Prevalence of the Rhizobium etli-like allele in genes coding for 16S rRNA among the indigenous rhizobial populations found associated with wild beans from the Southern Andes in Argentina

A collection of rhizobial isolates from nodules of wild beans, Phaseolus vulgaris var. aborigineus, found growing in virgin lands in 17 geographically separate sites in northwest Argentina was characterized on the basis of host range, growth, hybridization to a nifH probe, analysis of genes coding for 16S rRNA (16S rDNA), DNA fingerprinting, and plasmid profiles. Nodules in field-collected wild bean plants were largely dominated by rhizobia carrying the 16S rDNA allele of Rhizobium etli. A similar prevalence of the R. etli allele was observed among rhizobia trapped from nearby soil. Intragroup diversity of wild bean isolates with either R. etli-like or Rhizobium leguminosarum bv. phaseoli-like alleles was generally found across northwest Argentina. The predominance of the R. etli allele suggests that in this center of origin of P. vulgaris the coevolution of Rhizobium spp. and primitive beans has resulted in this preferential symbiotic association.     

Monitoring genetically modified rhizobia in field soils using the polymerase chain reaction

Monitoring genetically modified (GM) bacterial inoculants after field release using conventional culture methods can be difficult. An alternative is the detection of marker genes in DNA extracted directly from soil, using specific oligonucleotide primers with the polymerase chain reaction (PCR). The PCR was used to monitor survival of two GM Rhizobium leguminosarum bv. viciae inoculants after release in the field at Rothamsted. One strain, RSM2004, is marked by insertion of transposon Tn5; the second strain, CT0370, released at the same site, is modified by chromosomal integration of a single copy of the gene from E. coli conferring GUS activity. Both GM strain provide a realistic case study for the development of PCR-based detection techniques. Specific primers were developed to amplify regions of the Tn5 and GUS genetic markers using PCR and conditions optimized for each primer set to routinely detect a signal from 10 fg of purified template DNA, the equivalent of one cell per reaction. Procedures to improve the sensitivity of detection are described, to detect fewer than 50 cells g-1 soil in soil-extracted DNA.     

Intergenic transcribed spacer PCR ribotyping for differentiation of Saccharomyces species and interspecific hybrids

The taxonomy of the genus Saccharomyces has undergone significant changes recently with the use of genotypic rather than phenotypic methods for the identification of strains to the species level. The sequence of rRNA genes has been utilized for the identification of a variety of fungi to the species level. This methodology, applied to species of Saccharomyces, allows unknown Saccharomyces isolates to be assigned to the type strains. It was the aim of the present study to assess whether typing of the intergenic spacer region by using restriction fragment length polymorphisms of PCR products (intergenic transcribed spacer PCR [ITS-PCR] ribotyping) could distinguish among type strains of the 10 accepted species of Saccharomyces and further to assess if this method could distinguish strains that were interspecific hybrids. Cellular DNA, isolated after the lysis of protoplasts, was amplified by PCR using ITS1 and ITS4 primers, purified by liquid chromatography, and digested with restriction endonucleases. Ribotyping patterns using the restriction enzymes MaeI and HaeIII could distinguish all species of Saccharomyces from each other, as well as from Candida glabrata, Candida albicans, and Blastomyces dermatitidis. The only exception to this was the inability to distinguish between Saccharomyces bayanus and S. pastorianus (S. carlsbergensis). Furthermore, interspecific hybrids resulting from the mating of sibling species of Saccharomyces were shown to share the ITS-PCR ribotyping patterns of both parental species. It should now be possible, by this simple PCR-based technique, to accurately identify these strains to the species level, thereby allowing an increase in our understanding of the characteristics required by these interspecific hybrids for their particular ecological niches.     

A universal approach to bacterial molecular epidemiology by polymerase chain reaction ribotyping

Oligonucleotide primers complementary to conserved regions of the 16S and 23S ribosomal RNA genes were used to amplify the 16S-23S intergenic spacer region of bacterial pathogens. The amplification patterns produced were compared for their potential use in molecular epidemiologic analysis. This method, polymerase chain reaction (PCR) ribotyping, was applied to isolates of Staphylococcus aureus, Enterococcus faecium, Escherichia coli, and Enterobacter species. Length polymorphisms in the amplified DNA distinguished unrelated strains of all bacteria. The banding patterns of 3 S. aureus isolates from the blood of 1 patient on 3 consecutive days were identical. Plasmid analysis, biotyping, and antibiograms were also obtained on the Enterobacter isolates. All three of these methods showed considerable variability after in vitro passage of bacteria, but PCR ribotypes remained stable. Results demonstrate the utility of the conserved primers for PCR ribotyping, a widely applicable method for the molecular epidemiology of genetically diverse bacteria.     

Investigation of film curing stages by dielectric analysis and physical characterization

A previously published sequence of the 23S rRNA gene of Coxiella burnetii has been reported to contain an intervening sequence of 444 base pairs (bp). The sequence information on the intervening sequence and the 23S rRNA gene was exploited to develop a specific PCR-based assay for C. burnetii. A primer set was designed that amplified a 477-bp fragment encompassing part of the intervening sequence and part of the 23S rDNA. From all of nine C. burnetii strains tested, a fragment of the expected size was amplified. As predicted from the published sequence, restriction endonuclease digestion of the PCR product from the Coxiella strains with RsaI produced two distinct fragments approximately 210- and 270-bp in size. The PCR-based method showed a detection limit of 10(2) bacteria as determined by visualization of the amplicon on an agarose gel. When experimentally infected blood was analyzed, the detection limit was 10(3) bacteria. No visible amplicons were observed when 41 bacterial strains, representing 29 species other than C. burnetii, were tested. The presence of the DNA in all bacterial samples was confirmed by amplification of a 350-bp fragment of the 16S rDNA using two universal primers. The described method proved to be specific for C. burnetii and may become a rapid and sensitive diagnostic assay for C. burnetii. The results also demonstrate that the intervening sequence within the 23S rRNA gene is generally found among isolates of C. burnetii.     

Comparison of the 16S/23S ribosomal intergenic regions of "Candidatus Liberobacter asiaticum" and "Candidatus Liberobacter africanum," the two species associated with citrus huanglongbing (greening) disease

16S/23S intergenic spacer regions from the rRNA operons of two strains of "Candidatus Liberobacter asiaticum" and one strain of "Candidatus Liberobacter africanum" were cloned and sequenced. The intergenic spacers of the two "Candidatus L. asiaticum" strains studied are identical and contain the genes for isoleucine tRNA (tRNA(Ile)) and alanine tRNA (tRNA(Ala)) separated by 11 nucleotides. The intergenic spacer of the "Candidatus L. africanum" strain contains only one tRNA gene (tRNA(Ala)). The level of homology between the intergenic spacers of the two liberobacter species is 79.46%. Ribosomal operons with 16S/23S spacer regions other than those studied might be present in the two "Candidatus Liberobacter" species.     

Effect of PCR conditions on the formation of heteroduplex and single-stranded DNA products in the amplification of bacterial ribosomal DNA spacer regions

PCR amplifications of 16S/23S rDNA spacer regions were carried out from conserved 16S and 23S sequences for genomic DNA samples from strains representing 16 bacterial species (12 genera). Multiple products were produced containing conserved homologous sequences at the 3' and 5' ends, separated by highly variable internal spacer sequences. These products cross-hybridized forming heteroduplex DNA structures containing double-stranded ends surrounding an internal single-stranded loop. Single-stranded DNA was also produced in the amplification of rDNA spacer sequences. Fragments comprising the nonhomoduplex DNA components were identified by their susceptibility to removal by digestion with a single-stranded endonuclease. The relative formation of heteroduplex and single-stranded DNA was reduced by reaction conditions favoring primer/template annealing, for example, higher ionic strength, higher primer concentration, and lower annealing temperature, as well as by decreasing the number of amplification cycles. Heteroduplex and single-stranded DNA structures were also generated by denaturing and reannealing spacer amplification products in the absence of polymerase activity. Whereas heteroduplex and single-stranded DNA structures provide additional information that is helpful in distinguishing between species of bacteria that produce similar homoduplex products, the mobility of heteroduplex and single-stranded DNA structures DNA structures is extremely sensitive to electrophoretic conditions.     

Lyme disease Borrelia species in northeastern China resemble those isolated from far eastern Russia and Japan

Fifty-nine Borrelia burgdorferi sensu lato culture isolates collected from northeastern China were characterized by 5S-23S rRNA intergenic spacer restriction fragment length polymorphism (RFLP) analysis and reactivity with monoclonal antibodies (MAbs). Among 59 culture isolates, 30 (50.8%) were Borrelia garinii and 17 (28.8%) were Borrelia afzelii, 2 were mixtures composed of B. garinii with RFLP pattern B and B. garinii with pattern C, and 9 were mixtures composed of B. garinii and B. afzelii. One isolate, ChY13p, produced a unique pattern and was identified as B. garinii based on analyses of 16S rRNA gene sequence, flagellin PCR-RFLP typing, and MAb reactivities. No Borrelia burgdorferi sensu stricto or Borrelia japonica isolates were detected. The results indicate that Lyme disease Borrelia species in northeastern China resemble those of Borrelia isolates from far eastern Russia and Japan.     

Spoligotyping followed by double-repetitive-element PCR as rapid alternative to IS6110 fingerprinting for epidemiological studies of tuberculosis

A total of 129 clinical isolates of Mycobacterium tuberculosis representing 91 patients were typed by a combination of direct-repeat (DR)-based spoligotyping and an inter-IS6110-PGRS (polymorphic GC-rich region)-PCR, also designated double-repetitive-element PCR (DRE-PCR). During the first phase of this investigation, 72 clinical strains representing 52 patients were initially typed by IS6110-restriction fragment length polymorphism (RFLP) and DR-RFLP, followed by spoligotyping and DRE-PCR. In the second phase of this investigation, the discriminating ability of spoligotyping plus DRE-PCR was studied for 57 isolates from 39 patients who were suspected to be epidemiologically linked, and the typing results were later confirmed by IS6110-RFLP and DR-RFLP analyses. The molecular clustering of the isolates remained identical irrespective of the methods used. These results show that the association of two PCR-based fingerprinting techniques for molecular epidemiology of tuberculosis has a discriminating ability similar to the IS6110-RFLP reference method.     

The prevalence of Chlamydia pneumoniae in atherosclerotic and nonatherosclerotic blood vessels of patients attending for redo and first time coronary artery bypass graft surgery

The current genetic strategies used to identify Tropheryma whippelii, the putative agent of Whipple's disease, are based on PCR-mediated amplification of a part of its 16S rRNA gene (16S rDNA). Because there is very little intraspecies variation in these molecules, they are not suitable as targets for epidemiologic investigations. However, the intergenic spacer region between the 16S and 23S rDNAs is usually much more variable and has repeatedly been used for epidemiologic purposes. We have therefore amplified the spacer region of T. whippelii directly from clinical specimens from nine independent Swiss patients with Whipple's disease by PCR with primers complementary to the 3' and 5' ends of the 16S and 23S rDNAs, respectively. The amplicons were directly sequenced and the sequences were compared to the T. whippelii reference sequence in GenBank/EMBL (accession no. X99636). Complete sequence homogeneity was found between the samples from our nine patients; the spacer sequence was also identical to the reference sequence. However, the sequences corresponding to the 3' and 5' ends of the 16S and the 23S rDNAs of T. whippelii, respectively, differed from the respective sequences in GenBank/EMBL. The same sequence found in our patients was then found in a sample from the German patient from which the published sequence had been derived. We conclude that the 16S-23S rDNA spacer region seems to be very conserved in T. whippelii and that the respective reference entry in public databases should be revised.     

Molecular and phenotypic characterization of genotypic Candida albicans subgroups and comparison with Candida dubliniensis and Candida stellatoidea

There have been increased reports of the isolation of unusual genotypic groups of Candida albicans (groups C and D) based on a well-defined genotypic method; this method uses cellular DNA digested with the EcoRI enzyme and the restriction fragment length polymorphisms (RFLPs) generated by agarose gel electrophoresis. The aim of the present study was to use additional molecular tools to characterize these unusual strains and to compare them with authentic strains of C. dubliniensis, a recently delineated species, and type I C. stellatoidea. The RFLPs of PCR products generated from the intergenic transcribed spacer (ITS) region did not differentiate among C. albicans genotypes A, B, and C and type I C. stellatoidea. However, this method did differentiate the C. albicans genotype D strains, which were identical to C. dubliniensis. The RFLPs generated by HaeIII digestion of the PCR products of the V3 region of the 25S rRNA gene (rDNA) could differentiate the same groups as RFLP analysis of the PCR amplicon of the ITS region. C. albicans genotype B isolates have been shown to have a transposable intron in the 25S rDNA, whereas genotype A isolates do not; C. dubliniensis strains also have an intron that is larger than that in genotype B C. albicans strains but that is in the same location. PCR designed to span this region resulted in a single product for C. albicans genotype A (450 bp), B (840 bp), type 1 C. stellatoidea (840 bp), and C. dubliniensis (1,080 bp), whereas the C. albicans genotype C isolates had two major products (450 and 840 bp). All C. albicans genotype D isolates gave a PCR product identical to that given by C. dubliniensis. These results indicate that those strains previously designated C. albicans genotype D are in fact C. dubliniensis, that no differences were found between type 1 C. stellatoidea and C. albicans genotype B strains, and that the C. albicans genotype C strains appear to have the transposable intron incompletely inserted throughout the ribosomal repeats in their genomes. The results of the antifungal susceptibility testing of 105 of these strains showed that, for fluconazole, strains of C. dubliniensis were significantly more susceptible than strains of each of the C. albicans genotypes (genotypes A, B, and C). The flucytosine susceptibility results indicated that strains of C. albicans genotype A were significantly less susceptible than either C. albicans genotype B or C. albicans genotype C strains. These results indicate that there is a correlation between the Candida groups and antifungal susceptibility.     

An evaluation of intergenic rRNA gene sequence length polymorphism analysis for the identification of Legionella species

There are currently more than 40 species of Legionella and the identification of most of these by standard methods is technically difficult. The aim of this study was to assess the suitability of a previously published PCR-based method of identifying Legionella spp. Intergenic 16S-23S rDNA spacer regions were amplified with primers complementary to conserved regions of the rRNA genes. Following electrophoretic separation of the products, data analyses were performed with the Taxotron software package. Computer-assisted analysis (with an empirically derived error tolerance of 3%) could differentiate only 26 of the 43 strains (representing 43 species), with the remaining 17 species clustering into four groups (group I, comprising 10 species; group II, three species; group III, two species and group IV, two species). Analysis of well-characterised 'non-type' strains of some Legionella spp. (e.g., from type culture collections) resulted in patterns distinct from the corresponding type strain in most cases. Furthermore, recent isolates (identified by conventional methods) were identified by this PCR method to the presumed correct species (or species group) in only a minority of cases. Well characterised strains and recent isolates of Legionella showed heterogeneity within many species. This intra-species variation severely limits the usefulness of the method for the identification of isolates. However, this property may be useful for epidemiological typing within such species.     

Development of a polymerase chain reaction/restriction fragment length polymorphism method for Saccharomyces cerevisiae and Saccharomyces bayanus identification in enology

Several yeast strains of the species Saccharomyces cerevisiae, S. bayanus and S. paradoxus, first identified by hybridization experiments and measurements of DNA/DNA homology, were characterized using polymerase chain reaction/restriction fragment length polymorphism (PCR/RFLP) analysis of the MET2 gene. There was no exception to the agreement between this method and classical genetic analyses for any of the strains examined, so PCR/RFLP of the MET2 gene is a reliable and fast technique for delimiting S. cerevisiae and S. bayanus. Enological strains classified as S. bayanus, S. chevalieri, and S. capensis gave S. cerevisiae restriction patterns, whereas most S. uvarum strains belong to S. bayanus. Enologists should no longer use the name of S. bayanus for S. cerevisiae Gal strains, and should consider S. bayanus as a distinct species.     

Genetic diversity of Borrelia burgdorferi in lyme disease patients as determined by culture versus direct PCR with clinical specimens

Two hundred seventeen isolates of Borrelia burgdorferi originally cultured from skin biopsy samples or blood of early Lyme disease patients were genetically characterized by PCR-restriction fragment length polymorphism (RFLP) typing of the 16S-23S ribosomal DNA intergenic spacer. Three major RFLP types were observed. Of the cultured isolates, 63 of 217 (29.0%) were type 1, 85 of 217 (39.2%) were type 2, and 58 of 217 (26.7%) were type 3; mixtures of two RFLP types were obtained in 6.0% (13 of 217) of the cultures. Comparison of typing of B. burgdorferi performed directly on 51 patient skin specimens with typing of cultures originally isolated from the same tissue revealed that a much larger proportion of direct tissue samples had mixtures of RFLP types (43.1% by direct typing versus 5.9% by culture [P < 0.001). In addition, identical RFLP types were observed in only 35.5% (11 of 31) of the paired samples. RFLP type 3 organisms were recovered from blood at a significantly lower rate than were either type 1 or type 2 strains. These studies demonstrate that the genetic diversity of B. burgdorferi patient isolates as determined by cultivation differs from that assessed by PCR performed directly on patient tissue.     

16S-23S and 23S-5S intergenic spacer regions of lactobacilli: nucleotide sequence, secondary structure and comparative analysis

Lactobacilli have been used as industrial starters for a long time, but in several cases their identification was, and still is, neither easy nor reliable. The aim of the present work was to examine whether the intergenic spacer regions could be of value in the identification of Lactobacillus species. For that purpose, the polymerase chain reaction (PCR) was used to amplify 16S-23S and 23S-5S spacer regions of Lactobacillus (L.) acidophilus, L. delbrueckii subsp. bulgaricus, L. casei, L. helveticus and L. curvatus. The PCR products were directly sequenced, and two forms of ribosomal RNA (rrn) operons were identified in each species studied: one with tandem tRNA(Ile)/tRNA(Ala) genes and the other one without tRNA genes. Our study revealed that the rrn operons of Lactobacillus species studied comprise the genes of 16S, 23S and 5S rRNA, in that order. Only the tRNA genes and the rRNA processing stems are highly conserved in spacer regions of lactobacilli. The divergence between the lactobacilli spacer region sequences arises from insertions and deletions of short sequences. These sequences could be interesting candidates for the development of species-specific probes. Theoretical RNA/RNA secondary structure models of the interaction between the two spacer region sequences were constructed. In conclusion, the two spacer region sequences may prove to be a useful alternative to 16S and 23S rDNA sequencing for designing species-specific probes and for establishing phylogenetic relationships between closely related species such as L. curvatus and L. casei or L. acidophilus and L. helveticus.     

Differentiation of Listeria monocytogenes and Listeria innocua by 16S rRNA genes and intraspecies discrimination of Listeria monocytogenes strains by random amplified polymorphic DNA polymorphisms

Differences in the 16S rRNA genes (16S rDNA) which can be used to discriminate Listeria monocytogenes from Listeria innocua have been detected. The 16S rDNA were amplified by polymerase chain reaction with a set of oligonucleotide primers which flank a 1.5-kb fragment. Sequence differences were observed in the V2 region of the 16S rDNA both between L. monocytogenes Scott A and L. innocua and between different L. monocytogenes serotypes. Although L. monocytogenes SLCC2371 had the same V2 region sequence as L. innocua, the two species were different within the V9 region at nucleotides 1259 and 1292, in agreement with previous studies (R.-F. Wang, W.-W. Cao, and M.G. Johnson, Appl. Environ. Microbiol. 57:3666-3670, 1991). Intraspecies discrimination of L. monocytogenes strains was achieved by using the patterns generated by random amplified polymorphic DNA primers. Although some distinction can be made within the L. monocytogenes species by their 16S rDNA sequence, a far greater discrimination within species could be made by generating random amplified polymorphic DNA patterns from chromosomal DNA. By using a number of 10-bp primers, unique patterns for each isolate which in all cases examined differentiate between various L. monocytogenes serotypes, even though they may have the same 16S rRNA sequences, could be generated.     

Comparison of different DNA fingerprinting techniques for molecular typing of Bartonella henselae isolates

Seventeen isolates of Bartonella henselae from the region of Freiburg, Germany, obtained from blood cultures of domestic cats, were examined for their genetic heterogeneity. On the basis of different DNA fingerprinting methods, including pulsed-field gel electrophoresis (PFGE), enterobacterial repetitive intergenic consensus (ERIC)-PCR, repetitive extragenic palindromic (REP) PCR, and arbitrarily primed (AP)-PCR, three different variants were identified among the isolates (variants I to III). Variant I included 6 strains, variant II included 10 strains, and variant III included only one strain. By all methods used, the isolates could be clearly distinguished from the type strain, Houston-1, which was designated variant IV. A previously published type-specific amplification of 16S rDNA differentiated two types of the B. henselae isolates (16S rRNA types 1 and 2). The majority of the isolates (16 of 17), including all variants I and II, were 16S rRNA type 2. Only one isolate (variant III) and the Houston-1 strain (variant IV) comprised the 16S rRNA type 1. Comparison of the 16S rDNA sequences from one representative strain from each of the three variants (I to III) confirmed the results obtained by 16S rRNA type-specific PCR. The sequences from variant I and variant II were identical, whereas the sequence of variant III differed in three positions. All methods applied in this study allowed subtyping of the isolates. PFGE and ERIC-PCR provided the highest discriminatory potential for subtyping B. henselae strains, whereas AP-PCR with the M13 primer showed a very clear differentiation between the four variants. Our results suggest that the genetic heterogeneity of B. henselae strains is high. The methods applied were found useful for typing B. henselae isolates, providing tools for epidemiological and clinical follow-up studies.     

Orthologous DNA sequence variation among 5S ribosomal RNA gene spacer sequences on homoeologous chromosomes 1B, 1D, and 1R of wheat and rye

5S ribosomal gene spacer sequences from the short-spacer arrays of wheat and rye were isolated by PCR. The 29 new DNA sequences displayed noticeable heterogeneity at scattered positions. Nevertheless, based on shared DNA sequence polymorphisms, sequence alignment clearly classified the sequences into three groups. Group-specific primer sets were designed to allow chromosomal assignment by PCR on nullitetrasomic wheat stocks, as well as on wheat-rye translocation and addition lines. The three groups were assigned to orthologous loci 5S-Rrna-B1, 5S-Rrna-D1, and 5S-Rrna-R1 on homoeologous chromosomes 1B, 1D, and 1R, respectively. Hence, group-specific DNA sequence variation could be related to fixed orthologous DNA sequence variation between 5S rRNA multigene families on the homoeologous group 1 chromosomes. In addition, members of the three groups showed fixed orthologous length polymorphism. Four sequenced 5S-Rrna-B1 units, however, had a duplication in the gene encoding region and are probably representatives of a nontranscribed subfamily of 5S rDNA repeating units. The observed chromosome-specific polymorphisms among sequences belonging to a multigene family with thousands of copies suggests that this type of polymorphism may exist in many genes and gene families in polyploid wheats. The implication of this finding in relation to the construction of molecular tools for wheat-genome analysis and manipulation is discussed.     

Differentiation of Helicobacter pylori strains directly from gastric biopsy specimens by PCR-based restriction fragment length polymorphism analysis without culture

Recent studies have shown the usefulness of PCR-based restriction fragment length polymorphism (RFLP) analysis for differentiating Helicobacter pylori strains isolated by culture. For this study, a PCR-based RFLP assay was developed for directly typing H. pylori strains from gastric biopsy specimens. Nineteen gastric biopsy specimens obtained from patients undergoing endoscopy for gastrointestinal complaints were cultured for isolation of H. pylori. Genomic DNA preparations from these gastric biopsy specimens and the corresponding H. pylori isolates were tested by our PCR-based RFLP assay. The 1,179-bp H. pylori DNA fragments amplified by the PCR assay were digested with the restriction enzymes HhaI, MboI, and AluI and analyzed by agarose gel electrophoresis. HhaI, MboI, and AluI digestion produced 11, 10, and 6 distinguishable digestion patterns, respectively, from the 19 H. pylori isolates tested and generated 13, 11, and 6 different patterns, respectively, from the 19 gastric biopsy specimens. The patterns from 13 of the 19 gastric biopsy specimens matched those of the H. pylori isolates from the corresponding patients. The patterns from the remaining six biopsy specimens appeared to represent infection by two strains of H. pylori; the pattern of one strain was identical to that of the isolate from the corresponding patient. By combining all the restriction enzyme digestion patterns obtained by using HhaI, MboI, and AluI, we observed 19 distinct RFLP patterns from the 19 specimens. The results suggest that the PCR-based RFLP analysis method may be useful as a primary technique to identify and distinguish H. pylori strains directly from gastric biopsy specimens without culture of the organisms.     

Characterization of oligonucleotide probes for the identification of Acinetobacter spp., A. baumannii and Acinetobacter genomic species 3

The 16S-23S intergenic spacer regions of four Acinetobacter genomic species belonging to the A. calcoaceticus-A. baumannii (Acb) complex, i.e. genomic species 1 (A. calcoaceticus), genomic species 2 (A. baumannii), genomic species 3 and Tjernberg and Ursing (TU) genomic species 13, have been cloned and sequenced. Sequence analysis led to the discovery of a single copy of IIe and Ala tRNA genes within each spacer. Sequence comparison allowed the identification of a 192-base-pair long highly conserved sequence between the 3' end of the 16S rRNA and the 5' end of the tRNA(Ala) genes. Moreover, two short regions, which were specific to, respectively, genomic species 2 and 3, could be identified. Oligonucleotides corresponding to these sequences were constructed and tested for the ability to hybridize with chromosomal DNA extracted from Acinetobacter belonging to different genomic species and with chromosomal DNA of other bacterial genera. One of these oligonucleotides was demonstrated to be useful as a sensitive and specific probe for A. baumannii. A less sensitive probe for Acinetobacter genomic species 3 was also developed.