Valoración de la adhesión bacteriana en implantes orbitarios expuestos mediante microscopia electrónica y cultivo microbiológico / Evaluation of bacterial adhesion in exposed orbital implants using electron microscopy and microbiological culture

Se presentan tres casos de pacientes anoftálmicos con implantes orbitarios expuestos. Aunque solo un paciente mostraba signos clínicos evidentes de infección, los tres implantes fueron estudiados para determinar la presencia de microorganismos adheridos a su superficie mediante microscopia electrónica de barrido (MEB) y cultivo microbiológico. La MEB permitió la visualización de microorganismos adheridos a los tres implantes, si bien solo uno de ellos presentó crecimiento en los cultivos microbiológicos. Además, la técnica de MEB empleada en el caso número 3 consiguió una mejor orientación y apreciación de los microorganismos respecto a las imágenes de los casos número 1 y 2. Estos hallazgos apoyan la idea de que la superficie de los implantes orbitarios expuestos está colonizada por microorganismos incluso cuando todavía no muestran signos evidentes de infección. Por lo tanto, es necesario una eliminación mecánica de la superficie expuesta del implante antes de recubrirla con injertos o colgajos

Three cases are presented of anophthalmic patients with exposed orbital implants. Although only one patient showed evident clinical signs of infection, all three implants were studied to determine the presence of microorganisms adhered to their surface using a scanning electron microscopy (SEM) and microbiological culture. The SEM allowed the visualisation of microorganisms adhered to the three implants, although only one of them showed growth in the microbiological cultures. In addition, the SEM technique used in case No. 3 achieved a better orientation and appreciation of the microorganisms with respect to the images of cases No. 1 and 2. These findings support the idea that the surface of exposed orbital implants is colonised by microorganisms, even when they still do not show obvious signs of infection. Therefore, mechanical removal of the exposed surface of the implant is necessary before covering it with grafts or flaps

Evaluation of bacterial adhesion in exposed orbital implants using electron microscopy and microbiological culture. / Valoración de la adhesión bacteriana en implantes orbitarios expuestos mediante microscopia electrónica y cultivo microbiológico.

Three cases are presented of anophthalmic patients with exposed orbital implants. Although only one patient showed evident clinical signs of infection, all three implants were studied to determine the presence of microorganisms adhered to their surface using a scanning electron microscopy (SEM) and microbiological culture. The SEM allowed the visualisation of microorganisms adhered to the three implants, although only one of them showed growth in the microbiological cultures. In addition, the SEM technique used in case No.3 achieved a better orientation and appreciation of the microorganisms with respect to the images of cases No.1 and2. These findings support the idea that the surface of exposed orbital implants is colonised by microorganisms, even when they still do not show obvious signs of infection. Therefore, mechanical removal of the exposed surface of the implant is necessary before covering it with grafts or flaps.

Scalable one-pot bacteria-templating synthesis route toward hierarchical, porous-Co3O4 superstructures for supercapacitor electrodes.

Template-driven strategy has been widely used to synthesize inorganic nano/micro materials. Here, we used a bottom-up controlled synthesis route to develop a powerful solution-based method of fabricating three-dimensional (3D), hierarchical, porous-Co3O4 superstructures that exhibit the morphology of flower-like microspheres (hereafter, RT-Co3O4). The gram-scale RT-Co3O4 was facilely prepared using one-pot synthesis with bacterial templating at room temperature. Large-surface-area RT-Co3O4 also has a noticeable pseudocapacitive performance because of its high mass loading per area (~10 mg cm(-2)), indicating a high capacitance of 214 F g(-1) (2.04 F cm(-2)) at 2 A g(-1) (19.02 mA cm(-2)), a Coulombic efficiency averaging over 95%, and an excellent cycling stability that shows a capacitance retention of about 95% after 4,000 cycles.

Efficient biotransformation of herbicide diuron by bacterial strain Micrococcus sp. PS-1.

A Gram-positive, Micrococcus sp. strain PS-1 capable of utilizing phenylurea herbicide diuron as a sole carbon source at a high concentration (up to 250 ppm) was isolated from diuron storage site by selective enrichment study. The taxonomic characterization with 16S rRNA gene sequencing (1,477 bp) identified PS-1 as a member of Micrococcus sp. It was studied for the degradation of diuron and a range of its analogues (monuron, linuron, monolinuron, chlortoluron and fenuron). The shake flasks experiments demonstrated fast degradation of diuron (up to 96% at 250 ppm within 30 h incubation) with the addition of small quantity (0.01%) of non-ionic detergent. The relative degradation profile by the isolate was in the order of fenuron > monuron > diuron > linuron > monolinuron > chlortoluron. Further, the biochemical characterization of catabolic pathway by spectroscopic and chromatographic techniques demonstrated that the degradation proceeded via formation of dealkylated metabolites to form 3,4-dichloroaniline (3,4-DCA). It was the major metabolite formed, associated with profound increase in degradation kinetics in presence of appropriate additive.

Expression and bioactivity of recombinant human lysozyme in the milk of transgenic mice.

Human milk lysozyme is an important protein for innate immunity, but human breast milk is a fairly poor source for commercial production of this enzyme. Research on the expression of recombinant human lysozyme (rHlys) is therefore potentially valuable to the dairy industry. In this study, 2 different kinds of transgenic mice, PBC-hLY and PBC-sighLY, were generated and used as system models to express rHlys. Six lines of PBC-hLY transgenic mice with human lysozyme genomic DNA-based constructs were generated, and a maximum expression level of rHlys approaching 0.154 mg/mL was achieved. Antibacterial activity of the whey from PBC-hLY female transgenic mice was determined by a turbidimetric assay. Results showed that antibacterial activity of the whey was strongly enhanced, and confirmed that rHlys retained full activity. For rHlys to be secreted efficiently into the milk of transgenic mice, 5 lines of mice were also generated, in which the signal peptide DNA of bovine beta-casein was substituted for that of lysozyme in PBC-hLY transgenic mice. Compared with PBC-hLY transgenic mice, both the expression levels of rHlys and the antibacterial activity of the whey were much higher in the PBC-sighLY transgenic mice. The concentration of rHlys in one of these mice amounted to 1.405 mg/mL-3 times higher than the level in human whey. The antibacterial activity of the whey was also 3 times higher than that of human whey. The rHlys from both PBC-hLY and PBC-sighLY transgenic mice had the same antibacterial activity as human milk lysozyme. The effect of the signal peptide and copy numbers of the transgene on expression of rHlys was also evaluated. This work will certainly permit a better understanding of how mammary gland bioreactor systems can be applied to produce rHlys in other mammals, such as cattle.

Bioremediation of contaminated surface water by immobilized Micrococcus roseus.

The problems caused by contaminated surface water have gradually become more serious in recent years. Although various remediation technologies were investigated, unfortunately, no efficient method was developed. In this paper, a new bioremediation technology was studied using Micrococcus roseus, which was immobilized in porous spherical beads by an improved polyvinyl alcohol (PVA) - sodium alginate (SA) embedding method. The experimental results indicated that COD removal rate could reach 64.7 % within 72 hours when immobilized M. roseus beads were used, which was ten times as high as that of free cells. The optimum inoculation rate of immobilized M. roseus beads was 10 % (mass percent of the beads in water sample, g g(-1)). Suitable aeration was proved necessary to enhance the bioremediation process. The immobilized cells had an excellent tolerance to pH and temperature changes, and were also more resistant to heavy metal stress compared with free cells. The immobilized M. roseus beads had an excellent regeneration capacity and could be reused after 180-day continuous usage. The Scanning Electronic Microscope (SEM) analysis showed that the bead microstructure was suitable for M. roseus growth, however, some defect structures should still be improved.

The structure of resting bacterial populations in soil and subsoil permafrost.

The structure of individual cells in microbial populations in situ of the Arctic and Antarctic permafrost was studied by scanning and transmission electron microscopy methods and compared with that of cyst-like resting forms generated under special conditions by the non-spore-forming bacteria Arthrobacter and Micrococcus isolated from the permafrost. Electron microscopy examination of microorganisms in situ revealed several types of bacterial cells having no signs of damage, including "dwarf" curved forms similar to nanoforms. Intact bacterial cells in situ and frozen cultures of the permafrost isolates differed from vegetative cells by thickened cell walls, the altered structure of cytoplasm, and the compact nucleoid, and were similar in these features to cyst-like resting forms of non-spore-forming "permafrost" bacterial strains of Arthrobacter and Micrococcus spp. Cyst-like cells, being resistant to adverse external factors, are regarded as being responsible for survival of the non-spore-formers under prolonged exposure to subzero temperatures and can be a target to search for living microorganisms in natural environments both on the Earth and on extraterrestrial bodies.

[Synthesis of anabiosis autoinducers in non-spore-forming bacteria as a mechanism regulating their activity in soil and subsoil sedimentary rocks]. / Sintez autoinduktorov anabioza u nesporoobrazuiushchikh bakterii kak mekhanizm reguliatsii ikh aktivnosti v pochve i podpochvennykh osadochnykh porodakh.

Non-spore-forming bacteria of the genera Arthrobacter and Micrococcus, isolated from permafrost subsoil, were found to produce greater amounts of the d1 extracellular factor than closely related collection strains isolated from soil. The effect of this factor, responsible for cell transition to anabiosis, was not species-specific. Thus, the d1 crude preparation isolated from the culture liquid of the permafrost isolate Arthrobacter globiformis 245 produced an effect on the collection strain Arthrobacter globiformis B-1112 and also on Micrococcus luteus and Bacillus cereus. The crude d1 preparation from the permafrost isolate of Arthrobacter differed from the chemical analogue of this factor, 4n-hexylresorcinol, in the level of the induced cell response, which may have resulted from different cell sensitivity to various homologs of alkylhydroxybenzenes contained in the d1 preparation. Thus, additional evidence was obtained indicating that autoregulation of bacterial growth and development is implemented at the level of intercellular interactions in microbial communities. Abundant production of the d1 anabiosis-inducing factors by bacteria isolated from permafrost subsoil is probably a result of special antistress mechanisms responsible for the survival of these bacteria under extreme conditions of natural deep cooling.

Kytococcus sedentarius (formerly Micrococcus sedentarius) and Dermacoccus nishinomiyaensis (formerly Micrococcus nishinomiyaensis) produce monensins, typical Streptomyces cinnamonensis metabolites.

The environmental isolate Kytococcus sedentarius TR-2 was found to be a new producer of the oligoketide antibiotics monensin A and B. Electron microscopic studies demonstrated that the TR-2 strain had coccoid cells and DNA analysis revealed no close relationship to Streptomyces cinnamonensis, a typical monensin producer. Production of monensins was also proven with six culture collection K. sedentarius strains and three Dermacoccus nishinomiyaensis strains. The secondary metabolism of micrococci demonstrates a high degree of instability. Biosynthesis of monensins by micrococci endorses a phylogenetic relationship to Streptomyces spp.

The height of biomolecules measured with the atomic force microscope depends on electrostatic interactions.

In biological applications of atomic force microscopy, the different surface properties of the biological sample and its support become apparent. Observed height differences between the biomolecule and its supporting surface are thus not only of structural origin, but also depend on the different sample-tip and support-tip interactions. This can result in negative or positive contributions to the measured height, effects that are described by the DLVO (Derjaguin, Landau, Verwey, Overbeek) theory. Experimental verification shows that the electrostatic interactions between tip and sample can strongly influence the result obtained. To overcome this problem, pH and electrolyte concentration of the buffer solution have to be adjusted to screen out electrostatic forces. Under these conditions, the tip comes into direct contact with the surface of support and biological system, even when low forces required to prevent sample deformation are applied. In this case, the measured height can be related to the thickness of the native biological structure. The observed height dependence of the macromolecules on electrolyte concentration makes it possible to estimate surface charge densities.

A water-soluble fragment of Micrococcus lysodeikticus cell wall.

A fragment of Micrococcus lysodeikticus cell wall was obtained by extraction of walls with water, dimethylformamide or dimethyl sulfoxide. The water-soluble polymer was obtained from the cell walls prepared either with or without trypsin treatment of the cell. This fragment was studied by the Smith periodate oxidation, methylation, mild acid treatment and enzymic procedures. The polymer consists of polysaccharide chains composed of (1-->4)-O-(2-acetamido-2-deoxy-beta-D-mannopyranosyluronic acid)-(1-->6)-O-alpha-D-glucopyranosyl residues. The polysaccharide chain is linked to C-6 of a 2-acetamido-3-O-(D-1-carboxyethyl)-2-deoxy-beta-D-gluco-pyranosyl residue of a peptidoglycan chain composed of repeating (1-->4)-O-(2-acetamido-2-deoxy-beta-D-glucopyranosyl)-(1-->4)-[2-acet ami do-3-O-(D-1-carboxyethyl)-2-deoxy-beta-D-glucopyranosyl] residues. The water-soluble cell-wall fragment was also observed in the-culture medium of Micrococcus lysodeikticus and was also extractable from the cells in minor quantity.

[Changes in the chromatin structure under the influence of intranuclear bacteria with antihistone activity]. / Izmeneniia v strukture khromatina pod vliianiem vnutriiadernykh bakterii s antigistonovoi aktivnost'iu.

Computed TV morphodensitometry was used to examine the integration of bacteria into the human nuclear genome. The bacterial strains with antihistone activity were shown to be incorporated into the structure of chromatin structure of an epithelial cell with its network organization impaired. The microscopic analysis of cultured Hep 2 cells by manual scanning indicated that genetically active bacteria were incorporated into the nucleus and nucleolus.

[Antimicrobial and membranolytic activities of anti-burn drug fenozan]. / Antimikrobnaia i membranoliticheskaia aktivnost' protivoozhogovogo preparata fenozana.

Fenozan, an anti-burn preparation, was shown to have antimicrobial activity against freshly isolated clinical strains of Staphylococcus aureus and Streptococcus faecalis, as well as against collection strains of the other gram-positive bacteria. The antimicrobial action of the preparation was possibly due to impairment of permeability of the cytoplasmic membranes in the sensitive bacterial cells and their liberation of intracellular low molecular weight compounds to the environment. The membranolytic and minimum inhibitory concentrations of fenozan with respect to the sensitive bacterial cells were one order of magnitude lower than the concentration stabilizing the membranes of animal cells in the treatment of burns. Combination of the antioxidant and antimicrobial properties in fenozan was likely to provide its satisfactory therapeutic effect in the treatment of burn wounds.

Structure of a Micrococcus lysodeikticus cell wall fragment containing phosphorylated sugars.

A polysaccharide-peptidoglycan complex containing different phosphorylated sugars from Micrococcus lysodeikticus cell wall has been isolated and purified. The peptidoglycan contained muramic acid 6-phosphate and N-acetylglucosamine 6-phosphate as phosphorylated sugars in addition to other sugar residues. Mild acid hydrolysis of the peptidoglycan and subsequent reduction of the released polysaccharide showed therein the presence of glucose and N-acetyl-glucosamine in the linkage of the external polysaccharide residues to the peptidoglycan through phosphodiester linkage. These data suggest the presence of polysaccharide chains linked to a peptidoglycan core through two phosphorylated sugars via two different terminal carbohydrate residues of the external polysaccharide chains in a same polymer.

Cell surface of a tetrads-forming mutant of Micrococcus luteus: chemical treatment of the cells and teichuronic acids on the surface.

Tetrads-forming mutant MT cells of Micrococcus luteus, both treated with chemical reagents and non-treated, were observed with a scanning electron microscope (SEM). The agglutinability of the cells with antiserum containing anti-teichuronic acid antibody was examined. The binding of protein A-gold particles to the cells, mediated with the antiserum, was also observed with SEM. A tetrad surface, not surface of each of four "unit monococci" constituting a tetrad, consisted of two or three smooth areas with borders. The difference in the surface features between M. luteus wild-type IFO 3333 (Monodane et al, Microbiol. Immunol. 33: 165-174, 1989) and the mutant MT cells is discussed.

Chemical treatments of the cell packets induced from a Micrococcus luteus mutant and teichuronic acids on the packet surface.

Cell packets (MT packets) induced from a tetrads-forming mutant (strain MT) of Micrococcus luteus, both treated with chemical reagents and non-treated, were observed with a scanning electron microscope (SEM). The agglutinability of MT packets with antiserum containing anti-teichuronic acid antibody was examined. The binding of protein A-gold particles to the MT packets, mediated with the antiserum, was also observed with SEM. Gold particles were observed uniformly on the whole packet surface and also on the bridging structure formed by the outermost layer of the cell wall. Mild acid treatment, NaIO4-NaBH4 treatment and mild Smith degradation of the MT packets extremely decreased the agglutinability and binding of protein A-gold particles. The treatments gave a little influence on the surface feature and appreciably destroyed the regular packet structure. It was supposed that teichuronic acids distributed uniformly on the whole packet surface, naturally on the surface of the bridging structure too, and appreciably participated in the maintenance of the regular packet structure.

Comparison of two kinds of cell packets of Micrococcus luteus by scanning electron microscopy: outermost layer maintaining the packet structure.

Two kinds of cell packets of Micrococcus luteus, one having teichuronic acids (TUA) in the cell wall and the other lacking TUA, have been independently reported by two groups of workers. A comparison by scanning electron microscopy of these packets provided a possibly consistent interpretation for the seemingly conflicting opinions whether TUA were involved in packet induction. It was strongly suggested that the packets having TUA in the wall were rigidly maintained by a bridging structure of the outermost layer of the peripheral wall, while the packets lacking TUA showed low contribution of the outermost layer to the bridging structure probably due to the absence of TUA.

[Pneumothorax caused by histiocytic pneumonitis]. / Pneumothorax durch histiozytäre Pneumonitis.

Specimens from the lung obtained during the treatment of spontaneous pneumothorax revealed a hitherto unknown histological phenomenon characterised by a histiocytic, inflammatory interstitial pulmonary tissue containing gas. By following the course of the gas an intracellular pathogen could be identified in the macrophages. Its shape resembled that of micrococci, ist size was between 2-4 microns. The ultrastructure within the pathogen suggested gas formation. In these cases the origin of the pneumothorax was attributed to the aerogenous microorganism that had induced a phagocytic inflammation in the pulmonary tissue.

Inhibition of bacterial isoprenoid synthesis by fosmidomycin, a phosphonic acid-containing antibiotic.

The mechanism of action of fosmidomycin (FR-31564), a phosphonic acid containing antibiotic, was examined against Escherichia coli, Micrococcus luteus and other bacteria. It converted growing Esch. coli cells into spheroplasts or swollen cells, but did not inhibit the enzymatic reactions of cell wall synthesis in ether-treated cells. Unlike bicyclomycin, phenethyl alcohol and mitomycin C, it did not reduce the amount of envelope lipoprotein, phospholipids, or DNA, but did reduce the amount of menaquinones and ubiquinones in growing Esch. coli cells. It also inhibited the biosynthesis of both carotenoids and menaquinones in M. luteus cells, suggesting that inhibition of the biosynthesis of a common precursor of these isoprenoids (possibly farnesyl pyrophosphate) might be the main site of its antibacterial activity.