Distribution of pathogenicity island markers and virulence factors in new phylogenetic groups of uropathogenic <Emphasis Type="Italic">Escherichia coli</Emphasis> isolates

The present study was aimed at investigating the relationship between the new Clermont’s phylogenetic groups, virulence factors, and pathogenicity island markers (PAIs) among uropathogenic Escherichia coli (UPEC) in Iran. This cross-sectional study was carried out on 140 UPEC isolates collected from patients with urinary tract infections in Bushehr, Iran. All isolates were subjected to phylogenetic typing using a new quadruplex-PCR method. The presence of PAI markers and virulence factors in UPEC strains was evaluated by multiplex PCR. The most predominant virulence gene was fimH (85%), followed by iucC (61.4%), papC (38.6%), hlyA (22.1%), cnf-1 (18.6%), afa (10.7%), papG and neuC (each 9.3%), ibeA (3.6%), and sfa/foc (0.7%). The most common phylogenetic group was related to B2 (39.3%), and the least common to A (0.7%). The most prevalent PAI marker was PAI IV536 (77.14%), while markers for PAI III536 (13.57%), PAI IIJ96 (12.86%), and PAI II536 (12.14%) were the least frequent among the UPEC strains. Meanwhile, the PAI IJ96 marker was not detected. There was a significant association between the phylogenetic group B2 and all the studied virulence genes and PAI markers. To our knowledge, this is the first study to compare the relationship between new phylogenetic groups, virulence genes and PAI markers in UPEC strains in Iran. The phylogenetic group B2 was predominantly represented among the studied virulence genes and PAI markers, indicating the preference of particular strains to carry virulence genes.     

Diversity analysis and characterization of Coleoptera-, Hemiptera- and Nematode-active cry genes in native isolates of Bacillus thuringiensis

Applications to combat non-lepidopteran insects are not as common as applications against lepidopteran insects. The aim of the present work was to isolate and identify Bacillus thuringiensis isolates from soil samples using five approaches, viz., analysis of crystal protein production by microscopy; detection of cry gene content by PCR, SDS-PAGE profiling; cloning and sequencing; phylogenetic analysis; and toxicity testing. Two hundred soil samples were used for isolation of B. thuringiensis and a total of 69 putative isolates of B. thuringiensis that produce parasporal crystalline inclusions were isolated from 5,267 Bacillus-like colonies. A bipyramidal inclusion was predominant in 32.2 % of the B. thuringiensis isolates compared to other shapes. Crystal protein profiling of B. thuringiensis isolates by SDS-PAGE analysis showed the presence of bands of 130, 73, 34, 25 and 13 kDa, among which 50–60 kDa bands were present abundantly. PCR analysis revealed the predominance of Coleopteran-active cry genes in these isolates. Variation in nucleotide sequences, crystal morphology and mass of crystal protein(s) purified from the isolates of B. thuringiensis revealed genetic and molecular diversity. Four strains containing Coleopteran-active cry genes showed higher toxicity against Myllocerus undecimpustulatus undatus Marshall (Coleoptera: Curculionidae) adults when compared with B. thuringiensis subsp. morrisoni pathovar tenebrionis. These results are useful in emphasizing the distribution of cry genes and for prognostication of toxicity, and may contribute to the identification of novel candidate genes for bioengineered crop protection.     

Profile and multidrug resistance determinants of Chryseobacterium indologenes from seawater and marine fauna

The aim of this study was to investigate the prevalence and genetic basis of multidrug resistance in Chryseobacterium indologenes from seawater and marine invertebrates used for human consumption, in Ka?tela Bay, Adriatic Sea, Croatia. Out of 16 samples of seawater, Mediterranean mussel (Mytilus galloprovincialis Lam.), Rayed Mediterranean limpets (Patella caerulea L.) and Purple sea urchins (Paracentrotus lividus Lam.) collected, 15 were positive for C. indologenes. In total, 41 isolates were randomly selected and tested for antibiotic susceptibility by disc-diffusion and broth microdilution methods. PCR was used to detect alleles encoding extended-spectrum (ESBLs) and metallo-β-lactamases (MBLs). The clonality of β-lactamase-producing strains was evaluated by random amplified polymorphic DNA (RAPD) analysis. All C. indologenes isolates showed multiple resistance to at least 9 out of 16 antibiotics tested. Lowest resistance rates were found for piperacillin (9.7 %) and ciprofloxacin (24.4 %), whereas only piperacillin/tazobactam and trimethoprim/sulfamethoxazole showed 100 % activity. More than half of isolates carried bla _IND-type gene, including 2 isolates carrying bla _IND-2 and 21 carrying bla _IND-7, that was identified as a major MBL genotype in isolates from Adriatic Sea. RAPD typing of IND-producing isolates revealed 6 major groups with no predominant clone in population. The presence of multidrug resistant and IND-producing C. indologenes in marine environment, including marine fauna, pose a risk for transmitting this opportunistic pathogen to humans through recreation or consummation of seafood. In addition, the antibiotic susceptibility test results have practical relevance for empirical treatment of C. indologenes infections.     

Multiresistance of Staphylococcus xylosus and Staphylococcus equorum from Slovak Bryndza cheese

Staphylococcus xylosus, Staphylococcus equorum, and Staphylococcus epidermidis strains were isolated from Bryndza cheese and identified using PCR method. The antimicrobial susceptibility of these strains was assessed using disc diffusion method and broth microdilution method. The highest percentage of resistance was detected for ampicillin and oxacillin, and in contrary, isolates were susceptible or intermediate resistant to ciprofloxacin and chloramphenicol. Fourteen of the S. xylosus isolates (45 %) and eleven of the S. equorum isolates (41 %) exhibited multidrug resistance. None of the S. epidermidis isolate was multiresistant. The phenotypic resistance to oxacillin was verified by PCR amplification of the gene mecA.     

Genotypes and Pathogenicity of Cellulitis Isolates Reveal Traits That Modulate APEC Virulence

We characterized 144 Escherichia coli isolates from severe cellulitis lesions in broiler chickens from South Brazil. Analysis of susceptibility to 15 antimicrobials revealed frequencies of resistance of less than 30% for most antimicrobials except tetracycline (70%) and sulphonamides (60%). The genotyping of 34 virulence-associated genes revealed that all the isolates harbored virulence factors related to adhesion, iron acquisition and serum resistance, which are characteristic of the avian pathogenic E. coli (APEC) pathotype. ColV plasmid-associated genes (cvi/cva, iroN, iss, iucD, sitD, traT, tsh) were especially frequent among the isolates (from 66.6% to 89.6%). According to the Clermont method of ECOR phylogenetic typing, isolates belonged to group D (47.2%), to group A (27.8%), to group B2 (17.4%) and to group B1 (7.6%); the group B2 isolates contained the highest number of virulence-associated genes. Clonal relationship analysis using the ARDRA method revealed a similarity level of 57% or higher among isolates, but no endemic clone. The virulence of the isolates was confirmed in vivo in one-day-old chicks. Most isolates (72.9%) killed all infected chicks within 7 days, and 65 isolates (38.1%) killed most of them within 24 hours. In order to analyze differences in virulence among the APEC isolates, we created a pathogenicity score by combining the times of death with the clinical symptoms noted. By looking for significant associations between the presence of virulence-associated genes and the pathogenicity score, we found that the presence of genes for invasins ibeA and gimB and for group II capsule KpsMTII increased virulence, while the presence of pic decreased virulence. The fact that ibeA, gimB and KpsMTII are characteristic of neonatal meningitis E. coli (NMEC) suggests that genes of NMEC in APEC increase virulence of strains.     

Antifungal Resistance and Virulence Among <Emphasis Type="Italic">Candida</Emphasis> spp. from Captive <Emphasis Type="Italic">Amazonian manatees</Emphasis> and West Indian Manatees: Potential Impacts on Animal and Environmental Health

This work aimed at evaluating the antifungal susceptibility and production of virulence factors by Candida spp. isolated from sirenians in Brazil. The isolates (n = 105) were recovered from the natural cavities of Amazonian and West Indian manatees and were tested for the susceptibility to amphotericin B, itraconazole, and fluconazole and for the production of phospholipases, proteases, and biofilm. The minimum inhibitory concentrations (MICs) for amphotericin B ranged from 0.03 to 1 µg/mL, and no resistant isolates were detected. Itraconazole and fluconazole MICs ranged from 0.03 to 16 µg/mL and from 0.125 to 64 µg/mL, respectively, and 35.2% (37/105) of the isolates were resistant to at least one of these azole drugs. Concerning the production of virulence factors, phospholipase activity was observed in 67.6% (71/105) of the isolates, while protease activity and biofilm production were detected in 50.5% (53/105) and 32.4% (34/105) of the isolates, respectively. Since the natural cavities of manatees are colonized by resistant and virulent strains of Candida spp., these animals can act as sources of resistance and virulence genes for the environment, conspecifics and other animal species, demonstrating the potential environmental impacts associated with their release back into their natural habitat.     

Prevalence of ESBL and MBL encoding genes in Acinetobacter baumannii strains isolated from patients of intensive care units (ICU)

The aim of this study was to investigate the prevalence of ESBL and MBL encoding genes among A. baumannii isolates. In this cross sectional study, 100 A. baumannii strains were isolated from ICU wards of 3 educational hospitals of Hamadan City, Iran in 2011. Phenotypic identification of the production of ESBLs and MBLs has been carried out by using E-test and DDST methods, respectively. PCR technique was used for amplification of the ESBL and MBL encoding genes, namely: CTX-M, SHV, TEM, OXA-51, VIM-Family, IMP-Family, SPM-1, SIM-1, and GIM-1. Eighty seven (87%), 95 (95%), 98 (98%) and 95 (95%) out of 100 A. baumannii isolates were resistant to imipenem, meropenem, ceftazidime and cefotaxime, respectively. Also, 99% and 7% of the isolates were MBLs and ESBLs produced phenotypically. Thirty (30%), 20 (20%) and 58 (58%) out of 100 A. baumannii isolates have been confirmed to harbor the bla_VIM-family, TEM and SHV genes, respectively. Our results show no significant relationship between the detected gens with production of MBLs and ESBLs in spite of high prevalence of MBL encoding and drug resistant A. baumannii. Probably some other genes rather than what we studied are involved in phenotypic production of MBLs and ESBLs and subsequent drug resistance in Hamadan area, Iran.     

Detection of diarrhoeagenic Escherichia coli in clinical and environmental water sources in South Africa using single-step 11-gene m-PCR

Escherichia coli (E. coli) consists of commensal (ComEC) and diarrhoeagenic (DEC) groups. ComEC are detected using traditional culture methods. Conformational steps are performed after culturing if it is required to test for the presence of DEC, increasing cost and time in obtaining the results. The aim of this study was to develop a single-step multiplex polymerase chain reaction (m-PCR) that can simultaneously amplify genes associated with DEC and ComEC, with the inclusion of controls to monitor inhibition. A total of 701 samples, taken from clinical and environmental water sources in South Africa, were analysed with the optimised m-PCR which targeted the eaeA, stx1, stx2, lt, st, ial, eagg, astA and bfp virulence genes. The mdh and gapdh genes were included as an internal and external control, respectively. The presence of the external control gapdh gene in all samples excluded any possible PCR inhibition. The internal control mdh gene was detected in 100 % of the environmental and 85 % of the clinical isolates, confirming the classification of isolates as E. coli PCR positive samples. All DEC types were detected in varying degrees from the mdh positive environmental and clinical isolates. Important gene code combinations were detected for clinical isolates of 0.4 % lt and eagg. However, 2.3 % of eaeA and ial, and 8.7 % of eaeA and eagg were reported for environmental water samples. The E. coli astA toxin was detected as positive at 35 and 17 % in environmental isolates and clinical isolates, respectively. Interestingly, 25 % of the E. coli astA toxin detected in environmental isolates and 17 % in clinical isolates did not contain any of the other virulence genes tested. In conclusion, the optimised single-step 11-gene m-PCR reactions could be successfully used for the identification of pathogenic and non-pathogenic E. coli types. The m-PCR was also successful in showing monitoring for PCR inhibition to ensure correct reporting of the results.     

Antibiotic Resistance Profiles and Quorum Sensing-Dependent Virulence Factors in Clinical Isolates of Pseudomonas Aeruginosa

Pseudomonas aeruginosa produces multiple virulence factors that have been associated with quorum sensing. The aim of this study was to evaluate the prevalence of drug resistant profiles and quorum sensing related virulence factors. Pseudomonas aeruginosa were collected from different patients hospitalized in China, the isolates were tested for their susceptibility to different common antimicrobial drugs and detected QS-related virulence factors. We identified 170 isolates displaying impaired phenotypic activity, approximately 80 % of the isolates were found to exhibit the QS-dependent phenotypes, among them, 12 isolates were defective in AHLs production, and therefore considered QS-deficient strains. Resistance was most often observed to Cefazolin (81.2 %), followed by trimethoprim—sulfamethoxazole (73.5 %), ceftriaxone (62.4 %) and Cefotaxime, Levofloxacin, Ciprofloxacin (58.8 %), and to a lesser extent Meropenem (20.0 %), Cefepime (18.8 %), and Cefoperazone/sulbactam (2.4 %) The QS-deficient isolates that were negative for virulence factor production were generally less susceptible to the antimicrobials. The results showed a high incidences of antibiotic resistance and virulence properties in P. aeruginosa, and indicate that the clinical use of QS-inhibitory drugs that appear superior to conventional antimicrobials by not exerting any selective pressure on resistant strains.     

Absence of Escherichia coli Phylogenetic Group B2 Strains in Humans and Domesticated Animals from Jeonnam Province,Republic of Korea

Multiplex PCR analyses of DNAs from genotypically unique Escherichia coli strains isolated from the feces of 138 humans and 376 domesticated animals from Jeonnam Province, South Korea, performed using primers specific for the chuA and yjaA genes and an unknown DNA fragment, TSPE4.C2, indicated that none of the strains belonged to E. coli phylogenetic group B2. In contrast, phylogenetic group B2 strains were detected in about 17% (8 of 48) of isolates from feces of 24 wild geese and in 3% (3 of 96) of isolates obtained from the Yeongsan River in Jeonnam Province, South Korea. The distribution of E. coli strains in phylogenetic groups A, B1, and D varied depending on the host examined, and there was no apparent seasonal variation in the distribution of strains in phylogenetic groups among the Yeongsan River isolates. The distribution of four virulence genes (eaeA, hlyA, stx₁, and stx₂) in isolates was also examined by using multiplex PCR. Virulence genes were detected in about 5% (38 of 707) of the total group of unique strains examined, with 24, 13, 13, and 9 strains containing hlyA, eaeA, stx₂, and stx₁, respectively. The virulence genes were most frequently present in phylogenetic group B1 strains isolated from beef cattle. Taken together, results of these studies indicate that E. coli strains in phylogenetic group B2 were rarely found in humans and domesticated animals in Jeonnam Province, South Korea, and that the majority of strains containing virulence genes belonged to phylogenetic group B1 and were isolated from beef cattle. Results of this study also suggest that the relationship between the presence and types of virulence genes and phylogenetic groupings may differ among geographically distinct E. coli populations.Escherichia coli is a normal inhabitant of the lower intestinal tract of warm-blooded animals and humans. While the majority of E. coli strains are commensals, some are known to be pathogenic, causing intestinal and extraintestinal diseases, such as diarrhea and urinary tract infections (42). Phylogenetic studies done using multilocus enzyme electrophoresis and 72 E. coli strains in the E. coli reference collection showed that E. coli strains can be divided into four phylogenetic groups (A, B1, B2, and D) (20, 41, 48). Recently, a potential fifth group (E) has also been proposed (11). Since multiplex PCR was developed for analysis of phylogenetic groups (6), a number of studies have analyzed a variety of E. coli strains for their phylogenetic group association (10, 12, 17, 18, 23, 54). Duriez et al. (10) reported the possible influence of geographic conditions, dietary factors, use of antibiotics, and/or host genetic factors on the distribution of phylogenetic groups among 168 commensal E. coli strains isolated from human stools from three geographically distinct populations in France, Croatia, and Mali. Random-amplified polymorphic DNA analysis of the intraspecies distribution of E. coli in pregnant women and neonates indicated that there was a correlation between the distribution of phylogenetic groups, random-amplified polymorphic DNA groups, and virulence factors (54). Moreover, based on comparisons of the distribution of E. coli phylogenetic groups among humans of different sexes and ages, it has been suggested that E. coli genotypes are likely influenced by morphological, physiological, and dietary differences (18). In addition, climate has also been proposed to influence the distribution of strains within E. coli phylogenetic groups (12). There are now several reports indicating that there is a potential relationship between E. coli phylogenetic groups, age, and disease. For example, E. coli isolates belonging to phylogenetic group B2 have been shown to predominate in infants with neonatal bacterial meningitis (27) and among urinary tract and rectal isolates (55). Also, Nowrouzian et al. (39) and Moreno et al. (37) reported that strains belonging to phylogenetic group B2 persisted among the intestinal microflora of infants and were more likely to cause clinical symptoms.Boyd and Hartl (2) reported that among the E. coli strains in the E. coli reference and the diarrheagenic E. coli collections, strains in phylogenetic group B2 carry the greatest number of virulence factors, followed by those in group D. Virulence factors carried by group B2 strains are thought to contribute to their strong colonizing capacity; a greater number of virulence genes have been detected in resident strains than in transient ones (38). Moreover, a mouse model of extraintestinal virulence showed that phylogenetic group B2 strains killed mice at greater frequency and possessed more virulence determinants than strains in other phylogenetic groups, suggesting a link between phylogeny and virulence genes in E. coli extraintestinal infection (45). In contrast, Johnson and Kuskowski (25) suggested that a group B2 ancestral strain might have simply acquired virulence genes by chance and that these genes were vertically inherited by group members during clonal expansion. However, numerous studies published to date suggest that there is a relationship between the genomic background of phylogenetic group B2 and its association with virulence factors (12, 28, 35, 39, 45).Both enteropathogenic and enterohemorrhagic E. coli (EPEC and EHEC, respectively) strains are among the most important food-borne pathogens worldwide, often causing severe gastrointestinal disease and fatal infections (13). While EPEC strains cause diarrhea and generally do not produce enterotoxin, they possess an adherence factor which is controlled by the chromosomal gene eaeA, encoding intimin (8). Unlike the EPEC strains, however, the EHEC strains typically contain the hlyA, stx₁, and stx₂ virulence genes, encoding hemolysins and Shiga-like type 1 and 2 toxins, respectively, and eaeA. The ability to detect EHEC has been greatly facilitated by the use of multiplex PCR (13, 44, 53). Several studies have shown that strains producing Shiga-like toxin 2 are more frequently found in cases of hemolytic-uremic syndrome than are those containing Shiga-like toxin 1 (30, 43, 46, 49).In the study reported here, we examined the distribution of phylogenetic groups and the prevalence of virulence genes in 659 genotypically unique E. coli strains isolated from humans and domestic animals in South Korea. In addition, we also tested 48 and 96 nonunique E. coli isolates from wild geese and the Yeongsan River, respectively, for phylogenetic distribution and virulence gene profiles. Here, we report that contrary to what has been previously reported in other parts of the world, no E. coli strains belonging to phylogenetic group B2 were found in domesticated animals and in humans from Jeonnam Province, South Korea. We also report that among the strains we examined, virulence genes were mainly found in phylogenetic group B1 strains isolated from beef cattle. Results of these studies may prove to be useful for the development of risk management strategies to maintain public health.     

Diversity of species and antibiotic resistance in enterococci isolated from seafood in Tunisia

The purpose of this study was to analyse the antibiotic resistance and virulence of enterococci recovered from seafood and to characterise the associated genes. Forty-four enterococcal isolates [Enterococcus faecalis (21), E. faecium (11), E. casseliflavus (5), E. durans (3), E. hirae (2), E. gallinarum (1) and E. mundtii (1)] were recovered from 70 samples of seafood collected during March–May 2015 in Tunisia. Isolates were tested for antibiotic resistance to 12 antibiotics by the disc diffusion method. Rates of resistance in the range 25–45.5% were observed for pristinamycin, ciprofloxacin, streptomycin, tetracycline and erythromycin, and in the range 6.8–9.1% for kanamycin, gentamicin and chloramphenicol. However, all strains showed susceptibility to β-lactams and glycopeptides. Multi-resistance to at least three different classes of antibiotics was detected in 14 strains (31.8%). Among 12 tetracycline-resistant enterococci, tet(M) was detected in 11 isolates and tet(L) in seven isolates. The erm(B) gene was identified in 91% of erythromycin-resistant isolates. All chloramphenicol-resistant isolates carried the cat gene, and all kanamycin-resistant isolates harboured the aph(3)-IIIa gene. The aac(6′)-aph(2″) and ant(6)-Ia genes were detected in high-level gentamicin- and streptomycin-resistant isolates, respectively. The virulence genes gelE (29.5%), esp (9.1%), cylA and cylB (9.1%) were found in enterococci. This is the first study in Tunisia to underscore the importance of seafood as a reservoir of enterococci carrying resistance and virulence genes.     

A probable aculeacin A acylase from the Ralstonia solanacearum GMI1000 is N-acyl-homoserine lactone acylase with quorum-quenching activity

Background

Extraintestinal pathogenic Escherichia coli (ExPEC) strains of serotype O1:K1:H7/NM are frequently implicated in neonatal meningitis, urinary tract infections and septicemia in humans. They are also commonly isolated from colibacillosis in poultry. Studies to determine the similarities of ExPEC from different origins have indicated that avian strains potentially have zoonotic properties.

Results

A total of 59 ExPEC O1:K1:H7/NM isolates (21 from avian colibacillosis, 15 from human meningitis, and 23 from human urinary tract infection and septicemia) originated from four countries were characterized by phylogenetic PCR grouping, Multilocus Sequence Typing (MLST), Pulsed Field Gel Electrophoresis (PFGE) and genotyping based on several genes known for their association with ExPEC or avian pathogenic Escherichia coli (APEC) virulence. APEC and human ExPEC isolates differed significantly in their assignments to phylogenetic groups, being phylogroup B2 more prevalent among APEC than among human ExPEC (95% vs. 53%, P = 0.001), whereas phylogroup D was almost exclusively associated with human ExPEC (47% vs. 5%, P = 0.0000). Seven virulence genes showed significant differences, being fimAv _MT78 and sat genes linked to human isolates, while papGII, tsh, iron, cvaC and iss were significantly associated to APEC. By MLST, 39 of 40 ExPEC belonging to phylogroup B2, and 17 of 19 belonging to phylogroup D exhibited the Sequence Types (STs) ST95 and ST59, respectively. Additionally, two novel STs (ST1013 and ST1006) were established. Considering strains sharing the same ST, phylogenetic group, virulence genotype and PFGE cluster to belong to the same subclone, five subclones were detected; one of those grouped six strains of human and animal origin from two countries.

Conclusion

Present results reveal that the clonal group B2 O1:K1:H7/NM ST95, detected in strains of animal and human origin, recovered from different dates and geographic sources, provides evidence that some APEC isolates may act as potential pathogens for humans and, consequently, poultry as a foodborne source, suggesting no host specificity for this type of isolates. A novel and important finding has been the detection of the clonal group D O1:K1:H7/NM ST59 almost exclusively in humans, carrying pathogenic genes linked to the phylogenetic group D. This finding would suggest D O1:K1:H7/NM ST59 as a host specific pathotype for humans.     

Occurrence of virulence genes in multidrug-resistant Escherichia coli isolates from Iberian wolves (Canis lupus signatus) in Portugal

While much evidence supports the view that the total consumption of antimicrobials is the critical factor in selecting resistance, the possibility of resistant isolates and/or genes encoding resistance being transferred among different living communities has raised serious concerns. In the present study, Escherichia coli isolates recovered from faecal samples (n?=?34) of Iberian wolves (Canis lupus signatus) were characterized for their antimicrobial drug susceptibility. Nearly two thirds of the isolates carried resistance to one or more antimicrobial drugs (in a panel of 19 antibiotics), and resistance to tetracycline, ampicillin and streptomycin was most widespread. By screening a set of 20 multidrug-resistant E. coli for virulence genes, we found strains positive for cdt, chuA, cvaC, eaeA, paa and bfpA, which was the most common virulence trait. Phylogenetic analyses have shown that the majority of these E. coli strains fall into phylogenetic groups A and B1. In this study, the diversity of extended-spectrum β-lactamase-producing strains was expressed by both polymorphism of the pulsed-field gel electrophoresis patterns and the presence of various resistance and virulence genes profiles. Finding the specific implications of these multi-resistant bacteria (hosting several virulence factors) in wolf conservation is a challenging topic to be addressed in further investigations.     

Characterization of virulence factors and phylogenetic group determination of <Emphasis Type="Italic">Escherichia coli</Emphasis> isolated from diarrheic and non-diarrheic calves from Brazil

This study aimed to detect virulence factors, pathovars, and phylogenetic groups of Escherichia coli strains obtained from feces of calves with and without diarrhea up to 70 days old and to determine the association between occurrence of diarrhea, phylogenetic groups, and pathovars. Phylo-typing analysis of the 336 E. coli strains isolated from calves with Clermont method showed that 21 (6.25 %) belong to phylogroup A, 228 (67.85 %) to phylogroup B1, 2 (0.6 %) to phylogroup B2, 5 (1.49 %) to phylogroup C, 57 (16.96 %) to phylogroup E, and 3 (0.9 %) to phylogroup F. Phylogroup D was not identified and 20 strains (5.95 %) were assigned as “unknown.” The distribution of phylogenetic groups among pathovars showed that NTEC belong to phylogroups B1 (17) and C (4); EPEC to phylogroups B1 (6) and E (8); STEC to phylogroups A (5), B1 (56), B2 (2), C (1), and E (15); EHEC to phylogroups B1 (95) and E (5); and ETEC to phylogroups A (3), B1 (7), and E (10). The EAST-1 strains were phylogroups A (13), B1 (47), E (19), and F (3); E. coli strains of “unknown” phylogroups belonged to pathovars EPEC (1), EHEC (2), STEC (7), and EAST-1 strains (6). ETEC was associated with diarrhea (P = 0.002). Our study did not find association between the phylogenetic background and occurrence of diarrhea (P = 0.164) but did find some relationship in phylogenetic group and pathovar. The study showed that EHEC and STEC are classified as phylogroup B1, EAST-1 phylogroup A, ETEC, and EPEC phylogroup E.     

Genotypic characterization of methicillin-resistant Staphylococcus aureus strains isolated from the anterior nares and catheter of ambulatory hemodialysis patients in Mexico

Methicillin-resistant Staphylococcus aureus (MRSA) is the causal agent of multiple nosocomial infections worldwide, including catheter-associated bacteremia in hemodialysis patients. The purposes of this work were to genetically characterize a group of MRSA isolates from catheter-related infections of ambulatory Mexican hemodialysis patients and to determine whether the strains are the same as those carried by the patients in their anterior nares. Sixteen pairs of MRSA isolates from the catheter (cat) and anterior nares (N) of hemodialysis patients were compared using pulsed-field gel electrophoresis (PFGE), PCR detection of adhesion genes and other virulence markers, and an antibiogram. Three pairs of N/cat MRSA isolates (18.7 %) with identical resistograms also showed the same combination of PCR-detected markers and PFGE pattern; one additional pair showed only an identical electrophoretic PFGE pattern. Of the MRSA isolates, 75 % (n?=?24) were resistant to ≥7 antibiotics, 4 isolates were resistant to 11 antibiotics, and 7 isolates were resistant to the 12 antibiotics tested. The most frequent virulence marker combination found was spa, clfA, clfB, cna, bbp, ebps, map/eap, sdrC, sdrD, sdrE, ica, agr (65.6 %, n?=?21). The SCCmec alleles of the 32 MRSA isolates were IV (n?=?20), I (n?=?7), II (n?=?4), and V (n?=?1), and no SCCmec type III MRSA was found. The genotypic characterization of the MRSA isolates studied in this work will contribute to a better understanding of the virulence gene makeup of catheter-colonizing S. aureus strains and will help to lower the infection risk in these patients.     

Genetic diversity of indigenous rhizobial symbionts of the Lupinus mariae-josephae endemism from alkaline-limed soils within its area of distribution in Eastern Spain

The genomic diversity of a collection of 103 indigenous rhizobia isolates from Lupinus mariae-josephae (Lmj), a recently described Lupinus species endemic to alkaline-limed soils from a restricted habitat in Eastern Spain, was investigated by molecular methods. Isolates were obtained from soils of four geographic locations in the Valencia province that harbored the known Lmj plant populations. Using an M13 RAPD fingerprinting technique, 19 distinct RAPD profiles were identified. Phylogenetic analysis based on 16S rDNA and the housekeeping genes glnII, recA and atpD showed a high diversity of native Bradyrhizobium strains that were able to establish symbiosis with Lmj. All the strains grouped in a clade unrelated to strains of the B. canariense and B. japonicum lineages that establish symbioses with lupines in acid soils of the Mediterranean area. The phylogenetic tree based on concatenated glnII, recA and atpD gene sequences grouped the Lmj isolates in six different operational taxonomic units (OTUs) at the 93% similarity level. These OTUs were not associated to any specific geographical location, and their observed divergence predicted the existence of different Bradyrhizobium genomic species. In contrast, phylogenetic analysis of symbiotic genes based on nodC and nodA gene sequences, defined only two distinct clusters among the Lmj strains. These two Lmj nod gene types were largely distinct from nod genes of bradyrhizobia nodulating other Old World lupine species. The singularity and large diversity of these strains in such a small geographical area makes this an attractive system for studying the evolution and adaptation of the rhizobial symbiont to the plant host.     

A Novel Method of Identifying Mycobacterium tuberculosis Beijing Strains by Detecting SNPs in Rv0444c and Rv2629

A particular genotype of tuberculosis, named Beijing strain, is strongly associated with drug resistance and high virulence. Therefore, rapid prospective identification of Mycobacterium tuberculosis Beijing strains is very important for identifying and controlling tuberculosis of Beijing genotype. In the present study, we found that the co-mutation, A191C in Rv2629 and G243C in Rv0444c, is closely related to Beijing genotype. Gene Rv2629 and Rv0444c of 139 clinical isolates of M. tuberculosis were analyzed by PCR amplification and sequencing. Among 99 Beijing strains, 86 % (n = 85) isolates had the mutation G243C in Rv0444c and 92.93 % (n = 92) isolates had the mutation A191C in Rv2629. Among 40 non-Beijing isolates, only six isolates carried the mutation G243C in Rv0444c and eight isolates carried the mutation A191C in Rv2629. The co-mutation existed in 84.85 % (n = 84) of 99 clinical genome samples of W-Beijing strains and in only 12.5 % (n = 5) of the 40 non-Beijing strains, and the positive predictive value of 94.38 %, obtained in our experiment with a designed ratio of Beijing isolates, is similar to that in China at present. This result suggested that the detection method of the co-mutation, A191C in Rv2629 and G243C in Rv0444c, proposed in this study was a rapid, reliable, and sensitive one for identifying tuberculosis with Beijing genotype.     

Distribution of integron-associated trimethoprim–sulfamethoxazole resistance determinants among Escherichia coli from humans and food-producing animals

Aims: To compare the distribution of integrons and trimethoprim–sulfamethoxazole resistance genes among Escherichia coli isolates from humans and food‐producing animals. Methods and Results: A collection of 174 multidrug‐resistant E. coli isolates obtained from faecal samples of food‐producing animals (n = 64) and humans (n = 59), and patients with urinary tract infections (n = 51) in Hong Kong during 2002–2004 were studied. The strains were analysed for their phylogenetic groups, the presence of sul genes (sul1 and sul2), integrons (intl1 and intl2) and class 1 integron‐associated dfr cassette genes by PCR, restriction enzyme analysis and sequencing. Integrons were identified in 110 (63·2%) isolates. The prevalence of integrons was significantly different according to the specimen sources (animal faecal 84·4%, human faecal 67·8% and human urinary 31·4%) and phylogenetic groups (B1 80·8%, A 77·6%, D 54·1% and B2 11·5%). Faecal isolates (both human and animal) are more likely to belong to group A and B1. In contrast, most urinary isolates were either groups B2 and D. Among dfr containing isolates, dfrA1 and dfrA12 were almost exclusively found in strains of phylogenetic groups A and B1; and were present in animal and human faecal isolates. In contrast, dfrA17 was found in both faecal and urinary isolates and comprised strains from all phylogenetic groups. The sul1 and sul2 genes were equally prevalent among the isolates irrespective of the specimen source and phylogenetic group status. Pulsed‐field gel electrophoresis analysis of isolates with identical cassette genes showed that they were genetically diverse. Conclusions: More animal faecal isolates carry class 1 integrons than human faecal and human urinary isolates, and the distribution of phylogenetic groups is common across animal and human faecal isolates but different from human urinary isolates. Significance and Impact of the Study: Commensal isolates from food‐producing animals are an important reservoir for integrons carrying antibiotic resistance genes.     

Detection of plasmid-mediated quinolone resistance in clinical isolates of Enterobacteriaceae strains in Hamadan,West of Iran

Plasmid mediated quinolone resistance (PMQR) determinants have arisen as a significant concern in recent years. The aim of this study was screening of resistant-clinical isolates to fluoroquinolone antibiotics and detection of qnr and aac(6′)-Ib-cr genes.For this purpose we collected 100 fluoroquinolone-resistant Enterobacteriaceae which were from 3 hospitals in Hamadan, west provinces of Iran, between October 2012 and June 2013. The all samples were identified by biochemical tests and confirmed by PCR method. Antimicrobial susceptibility to 14 antimicrobial agents including levofloxacin and ciprofloxacin were determined by disk diffusion methods and ciprofloxacin MIC was obtained by broth microdilution method as Clinical Laboratory Standards Institute (CLSI) recommendations. The isolates were screened for the presence of qnrA, qnrB, qnrS and aac(6′)-Ib-cr genes using PCR assay. Among the screened isolates, 64 strains (64%) of Escherichia coli, 23 strains (23%) of Klebsiella pneumoniae, 13 strains (13%) of Proteus mirabilis were collected as quinolone-resistant isolates. out of 100 isolates, two (2%) were positive for qnrS, seventeen (17%) isolates were positive for qnrB and we did not find qnrA gene in any of the isolates. There were also 32 positive isolates for aac(6′)-Ib-cr determinant. We described the prevalence of qnr and aac(6′)-Ib-cr genes in fluoroquinolone-resistant Enterobacteriaceae in Hamadan city. The carriage rate of multidrug-resistant Enterobacteriaceae in healthy people in Hamadan City is extremely high. Moreover, genes encoding transferable quinolones, in particular aac(6′)-Ib-cr, are highly prevalent in these strains.     

Distribution of PLD and FagA,B, C and D genes in Corynebacterium pseudotuberculosis isolates from sheep and goats with caseus lymphadenitis

Caseous lymphadenits (CL) is a chronic and subclinical disease that affects goats and sheep and, consequently, causes economic losses, especially to small producers. The purpose of this study, through use of Polymerase Chain Reaction (PCR), was to verify the presence of virulence genes of phospholipase D (PLD), integral membrane protein (FagA), iron enterobactin transporter (FagB), ATP binding cytoplasmic membrane protein (FagC) and iron siderophore binding protein (FagD) in 168 isolates of C. pseudotuberculosis obtained from cases of caseous lymphadenitis in goats and sheep. FagA, FagB and PLD genes were detected in all 145 strains isolated from abscesses in superficial lymph nodes and in 23 strains isolated from viscera. The FagC gene was positive in 167 (99.40%) isolates. The FagD gene was detected in 160 (95.23%) isolates. All virulence factors analyzed were found more frequently among isolates collected in the viscera of animals with CL, indicating a multifactorial nature, as well as variations, in the invasive potential of C. pseudotuberculosis strains.