Candida bombicola cells immobilized on patterned lipid films as enzyme sources for the transformation of arachidonic acid to 20-HETE

Preparation of biocompatible surfaces for immobilization of enzymes and whole cells is an important aspect of biotechnology due to their potential applications in biocatalysis, biosensing, and immunological applications. In this report, patterned thermally evaporated octadecylamine (ODA) films are used for the immobilization of Candida bombicola cells. The attachment of the cells to the ODA film surface occurs possibly through nonspecific interactions such as hydrophobic interactions between the cell walls and the ODA molecules. The enzyme cytochrome P450 present in the immobilized yeast cells on the ODA film surface was used for the transformation of the arachidonic acid to 20-hydroxyeicosatetraenoic acid (20-HETE). The assembly of cells on the hydrophobic ODA surface was confirmed by quartz crystal microgravimetry (QCM), Fourier transform infrared spectroscopy (FTIR), and scanning electron microscopy (SEM). SEM images confirmed the strong binding of the yeast cells to the ODA film surface after biocatalytic reactions. Moreover, the biocomposite films could be easily separated from the reaction medium and reused.     

Immobilization of glucose oxidase on chitosan-based porous composite membranes and their potential use in biosensors

The glucose oxidase (GO_x) enzyme was immobilized on chitosan-based porous composite membranes using a covalent bond between GO_x and the chitosan membrane. The chitosan-based porous membranes were prepared by the combination of the evaporation- and non-solvent-induced phase separation methods. To increase the membrane conductivity, carbon nanotubes (CNTs) were added to the chitosan solution. The resulting membranes were characterized in terms of water permeability, surface morphology and surface chemistry. Enzyme immobilization was performed on the chitosan membranes with and without activation using glutaraldehyde (GA). Three different configurations of working electrodes were evaluated to investigate the potential use of the modified membranes in biosensors. The results show that enzyme immobilization capacity was greater for membranes that had been activated than for membranes that had not been activated. In addition, activation increased the stability of the enzyme immobilization. The immobilization of GO_x on chitosan-based membranes was influenced by both pH and the concentration of the enzyme solution. The presence of CNTs significantly increased the electrical conductivity of the chitosan membranes. The evaluation of three different configurations of working electrodes suggested that the third configuration, which was composed of an electrode-mediator-(chitosan and carbon nanotube) structure and enzyme, is the best candidate for biosensor applications.     

Production of sophorolipids by Candida bombicola grown on soy molasses as substrate*,**

Sophorolipids (SLs) were produced from Candida bombicola using soy molasses and oleic acid as co-substrates. The purified SLs were obtained at 21 g l(-1) and were 97% in lactone form. The major SL constituent (81% relative abundance) of the product mixture contains an oleoyl chain. The surface properties of the SLs obtained from the soy molasses/oleic acid fermentation had minimum surface-tension values of 37 mN m(-1) (pH 6) and 38 mN m(-1) (pH 9), and critical micelle concentration values of 6 mg l(-1) (pH 6) and 13 mg l(-1) (pH 9).     

Cloning and characterisation of the glyceraldehyde 3-phosphate dehydrogenase gene of Candida bombicola and use of its promoter

The glyceraldehyde-3-phosphate dehydrogenase gene (GPD) of the sophorolipid producing yeast Candida bombicola was isolated using degenerated PCR and genome walking. The obtained 3,740 bp contain the 1,008 bases of the coding sequence and 1,613 and 783 bp of the upstream and downstream regions, respectively. The corresponding protein shows high homology to the other known GPD genes and is 74% identical to the gyceraldehyde-3-phosphate dehydrogenase of Yarrowia lipolytica. The particular interest in the C. bombicola GPD gene sequence originates from the potential use of its promoter for high and constitutive expression of homologous and heterologous genes. Southern blot analysis did not give any indication for the presence of multiple GPD genes and it can therefore be expected that the promoter can be used for efficient and high expression. This hypothesis was further confirmed by the biased codon usage in the GPD gene. GDP promoter fragments of different lengths were used to construct hygromycin resistance cassettes. The constructs were used for the transformation of C. bombicola and all of them, even the ones with only 190 bp of the GPD promoter, were able to render the cells resistant to hygromycin. The efficacy of a short GPD promoter can be a convenient characteristic for the construction of compact expression cassettes or vectors for C. bombicola. The GenBank accession number of the sequence described in this article is EU315245.     

Immobilization of Candida rugosa lipase in lyotropic liquid crystals and some properties of the immobilized enzyme

Summary Lipase from Candida rugosa has been immobilized in lyotropic liquid crystals consisting of a nonionic surfactant, hexane, and aqueous buffer with the enzyme. The kinetics of butyl butyrate synthesis, diffusion effects, and enzyme stability were investigated. Some basic rules have been formulated for a rational medium design in liquid-crystalline matrices.     

Sophorolipids-induced cellulase production in cocultures of Hypocrea jecorina Rut C30 and Candida bombicola

Sophorose is a potent but expensive inducer for cellulase production. In this study the feasibility of using sophorolipids, natural lipids that contain sophorose, for cellulase induction was investigated. Enhanced cellulase production by Hypocrea jecorina Rut C30 grown on glycerol, a substrate without cellulase-inducing ability, was first confirmed by addition of the crude sophorolipids collected from Candida bombicola fermentation. Cocultures of H. jecorina Rut C30 and C. bombicola were then employed to evaluate the effects of coculture conditions: the cell concentration ratio between the two cultures, the concentration of vegetable oil (as lipid precursor for sophorolipid synthesis, in addition to glycerol as the primary carbon source), the presence of nitrogen source for growth, and the substitution of glucose for glycerol as the primary carbon source. Specific cellulase productivity of H. jecorina Rut C30 was significantly higher under the conditions that promoted sophorolipid production by C. bombicola. The ability of H. jecorina Rut C30 to degrade sophorolipids was also confirmed. The results of the study indicated that the sophorolipids produced by C. bombicola can be degraded by H. jecorina Rut C30 and the sophorose generated from the degradation can effectively induce the fungal cellulase synthesis.     

Immobilization of lipases on different carriers and their use in synthesis of pentyl isovalerates

Porcine pancreatic lipase (PPL) and Candida cylindracea lipase (CCL) were immobilized on Celite and Amberlite IRA 938 by deposition from the aqueous solution by the addition of hexane. The influence of the immobilization on the activities of the immobilized lipase derivatives has been studied. The immobilized lipases were used in synthesis of pentyl isovalerates. Various reaction parameters affecting the synthesis of pentyl isovalerates were investigated. The reaction rates were compared with the rates of esterification with free lipases. The immobilized lipases were found to be very effective in the esterification reaction. The lipases immobilized on Celite 545 exhibited better operational stabilities than that of immobilized on Amberlite IRA-938.     

Inhibition of Candida albicans extracellular enzyme activity by selected natural substances and their application in Candida infection

Extracellular enzymes secreted by Candida albicans are claimed to be virulence factors responsible for penetration of the yeast into host cells. Substances able to inhibit lipolytic and proteinase activities of the fungus might be of therapeutic use in some pathologic conditions caused by C. albicans. In the present work, we have tested the influence of the flavonoid compounds apigenin and kaempferol, the indole alkaloid ibogaine, and the protoberberine alkaloid berberine on the in vitro enzyme activity of C. albicans. The substances showed complex suppressive effects concerning the processes of adherence to epithelial cells, secreted aspartyl proteinase activity, and the rate of cell wall protein glycosylation. Apigenin and kaempferol were administered in systemic C. albicans infection, demonstrating an increased number of survivors by kaempferol. The application of apigenin, kaempferol, ibogaine, and berberine in cutaneous infection suppressed the symptoms and accelerated elimination of the yeast from the site of inoculation.     

Preparation of oligosaccharide-polyacrylamide conjugates and their use as antigens in enzyme immunoassay (EIA)

Oligosaccharides derived fromSalmonella lipopolysaccharides or from human milk were converted to theirN-acetyl-N-(4-acrylamidophenyl)-1-amino-1-deoxyalditol derivatives. These derivatives were copolymerized with acrylamide to give linear, water-soluble polymers, which were used as coating antigens in EIA assays.     

Tandem conjugation of enzyme and antibody on silica nanoparticle for enzyme immunoassay

We present a new type of enzyme-antibody conjugate that simplifies the labeling procedure and increases the sensitivity of enzyme-linked immunosorbent assay (ELISA). The conjugates were prepared through layer-by-layer immobilization of enzyme and antibody on a silica nanoparticle scaffold. A maximal amount of enzyme was immobilized on the nanoparticle, followed by antibody linkage through Dextran 500. The conjugate could be easily purified from unreacted reagents by simple centrifugations. In comparison with the conventional antibody-enzyme conjugate used in ELISA, which often has one or two enzyme molecules per antibody, the new type of conjugate contained more enzyme molecules per antibody and provided a much higher signal and increased sensitivity. When used in an ELISA detection of the hepatitis B surface antigen (HBsAg), the detection limit was three times lower than that of the commercially available ELISA kit.     

Microencapsulation of yeast cells and their use as a biocatalyst in organic solvents

Stable, semipermeable polyamide microcapsules were prepared by interfacial polymerization from a mixture of 1,6-hexanediamine and poly(allylamine) crosslinked with di-acid chlorides and were used to encapsulate baker's yeast. The size and distribution of cells within the capsules were investigated by a combination of laser confocal, electron scanning, and transmission electron microscopy. The encapsulated cells were studied as a biocatalyst for the model reduction of 1-phenyl-1,2-propanedione to 2-hydroxy-1-phenyl-1-propanone in a number of organic solvents. The polymerization conditions were extensively investigated and were found to greatly influence the product yield. Microencapsulated yeast cells, prepared under optimized conditions, carried out the reduction more efficiently than free cells as well as those immobilized in alginate and kappa-carrageenan beads. The developed methodology should be broadly applicable to other biotransformations of interest. (c) 1996 John Wiley & Sons, Inc.     

Immobilization of lipase from Candida cylindraceae and its use in the synthesis of menthol esters by transesterification.

Lipase (EC 3.1.1.3) from Candida cylindraceae has been immobilized by the cellulose-titanium chloride method, and on EP-400 polyethylene, with and without glutaraldehyde crosslinking, to give active preparations when assessed by their ability to catalyse the hydrolysis of tributyrin. In both cases, the use of glutaraldehyde crosslinking was shown to improve the stability of the preparations for repeated use. The lipase immobilized on EP-400 polyethylene was found to be effective in transesterification using tributyrin or triacetin as acyl donors with l-menthol as acceptor. The production of methyl butanoate and of methyl acetate using this immobilized preparation was in each case enhanced in the presence of Amberlite IR 47 Anion exchange resin (OH form).     

Immobilization of Bacillus licheniformis cells, producers of thermostable α-amylase, on polymer membranes

Cells of Bacillus licheniformis 44MB82-G immobilized on different polymer membranes were used for production of thermostable α-amylase. The α-amylase yields of the membrane-immobilized cells were affected by the reactive chemical groups of the carriers and the spacer size. Formaldehyde-activated polysulphone membranes (PS-FA) were the most suitable for effective immobilization. The highest amylase yield (62% increase of the control) and operational stability (97% residual activity after 480 h repeated batch cultivation) were obtained with this system. This was confirmed by scanning electron micrographs. An additional increase of α-amylase production by PS-FA-membrane immobilized cells was achieved in a fluidized-bed reactor. Received 20 March 1997/ Accepted in revised form 08 January 1998     

Effect of ubiquinones and their analogs on the respiratory chain enzyme activity of Candida guilliermondii yeasts

The effect of ubiquinones with different length of their chain (CoQ0, CoQ1, CoQ2, CoQ6, CoQ9) and their synthetic analogues (analogues of ubiquinone-1, hexahydroubiquinone-4, monophytylquinone, diphytylquinone, triphytylquinone) on the activity of ubiquinone dependent enzyme systems was studied in mitochondrial fractions from the yeast Candida guilliermondii. All of the ubiquinone homologues studied activated these systems. The synthetic analogues of ubiquinone nonspecifically inhibited the activity of NADH2-oxidase system. The inhibition was reversible when CoQ0 and CoQ1, but not CoQ6 and CoQ9, were added to the system. In the succinate-CoQ-reductase system, the inhibition caused by the analogues of ubiquinone was eliminated when all of the tested homologues were added to the system. In contrast to other analogues of ubiquinone, hexahydroubiquinone-4 was an inhibitor for the NADH2-oxidase system and an activator for the succinate-CoQ-reductase system, and eliminated the inhibiting action of other ubiquinone analogues in this system. Similar action of ubiquinone homologues was shown in the elimination of the inhibition of ubiquinone dependent systems caused by the specific inhibitors of electron transport, viz. rotenone and antimycin A.     

Chitin synthase in Candida albicans: comparison of digitonin-permeabilized cells and spheroplast membranes.

The treatment of Candida albicans (yeast form) with digitonin or dimethyl sulfoxide permeabilized cells and caused the activation of chitin synthase in situ. Endogenous activation was completely prevented by the sulfhydryl reagents N-ethylmaleimide, p-chloromercuribenzoate, and 5,5'-dithiobis(2-nitrobenzoic acid); partially prevented by the protease inhibitors antipain, leupeptin, and N alpha-tosyl-L-lysyl chloromethyl ketone; and also partially prevented by EDTA. Thus, a clostripain-like protease may be involved in the endogenous activation phenomenon. The pH activity profile, cofactor requirements, and kinetic parameters of the endogenously activated chitin synthase were identical to those of the trypsin-activated enzyme in protoplast membranes.     

The effect of medium composition on the structure and physical state of sophorolipids produced by Candida bombicola ATCC 22214

Candida bombicola was grown using a variety of lipophilic carbon substrates. Most of the hydrocarbon and carboxylic acid substrates resulted in a mixture of sophorolipids consisting of free acids and the more desirable lactones. The ratio of diacylated lactone to free acid in these mixtures was a maximum when produced using hexadecane and heptadecane. All of the other lipophilic substrates resulted in significant amounts of free acids being produced. These lactone products were unique in that they precipitated as crystals, which were easily separated from the culture medium. All of the other products were isolated as oils as is usually reported in the literature. Finally, the amounts of these crystals recovered were significantly higher than those observed for any of the oily products. It was possible to determine the degree of direct incorporation of the lipophilic substrates into the sophorolipids for a homologous series of alkanes. The amount of direct incorporation increased with increasing chain length to a maximum for pentadecane, hexadecane and heptadecane. As the length of the alkane substrate increased further, the amount of direct incorporation then decreased until there was no apparent incorporation for eicosane.