Continuous fermentation of apple juice by immobilized yeast cells

Summary The sugar content of an apple juice was continuously converted into ethanol bySaccharomyces cerevisiae entrapped in Ca-alginate gel. The average values characterizing the process were: fermentation efficiency, 84.7±4.2%, ethanol concentration in the mash, 38.9–1.9 g·l^–1 and volumetric productivity, 6.3±0.5 g·l^–1·h^–1.     

Phenols removal in musts: Strategy for wine stabilization by laccase

The potential of laccase from Trametes versicolor for phenolic removal in must for wine stabilization was evaluated through a combination of an analytical methodology (capillary zone electrophoresis) and kinetics of phenols removal as the total antioxidant potential variation. Total phenolic content, total antioxidant potential and polyphenols were monitored from 0 to 3 h of must treatment. The results indicated that the treatment of a red must with laccase affect mainly the phenolic compounds responsible for the must antioxidant properties. The treatment of white musts with laccase showed higher reduction in total phenol than in the total antioxidant potential. Phenol degradation by laccase was very fast for catechins, and slowly for stilbenes (cis- and trans-resveratrol) and derivatives of cinnamic (ferulic and caffeic) and benzoic (syringic, vanillic, and gallic) acids. It is possible to conclude in this case that the use of laccase in white wines is perfectly feasible. This would allow softer and ecologically correct treatments, which would diminish the cost of processing and avoid deterioration of wines for long storage times.     

pH effects on the removal of Cu2+, Cd2+ and Pb2+ from aqueous solution by waste brewery biomass

An industrial strain of Saccharomyces cerevisiae collected from the waste of a brewing industry was used to remove lead, cadmium and copper from aqueous solutions (1?mm). Metal removal efficiency by using either biomass suspension directly diluted into the metal solutions or biomass previously incubated and washed in distilled water was compared. In all experiments with unwashed biomass a shift in the medium pH from 4.5 to a final value in the 7.0–8.0 range occurred. This pH increase was responsible for a metal precipitation effect associated to the metal biosorption. A very different pH profile was observed when washed biomass was used leading to different removal profiles for Cd²⁺ and Pb²⁺ and a similar one for Cu²⁺. In the absence of biomass, medium components and/or the excreted intracellular products proved to interfere in the metal removal and to be responsible for 80% Pb²⁺ precipitation, in the pH 4.5–5.0 range. To initial metal solution pH, leading to the lowest residual ion concentrations, after 96?h of contact with unwashed biomass and in the absence of pH adjustment, was 4.5–5.0. Continuous or stepwise adjustment of medium pH to this range during the process was unfavourable for metal removal, being the continuous adjustment the worst procedure. In this case, Cd²⁺ was not biosorbed and Cu²⁺ removal decreased from 76 to 33%. However, Pb²⁺ was always extensively removed (89%) and only slightly affected by pH control. The global results suggest different removal mechanisms for each cation. Cu²⁺ was removed by both metal sorption and precipitation, due to the pH shift that occurred during the process, while Cd²⁺ removal showed to be completely dependent of this pH shift. Pb²⁺ was totally and quickly removed, by precipitation, in the presence of the biomass suspension and at pH 4.5. Moreover, the biosorbent changes occurring during the process played an important role in the metal removal when non-viable microbial biomass is used.     

Oxidation of anthracene by immobilized laccase from Trametes versicolor

The laccase of Trametes versicolor was immobilized on the functionalized nanoparticles SBA-15 with the average diameter less than 10 nm. Laccase mediated oxidations of anthracene (ANT) were investigated in the presence of two mediators, 2,2′-azino-bis-(3-ethylbenzothiazoline-6-sulphonic acid) diammonium salt (ABTS) and 1-hydroxybenzotriazole (HBT). Oxidation of ANT was more efficiently enhanced by adding 1 mM of HBT than that by adding ABTS. After 48 h oxidation HBT group significantly oxidized ANT with residue 58% relative to 88% in the ABTS group. HPLC and GC/MS analyses indicated the main product of ANT oxidation was anthraquinone (ANQ). The fluorescein diacetate (FDA) uptake of two human cell lines was used to assess the cytotoxicity and genotoxicity of ANT and ANQ. Treatments with ANT and ANQ at 5 and 10 μM exhibited significant cytotoxicity to the HaCaT cells and the A3 lymphocytes and no significant genotoxicity was observed. The results illustrated that ANQ is less toxic than ANT as well.     

Synergistic effect of laccase mediators on pentachlorophenol removal by Ganoderma lucidum laccase

Laccases have low redox potentials limiting their environmental and industrial applications. The use of laccase mediators has proven to be an effective approach for overcoming the low redox potentials. However, knowledge about the role played by the mediator cocktails in such a laccase-mediator system (LMS) is scarce. Here, we assembled different dual-agent mediator cocktails containing 2,2′-azino-bis-(3-ethylbenzothiazoline-6-sulfonate) (ABTS), vanillin, and/or acetovanillone, and compared their mediating capabilities with those of each individual mediator alone in oxidation of pentachlorophenol (PCP) by Ganoderma lucidum laccase. Cocktails containing ABTS and either vanillin or acetovanillone strongly promoted PCP removal compared to the use of each mediator alone. The removal enhancement was correlated with mediator molar ratios of the cocktails and incubation times. Analysis of the kinetic constants for each mediator compound showed that G. lucidum laccase was very prone to react with ABTS rather than vanillin and acetovanillone in the cocktails. Moreover, the presence of the ABTS radical (ABTS^+•) and vanillin or acetovanillone significantly enhanced PCP removal concomitant with electron transfer from vanillin or acetovanillone to ABTS^+•. These results strongly suggest that vanillin and acetovanillone mediate the reaction between ABTS and PCP via multiple sequential electron transfers among laccase and its mediators.     

Optimization of flow rate,initial metal ion concentration and biomass density for maximum removal of Cu2+ by immobilized Microcystis

The potential of alginate-immobilized Microcystis packed in a column for maximum removal of Cu²⁺ at different flow rates, biomass, and initial metal ion concentration was assessed in a continuous flow system. Although Cu²⁺ removal did occur at all the flow rates tested, it was maximum (54%) at 0.75-ml min⁻¹ flow rate, 30 μg ml⁻¹ initial metal ion concentration and 0.016 g biomass. Cu²⁺ removal was influenced by inlet metal ion concentration and biomass density. An increase in the biomass concentration from 0.016 to 0.128 g resulted in an apparent increase in percentage removal but the Cu²⁺ adsorbed per unit dry wt. declined. When the flow rate (0.75 ml min⁻¹) and biomass density (0.064 g) were kept constant and the inlet metal ion concentration was varied from 10 to 150 μg ml⁻¹, a 68% removal of Cu²⁺ was obtained at 50 μg ml⁻¹ initial concentration in a time duration of 15 min. The metal-laden columns were efficiently desorbed and regenerated following elution with double distilled water (DDW) (pH 2) (89%). This was followed by 1 mm EDTA > 1 mm NTA > 0.1 mm EDTA > 1 mm HCl > 1 mm HNO₃ > 5 mm CaCl₂ > DDW (pH 7.0) > 1 mm NaHCO₃ > 1 mm CaCl₂. Of the total (2.83 mg) adsorbed Cu²⁺, 1.89 mg (67%) was desorbed by DDW (pH 2) within the first 20 min of elution time. Thereafter the desorption rate slowed down and only 22% (0.632 mg) desorption was obtained in the last 20 min. In contrast to water pH 2, the desorption of Cu²⁺ by 1 mm EDTA was very slow, the maximum being 8% after 40 min of elution. This revised version was published online in July 2006 with corrections to the Cover Date.     

Effect of Cu2+, Mn2+ and aromatic compounds on the production of laccase isoforms by Coprinus comatus

Six different extracellular laccase isoforms were identified in submerged cultures of the commercially important edible mushroom, Coprinus comatus. Although laccase activity (~55 IU/L) was readily detectable in unsupplemented control cultures containing 1.6 μM Cu²⁺ after 22-day incubation, mean enzyme levels (~150–185 IU/L) were 2.7–3.4-fold higher in cultures supplemented with 0.5–3.0 mM Cu²⁺. Laccase production was also stimulated by Mn supplementation over the range 0.05–0.8 mM Mn²⁺, and the peak value of ~225 IU/L recorded after 22 days in cultures containing 0.8 mM added Mn²⁺ was 4.5-fold higher compared with unsupplemented controls. Of 12 aromatic compounds tested for their effect on laccase isozyme production by C. comatus, highest laccase levels (~188 IU/L), equivalent to a 4.4-fold increase compared with unsupplemented controls (~43 IU/L), were recorded after 22 days in cultures supplemented with 3.0 mM caffeic acid. Other aromatic compounds tested all stimulated laccase production, with peak enzyme levels 1.3–3.3-fold higher compared with unsupplemented controls. Extracellular laccase levels in cultures supplemented with optimal concentrations of Mn²⁺ and caffeic acid together were 38% and 15% lower, respectively, compared with cultures containing the separate supplements. Lac1 was the most abundant laccase isoform produced under all the conditions tested, but marked differences were observed in the production patterns of Lac2–Lac6.     

草菇基因组中11个漆酶同源基因的生物信息学分析及铜离子对其表达的影响

通过分析草菇基因组中11个漆酶同源基因所编码的蛋白的性质、转录调控元件和测定铜离子存在条件下的草菇漆酶活性及11个漆酶基因的转录水平,揭示了草菇漆酶基因的各自特性、差异以及基因功能与进化机制。分析表明,这11个漆酶同源基因编码的蛋白具有508–562aa个氨基酸,分子量和理论等电点分别为56.25–60.75kDa和4.51–6.18（未经翻译后修饰）,且都具有真菌漆酶铜离子结合区域的特征序列、4个能够结合催化底物的环形结构以及信号肽序列,都属于分泌性的胞外蛋白,但其底物结合位点数目、loop序列的一致性、跨膜区域数目和位置以及信号肽位置等存在较大差异。草菇11个漆酶起始密码子上游2 000bp的序列中含有真核生物的基本转录调控元件（TATA-box,CAAT-box及GC-box）和多个潜在的调控元件（MRE、XRE、STRE、HSE、ARE、TRE、NIT元件等）,但每个基因所含调控元件数目及种类各有不同。在液体培养条件下,铜离子能够诱导除vv-lac2、vv-lac3和vv-lac7之外的其余8个草菇漆酶基因的表达,且适宜浓度的铜离子有助于草菇漆酶活性的增加。     

Sequential reactors for the removal of endocrine disrupting chemicals by laccase immobilized onto fumed silica microparticles

Abstract

The main objective of this study is the evaluation of the capability of laccase from Myceliophthora thermophila immobilized on fumed silica microparticles (fsMP) for the removal of endocrine disrupting chemicals (EDCs) in two enzymatic reactor configurations. This type of support can also be magnetized to allow the straightforward separation of the biocatalyst under a magnetic field. The support exhibited excellent biocompatibility with the enzyme, superior tolerance to pH and temperature as well as improved stability in comparison with the free enzyme, even in the presence of organic solvents and enzyme inhibitors. The technical feasibility of the removal of EDCs by immobilized laccase was assessed in two types of enzymatic reactors operated in sequential mode: a membrane reactor using fsMP-laccase and a reactor with magnetic separation using magnetized fsMP-laccase. The extent of transformation for the target compounds: bisphenol A (BPA) and 17β-estradiol (E2) was high and comparable to free laccase in both systems (up to 80%). The possibility of reusing the immobilized enzyme, especially for magnetized supports, offers an interesting approach in the development of enzyme based processes for the biotransformation of emerging pollutants.     

Continuous production of inulo-oligosaccharides from chicory juice by immobilized endoinulinase

Several carrier materials were examined for endoinulinase immobilization. A polystyrene carrier material (UF93^®) gave the best immobilization capacity (217 units/g carrier) and operational stability. Carbohydrate compositions in the reaction product were quite similar irrespective of the support materials even though each carrier material has different pore structure associated with diffusional restriction. After immobilization the optimal pH for enzyme activity was shifted from 5.0 to 4.5, whereas optimal temperature (55v°C) was unaltered. Continuous production of inulo-oligosaccharides from chicory juice was carried out using the polystyrene-bound endoinulinase. The recommended operating conditions of the enzyme reactor for maximizing productivity were as follows: feed concentration, 100 g/l chicory juice; flow rate, as superficial space velocity 2.0 h^у; temperature, 55v°C. The enzyme reactor was run for 28 days at 55v°C achieving an oligosaccharide yield of 82% without any significant loss of initial enzyme activity, where the volumetric productivity was 200 g/l · h. Furthermore, there was no marked difference in operational stability between the two reactors fed with pure inulin solution and with chicory juice as a substrate even though chicory juice contains a lot of impurities.     

Interaction of Cu2+ and Ca2+ ions with DNA immobilized in polyacrylamide gel

Interaction of cupric and calcium ions with DNA entrapped in acrylamide gel was studied by means of ion-exchange method. Ion-exchangers on the basis of DNA were obtained by polymerization of acrylamide with and without warming-up. Samples of DNA with different degrees of denaturation were also used for preparation of ion-exchangers. It was demonstrated that ion-exchange capacity is determined by the number of phosphate groups of DNA entrapped in gel. Cu2+ and Ca2+ ion-exchange equilibrium on the macromolecules of immobilized DNA was studied at different temperatures. Ion-exchange equilibrium constant alpha Cu2+ Ca2+ was shown to vary from 1,9 to 8,2 an increase of selectivity for Cu2+ ions taking place under conditions favouring denaturation of DNA. Stoichiometric ratio between the quantity of the phosphate groups and the number of equivalents of Cu2+ and Ca2+ was observed in all the experiments. Lack of over-equivalent absorption of CuCl2 on the DNA molecules indicates that chloride ions do not participate in charge neutralization within the Cu2+.DNA complex. It means that Cu2+ ions interact with phosphate groups of DNA coordinate simultaneously with DNA bases only.     

Reactive blue 19 decolouration by laccase immobilized on silica beads

Laccase (31.5 U of activity/g or 4.39 μg of protein/m²) from Trametes versicolor was immobilized on controlled-porosity-carrier silica beads and evaluated for the decolouration of Reactive blue 19, an anthraquinone dye. Although there was an initial, rapid adsorption of the dye to the packed bed in a recirculating reactor, about 97.5% of Reactive blue 19 removal was due to enzymatic degradation. The free enzyme lost 52% of its activity in 48 h. However, the activity of the immobilized laccase was unchanged after 4 months of storage in phosphate buffer under ambient conditions followed by three successive decolourations over 120 h. Treating the laccase immobilized beads with ethanolamine reduced dye adsorption by 40%.     

The removal of the type-2 copper from Rhus vernicifera laccase.

We have studied the removal of the type-2 copper from tree laccase (Rhus vernicifera) by treatment with EDTA at pH 5.2 in the presence of a redox buffer containing ferri- and ferrocyanide. The efficiency with which the copper is removed depends on the Fe(CN) 6(4-)/Fe(CN) 6(3-) ratio. We have varied this ratio from approx. 2:1 to about 50:1 and the best results were obtained with the highest ratio, i.e., the most cathodic solution potential. Nevertheless, the presence of Fe(CN) 6(3-) is required for the procedure to be effective. Although we cannot exclude the possibility that a mixed-valence form of laccase is the reactive species, we believe the results are better explained by a model which assumes that the removal of the type-2 copper depends upon an ordered sequence of oxidation-reduction reactions. Specifically, we propose that the copper is released as the monovalent ion from previously reduced laccase and then reoxidized in solution and sequestered with EDTA. The reoxidation step drives the reaction because recombination with the protein is inhibited when copper is in the divalent form. In testing this model, we have also shown that the type-2 copper can be removed under strictly reducing conditions when 4,4'-dicarboxy-2,2'-biquinoline (BCA) is present to complex the copper(I) ion. Although the BCA method is effective, the reaction takes longer, perhaps because of the limited solubility of BCA at the pH values of interest. Finally, we have found that the best results are obtained with either method when a cyanometalate ion such as Fe(CN) 6(3-) or Co(CN) 6(3-) is present in the medium. The exact role of this factor has yet to be established, but there is no indication that free cyanide has a role in the process. The most likely interpretation is that some type of binding interaction with the protein facilitates copper release.     

Removal of type 2 Cu from ascorbate oxidase and laccase by reaction with n,n-diethyldithiocarbamate

The type 2 Cu of ascorbate oxidase from zucchini peelings can be rapidly removed by reaction with a tenfold excess N,N-diethyldithiocarbamate (DDC) in air, while other chelating agents, such as EDTA, require anaerobic reducing conditions. The type 2 Cu of laccase from Rhus vernicifera is never removed under aerobic conditions. In anaerobiosis and in the presence of a reducing agent, EDTA is also unable to remove the copper unless a smaller lipophilic molecule (DDC or dimethylglyoxime) is present, acting as a mediator. Type 1 Cu is not involved in the reaction of ascorbate oxidase with DDC, but reduction of type 3 Cu is probably required for type 2 Cu depletion, suggesting interdependence of type 2 and type 3 copper. Type 2 Cu is less exposed in laccase, possibly because of the large carbohydrate content of this protein.     

Real-time detection of Cu2+ sequestration and release by immobilized apo-metallothioneins using SECM combined with SPR

Scanning electrochemical microscopy (SECM) combined with surface plasmon resonance (SPR), SECM-SPR, was applied for real-time detection of the incorporation of Cu(2+) by apo-metallothionein (apo-MT) immobilized on the SPR substrate and release of Cu(2+) from surface-confined metallothionein (MT). Cu(2+) anodically stripped from a Cu-coated SECM Au tip was sequestered by apo-MT upon its diffusion to the SPR substrate, and release of Cu(2+) by MT was accomplished by generating protons via oxidation of hydroquinone at the tip. The high sensitivity of the SPR instrument is capable of following the structural and compositional changes of MT molecules during the metal sequestration and release processes. Due to the enhanced mass transfer rate at the SECM tip, the complication of mass transfer limitation on kinetic measurements, commonly encountered in flow injection SPR, is circumvented. The time-resolved SPR response reveals stepwise changes among three stable MT structures and allows the number of copper ions coordinated in each structure to be determined. The numbers of copper ions incorporated by each MT molecule in the three structures were determined to be 5, 9, and 12. This work expands the SECM-SPR approach to assessments of the dynamics and affinity of binding of small ions to surface-confined proteins and to studies of proteins that do not undergo facile electron transfer reactions.     

Specific removal of endotoxin from protein solutions by immobilized histidine

A method for reducing endotoxin contamination in various solutions by immobilized histidine is described. Immobilized histidine is a porous adsorbent suitable for the adsorption of endotoxin with a high affinity over a wide range of pH and temperature and at low ionic strength (gamma/2 less than or equal to 0.1). When a purified endotoxin originating from Escherichia coli UKT-B was studied, the apparent dissociation constant between endotoxin and the adsorbent was 7.3 X 10(-13) M. The adsorbent was able to remove various kinds of endotoxin originating from gram-negative bacteria; the concentration of endotoxin was reduced from 1000 to less than 0.01 ng/ml in water. It is shown that the adsorbent specifically adsorbs endotoxin provided that the adsorption conditions are properly selected. Some examples of the specific removal of endotoxin from high-molecular-weight physiologically active substances such as tumor necrosis factor and lysozyme are shown.