Glucose oxidase and catalase activities ofPenicillium variabile P16 immobilized in polyurethane sponge

Conidia ofPenicillium variabile P16 were immobilized in polyurethane sponge and used in repeated-batch processes in a fluidized-bed reactor. Optimal conditions for production of glucose oxidase and catalase were: inoculum size, 10%; glucose concentration, 80 g L^–1; Ca-carbonate concentration, 15 g L^–1; temperature, 28°C and aeration rate, 4 VV^–1 min^–1. In an extended repeated-batch process, glucose oxidase activity was highest after the fourth batch and catalase activity was highest after the fifth batch. Scanning electron microscopy showed that the fungus grew only in the interior of carrier particles.     

Glucose oxidase biosynthesis using immobilized mycelium of Aspergillus niger

A simple method is described for the immobilization of Aspergillus niger GIV-10 which produces an extracellular glucose oxidase. A. niger conidia were immobilized on sintered glass Raschig rings, pumice stones or polyurethane foam. Mycella growing out from the spores produced extracellular glucose oxidase: the highest production was with the pumice stone carrlers. This technique facilitates the growth of the filamentous cultures in the spongy structure of a support with continuous accumulation of biomass. After 24 to 36 h, a culture liquid with 2.7 to 3.1 U of glucose oxidase/ml was obtained. This procedure also made possible repeated batch enzyme production and as many as 25 subsequent 24-h batches could be fermented by using the same carrier with only a small loss of glucose oxidase activity.The authors are with the Institute of Microbiology, M. Curie-Sklodowska University, Akademicka 19, 20-003 Lublin, Poland.     

Comparison of different methods of glucose oxidase immobilization

Glucose oxidase was immobilized by covalent bond to two basic types of sorbents—glycidylmethacrylate copolymers and bead cellulose. These two types of carries were chemically modified, if needed, by the employing various procedures and subsequently used in the immobilization of native and oxidized glucose oxidase. The samples thus obtained were compared with those of immobilized glucose oxidase bound onto some common carriers. Samples which possessed not only a high absolute activity but also adequate mechanical and flow properties were characterized in greater detail with respect to the immobilization efficiency and kinetic properties of bound glucose oxidase.     

Microwave‐assisted covalent immobilization of enzymes on inorganic surfaces

Enzymes on carriers can be easily recycled or used in fixed bed reactors. The immobilization often results in an improved stability. Depending on the support used and the method of coupling, this is a time‐consuming process. While the wide applicability of microwaves (MWs) within organic synthesis is known since the 1980s, proteins (including enzymes) are generally considered as too sensitive toward MW irradiation. In this article, MW methods were investigated to improve the processing speed of covalent enzyme immobilization on inorganic supports. Herein two laccases from Trametes versicolor and Myceliophthora thermophilia (Novozyme 51003®) and the glucose oxidase from Aspergillus niger were immobilized onto samples of ceramic honeycomb and porous glass (TRISOPERL® 1000 AMINO). The enzymes showed different sensitivity to MW irradiation, but all were suitable for MW‐assisted immobilization. Subsequent stability tests were conducted to compare conventional immobilization methods with those with MW irradiation. The glucose oxidase provided the best results. For all cases, a successful MW irradiation assisted covalent enzyme immobilization on solid support was obtained with a total 20‐fold reduction of the time necessary.     

Oxidase testing from Kligler's iron agar and triple sugar iron agar slants

Many members of the familyVibrionaceae have been implicated as causative agents of diarrhea. Most of these organisms are non-lactose fermenters, and all are oxidase-positive. If the oxidase test could be reliably performed on growth from the surface of Kligler's iron agar and/or triple sugar iron agar slants, it would aid in the screening of potential stool pathogens. Forty-six isolates from the generaAeromonas, Plesiomonas, andVibrio were inoculated onto Kligler's iron agar and triple sugar iron agar slants, incubated overnight, and tested for oxidase activity. All 46 isolates produced alkaline over acid, with or without gas, Kligler's iron agar slants and were oxidase-positive. On triple sugar iron agar slants, 13 isolates produced these same patterns, and all were oxidase-positive. Acid over acid, with gas, triple sugar iron agar slants were produced by 18 isolates, and all were oxidase-positive. Acid over acid, without gas, triple sugar iron agar slants were produced by 15 isolates, and all were oxidase-negative. These negative oxidase tests were due to low pH. Oxidase tests performed from the surface of Kligler's iron agar and triple sugar iron agar slants used to screen stool isolates were reliable, provided the slants were acid over acid with gas, or alkaline over acid with or without gas. Kligler's iron agar is recommended with this procedure, since most potential stool pathogens of both theEnterobacteriaceae and theVibrionaceae will produce an alkaline over acid, with or without gas, slant, and false negative oxidase tests will be minimized.     

Production of the ligninolytic enzymes by immobilized <Emphasis Type="Italic">Phanerochaete chrysosporium</Emphasis> in an air atmosphere

Summary The production of the ligninolytic enzymes by Phanerochaete chrysosporium immobilized on polyurethane foam cubes in air was investigated by adopting different sizes and amounts of the carriers, different medium C/N ratios and different glucose-feeding strategies. No lignin peroxidase (LiP) activity was observed under nitrogen limitation (C/N ratio, expressed as glucose/NH₄⁺, 56/2.2 mM) with two sizes and three amounts of the carriers, while comparable levels of manganese peroxidase (MnP) activities were detected only in non-immersed cultures with two sizes of the carriers. A non-immersed state also stimulated LiP formation under carbon limitation (C/N ratio 28/44 mM). High peak activities of LiP, 197 and 164 U/l, were obtained in non-immersed cultures under carbon limitation at the C/N ratios of 28/44 and 56/44 mM, respectively, the occurrence of the activities coinciding with the complete consumption of glucose. A very low level of MnP was measured at the C/N ratio of 28/44 mM compared with the similar activities at 56/2.2 and 56/44 mM. An addition of 2 g glucose/l after its complete depletion improved both the production of LiP and MnP markedly in non-immersed culture at the initial C/N ratio of 28/44 mM, whereas a replenishment of 5 g/l, still enhancing the formation of MnP, inhibited the production of LiP first before the later reactivation. It is suggested that non-immersed liquid culture under carbon limitation reinforced by a suitable glucose feeding strategy is one potential way to realize high production of the ligninolytic enzymes by P. chrysosporium in air.     

Isolation and characterization ofPenicillium funiculosum mutants with enhanced glucose oxidase production

After the mutagenesis ofPenicillium funiculosum with UV light andN-nitroso-N-methylurea, 83 of 2237 grown colonies were surrounded with increased zones of glucose oxidase diffusion. Analysis of the glucose oxidase activity of selected mutant strains grown in submerged cultures allowed 18 mutant strains to be obtained whose glucose oxidase activity was 5–153% higher (in a medium with glucose) and 4–83% higher (in a medium with sucrose) than that of the parent strain. Two of these mutant strains, UV6.31 and NMU95-132, possessed high glucose oxidase activity when grown in media with glucose or sucrose and produced large amounts of mycelia. The active and morphologically stable mutantP. funiculosum NMU95-132 was chosen for further selection work.     

Complexes of glucose oxidase with chitosan and dextran possessing enhanced stability

Abstract

In this study, the different mole ratios of glucose oxidase/chitosan/dextran–aldehyde and glucose oxidase/chitosan/dextran–sulfate complexes were synthesized. The modification of glucose oxidase by non-covalent complexation with dextran and chitosan in different molar ratios was studied in order to increase the enzyme activity. The enzyme/polymer complexes obtained were investigated by UV spectrophotometer and dynamic light scattering. Activity determination of synthesized complexes and free enzyme were performed at a temperature range. The best results were obtained by C_chitosan/C_{dextran–aldehyde} = 10/1 ratio and C_chitosan/C_{dextran–sulfate} = 1/5 ratio that were used in thermal stability, shelf life, salt stress, and ethanol effect experiments. The results demonstrated that both complexes were thermally stable at 60?°C and had superior storage stability compared to the free glucose oxidase. Complexes showed higher enzymatic activity than free enzyme in the organic solvent environment using 10% ethanol. The complexes were resistant to salt stress containing 0.1?M NaCl or CaCl₂. The particle size distribution results of the triple complex evaluated the complexation of the chitosan, dextran derivative, and glucose oxidase. The average size of the triple complex in diameter was found to be 325.8?±?9.3?nm. Overall findings suggest that the complexes of glucose oxidase, chitosan, and dextran showed significant enhancement in the enzyme activity.     

Enhancement of algicidal activity by immobilization of algicidal bacteria antagonistic to Stephanodiscus hantzschii (Bacillariophyceae)

AIMS: Enhancement of algicidal activity by immobilization of algicidal bacteria antagonistic to Stephanodiscus hantzschii. METHODS AND RESULTS: In laboratory studies, A diatom-lysing bacterium, Pseudomonas fluorescens HYK0210-SK09 showed strong algicidal activity against S. hantzschii, but a natural mesocosm study revealed that this bacterium failed to fully control natural blooms of Stephanodiscus at the low water temperatures that favour these blooms. Here, we sought to develop an effective immobilization strategy for enhancing the algicidal activity of HYK0210-SK09 in the natural setting. Bacterium HYK0210-SK09 was immobilized with various carriers including agar, alginate, polyurethane and cellulose sponge. The bacterial cells immobilized with cellulose sponge (CIS) induced more rapid and complete lysis of S. hantzschii than other carriers, and had a higher packing ability than polyurethane. Furthermore, CIS-immobilized cells showed higher lysis of S. hantzschii at the same concentrations as that of free cells (< or =1 x 10(7) cells ml(-1)), and had especially strong algicidal activity at the low temperatures (<10 degrees C). Based on these laboratory studies, we assessed the possible application of HYK0210-SK09 cells in the field by performing a mesocosm study during the winter season. The CIS-immobilized cells with species-specific activity towards the genera Stephanodiscus showed extremely high algicidal activity (up to 95%) against a bloom of Stephanodiscus hantzschii even at low water temperatures, because of high cell packing and subsequent cell protection against low temperatures and predators, whereas free cells showed negligible algicidal activities under these conditions. CONCLUSION: Immobilizing cells of HYK0210-SK09 in CIS foam, rather than in the other matrices tested, could achieve more efficient control of Stephanodiscus blooms and showed a significant algicidal activity on in vitro and in vivo blooms, even at low water temperature. SIGNIFICANCE AND IMPACT OF THE STUDY: Collectively, these results indicate that CIS of algicidal bacteria may form an important strategy for effective management of Stephanodiscus blooms at low water temperatures.     

Immobilization ofPhanerochaete chrysosporium on porous polyurethane particles with application to biodegradation of 2-chlorophenol

Porous polyurethane particles were prepared and used for the immobilization of white rot fungusPhanerochaete chrysosporium. The immobilized cells were employed for the production of lignin peroxidase. Polyurethane immobilized spores, or mycelial pellets ofPhanerochaete chrysosporium as well as freely suspended mycelial pellets of fungus were used as biocatalyst for the degradation of 2-chlorophenol. The polyurethane carriers appear to be superior to the other carriers already used for the immobilization of fungus.     

Repeated-batch production of pigments by immobilised Monascus purpureus

Extracellular pigment production by immobilised Monascus purpureus C322 has been studied in repeated-batch processes using different immobilising carriers such as Ca-alginate, polyurethane sponge, active carbon and pearlite. With Ca-alginate, pigment production was maximum (30.5 UA₄₇₀ as process mean production, three batches) while the cell leakage was negligible (0.4 g l⁻¹ free biomass) and the bead mechanical stability good; with this carrier, an extended repeated-batch fermentation (nine batches, 55 days) was carried out: the process pigment productivity was 3.87 UA₄₇₀ day⁻¹.     

Comparative fluorescence studies of native and crosslinked glucose oxidase

The binding characteristics of flavin adenine dinucleotide (FAD) to apoenzyme preparations obtained from native and intramolecularly crosslinked glucose oxidase were determined and compared. The dissociation constants K_diss as well as rates of recombination of FAD with the two apoenzyme preparations, were independently evaluated from fluorescence quenching of either the tryptophans of FAD. The K_diss values thus obtained were <10^?19M for native glucose oxidase and 4 ± 1 × 10^?7M for the crosslinked enzyme. The recombination of apo glucose oxidase with FAD, which is presumably diffusion controlled, is followed by an apparent first order decrease in fluorescence intensity of both the protein tryptophans and FAD, with a rate constant around 0.2 min^?1. This could be related to conformational changes which occur immediately after binding of FAD to the apoenzyme, an interpretation which is supported by the markedly different results obtained in the analogous experiments with the crosslinked enzyme. A model for the conformational characteristics of glucose oxidase, based on this study, is proposed.     

An electron microscopical study of the development of peroxisomes during formation and germination of ascospores in the methylotrophic yeast Hansenula polymorpha

Ascospore formation was studied in liquid cultures of the yeast Hansenula polymorpha, previously grown under conditions in which the synthesis of alcohol oxidase was repressed (glucose as growth substrate) or derepressed (methanol, glycerol and dihydroxyacetone as growth substrates and after growth on malt agar plates). In ascospores obtained from repressed cells, generally one small peroxisome was present. The organelle probably originated from the small peroxisome, originally present in the vegetative cells. They had no crystalline inclusions and cytochemical experiments indicated the presence of catalase, urate oxidase and amino acid oxidase activities in these organelles. In ascospores obtained from derepressed cells, generally 1–3 crystalline peroxisomes were observed. These organelles also originated from the peroxisomes originally present in the vegetative cells by means of fragmentation or division. They contained, in addition to the enzymes characteristic for peroxisomes in spores from repressed cells, also alcohol oxidase. The latter enzyme is probably responsible for the crystalline substructure of these peroxisomes.Peroxisomes had no apparent physiological function in the process of ascosporogenesis. A glyoxysomal function of the organelles during germination of the ascospores was also not observed. Germination of mature ascospores in media containing different sources of carbon and nitrogen showed that the function of the peroxisomes present in ascospores of Hansenula polymorpha is probably identical to that in vegetative haploid cells. They are involved in the oxidative metabolism of different carbon and nitrogen sources. Their enzyme profile is a reflection of that of peroxisomes of vegetative cells and their presence may enable the formation of cells which are optimally adapted to environmental conditions extant during spore germination.     

Production of manganese peroxidase and laccase in laboratory-scale bioreactors by Phanerochaete chrysosporium

The production of ligninolytic enzymes by the fungus Phanerochaete chrysosporium BKM-F-1767 (ATCC 24725) in laboratory-scale bioreactors was studied. One bioreactor was filled with cubes of polyurethane foam and the other with cubes of nylon sponge, in order to determine the more suitable carrier to produce high ligninolytic enzyme activities by this fungus. Both cultivations were carried out in batch. Manganese-dependent peroxidase activities about 600 U l^у were achieved in the bioreactor filled with cubes of nylon sponge, while up to 500 U l^у were detected in that filled with cubes of polyurethane foam. Furthermore, quite high levels of laccase appeared in both cultures: maximum activities of 114 U l^у and 62 U l^у were obtained on nylon and polyurethane supports, respectively.     

Ligninolytic enzyme production and the ability of decolourisation of Poly R-478 in packed-bed bioreactors by Phanerochaete chrysosporium

The production of ligninolytic enzymes by the fungus Phanerochaetechrysosporium BKM-F-1767 (ATCC 24725) in packed-bed tubular bioreactors, operating in semi-solid-state conditions, was studied. Three types of carriers were assayed: cubes of polyurethane foam, cubes of nylon sponge and chopped corncob, in order to determine the more suitable one to produce ligninolytic enzymes by this fungus. The cultivations were carried out in discontinuous and in continuous mode. For discontinuous cultivation, maximum individual manganese-dependent peroxidase (MnP) activities of 1593, 1371 and 346 U/l were achieved in the bioreactors filled with cubes of nylon sponge, cubes of polyurethane foam and with corncob, respectively. On the other hand, lignin peroxidase (LiP) activities about 100 U/l were found in the two former and around 200 U/l in the latter. Moreover, laccase, was detected in all cultures, with average values of 30 U/l. Nonetheless, continuous mode cultivation led to lower ligninolytic enzyme activities than those produced in discontinuous, except in the case of the corncob. Furthermore, the decolourisation of the dye Poly R-478 by the above-mentioned cultures was investigated. The percentage of biological decolourisation reached was about 70% in the bioreactor filled with cubes of nylon sponge whereas it was rather low in the others (around 30%).     

Multiple approaches to enhance the cultivability of bacteria associated with the marine sponge Haliclona (gellius) sp

Three methods were examined to cultivate bacteria associated with the marine sponge Haliclona (gellius) sp.: agar plate cultures, liquid cultures, and floating filter cultures. A variety of oligotrophic media were employed, including media with aqueous and organic sponge extracts, bacterial signal molecules, and siderophores. More than 3,900 isolates were analyzed, and 205 operational taxonomic units (OTUs) were identified. Media containing low concentrations of mucin or a mixture of peptone and starch were most successful for the isolation of diversity, while the commonly used marine broth did not result in a high diversity among isolates. The addition of antibiotics generally led to a reduced diversity on plates but yielded different bacteria than other media. In addition, diversity patterns of isolates from agar plates, liquid cultures, and floating filters were significantly different. Almost 89% of all isolates were Alphaproteobacteria; however, members of phyla that are less commonly encountered in cultivation studies, such as Planctomycetes, Verrucomicrobia, and Deltaproteobacteria, were isolated as well. The sponge-associated bacteria were categorized into three different groups. The first group represented OTUs that were also obtained in a clone library from previously analyzed sponge tissue (group 1). Furthermore, we distinguished OTUs that were obtained from sponge tissue (in a previous study) but not from sponge isolates (group 2), and there were also OTUs that were not obtained from sponge tissue but were obtained from sponge isolates (group 3). The 17 OTUs categorized into group 1 represented 10 to 14% of all bacterial OTUs that were present in a large clone library previously generated from Haliclona (gellius) sp. sponge tissue, which is higher than previously reported cultivability scores for sponge-associated bacteria. Six of these 17 OTUs were not obtained from agar plates, which underlines that the use of multiple cultivation methods is worthwhile to increase the diversity of the cultivable microorganisms from sponges.     

Antibacterial Activity and Drug Release of Chitosan Sponge Containing Doxycycline Hyclate

The purpose of the present study was to develop and characterize the chitosan sponges loading with doxycycline hyclate and their antibacterial activities. The pore density of chitosan sponge prepared with freeze drying technique was increased as the higher concentrated chitosan solution was used. The sponge prepared from 10% w/w of the chitosan solution and crosslinking with glutaraldehyde solution was utilized for loading with doxycycline hyclate. The drug release and sustainable antibacterial activity of fabricated sponge were assessed using dissolution test and agar diffusion test, respectively. Drug release from non-crosslinked sponge into phosphate buffer pH7.4 was slower than that from crosslinked sponge since the former could absorb the medium and form gel to retard the initial drug diffusion. Sustainable antibacterial activity of developed sponge was evident against S. aureus and E. coli. In conclusion, the in vitro release profile and antibacterial efficiency indicated that doxycycline hyclate could be sustained using chitosan sponge.     

Large scale production, storage and transport of the insect-parasitic nematodes Neoaplectana spp. and Heterorhabditis spp.

A method for producing up to 2000 million infectives of Neoaplectana bibionis per container is described and is applicable to other species of Neoaplectana and Heterorhabditis spp. The nematodes were cultured within autoclavable plastic bags, on crumbed polyether polyurethane sponge coated with chicken offal homogenate that had been sterilised and inoculated with the primary form of the appropriate symbiotic bacterium (Xenorhabdus spp.). Procedures for extracting and cleaning the nematodes on a large scale are described. Nematodes were stored and transported on clean sponge in aerated polyethylene tubes. The techniques are suitable for industrial use with little further development.     

Studies onAzotobacter species in soil

Summary Methods for countingAzotobacter species in soil have been examined. The highest counts were obtained from soil suspensions shaken in sterile distilled water containing 10-g glass beads and plated on to glucose agar. Mannitol has been rejected as a suitable substrate in agar media because it gives lower counts of Azotobacter than glucose, an effect which is further enhanced by drying the agar plates. A clear medium free from precipitated phosphate and CaCO₃ is recommended for the agar-plate method; the Azotobacter count is affected by the phosphate concentration.The agar-plate and dilution-tube methods were compared; the latter is less accurate but more convenient when many soil samples have to be examined.     

Improved operational stability of peroxidases by coimmobilization with glucose oxidase

The operational stability of peroxidases was considerably enhanced by generating hydrogen peroxide in situ from glucose and oxygen. For example, the total turnover number of microperoxidase-11 in the oxidation of thioanisole was increased sevenfold compared with that obtained with continuous addition of H(2)O(2). Coimmobilization of peroxidases with glucose oxidase into polyurethane foams afforded heterogeneous biocatalysts in which the hydrogen peroxide is formed inside the polymeric matrix from glucose and oxygen. The total turnover number of chloroperoxidase in the oxidation of thioanisole and cis-2-heptene was increased to new maxima of 250. 10(3) and 10. 10(3), respectively, upon coimmobilization with glucose oxidase. Soybean peroxidase, which normally shows only classical peroxidase activity, was transformed into an oxygen-transfer catalyst when coimmobilized with glucose oxidase. The combination catalyst mediated the enantioselective oxidation of thioanisole [50% ee (S)] with 210 catalyst turnovers.