Evaluation of PCR Based on Gene <Emphasis Type="Italic">apxIVA</Emphasis> Associated with 16S rDNA Sequencing for the Identification of <Emphasis Type="Italic">Actinobacillus pleuropneumoniae</Emphasis> and Related Species

The pleuropneumonia caused by Actinobacillus pleuropneumoniae (App) is one the most important swine respiratory diseases. Biochemical and serological tests are widely applied for App diagnosis and characterization. However, in some isolates, conflicting results are found. The present work focus on the characterization of 29 isolates biochemically classified as A. pleuropneumoniae, collected from swine in herds with or without a clinical history of pleuropneumonia. Sixteen isolates were from healthy swine, initially classified as nonserotypable A. pleuropneumoniae; they displayed differences in the molecular characterization patterns of App (genes cpx and apxI, II, and III). Those bacteria that could not be serotyped were submitted to rDNA 16S sequencing. All 29 isolates were analyzed by PCR for the presence of the apxIVA gene. Thirteen isolates (45%) were confirmed to be A. pleuropneumoniae by PCR, nine being from diseased animals (31%) and four from healthy animals (14%) with conclusive serotyping. The rDNA 16S sequencing was used to classify the other 16 isolates in related species other than A. pleuropneumoniae, resulting in eleven A. minor, three A. porcinus, and two Pasteurella sp. Because of conflicting results between biochemical tests and rDNA 16S sequencing, the biochemical characterization was repeated, and the new results were in agreement with the rDNA 16S sequencing data. Biochemical characterization proved to be efficient for the majority of the A. pleuropneumoniae isolates. Nevertheless, conventional tests can render conflicting results, and other methodologies, such as amplification of A. pleuropneumoniae specific apxIVA gene and rDNA 16S sequencing, are very useful for improved classification. We also observed a great variety in rDNA 16S sequences from different A. minor isolates.     

Yeasts present during spontaneous fermentation of Lake Erie Chardonnay,Pinot Gris and Riesling

The composition of wine yeast populations, present during spontaneous fermentation of Chardonnay, Pinot Gris and Riesling from the Lake Erie Region was studied. A combination of biochemical and molecular techniques was used to identify non-Saccharomyces and Saccharomyces yeast isolates. The biochemical techniques included analysis of yeast isolates by sugar fermentation and carbon and nitrogen assimilation. Molecular techniques involved ribotyping of a highly variable segment in the 26S rRNA gene using DNA sequence analysis and restriction fragment length polymorphism of amplified DNA. The results show that of the non-Saccharomyces yeasts, several related species of Hanseniaspora, were the most abundant yeasts present during early stages of fermentation. Later in fermentation S. cerevisiae dominated, and based on biochemical analyses consisted of a heterogeneous group of genotypes. There were no major differences in yeast populations among the three types of juice analyzed. This revised version was published online in June 2006 with corrections to the Cover Date.     

Comparison of 16S rRNA sequencing with biochemical testing for species-level identification of clinical isolates of Neisseria spp.

We aimed to compare accuracy of genus and species level identification of Neisseria spp. using biochemical testing and 16S rRNA sequence analysis. These methods were evaluated using 85 Neisseria spp. clinical isolates initially identified to the genus level by conventional biochemical tests and API NH system (Bio-Mérieux^®). In 34 % (29/85), more than one possibility was given by 16S rRNA sequence analysis. In 6 % (5/85), one of the possibilities offered by 16S rRNA gene sequencing, agreed with the result given by biochemical testing. In 4 % (3/85), the same species was given by both methods. 16S rRNA gene sequencing results did not correlate well with biochemical tests.     

Novel Endophytes of Rice form a Taxonomically Distinct Subgroup of Serratia marcescens

Six endophytic strains isolated from surface-sterilized rice roots and stems of different rice varieties grown in the Philippines were characterized. They were analyzed by physiological and biochemical tests, SDS-PAGE of whole-cell protein patterns, DNA-DNA hybridization and 16S rDNA sequencing. SDS-PAGE of whole-cell patterns showed that the six isolates fell into two subgroups which were similar but not identical in protein patterns to S. marcescens. The phylogenetic analysis of 16S rDNA sequences of two representative strains IRBG 500 and IRBG 501 indicated that they were closely related to S. marcescens(more than 99% identity). Physiological and biochemical tests corroborated that the isolates were highly related to each other and to S. marcescens. In cluster analysis, all six isolates were clustered together at 93% similarity level and grouped closely with Serratia marcescens at 86% similarity level. DNA-DNA hybridization studies revealed that the isolates shared high similarity levels with S. marcescens(≥86% DNA-DNA binding), indicating they belong to the same species. However, the isolates differed in several biochemical characteristics from the type strain. They produce urease and utilize urea and L(+) sorbose as a substrate, which is different from all known Serratia reference strains. These results suggest that the six endophytic isolates represent a novel, non-pigmented subgroup of S. marcescens.     

Development and evaluation of a rapid identification test for candida albicans

Summary A new technique for the rapid identification ofC. albicans has been developed and evaluated. This yeast can be identified in one hour by the formation of germ tubes after inoculation in 1/2 ml of human or animal plasma, and commercial plasma substitutes.C. albicans also forms germ tubes within 2 to 4 hours after inoculation in human serum and incubation at 37° C.Filamentation ofC. albicans in these blood derivatives is a reliable method for the identification of this yeast. It is more rapid than the assimilation and fermentation sugar tests and chlamydospore formation.Assimilation and fermentation sugar tests are used to identify those isolates ofCandida that fail to produce filaments in plasma or serum.     

Molecular assessment of diversity among endophytic diazotrophs isolated from subtropical Indian sugarcane

Twenty-two endophytic bacterial isolates from the roots of sugarcane were compared morphologically, biochemically and genetically. Gram staining, colony pigment, texture and other cultural characteristics were taken for morphological characterization. Oxidation-fermentation tests for D-glucose and D-sucrose, production of acid and hydrogen from different carbon source, oxidase activity, antibiotic and drug resistance patterns were chosen as the biochemical and physiological criteria. Twelve random decamer primers were used to analyze and compare these isolates through RAPD among themselves as well as with known standard diazotrophic strains. The isolates were compared through dendrograms constructed on the basis of similarity patterns obtained from biochemical and RAPD analysis. The estimated diversity through RAPD analysis was more evident than the diversity on the basis of morphological and biochemical characters. Within Acetobacter group, the isolates showed substantial genetic diversity for future exploitation as PGPRs and diazotrophic associative endophytes.     

Biotyping,serotyping and genotyping of aeromonads from environmental and clinical samples

Pulsed-field gel electrophoresis (PFGE) and biochemical–serological assays were used to characterize environmental and clinical aeromonads. On the basis of their biochemical characteristics, 31 strains were assigned to one of the recognized groups or species within the Aeromonas genus and 11 different serogroups were detected. Low correlation between molecular and traditional typing methods was observed. The results obtained showed that the genomic analysis performed by PFGE can be a more effective means for distinguishing between Aeromonas isolates than conventional biochemical methods.     

Comparison of 16S rRNA sequencing with conventional and commercial phenotypic techniques for identification of enterococci from the marine environment

AIMS: To compare accuracy of genus and species level identification of presumptive enterococci isolates from the marine environment using conventional biochemical testing, four commercial identification systems and 16S rRNA sequence analysis. METHODS AND RESULTS: Ninety-seven environmental bacterial isolates identified as presumptive enterococci on mEI media were tested using conventional and Enterococcus genus screen biochemical tests, four commercial testing systems and 16S rRNA sequencing. Conventional and Enterococcus genus screen biochemical testing, 16S rRNA sequencing and two commercial test systems achieved an accuracy of > or = 94% for Enterococcus genus confirmation. Conventional biochemical testing and 16S rRNA sequencing achieved an accuracy of > or = 90% for species level identification. CONCLUSIONS: For confirmation of Enterococcus genus from mEI media, conventional or genus screen biochemical testing, 16S rRNA sequencing and the four commercial systems were correct 79-100% of the time. For speciation to an accuracy of 90% or better, either conventional biochemical testing or 16S rRNA sequencing is required. SIGNIFICANCE AND IMPACT OF THE STUDY: Accurate identification of presumptive environmental Enterococcus isolates to genus and species level is an integral part of laboratory quality assurance and further characterization of Enterococcus species from pollution incidents. This investigation determines the ability of six different methods to correctly identify environmental isolates.     

Detection of Methicillin-Resistant Staphylococcus aureus Using mecA/nuc Genes and Antibiotic Susceptibility Profile of Malaysian Clinical Isolates

The aim of this study is to compare methicillin-resistant Staphylococcus aureus (MRSA) detection methods and to generate antibiogram profile of S. aureus clinical isolates from two teaching hospitals in Malaysia including three reference isolates from American Type Culture Collection (ATCC). The mecA/nuc gene PCR amplification, spot inoculation test and oxacillin disc diffusion test were applied to compare its MRSA detection abilities. No disagreement between the three methods was observed. From 29 bacterial isolates (including the ATCC strains) tested, 19 isolates were confirmed as S. aureus with 14 isolates exhibiting multidrug-resistance. All isolates are still susceptible to vancomycin as indicated by the E-test result. Current biochemical tests are comparable with the molecular detection method for MRSA used in this study while multidrug-resistance traits are present in both MRSA and MSSA clinical isolates. Presently, mupirocin seems to be the best alternative for vancomycin against multidrug-resistant S. aureus infections in Malaysia. Susceptibility profile of 19 S. aureus isolates acquired from two teaching hospitals and ATCC towards 16 selected antibiotics was analyzed and an antibiogram was generated. Findings also indicated resistance against many of the available antibiotics and thus an urgent need to search for alternative antibiotics.     

Species-level identification of <Emphasis Type="Italic">Bacillus</Emphasis> strains isolates from marine sediments by conventional biochemical, 16S rRNA gene sequencing and inter-tRNA gene sequence lengths analysis

The aim of this study was to compare the ability of commonly used conventional biochemical tests, sequencing analysis of 16S rRNA genes and tDNA-intergenic spacer length polymorphism (tDNA-PCR) to identify species of the genus Bacillus recovered from marine sediments. While biochemical tests were not sufficiently sensitive to distinguish between the 23 marine strains analyzed, partial 16S rRNA gene sequences allowed a correct identification, clustering them into four species belonging to Bacillus licheniformis (n = 6), Bacillus cereus (n = 9), Bacillus subtilis (n = 7) and Bacillus pumilus (n = 1). The identification results obtained with 16S rRNA sequencing were validated by tDNA-PCR analysis of 23 marine isolates that were identified by the similarities of their fingerprints to those of reference strains. tDNA-PCR fingerprinting was as discriminatory as 16S rRNA sequencing analysis. Although it was not able to distinguish among the species of the B. cereus and B. subtilis groups, it should be considered a rapid and easy approach for the reliable identification of unknown Bacillus isolates or at least for the primary differentiation of Bacillus groups.     

Bacteriophage and serological methods for the identification of Pseudomonas phaseolicola (Burkh.) Dowson

Rapid phage and serological methods were compared with biochemical and bean-pod inoculation tests for the identification of Pseudomonas phaseolicola. Phages II P, 12 P and 48 P were highly specific and did not lyse any of forty-five other isolates from bean or the sixteen species of Pseudomonas tested. They were also, however, unable to lyse the rough colony forms of P. phaseolicola which were occasionally isolated. Phage 12 S lysed a wide range of Pseudomonas spp., including a proportion of P. phaseolicola isolates, the majority of which were race 2. Serological tests showed that the heat-labile antigen possessed by P. phaseolicola was common to twelve other species of plant pathogenic pseudomonads. The heat-stable antigen was more specific and was detected only in P. mors-prunorum and P. primulae, neither of which occurs on bean. The two races of P. phaseolicola were indistinguishable in serological tests. It was concluded that both phage and antiserum tests provide specific, rapid and easily applied methods for the routine identification of P. phaseolicola isolates from plant and seed material.     

广东中山地区气单胞菌环境株的分离、鉴定及系统发生关系

从广东省中山市的池塘水样、底泥、健康鱼、肠道及稻田土样中用Aeromonas的选择培养基分离到10株气单胞菌。通过生理生化测试、16S rDNA序列测定、与气单胞菌典型菌株的16S rDNA序列进行比对和聚类分析,对它们进行了鉴定,并研究了它们之间的系统发生关系。结果显示该地区环境中气单胞菌的优势种除A. hydrophila（HG1组）外, 还有A. caviae（HG4组）、A. jandaei(HG9组)和A. veronii(HG10组),其中后两种是国内新记录。这是国内首次对环境中气单胞菌多样性进行研究。     

Biochemical and Serological Characterization of Hydrogen Sulfide-Positive Variants of Escherichia coli

Over 200 H(2)S-positive, gram-negative rods have been characterized by standard biochemical and serological techniques. The results indicate that the isolates are H(2)S-positive variants of Escherichia coli. Comparison of the variants with biochemically typical E. coli suggests that they represent a rather limited subgroup within the species. The H(2)S-positive strains were more resistant to antibiotics than the typical strains; 54% of the H(2)S-positive isolates were resistant to three or more antibiotics compared with only 25% of the typical strains. Similar differences were also seen in the distribution of O and H antigens and in the results of certain biochemical tests.     

Comparison of the Biolog OmniLog Identification System and 16S ribosomal RNA gene sequencing for accuracy in identification of atypical bacteria of clinical origin

The Biolog OmniLog Identification System (Biolog) and the 16S ribosomal RNA (rRNA) gene sequencing methods were compared to conventional microbiological methods and evaluated for accuracy of bacterial identification. These methods were evaluated using 159 clinical isolates. Each isolate was initially identified by conventional biochemical tests and morphological characteristics and subsequently placed into one of seven categories: aerobic Actinomycetes, Bacillus, Coryneforms, fastidious Gram-negative rods (GNR), non-fermenting GNR, miscellaneous Gram-positive rods (GPR), and Vibrio/Aeromonas. After comparison to the conventional identification, the Biolog system and 16S rRNA gene sequence identifications were classified as follows: a) correct to the genus and species levels; b) correct to the genus level only; or c) neither (unacceptable) identification. Overall, 16S rRNA gene sequencing had the highest percent accuracy with 90.6% correct identifications, while the Biolog system identified 68.3% of the isolates correctly. For each category, 16S rRNA gene sequencing had a substantially higher percent accuracy compared to the conventional methods. It was determined that the Biolog system is deficient when identifying organisms in the fastidious GNR category (20.0%). The observed data suggest that 16S rRNA gene sequencing provides a more accurate identification of atypical bacteria than the Biolog system.     

Rapid identification of pseudomonas avellanae field isolates,causing hazelnut decline in central italy,by repetitive PCR genomic fingerprinting

Pseudomonas avellanae is the main cause of hazelnut (Corylus avellana L.) decline, the so called ‘moria’, in central Italy where it has already killed more than 30 000 trees. Its current identification is very long requiring biochemical, physiological and nutritional tests as well as pathogenicity tests and takes not less than 6 months for its completion. In the present study the reliability of the repetitive polymerase chain reaction (rep‐PCR) technique for a rapid and accurate identification of such a pathogen was compared with the traditional identification method. In order to assess the variability of the pathogen, REP, BOX and ERIC primer sets were used in preliminary work to generate genomic fingerprints of 60 P. avellanae reference strains previously isolated from different areas of hazelnut cultivation. ERIC primers yielded the most discriminative clustering of strains that were grouped according to their geographic origin. Sixty field isolates collected from hazelnut orchards of central Italy, planted with different cultivars, during the years 1996–98 were submitted to either the traditional identification methods or to rep‐PCR by using ERIC primers. The latter technique accurately identified all the isolates that were also identified by the traditional methods. Whole‐cell protein analysis by means of sodium dodecyl sulphate‐polyacrylamide gel electrophoresis confirmed this achievement. Rep‐PCR can be successfully adopted for the rapid and accurate identification of P. avellanae in central Italy and it constitutes a very useful tool for the sanitation of the area.     

Biochemical Characterization and Phylogenetic Analysis Based on 16S rRNA Sequences for V-Factor Dependent Members of <Emphasis Type="Italic">Pasteurellaceae</Emphasis> Derived from Laboratory Rats

Phylogenetic analysis based on 16S rRNA sequences with sequence data of some bacterial species of Pasteurellaceae related to rodents deposited in GenBank was performed along with biochemical characterization for the 20 strains of V-factor dependent members of Pasteurellaceae derived from laboratory rats to obtain basic information and to investigate the taxonomic positions. The results of biochemical tests for all strains were identical except for three tests, the ornithine decarboxylase test, and fermentation tests of D(+) mannose and D(+) xylose. The biochemical properties of 8 of 20 strains that showed negative results for the fermentation test of D(+) xylose agreed with those of Haemophilus parainfluenzae complex. By phylogenetic analysis, the strains were divided into two clusters that agreed with the results of the fermentation test of xylose (group I: negative reaction for xylose, group II: positive reaction for xylose). The clusters were independent of other bacterial species of Pasteurellaceae tested. The sequences of the strains in group I showed 99.7–99.8% similarity and the strains in group II showed 99.3–99.7% similarity. None of the strains in group I had a close relation with Haemophilus parainfluenzae by phylogenetic analysis, although they showed the same biochemical properties. In conclusion, the strains had characteristic biochemical properties and formed two independent groups within the “rodent cluster” of Pasteurellaceae that differed in the results of the fermentation test of xylose. Therefore, they seemed to be hitherto undescribed taxa in Pasteurellaceae.     

Pyrolysis mass spectrometry characterisation and numerical taxonomy ofAeromonas spp.

Reference strains (2) and 29 isolates ofAeromonas spp. from clinical material and environmental specimens were characterised in traditional biochemical tests, and in pyrolysis mass spectrometry, which gives data reflecting whole-cell composition. Numerical taxonomic analyses of the data sets were compared with conventional identification at species level, and pathogenic potential, as inferred from the origin of the isolates. Clustering with conventional test reaction patterns showed, for each of the species represented, a clearly defined core group of typical isolates, surrounded by a halo of aberrant strains. One further cluster comprised strains intermediate betweenA. caviae andA. hydrophila, and one strain was grossly atypical in both analyses. Clustering from pyrolysis data corresponded less well with species identification. Broadly, the biochemical division between core and halo strains was supported in pyrolysis forA. caviae andA. sobria, but the main group ofA. hydrophila in pyrolysis comprised strains clustering in the core and halo groups of this species, and three strains intermediate betweenA. hydrophila andA. caviae in biochemical tests. Two further pyrolysis clusters comprised core and halo strains ofA. hydrophila. However, pyrolysis clustering correlated well with inferred pathogenicity, showing four clusters of probable pathogens, six clusters of probable nonpathogens, and one two member cluster of doubtful status. Most strains that clustered in the species haloes, or in species-intermediate groups in biochemical tests, were non-human isolates, or were isolated in the absence of symptomatic infection. The correlation of inferred pathogenicity with biochemical clustering was poorer than that with pyrolysis clustering.Abbreviations CTRP conventional test reaction pattern - PyMS pyrolysis mass spectrometry     

Development of PCR assays for detection of Streptococcus canis

Streptococcus canis isolates, also including S. canis of artificially contaminated milk, could be identified by polymerase chain reaction (PCR) amplification using oligonucleotide primers designed according to species-specific parts of the 16S rRNA gene and, after sequencing, according to S. canis-specific parts of the 16S-23S rDNA intergenic spacer region and with oligonucleotide primers detecting an internal fragment of the group G streptococcal CAMP factor gene cfg. The 16S rRNA gene- and CAMP factor gene cfg-specific oligonucleotide primers could be used together in a multiplex PCR. No cross-reactivities could be observed with other group G streptococcal isolates or with any of the other control strains of various streptococcal species and serogroups. The PCR methods presented in this study allowed a rapid and reliable identification of S. canis and might help to improve the diagnosis of this bacterial species in animal and human infections.     

Occurrence of bifidobacteria and lactobacilli in digestive tract of some freshwater fishes

Distal parts of the fish intestine were analyzed for presence of bifidobacteria and lactobacilli using selective agars. Seventy seven samples from Cyprinus carpio, Oncorhynchus mykiss, Carassius auratus, Tinca tinca, Perca fluviatilis, Rutilus rutilus, Scardinius erythrophthalmus, Oreochromis niloticus, and Squalius cephalus were collected randomly throughout years 2008 and 2009. Bifidobacteria were detected in 5 samples from 4 fish species at counts 2.18–4.29 log CFU/g, lactobacilli were present in 6 fish species at counts 1.21–3.65 log CFU/g. Seven bifidobacterial isolates were identified to the species level using biochemical tests and by sequencing of 16S rRNA gene. Three strains belonged to species B. longum, two isolates were identified as B. dentium, one strain as B. asteroides and one isolate was not determined to the species level by employed methods. As identified bifidobacterial species are considered to be of human, animal or honeybee origin, they probably derived as contamination from sewage or other sources. After further more detail testing, the possible use of isolated bifidobacteria as probiotics is promising since they were able to pass through the digestive tract successfully.