Amalia D. Karagouni

Occurrence and reservoirs of antibiotic resistance genes in the environment

Antibiotic resistance genes have become highly mobile since the development of antibiotic chemotherapy. A considerable body of evidence exists proving the link between antibiotic use and the significant increase in drug-resistant human bacterial pathogens. The application of molecular detection and tracking techniques in microbial ecological studies has allowed the reservoirs of antibiotic resistance genes to be investigated. It is clear that the transfer of resistance genes has occurred on a global scale and in all natural environments. The considerable diversity of bacteria and mobile elements in soils has meant that the spread of resistance genes has occurred by all currently known mechanisms for bacterial gene transfer. Trans-kingdom transfers from plants to bacteria may occur in soil. Hot spots for gene transfer in the soil/plant environment have been described and colonized niches such as the rhizosphere and other nutrient-enriched sites, for example manured soil, have been identified as reservoirs of resistance genes. Although exposure and selection for tolerance of antibiotics is considerable in clinical environments there is increasing evidence that selection for resistant phenotypes is occurring in natural environments. Antibiotic-producing bacteria are abundant in soil and there is evidence that they are actively producing antibiotics in nutrient-enriched environments in soil. In addition there is clear evidence that the self-resistance genes found within antibiotic gene clusters of the producers have transferred to other non-producing bacteria. Perhaps most important of all is the use of antibiotics in agriculture as growth promotants and for treatment of disease in intensively reared farm animals. These treatments have resulted in gut commensal and pathogenic bacteria acquiring resistance genes under selection and then, due to the way in which farm slurries are disposed of, the spread of these genes to the soil bacterial community. Integrons with multiple resistance gene cassettes have been selected and disseminated in this way; many of these cassettes carry other genes such as those conferring heavy metal and disinfectant resistance which have been co-selected in bacteria surviving in effluents and contaminated soils, further maintaining and spreading the antibiotic resistance genes.

Biodegradation of crude oil by thermophilic bacteria isolated from a volcano island

One-hundred and fifty different thermophilic bacteria isolated from a volcanic island were screened for detection of an alkane hydroxylase gene using degenerated primers developed to amplify genes related to the Pseudomonas putida and Pseudomonas oleovorans alkane hydroxylases. Ten isolates carrying the alkJ gene were further characterized by 16s rDNA gene sequencing. Nine out of ten isolates were phylogenetically affiliated with Geobacillus species and one isolate with Bacillus species. These isolates were able to grow in liquid cultures with crude oil as the sole carbon source and were found to degrade long chain crude oil alkanes in a range between 46.64% and 87.68%. Results indicated that indigenous thermophilic hydrocarbon degraders of Bacillus and Geobacillus species are of special significance as they could be efficiently used for bioremediation of oil-polluted soil and composting processes.

A novel improved method for Aspergillus nidulans transformation

We systematically investigated the efficiency of Aspergillus nidulans transformation using protoplasts prepared from different stages of conidiospore germination and young mycelium. Using standard integrative plasmids, increased transformation yields were obtained with protoplasts isolated from a specific stage coincident with germ tube emergence. This increase ranged, on the average, from two- to eightfold depending on different plasmids used. Transformation efficiencies with a replicative plasmid were similar to those obtained using previously described methods. Although this observation suggests that elevated transformation efficiencies might be due to increased efficiency of recombination between plasmid and genomic sequences, we cannot exclude other factors associated with the particular developmental stage used. In the course of this study, we also examined the effect of other parameters that might enhance transformation yields. The method described is also significantly easier and faster than other current methods.

Application of rpoB sequence similarity analysis, REP‐PCR and BOX‐PCR for the differentiation of species within the genus Geobacillus

Aim: To investigate the applicability of rpoB gene, which encodes the β subunit of RNA polymerase, to be used as an alternative to 16S rRNA for sequence similarity analysis in the thermophilic genus Geobacillus. Rapid and reproducible repetitive extragenic palindromic fingerprinting techniques (REP‐ and BOX‐polymerase chain reaction) were also used.

Evidence that protein B of the thiosulphate-oxidizing system of Thiobacillus versutus contains a binuclear manganese cluster

Manganese was shown to be an essential trace metal for growth and thiosulphate oxidation by Thiobacillus versutus in chemostat culture. In the thiosulphate‐oxidizing enzyme system of T. versutus, protein B was the only component found to contain manganese in significant amounts. When it was examined by electron spin resonance (ESR) spectroscopy, protein B gave a broad, complex spectrum, indicative of the presence of a dimeric manganese cluster, with manganese in the Mn(II) oxidation state.

Carbapenemase-producing Pseudomonas aeruginosa from central Greece : molecular epidemiology and genetic analysis of class I integrons

BackgroundMultidrug-resistant Pseudomonas aeruginosa is a serious challenge for antimicrobial therapy of nosocomial infections, as it possesses several mechanisms of antimicrobial resistance. In Central Greece, a sudden increase of infections caused by carbapenem-resistant P. aeruginosa was observed during 2011, indicating the need for further analysis.MethodsFive-hundred and sixty-eight P. aeruginosa isolates were collected consecutively during an 8-month period in 2011 from inpatients treated in three hospitals in the Thessaly region (1,000,000 habitants) of Greece. Carbapenem-resistant P. aeruginosa (n = 284) were characterized by antimicrobial susceptibility testing and β-lactamase content, and the genetic relatedness of carbapenemase-producing isolates was assessed by BOX-PCR, multilocus sequence typing, and eBURST analysis. Mapping of the class I integrons of Verona integron-encoded metallo-β-lactamase (VIM)-carrying isolates was also performed, and clinical data of the VIM producers were reviewed.ResultsEighty (14.1%) out of the 568 P. aeruginosa isolates recovered from clinical specimens were VIM producers. Multilocus sequence typing revealed high prevalence of the international clones ST111 and ST235 among blaVIM-2- and blaVIM-4-positive isolates, respectively. blaVIM-17 was identified in an isolate of a novel sequence type (ST1457). blaVIM gene cassettes were carried by five distinct class I integrons, including two novel ones.ConclusionsSince the first report of VIM-producing P. aeruginosa in 2000, this microorganism still remains among the most prevalent multidrug resistant pathogens in Greece. The spread of VIM-producers belonging to the most common international clones (ST111 and ST235), the spread of integrons of divergent structures, and the emergence of novel integrons underscore their ongoing evolution.

Diversity of streptomycetes among specific Greek terrestrial ecosystems

The diversity of streptomycetes isolated from different Greek terrestrial ecosystems using phenotypic identification, and the relationship between the number of species and the number of isolates as a diversity index, was studied. A total of 344 Streptomyces strains have been isolated and identified from diverse sites in the Greek territory, such as heavily disturbed agricultural areas and preserved forest areas, and from specific rhizosphere ecosystems. According to phenotypic identification, these strains belonged to 19 different cluster groups with a Willcox probability > 0·8. Streptomyces cyaneus, Strep. albidoflavus, Strep. diastaticus and Strep. exfoliatus were the most common cluster groups isolated from at least six different habitats. On the other hand, there were cluster groups that appeared in only one or two habitats, such as Strep. griseoflavus, Strep. rimosus, Streptoverticillium blastmyceticum, Nocardia mediterranea and Strep. fulvissimus. The diversity indices among the different cluster groups of each sampling area indicated that the different habitats can be sub‐divided into two main groups: rhizosphere habitats and non‐rhizosphere habitats, showing that the rhizosphere is one of the most important factors which determines the population structure of a specific soil area.

Enzymes of the Calvin Cycle and Intermediary Metabolism in the Cyanobacterium Anacystis nidulans Grown in Chemostat Culture

Summary: The cyanobacterium Anacystis nidulans grown in light-limited and CO2-limited chemostat cultures showed varying rates of CO2 fixation with peaks at dilution rates of 0.10 to 0.12 h-1. The specific activities of a number of enzymes of the reductive and oxidative pentose phosphate and glycolytic pathways and the tricarboxylic acid and glyoxylate cycles varied significantly as a function of the growth environment (substrate limitation) and organism growth rate. Ribulose-1,5-bisphosphate carboxylase varied 15-fold under CO2-limited conditions but did not change under light-limited conditions. With the exception of phosphoribulokinase, all enzymes which showed a change in specific activity increased with decreasing dilution rate. The specific activities of glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, hexokinase, ribulose-1,5-bisphosphate carboxylase and malate dehydrogenase were significantly higher in organisms grown under CO2-limited conditions than under light-limited conditions. Fructose-1,6-bisphosphate aldolase and phosphoribulokinase specific activities were similar at all growth rates and under both limitations. Isocitrate lyase was the only enzyme examined which showed higher specific activities under light-limited conditions. Thus Anacystis nidulans can selectively express different enzymes, possibly by transcriptional control.

Evaluation of Paecilomyces variotii potential in bioethanol production from lignocellulose through consolidated bioprocessing

The ascomycete Paecillomyces variotii was evaluated for the first time as a candidate species for the production of bioethanol from lignocellulose through consolidated bioprocessing (CBP) approaches. The examined strain (ATHUM 8891) revealed all the necessary phenotypic characteristics required for 2nd generation biofuel production. The fungus is able to efficiently ferment glucose and xylose to ethanol, with yields close to the theoretical maximum. Nitrogen supplementation greatly affected ethanol production with nitrate-nitrogen presenting the best results. Notably, ethanol yield on xylose fermentation was higher than that of glucose, while in co-fermentation of glucose-xylose mixtures no distinguished diauxic behavior was observed. Furthermore, the fungus seems to possess the necessary enzyme factory for the degradation of lignocellulosic biomass, as it was able to grow and produce ethanol on common agro-industrial derivatives. Overall, the results of our study indicate that P. variotii is a new and possibly powerful candidate for CBP applications.

A refinery sludge deposition site: presence of nahH and alkJ genes and crude oil biodegradation ability of bacterial isolates

Abstract204 bacterial isolates from four Greek refinery sludge deposition sites were investigated for the presence of nahH and alkJ genes encoding key enzymes of both aromatic and aliphatic hydrocarbon degradation pathways by PCR and DNA hybridisation. Members of Pseudomonas, Acinetobacter, Bacillus, Rhodococcus and Arthrobacter play important role in bioremediation processes in sandy/loam soil contaminated with oil and nahH and alkJ genes were present in the 73% of the isolates. Consortia of bacterial isolates that were used for biodegradation of aliphatic and aromatic hydrocarbons in crude oil using liquid cultures exhibited rates from 35% to 48% within 10 days of incubation.