alkB homologs in thermophilic bacteria of the genus Geobacillus

Screening for alkane hydroxylase genes (alkB) was performed in thermophilic aerobic bacteria of the genus Geobacillus. Total DNAs were isolated from the biomass of 11 strains grown on a mixture of saturated C₁₀–C₂₀ hydrocarbons. Fragments of alkB genes were amplified by PCR with degenerate oligonucleotide primers, and the PCR products were cloned and sequenced. For the first time, a set of alkB gene homologs was detected in the genomes of thermophilic bacteria. The strains each contained three to six homologs, of which only two were common for all of the strains. Phylogenetic analysis of the nucleotide sequences and the deduced amino acid sequences showed that six of the variants revealed in Geobacillus were closely related to alkB4, alkB3, and alkB2, found in Rhodococcus erythropolis strains NRRL B-16531 and Q15. All variants of alkB sequences were unique. Analysis of the GC composition showed that the Geobacillus alkB homologs are closer to Rhodococcus than to Geobacillus chromosomal DNA. It was assumed that the alkB genes were introduced in the Geobacillus genome via interspecific horizontal transfer and that Rhodococcus or other representatives of Actinobacteria served as donors. Analysis of the codon usage in the fragments of alkB genes confirmed the suggestion that the pool of these genes is common to the majority of Gram-positive and certain Gram-negative bacteria. The formation of a set of several alkB homologs in a genome of a particular microorganism may result from free gene exchange within this pool.     

Characterization of the bottom sediments contaminated with polychlorinated biphenyls: Evaluation of ecotoxicity and biodegradability

At the locality of the former producer of PCBs Chemko Strá?ske in East Slovakia, a large amount of PCBs (the commercial mixture DELOR 103, an equivalent of AROCLOR 1242) is still persisting in sediments and negatively influences health of the population. The objective of this work was to provide a study of ecotoxicity and genotoxicity of PCBs in contaminated sediments. Toxicity of the PCB-contaminated sediments sampled from Zemplínska ?írava and Strá?sky canal (surroundings of the former producer of PCBs) was determined applying a standard aquatic plant toxicity test using Lemna minor. The endpoints for the test were frond numbers and frond areas. The sediment sampled from Zemplínska ?írava was more toxic to L. minor than the one sampled from Strá?sky canal. The results on genotoxicity showed that both sediments were not mutagenic toward the standard strains of the Ames test, Salmonella typhimurium TA98 and TA100. This work deals also with biodegradation of PCBs in two samples of the above mentioned contaminated sediments: a) in the natural sediments by autochthonous microbial consortium and b) in the bioaugmented sediments inoculated by allochthonous bacterial strains, two bacterial isolates from long-term PCB-contaminated soil Pseudomonas stutzeri and Alcaligenes xylosoxidans. Both approaches were applied under the biostimulation conditions, with addition of glucose or biphenyl as co-substrates, as well. The highest PCB degradation was observed in the bioaugmented sediment inoculated with bacterial strain P. stutzeri. Addition of biphenyl, as the co-substrate and the inducer, positively affected degradation of PCBs. The bphA1 gene, encoding enzyme biphenyldioxygenase, responsible for the start of PCB degradation, was identified in genome of P. stutzeri, a potential PCB-degrader isolated from long-term PCB-contaminated soil, but not in genome of A. xylosoxidans.     

Specific and Functional Diversity of Endophytic Bacteria from Pine Wood Nematode Bursaphelenchus Xylophilus with Different Virulence

Pine wilt disease (PWD) caused by the pine wood nematode (PWN), Bursaphelenchus xylophilus, is one of the most devastating diseases of Pinus spp. The PWN was therefore listed as one of the most dangerous forest pests in China meriting quarantine. Virulence of the PWN is closely linked with the spread of PWD. However, main factors responsible for the virulence of PWNs are still unclear. Recently epiphytic bacteria carried by PWNs have drawn much attention. But little is known about the relationship between endophytic bacteria and virulence of B. xylophilus. In this research, virulence of ten strains of B. xylophilus from different geographical areas in six provinces of China and four pine species were tested with 2-year-old seedlings of Pinus thunbergii. Endophytic bacteria were isolated from PWNs with different virulence to investigate the relationship between the bacteria and PWN virulence. Meanwhile, the carbon metabolism of endophytic bacteria from highly and low virulent B. xylophilus was analyzed using Biolog plates (ECO). The results indicated that ten strains of PWNs showed a wide range of virulence. Simultaneously, endophytic bacteria were isolated from 90% of the B. xylophilus strains. The dominant endophytic bacteria in the nematodes were identified as species of Stenotrophomonas, Achromobacter, Ewingella, Leifsonia, Rhizobium, and Pseudomonas using molecular and biochemical methods. Moreover, S. maltophilia, and A. xylosoxidans subsp. xylosoxidans were the predominant strains. Most of the strains (80%) from P. massoniana contained either S. maltophilia, A. xylosoxidans, or both species. There was a difference between the abilities of the endophytic bacteria to utilize carbon sources. Endophytic bacteria from highly virulent B. xylophilus had a relatively high utilization rate of carbohydrate and carboxylic acids, while bacteria from low virulent B. xylophilus made better use of amino acids. In conclusion, endophytic bacteria widely exist in B. xylophilus from different pines and areas; and B. xylophilus strains with different virulence possessed various endophytic bacteria and diverse carbon metabolism which suggested that the endophytic bacteria species and carbon metabolism might be related with the B. xylophilus virulence.     

Detection of Achromobacter xylosoxidans in Hospital,Domestic, and Outdoor Environmental Samples and Comparison with Human Clinical Isolates

Achromobacter xylosoxidans is an aerobic nonfermentative Gram-negative rod considered an important emerging pathogen among cystic fibrosis (CF) patients worldwide and among immunocompromised patients. This increased prevalence remains unexplained, and to date no environmental reservoir has been identified. The aim of this study was to identify potential reservoirs of A. xylosoxidans in hospital, domestic, and outdoor environments and to compare the isolates with clinical ones. From 2011 to 2012, 339 samples were collected in Dijon''s university hospital, in healthy volunteers'' homes in the Dijon area, and in the outdoor environment in Burgundy (soil, water, mud, and plants). We designed a protocol to detect A. xylosoxidans in environmental samples based on a selective medium: MCXVAA (MacConkey agar supplemented with xylose, vancomycin, aztreonam, and amphotericin B). Susceptibility testing, genotypic analysis by pulsed-field gel electrophoresis, and bla_OXA-114 sequencing were performed on the isolates. A total of 50 strains of A. xylosoxidans were detected in hospital (33 isolates), domestic (9 isolates), and outdoor (8 isolates) samples, mainly in hand washing sinks, showers, and water. Most of them were resistant to ciprofloxacin (49 strains). Genotypic analysis and bla_OXA-114 sequencing revealed a wide diversity among the isolates, with 35 pulsotypes and 18 variants of oxacillinases. Interestingly, 10 isolates from hospital environment were clonally related to clinical isolates previously recovered from hospitalized patients, and one domestic isolate was identical to one recovered from a CF patient. These results indicate that A. xylosoxidans is commonly distributed in various environments and therefore that CF patients or immunocompromised patients are surrounded by these reservoirs.     

Phenotypic characterization and molecular taxonomic studies on Bacillus and related isolates from Phragmites australis periphyton

Reeds may play important role in the self-purification of aquatic habitats due to the filtration capacity and their periphyton communities developing on the underwater plant surfaces. The efficiency of this process and the transformation of organic substances can be influenced by the species composition and activity of microbial communities, including Bacillus and related species. For cultivation based bacteriological examinations reed periphyton samples were collected from 30 cm beneath the water surface of Lake Velencei and the Soroksár Danube branch (Hungary). After a primary selection 40 Bacillus and related strains were investigated by traditional morphological, biochemical tests, API 20E, API 50CHB and BIOLOG GP2 systems, and identified by 16S rDNA sequence comparison. The isolated strains were characterized by wide biochemical activity spectrum (i.e., the metabolism of carbohydrates and biopolymers) as well as widespread ecological tolerance based on their NaCl and pH range investigations. Species with facultative alkaliphilic features (Marinibacillus marinus, Bacillus firmus) were detected only from the reed biofilm of Lake Velencei, while alkalitolerant Bacillus and related species from both sampling sites. 22 endospore-forming strains were identified as members of species B. cereus, B. firmus, B. flexus, B. licheniformis, B. megaterium, B. muralis, B. pumilus, B. subtilis and Marinibacillus marinus. Only one species, with 95–96% sequence similarities to B. pumilus was found to be common among the strains from Lake Velencei and the Soroksár Danube branch. Altogether, 18 strains could not be identified as known species of Bacillus, Brevibacillus and Paenibacillus, hence they may represent new bacterial taxa.     

Achromobacter xylosoxidans: An Emerging Pathogen Carrying Different Elements Involved in Horizontal Genetic Transfer

In the last few years, numerous cases of multidrug-resistant Achromobacter xylosoxidans infections have been documented in immunocompromised and cystic fibrosis patients. To gain insights into the molecular mechanisms and mobile elements related to multidrug resistance in this bacterium, we studied 24 non-epidemiological A. xylosoxidans clinical isolates from Argentina. Specific primers for plasmids, transposons, insertion sequences, bla _ampC, intI1, and intI2 genes were used in PCR reactions. The obtained results showed the presence of wide host range IncP plasmids in ten isolates and a high dispersion of class 1 integrons (n?=?10) and class 2 integrons (n?=?3). Four arrays in the variable region (vr) of class 1 integrons were identified carrying different gene cassettes as the aminoglycoside resistance aac(6′)-Ib and aadA1, the trimethoprim resistance dfrA1 and dfrA16, and the β-lactamase bla _OXA-2. In only one of the class 2 integrons, a vr was amplified that includes sat2-aadA1. The bla _ampC gene was found in all isolates, confirming its ubiquitous nature. Our results show that A. xylosoxidans clinical isolates contain a rich variety of genetic elements commonly associated with resistance genes and their dissemination. This supports the hypothesis that A. xylosoxidans is becoming a reservoir of horizontal genetic transfer elements commonly involved in spreading antibiotic resistance.     

Production and partial characterization of biosurfactant produced by crude oil degrading bacteria

Production of biosurfactant by crude oil degrading bacteria for use in microbial enhanced oil recovery was investigated. Crude oil utilizing bacteria were isolated from soil by enrichment method on oil agar at 30 °C for 5 days. The isolates were identified and screened for biosurfactant production using blood haemolysis and emulsification tests. IR and GC–MS analyses were carried out to detect the type of biosurfactant. The biosurfactant was purified and its stability at various pH, temperature and salinity levels was studied. The organisms were identified as: Achromobacter xylosoxidans subspecies xylosoxidans, Bacillus licheniformis, Proteus vulgaris, Proteus mirabilis, Serratia marcescens, Sphingomonas paucimobilis and Micrococcus kristinae. Emulsification test (E₂₄) revealed that Serratia marcescens had the highest emulsification index of 87%. GC–MS indicated the biosurfactants as lipopeptides. The biosurfactant can be used in EOR under various environmental conditions.     

Phylogenetic and symbiotic diversity of Lupinus albus and L. angustifolius microsymbionts in the Maamora forest,Morocco

Out of 70 bacterial strains isolated from root nodules of Lupinus albus and L. angustifolius grown in the soils from the Maamora forest in Morocco, 56 isolates possessed the nodC symbiotic gene, as determined by nodC-PCR, and they were able to renodulate their original hosts.The phenotypic analysis showed that many strains had great potential for using different carbon compounds and amino acids as sole carbon and nitrogen sources. The majority of strains grew in media with pH values between 6 and 8. Only one strain isolated from L. angustifolius was able to grow at low pH values, whereas fourteen strains nodulating L. albus grew at pH 5. No strain developed at 40 °C, and eighteen strains grew at NaCl concentrations as high as 855 mM. A total of 17 strains solubilized phosphates, whereas 20 produced siderophores and seven produced IAA. Only three strains, Lalb41, Lang10 and Lang16, possessed all three plant growth promoting activities. The strains were grouped into eight genetic groups by rep-PCR. Analysis of the 16S rRNA sequences of eight strains representing the different groups showed that they were members of the genus Bradyrhizobium. The sequencing of the five housekeeping genes atpD, glnII, dnaK, gyrB and recA, from the eight representative strains, and the phylogenetic analysis of their concatenated sequences, showed that both plants were nodulated by different Bradyrhizobium species. Accordingly, two strains, Lalb41 and Lalb5.2, belonged to B. lupini, whereas two strains, Lalb2 and Lang17.2, were affiliated to B. cytisi, and one strain, Lang2, was close to B. canariense. The fourth group of strains, Lalb25, Lang14.3 and Lang8.3, which had similarity values of less than 96% with their closest named species, B. cytisi, may belong to two new genospecies in the genus Bradyrhizobium. All the strains nodulated Lupinus cosentinii, L. luteus, Retama sphaerocarpa, R. monosperma, Chamaecytisus albus, but not Vachellia gummifera, Phaseolus vulgaris or Glycine max. The nodA, nodC and nifH sequence analyses and their phylogeny confirmed that the strains isolated from the two lupines were members of the symbiovar genistearum.     

The Hemolytic Enterotoxin HBL Is Broadly Distributed among Species of the Bacillus cereus Group

The prevalence of the hemolytic enterotoxin complex HBL was determined in all species of the Bacillus cereus group with the exception of Bacillus anthracis. hblA, encoding the binding subunit B, was detected by PCR and Southern analysis and was confirmed by partial sequencing of 18 strains. The sequences formed two clusters, one including B. cereus and Bacillus thuringiensis strains and the other one consisting of Bacillus mycoides, Bacillus pseudomycoides, and Bacillus weihenstephanensis strains. From eight B. thuringiensis strains, the enterotoxin gene hblA could be amplified. Seven of them also expressed the complete HBL complex as determined with specific antibodies against the L₁, L₂, and B components. Eleven of 16 B. mycoides strains, all 3 B. pseudomyoides strains, 9 of 15 B. weihenstephanensis strains, and 10 of 23 B. cereus strains carried hblA. While HBL was not expressed in the B. pseudomycoides strains, the molecular assays were in accordance with the immunological assays for the majority of the remaining strains. In summary, the hemolytic enterotoxin HBL seems to be broadly distributed among strains of the B. cereus group and relates neither to a certain species nor to a specific environment. The consequences of this finding for food safety considerations need to be evaluated.     

Changes in Rumen Microbial Community Composition during Adaption to an In Vitro System and the Impact of Different Forages

This study examined ruminal microbial community composition alterations during initial adaption to and following incubation in a rumen simulation system (Rusitec) using grass or corn silage as substrates. Samples were collected from fermenter liquids at 0, 2, 4, 12, 24, and 48 h and from feed residues at 0, 24, and 48 h after initiation of incubation (period 1) and on day 13 (period 2). Microbial DNA was extracted and real-time qPCR was used to quantify differences in the abundance of protozoa, methanogens, total bacteria, Fibrobacter succinogenes, Ruminococcus albus, Ruminobacter amylophilus, Prevotella bryantii, Selenomonas ruminantium, and Clostridium aminophilum. We found that forage source and sampling time significantly influenced the ruminal microbial community. The gene copy numbers of most microbial species (except C. aminophilum) decreased in period 1; however, adaption continued through period 2 for several species. The addition of fresh substrate in period 2 led to increasing copy numbers of all microbial species during the first 2–4 h in the fermenter liquid except protozoa, which showed a postprandial decrease. Corn silage enhanced the growth of R. amylophilus and F. succinogenes, and grass silage enhanced R. albus, P. bryantii, and C. aminophilum. No effect of forage source was detected on total bacteria, protozoa, S. ruminantium, or methanogens or on total gas production, although grass silage enhanced methane production. This study showed that the Rusitec provides a stable system after an adaption phase that should last longer than 48 h, and that the forage source influenced several microbial species.     

Role of Achromobacter xylosoxidans AUM54 in Micropropagation of Endangered Medicinal Plant Naravelia zeylanica (L.) DC

This study was carried out to evaluate the inoculation effects of Achromobacter xylosoxidans AUM54 and Indole-3-butyric acid (IBA) on the growth of the medicinal plant Naravelia zeylanica (L.) DC under micropropagation conditions. Results revealed that the micropropagated shoots treated with the combination of endophytic bacterium and IBA promoted shoot growth, root length, number of roots, chlorophyll content, nitrogen content, antioxidant enzymes, and stress tolerance compared with the control plants. A significant increase in shoot fresh and dry weights (64.65 and 8.85 %), root fresh and dry weights (61.65 and 3.91 %), shoot length (30.17 %), root length (28.57 %) and number of roots (276.9 %) was observed in treated plants over controls. Total chlorophyll and nitrogen content of bacterized plants also treated with IBA showed a 48.39 and 116.66 % increase, respectively, compared with controls. A significant increase in peroxidase (22.52 %) and superoxide dismutase levels (48.38 %) and fewer changes in the polyphenol oxidase level were observed in plants treated with A. xylosoxidans AUM54 and IBA. Moreover, stress ethylene levels were reduced by 21.4 and 14.5 % due to bacterization with A. xylosoxidans AUM54 and IBA treatment during postacclimatization and acclimatization stages, respectively. The shoot primordial with application of A. xylosoxidans AUM54 and IBA (1 mg l^?1) had increased survivability of N. zeylanica plants by 30 % during the acclimatization stage under greenhouse conditions. From the present study it could be inferred that the association of endophytic bacterium A. xylosoxidans AUM54 and IBA with in vitro shoots of N. zeylanica improved root initiation, promoted plant growth and development under micropropagation conditions, reduced stress ethylene levels, and increased survivability during the postacclimatization stage. Therefore, A. xylosoxidans AUM54 along with IBA treatment can be used as a valuable tool for micropropagation of N. zeylanica and other endangered plants.     

Novel multispecies microbial consortia involved in lignocellulose and 5-hydroxymethylfurfural bioconversion

To develop a targeted metagenomics approach for the analysis of novel multispecies microbial consortia involved in the bioconversion of lignocellulose and furanic compounds, we applied replicated sequential batch aerobic enrichment cultures with either pretreated or untreated wheat straw as the sources of carbon and energy. After each transfer, exponential growth of bacteria was detected using microscopic cell counts, indicating that the substrate was being utilized. In batch, the final bacterial abundances increased from an estimated 5 to 8.7–9.5 log 16S rRNA gene copy numbers/ml. The abundances of fungal propagules showed greater variation, i.e., between 5.4 and 8.0 log ITS1 copies/ml. Denaturing gradient gel electrophoresis analyses showed that the bacterial consortia in both treatments reached approximate structural stability after six transfers. Moreover, the structures of the fungal communities were strongly influenced by substrate treatment. A total of 124 bacterial strains were isolated from the two types of enrichment cultures. The most abundant strains were affiliated with the genera Raoultella/Klebsiella, Kluyvera, Citrobacter, Enterobacter, Pseudomonas, Acinetobacter, Flavobacterium and Arthrobacter. Totals of 43 and 11 strains obtained from the untreated and pretreated substrates, respectively, showed (hemi)cellulolytic activity (CMC-ase and xylanase), whereas 96 strains were capable of growth in 7.5 mM 5-hydroxymethylfurfural. About 50 % of the latter showed extracellular oxidoreductase activity as detected by a novel iodide oxidation method. Also, (hemi)cellulolytic fungal strains related to Coniochaeta, Plectosphaerella and Penicillium were isolated. One Trichosporon strain was isolated from pretreated wheat straw. The two novel bacterial–fungal consortia are starting points for lignocellulose degradation applications.     

Study of the Ecology of Fresh Sausages and Characterization of Populations of Lactic Acid Bacteria by Molecular Methods

In this study, a polyphasic approach was used to study the ecology of fresh sausages and to characterize populations of lactic acid bacteria (LAB). The microbial profile of fresh sausages was monitored from the production day to the 10th day of storage at 4°C. Samples were collected on days 0, 3, 6, and 10, and culture-dependent and -independent methods of detection and identification were applied. Traditional plating and isolation of LAB strains, which were subsequently identified by molecular methods, and the application of PCR-denaturing gradient gel electrophoresis (DGGE) to DNA and RNA extracted directly from the fresh sausage samples allowed the study in detail of the changes in the bacterial and yeast populations during storage. Brochothrix thermosphacta and Lactobacillus sakei were the main populations present. In particular, B. thermosphacta was present throughout the process, as determined by both DNA and RNA analysis. Other bacterial species, mainly Staphylococcus xylosus, Leuconostoc mesenteroides, and L. curvatus, were detected by DGGE. Moreover, an uncultured bacterium and an uncultured Staphylococcus sp. were present, too. LAB strains isolated at day 0 were identified as Lactococcus lactis subsp. lactis, L. casei, and Enterococcus casseliflavus, and on day 3 a strain of Leuconostoc mesenteroides was identified. The remaining strains isolated belonged to L. sakei. Concerning the yeast ecology, only Debaryomyces hansenii was established in the fresh sausages. Capronia mansonii was initially present, but it was not detected after the first 3 days. At last, L. sakei isolates were characterized by randomly amplified polymorphic DNA PCR and repetitive DNA element PCR. The results obtained underlined how different populations took over at different steps of the process. This is believed to be the result of the selection of the particular population, possibly due to the low storage temperature employed.     

Phylogenetic diversity of Bradyrhizobium strains isolated from root nodules of Lupinus angustifolius grown wild in the North East of Algeria

From a total of 80 bacterial strains isolated from root nodules of Lupinus angustifolius grown wild in the North-Eastern Algerian region of El Tarf, 64 plant host-nodulating strains clustered into 17 random amplified polymorphic DNA (RAPD) fingerprinting groups. The nearly complete 16S rRNA gene sequence from the representative strain of each group revealed they were closely related to members of the genus Bradyrhizobium of the Alphaproteobacteria, but their affiliation at the species level was not clear. Sequencing of the housekeeping genes glnII and recA, and their concatenated phylogenetic analysis, showed that 12 strains belong to B. lupini, other 2 strains affiliated with B. diazoefficiens and that 1 strain was closely related to B. japonicum. The remaining two strains showed similarity values ≤95% with B. cytisi and could represent new lineages within the genus Bradyrhizobium. Sequencing of the symbiotic nodC gene from 4 selected bradyrhizobial strains showed they were all similar to those of the species included in symbiovar genistearum.     

Screening and characterization of antifungal clusterbean (Cyamopsis tetragonoloba) rhizobacteria

About 377 guar (Cyamopsis tetragonoloba) rhizobacteria were isolated from cultivated soils of north-west India (Thar Desert) and their antifungal activity against Macrophomina phaseolina (strains of groundnut, mungbean and guar) and Fusarium oxysporum (strains of chickpea and cumin) was examined. Isolates were characterised for generic types and physiological/functional diversity. About 19% isolates representing 24% locations were inhibitory to fungal growth. Isolates 009071, 009073, 009078 and 102354 recorded maximum inhibition of pathogenic fungi on plates. Isolate 034206 gave highest %RI, 009073 showed maximum protease activity and 102354 gave highest salt tolerance. Net house and field screening results revealed that isolates 004052, 009071, 009073, 001001, 094340 and 102354 had potential for biocontrol of disease. Partial sequencing of 16S rRNA gene of 61 isolates showed that 85% of isolates belonged to genus Bacillus. Phylogenetically, however, there were four clusters in the Bacillus group comprising of Bacillus subtilis, B. cereus, B. pumilus and B. sphaericus. One isolate was identified as B. flexus, while six isolates were Bacillus spp. Four isolates were identified as Achromobacter xylosoxidans, two as Bacterium (unclassified bacteria), and one each as Ochrobactrum intermedium, Pseudomonas aeruginosa and Ralstonia sp.     

Composition of epicuticular wax layer of two species of Mandevilla (Apocynoideae,Apocynaceae) from Rio de Janeiro,Brazil

The chemical composition of epicuticular waxes of Mandevilla guanabarica and Mandevilla moricandiana was comparatively analyzed by extraction in n-hexane and chloroform. The mean wax content per unit of leaf area in the n-hexane extract was about 13–30 μg cm⁻² for M. guanabarica, containing 20–28% n-alkanes and 55–63% triterpenes; for M. mori-candiana, the mean content was 19 μg cm⁻², containing 73% n-alkanes and 14% triterpenes. In the chloroform extract, the wax yield was 40–80 μg cm⁻² for M. guanabarica, with about 9–11% n-alkanes and 75–82% triterpenes; while for M. moricandiana, the wax yield was 110 μg cm⁻², with 52% n-alkanes and 14% triterpenes. The major compounds identified were lupeol, pentacyclic triterpenes of the α- and β-amyrin class, and n-alkanes such as nonacosane, hentriacontane and tritriacontane. These results indicate that the quantitative chemical profiles of epicuticular waxes of M. guanabarica and M. moricandiana are distinct and could be used as an additional feature in taxonomic identification.     

Development of an immunochromatographic assay for diagnosing the production of IMP-type metallo-β-lactamases that mediate carbapenem resistance in Pseudomonas

Rapid and reliable detection of carbapenem-resistant bacteria is an important infection-control measure and a crucial aspect of antimicrobial chemotherapy. IMP-type metallo-β-lactamase (MBL) is an emzyme that mediate carbapenem resistance in bacteria. Here, an immunochromatographic assay was newly developed using novel monoclonal antibodies (mAbs) recognizing IMP-type MBL. Epitope mapping of mAbs and mutational analysis of the epitope region in IMP antigen suggested that the mAbs could react to all known subtypes of IMP-type MBL. Evaluation of the assay using Pseudomonas aeruginosa strains (n = 248) showed that the results of the immunochromatographic detection of the IMP-type MBLs were fully consistent with those of the PCR analysis for bla_IMP genes, showing false positives and negatives. All positive strains were resistant to carbapenem (MIC ≥ 16 μg/ml). The assay also accurately distinguished the production of IMP-type MBLs in Pseudomonas putida, Acinetobacter baumannii, and Alcaligenes xylosoxidans. The detection limit of the assay was 5.7 × 10⁴ cfu per test. Taken together, these data suggest that the developed assay can be used for rapid and reliable diagnosis of the production of IMP-type MBLs in Gram-negative bacteria.     

Community structure and PAH ring-hydroxylating dioxygenase genes of a marine pyrene-degrading microbial consortium

Marine microbial consortium UBF, enriched from a beach polluted by the Prestige oil spill and highly efficient in degrading this heavy fuel, was subcultured in pyrene minimal medium. The pyrene-degrading subpopulation (UBF-Py) mineralized 31 % of pyrene without accumulation of partially oxidized intermediates indicating the cooperation of different microbial components in substrate mineralization. The microbial community composition was characterized by culture dependent and PCR based methods (PCR-DGGE and clone libraries). Molecular analyses showed a highly stable community composed by Alphaproteobacteria (84 %, Breoghania, Thalassospira, Paracoccus, and Martelella) and Actinobacteria (16 %, Gordonia). The members of Thalasosspira and Gordonia were not recovered as pure cultures, but five additional strains, not detected in the molecular analysis, that classified within the genera Novosphingobium, Sphingopyxis, Aurantimonas (Alphaproteobacteria), Alcanivorax (Gammaproteobacteria) and Micrococcus (Actinobacteria), were isolated. None of the isolates degraded pyrene or other PAHs in pure culture. PCR amplification of Gram-positive and Gram-negative dioxygenase genes did not produce results with any of the cultured strains. However, sequences related to the NidA3 pyrene dioxygenase present in mycobacterial strains were detected in UBF-Py consortium, suggesting the representative of Gordonia as the key pyrene degrader, which is consistent with a preeminent role of actinobacteria in pyrene removal in coastal environments affected by marine oil spills.     

Distribution of Genes Encoding Putative Virulence Factors and Fragment Length Polymorphisms in the vrrA Gene among Brazilian Isolates of Bacillus cereus and Bacillus thuringiensis

One hundred twenty-one strains of the Bacillus cereus complex, of which 80 were isolated from a variety of sources in Brazil, were screened by PCR for the presence of sequences (bceT, hblA, nheBC, plc, sph, and vip3A) encoding putative virulence factors and for polymorphisms in variable-number tandem repeats (VNTR), using a variable region of the vrrA open reading frame as the target. Amplicons were generated from isolates of B. cereus and Bacillus thuringiensis for each of the sequences encoding factors suggested to play a role in infections of mammals. Intriguingly, the majority of these sequences were detected more frequently in Bacillus thuringiensis than in B. cereus. The vip3A sequence, which encodes an insecticidal toxin, was detected exclusively in B. thuringiensis. VNTR analysis demonstrated the presence of five different fragment length categories in both species, with two of these being widely distributed throughout both taxa. In common with data generated from previous studies examining European, Asian, or North American populations, our investigation of Brazilian isolates supports the notion that B. cereus and B. thuringiensis should be considered to represent a single species.