.5 and 55°C. However, enzyme activity was found to be stable up to 45°C for longer incubation periods. Purified enzyme was shown to inhibit fungal spore germination and hyphal growth of pathogenic fungi Fusarium oxysporum and Aspergillus niger.     

Production,purification, characterization and usage of a detergent additive of endoglucanase from isolated halotolerant Amycolatopsis cihanbeyliensis mutated strain Mut43

The Amycolatopsis cihanbeyliensis Mut43, which is obtained by UV radiation, exhibited endoglucanase activity of 5.21?U/mL, which was ～2.3-fold higher than that of the wild strain (2.04?U/mL). The highest enzyme activity was obtained after 3 days of incubation at 32?°C, pH 7.0, 150?rpm, and 6% NaCl in a liquid medium containing 1.5% (w/v) wheat straw (0.25?mm of particle size) and 0.6% (w/v) yeast extract. Enzyme activity was eluted as a single peak (gel filtration chromatography), and Sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS–PAGE) analysis of the corresponding peak revealed a molar mass of 30?kDa. Zymogram analysis confirmed the presence of a single active endoglucanase component. The enzyme was purified to ～21-fold, and the mean overall yield was ～6%. The purified endoglucanase was active up to 80?°C and showed a half-life of 214?min at 60?°C in the absence of substrate at pH 8.0. The apparent K_m value for the purified endoglucanase was 0.70?mg/mL, while the V_max value was 6.20 Units/μg. Endoglucanase activity was reduced (25%) by treatment with 30?U of proteinase K/mg. The addition of Mg⁺² and Ca⁺² (5?mM) enhanced endoglucanase activity. Additionally, endoglucanase activity in the presence of 5?mM SDS or organic solvents was 75 and 50% of maximum activity, respectively. The high levels of enzyme production from A. cihanbeyliensis Mut43 achieved under batch conditions, coupled with the temperature stability, activity over a broad pH range, relatively high stability (70–80%) in the presence of industrial laundry detergents and storage half-lives of 45 days at +4?°C and 75 days at ?20?°C signify the suitability of this enzyme for industrial applications as detergent additive.     

Carboxymethyl cellulase production optimization from Glutamicibacter arilaitensis strain ALA4 and its application in lignocellulosic waste biomass saccharification

Abstract

In this context, carboxymethyl cellulase (CMCase) production from Glutamicibacter arilaitensis strain ALA4 was initially optimized by one factor at a time (OFAT) method using goat dung as proficient feedstock. Two-level full factorial design (2⁵ factorial matrix) using first-order polynomial model revealed the significant (p?<?0.05) influence of pH, moisture, and peptone on CMCase activity. Central composite design at N?=?20 was further taken into account using a second-order polynomial equation, and thereby liberated maximum CMCase activity of 4925.56?±?31.61?U/g in the goat dung medium of pH 8.0 and 100% moisture containing 1% (w/w) peptone, which was approximately two fold increment with respect to OFAT method. Furthermore, the partially purified CMCase exhibited stability not only at high pH and temperature but also in the presence of varied metal ions, organic solvents, surfactants, and inhibitors with pronounced residual activities. The enzymatic hydrolysis using partially purified CMCase depicted the maximum liberation of fermentable sugars from alkali pretreated lignocellulosic wastes biomass in the order of paddy straw (13.8?±?0.15?mg/g)?>?pomegranate peel (9.1?±?0.18?mg/g)?>?sweet lime peel (8.37?±?0.16?mg/g), with saccharification efficiency of 62.1?±?0.8, 40.95?±?0.4, and 37.66?±?0.4%, respectively after 72?hr of treatment.     

Effects of times and storage conditions of Duddingtonia flagrans chlamydospores in sodium alginate pellets on its nematode predatory ability

This study aimed to determine the effects of Duddingtonia flagrans contained in sodium alginate pellets on trichostrongylide larvae under different storage conditions and durations. The in vitro predatory activity of D. flagrans in pellets against trichostrongylide larvae in sheep faeces were assessed at 0, 1, 3, 6, 9, and 12 months after the pellet was stored under four different conditions (i.e. ?20, 4°C, outdoors, and indoors). These results revealed that the numbers of larvae in faeces of sheep treated with pellets containing chlamydospores (treatment groups) were significantly lower than those in the control groups (without chlamydospores) for all trial months under four storage conditions for different durations (p?<?.05). The obtained reduction rates of the infective larvae (L3) in the four treatment groups ranged from 45.62% to 96.73% throughout the entire experiment. The overall mean L3 reduction percentages were 89.22%?±?3.74%, 88.97%?±?1.33%, 68.60%?±?14.31%, and 75.45%?±?13.18% for 4°C refrigeration, ?20°C refrigeration, indoor, and outdoor conditions, respectively. The pellets stored under these storage conditions for a year were provided to sheep for ingestion (in vivo test), and the results showed that the number of recovered larvae in sheep faeces at 24?h after ingestion were significantly lower than that before ingestion. For in vivo test, the L3 reduction percentage in the faeces was 90.99% (?20°C), 74.81% (outdoor), 83.53% (4°C), and 65.60% (indoor). Under the four storage conditions, D. flagrans spores contained in the pellets can maintain their survival ability to a varying degree in a year.     

Production enhancement of poly(3-hydroxybutyrate-co-3-hydroxyvalerate) in Halogeometricum borinquense,characterization of the bioplastic and desalination of the bioreactor effluent

Polyhydroxyalkanoates (PHAs) are a replacement of conventional single-use plastics. Bioprocess conditions of the extreme halophilic archaeon Halogeometricum borinquense strain RM-G1 were selected resulting in the synthesis of 66.80 ± 1.69 % PHA (of cell dry mass) in 72 h using glycerol and tryptone as carbon and nitrogen sources respectively, yielding volumetric productivity of 0.206 ± 0.006 gL⁻¹ h⁻¹ in a repeated batch process in a small-scale bioreactor where 20 % of the production medium was used as the inoculum for the subsequent batch. The purified PHA was characterized as poly(3-hydroxybutyrate-co-3-hydroxyvalerate) with 10.21 mol% 3-hydroxyvalerate content possessing glass transition temperature -12.6 °C, degradation temperature 285 °C, number average molecular weight 156,899 Da, weight average molecular weight 288,723 Da, polydispersity index 1.8 and melting temperatures 139.1 °C and 152.5 °C. Maximum (21.7 ± 0.6 L m^-2 h⁻¹) and average (17.2 ± 0.6 L m^-2 h⁻¹) flux values were their respective highest and crystallization time was its least (3.0 ± 0.16 h) when ΔT was 90 °C and polytetrafluoroethylene membrane was applied for desalination of the bioreactor effluent by Direct Contact Membrane Distillation. While using polyvinylidene fluoride membrane, maximum 25.5 ± 0.5 L m^-2 h⁻¹ and average 18.6 ± 0.2 L m^-2 h⁻¹ fluxes were obtained and crystallization time decreased (3.25 ± 0.16 h) even when ΔT was lowered by 20 °C.     

Purification and biochemical characterization of a novel thermostable serine alkaline protease from Aeribacillus pallidus C10: a potential additive for detergents

An extracellular thermostable alkaline serine protease enzyme from Aeribacillus pallidus C10 (GenBank No: KC333049), was purified 4.85 and 17. 32-fold with a yield of 26.9 and 19.56%, respectively, through DE52 anion exchange and Probond affinity chromatography. The molecular mass of the enzyme was determined through sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), with approximately 38.35?kDa. The enzyme exhibited optimum activity at pH 9 and at temperature 60?°C. It was determined that the enzyme had remained stable at the range of pH 7.0–10.0, and that it had preserved more than 80% of its activity at a broad temperature range (20–80?°C). The enzyme activity was found to retain more than 70% and 55% in the presence of organic solvents and commercial detergents, respectively. In addition, it was observed that the enzyme activity had increased in the presence of 5% SDS. K_M and V_max values were calculated as 0.197?mg/mL and 7.29?μmol.mL^?1.min^?1, respectively.