Isolation of bacteriophage infectious for Vibrio vulnificus

Nine phage isolates infectious for Vibrio vulnificus and falling into four morphological groups were isolated from estuarine waters collected in Louisiana. Of the 60 V. vulnificus strains tested, 87% were susceptible to one or more of the isolates. With the exception of V. fluvialis, Vibrio species other than vulnificus were resistant to infection. A spectrum of enteric bacterial strains were similarly resistant. Susceptibility differences were seen between opaque (virulent) V. vulnificus strains and those with translucent (nonvirulent) colony types, with the former being more susceptible. Susceptibility patterns to infection by the nine phage isolates among the V. vulnificus test strains suggest that the latter may fall into several groups. Other aspects relating to the phage isolates are presented.     

Isolation and characterization ofVibrio vulnificus inhabiting the marine environment of the southwestern area of Taiwan

Vibrio vulnificus, a marine bacterium, is of concern in Taiwan because it causes wound infections and sepsis with a high mortality rate every year. To examine forV. vulnificus, 13 samples of seawater or oysters were collected from nine sites in Yunlin, Chiayi, and Tainan. Seventy-seven strains ofV. vulnificus were isolated from 11 samples. Among these environmental isolates, 72 (91%) were indole-positive, a characteristic of biotype 1. The remaining five strains although indole-negative, a characteristic previously found exclusively in biotype 2 strains, were all ornithine decarboxylase- and mannitol-positive, which has never been reported for biotype 2 strains. Based on the overall biochemical reactions obtained using a commercial identification system, these indole-negative strains appeared to be more like biotype 1. Fifty-seven ribotypes were identified among these isolates, indicating the great genetic divergence in this species. Of the 30 environmental isolates tested, 17 (56.7%) exhibited virulence comparable to the clinical isolates in the mouse, implying that a high proportion of theV. vulnificus strains in the marine environments might be pathogenic to humans.     

Analysis of Vibrio vulnificus from Market Oysters and Septicemia Cases for Virulence Markers

Representative encapsulated strains of Vibrio vulnificus from market oysters and oyster-associated primary septicemia cases (25 isolates each) were tested in a blinded fashion for potential virulence markers that may distinguish strains from these two sources. These isolates were analyzed for plasmid content, for the presence of a 460-bp amplicon by randomly amplified polymorphic DNA PCR, and for virulence in subcutaneously (s.c.) inoculated, iron-dextran-treated mice. Similar percentages of market oyster and clinical isolates possessed detectable plasmids (24 and 36%, respectively), produced the 460-bp amplicon (45 and 50%, respectively), and were judged to be virulent in the mouse s.c. inoculation-iron-dextran model (88% for each). Therefore, it appears that nearly all V. vulnificus strains in oysters are virulent and that genetic tests for plasmids and specific PCR size amplicons cannot distinguish between fully virulent and less virulent strains or between clinical and environmental isolates. The inability of these methods to distinguish food and clinical V. vulnificus isolates demonstrates the need for alternative subtyping approaches and virulence assays.     

Intraspecific Diversity of Vibrio vulnificus in Galveston Bay Water and Oysters as Determined by Randomly Amplified Polymorphic DNA PCR

Randomly amplified polymorphic DNA (RAPD) PCR was used to analyze the temporal and spatial intraspecific diversity of 208 Vibrio vulnificus strains isolated from Galveston Bay water and oysters at five different sites between June 2000 and June 2001. V. vulnificus was not detected during the winter months (December through February). The densities of V. vulnificus in water and oysters were positively correlated with water temperature. Cluster analysis of RAPD PCR profiles of the 208 V. vulnificus isolates revealed a high level of intraspecific diversity among the strains. No correlation was found between the intraspecific diversity among the isolates and sampling site or source of isolation. After not being detected during the winter months, the genetic diversity of V. vulnificus strains first isolated in March was 0.9167. Beginning in April, a higher level of intraspecific diversity (0.9933) and a major shift in population structure were observed among V. vulnificus isolates. These results suggest that a great genetic diversity of V. vulnificus strains exists in Galveston Bay water and oysters and that the population structure of this species is linked to changes in environmental conditions, especially temperature.     

Ecology ofVibrio vulnificus in Galveston Bay oysters,suspended particulate matter,sediment and seawater: Detection by monoclonal antibody — immunoassay — most probable number procedures

Summary Oysters, suspended particulate matter (SPM), sediment and seawater samples were collected from West Galveston Bay, Texas over a 16-month period and analyzed for the presence ofVibrio vulnificus, a naturally-occurring human marine pathogen. Detection and enumeration ofV. vulnificus was performed using a species-specific monoclonal antibody (mAb FRBT37) in an enzyme immunoassay (EIA)-most probable number (MPN) procedure capable of detecting as few as 2000 target organisms.V. vulnificus was not detected in seawater, oyster or SPM samples during the cold weather months, but was detected at low levels in several sediment samples during this time period. Increased levels of the organism were first observed in early spring in the sediment, and then in SPM and oysters. The major increase inV. vulnificus occurred only after the seawater temperature had increased above 20°C and the winter-spring rainfall had lowered the salinity below 16. The highestV. vulnificus levels at each site were associated with suspended particulate matter. These results are consistent with the hypothesis that (1)V. vulnificus over-winters in a floc zone present at the sediment-water interface, (2) is resuspended into the water column in early spring following changes in climatic conditions, (3) colonizes the surfaces of zooplankton which are also blooming during early spring and (4) are ingested by oysters during their normal feeding process.     

Genetic Relatedness among Environmental, Clinical, and Diseased-Eel Vibrio vulnificus Isolates from Different Geographic Regions by Ribotyping and Randomly Amplified Polymorphic DNA PCR

Genetic relationships among 132 strains of Vibrio vulnificus (clinical, environmental, and diseased-eel isolates from different geographic origins, as well as seawater and shellfish isolates from the western Mediterranean coast, including reference strains) were analyzed by random amplified polymorphic DNA (RAPD) PCR. Results were validated by ribotyping. For ribotyping, DNAs were digested with KpnI and hybridized with an oligonucleotide probe complementary to a highly conserved sequence in the 23S rRNA gene. Random amplification of DNA was performed with M13 and T3 universal primers. The comparison between ribotyping and RAPD PCR revealed an overall agreement regarding the high level of homogeneity of diseased-eel isolates in contrast to the genetic heterogeneity of Mediterranean isolates. The latter suggests the existence of autochthonous clones present in Mediterranean coastal waters. Both techniques have revealed a genetic proximity among Spanish fish farm isolates and a close relationship between four Spanish eel farm isolates and some Mediterranean isolates. Whereas the differentiation within diseased-eel isolates was only possible by ribotyping, RAPD PCR was able to differentiate phenotypically atypical isolates of V. vulnificus. On the basis of our results, RAPD PCR is proposed as a better technique than ribotyping for rapid typing in the routine analysis of new V. vulnificus isolates.     

Distribution of Vibrio vulnificus and Other Lactose-Fermenting Vibrios in the Marine Environment

During the summer of 1981, 3,887 sucrose-negative vibrios were isolated from seawater, sediment, plankton, and animal samples taken from 80 sites from Miami, Fla., to Portland, Maine. Of these, 4.2% were able to ferment lactose. The lactose-positive strains isolated from the various samples correlated positively with pH and turbidity of the water, vibrios in the sediment and oysters, and total bacterial counts in oysters. Negative correlations were obtained for water salinity. Numerical taxonomy was performed on 95 of the lactose-fermenting environmental isolates and 23 reference strains. Five clusters resulted, with the major cluster containing 33 of the environmental isolates and all of the Vibrio vulnificus reference strains. The 33 isolates, which produced an acid reaction in lactose broth within hours of initial inoculation, represented 20% of all lactose-fermenting vibrios studied. These isolates were nearly identical phenotypically to clinical strains of V. vulnificus studied by the Centers for Disease Control, Atlanta, Ga., and by our laboratory, and their identification was confirmed by DNA-DNA hybridization studies. V. vulnificus was isolated from all sample types and from Miami to Cape Cod, Mass., and comparison of the environmental parameters of the eight subsites yielding this species with those of all 80 subsites revealed no significant differences. The majority of the isolates were obtained from animals, with clams providing most (84%) of these. On injection into mice, 82% of the V. vulnificus isolates resulted in death. Members of the remaining four clusters contained strains which differed from V. vulnificus in such phenotypic traits as luminescence and in urease or H₂S production. None of the other reference cultures, including nine other Vibrio species, were contained in the remaining clusters, and these isolates could not be identified. Most of these were also lethal for mice. Phenotypic differences, potential pathogenicity, and geographic distribution of the five clusters were examined. It is concluded that V. vulnificus is a ubiquitous organism, both geographically and in a variety of environmental sources, although it occurs in relatively low numbers. The public health significance of this organism and of the other unidentified lactose-fermenting Vibrio species is discussed.     

Real-Time PCR Assays for Quantification and Differentiation of Vibrio vulnificus Strains in Oysters and Water

Vibrio vulnificus is an autochthonous estuarine bacterium and a pathogen that is frequently transmitted via raw shellfish. Septicemia can occur within 24 h; however, isolation and confirmation from water and oysters require days. Real-time PCR assays were developed to detect and differentiate two 16S rRNA variants, types A and B, which were previously associated with environmental sources and clinical fatalities, respectively. Both assays could detect 10² to 10³ V. vulnificus total cells in seeded estuarine water and in oyster homogenates. PCR assays on 11 reference V. vulnificus strains and 22 nontarget species gave expected results (type A or B for V. vulnificus and negative for nontarget species). The relationship between cell number and cycle threshold for the assays was linear (R² = >0.93). The type A/B ratio of Florida clinical isolates was compared to that of isolates from oysters harvested in Florida waters. This ratio was 19:17 in clinical isolates and 5:8 (n = 26) in oysters harvested from restricted sites with poor water quality but was 10:1 (n = 22) in oysters from permitted sites with good water quality. A substantial percentage of isolates from oysters (19.4%) were type AB (both primer sets amplified), but no isolates from overlying waters were type AB. The real-time PCR assays were sensitive, specific, and quantitative in water samples and could also differentiate the strains in oysters without requiring isolation of V. vulnificus and may therefore be useful for rapid detection of the pathogen in shellfish and water, as well as further investigation of its population dynamics.     

Molecular Typing of Environmental and Clinical Strains of Vibrio vulnificus Isolated in the Northeastern USA

Vibrio vulnificus is a ubiquitous marine bacterium that is responsible for infections and some seafood-related illnesses and deaths in the United States, mainly in individuals with compromised health status in the Gulf of Mexico region. Most phylogenetic studies focus on V. vulnificus strains isolated in the southern United States, but almost no genetic data are available on northeastern bacterial isolates of clinical or environmental origin. Our goal in this study was to examine the genetic diversity of environmental strains isolated from commercially-produced oysters and in clinical strains of known pathogenicity in northeastern United States. We conducted analyses of a total of eighty-three strains of V. vulnificus, including 18 clinical strains known to be pathogenic. A polyphasic, molecular-typing approach was carried out, based upon established biotypes, vcg, CPS, 16S rRNA types and three other genes possibly associated with virulence (arylsulfatase A, mtlABC, and nanA). An established Multi Locus Sequence Typing (MLST) method was also performed. Phylogenetic analyses of these markers and MLST results produced similar patterns of clustering of strains into two main lineages (we categorized as ‘LI’ and ‘LII’), with clinical and environmental strains clustering together in both lineages. Lineage LII was comprised primarily but not entirely of clinical bacterial isolates. Putative virulence markers were present in both clinical and environmental strains. These results suggest that some northeastern environmental strains of V. vulnificus are phylogenetically close to clinical strains and probably are capable of virulence. Further studies are necessary to assess the risk of human illness from consuming raw oysters harvested in the northeastern US.     

Multi-site Analysis Reveals Widespread Antibiotic Resistance in the Marine Pathogen <Emphasis Type="Italic">Vibrio vulnificus</Emphasis>

Vibrio vulnificus is a serious opportunistic human pathogen commonly found in subtropical coastal waters, and is the leading cause of seafood-borne mortality in the USA. This taxon does not sustain prolonged presence in clinical or agricultural settings, where it would undergo human-induced selection for antibiotic resistance. Therefore, few studies have verified the effectiveness of commonly prescribed antibiotics in V. vulnificus treatment. Here we screened 151 coastal isolates and 10 primary septicaemia isolates against 26 antimicrobial agents representing diverse modes of action. The frequency of multiple resistances to antibiotics from all sources was unexpectedly high, particularly during summer months, and a substantial proportion of isolates (17.3%) were resistant to eight or more antimicrobial agents. Numerous isolates demonstrated resistance to antibiotics routinely prescribed for V. vulnificus infections, such as doxycycline, tetracycline, aminoglycosides and cephalosporins. These resistances were detected at similar frequencies in virulent and non-virulent strains (PCR-based virulence typing) and were present in septicaemia isolates, underlying the public health implications of our findings. Among environmental isolates, there were no consistent differences in the frequency of resistance between pristine and anthropogenically impacted estuaries, suggesting natural rather than human-derived sources of resistance traits. This report is the first to demonstrate prevalent antibiotic resistance in a human pathogen with no clinical reservoirs, implying the importance of environmental studies in understanding the spread, evolution and public health relevance of antibiotic resistance factors. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Genetic Characterization of Vibrio vulnificus Strains from Tilapia Aquaculture in Bangladesh

Outbreaks of Vibrio vulnificus wound infections in Israel were previously attributed to tilapia aquaculture. In this study, V. vulnificus was frequently isolated from coastal but not freshwater aquaculture in Bangladesh. Phylogenetic analyses showed that strains from Bangladesh differed remarkably from isolates commonly recovered elsewhere from fish or oysters and were more closely related to strains of clinical origin.Vibrio vulnificus causes severe wound infections and life-threatening septicemia (mortality, >50%), primarily in patients with underlying chronic diseases (10, 19, 23) and primarily from raw oyster consumption (21). This Gram-negative halophile is readily recovered from oysters (27, 35, 43) and fish (14) and was initially classified into two biotypes (BTs) based on growth characteristics and serology (5, 18, 39). Most human isolates are BT1, while BT2 is usually associated with diseased eels (1, 39). An outbreak of wound infections from aquacultured tilapia in Israel (6) revealed a new biotype (BT3). Phenotypic assays do not consistently distinguish biotypes (33), but genetic analyses have helped resolve relationships (20). A 10-locus multilocus sequence typing (MLST) scheme (8, 9) and a similar analysis of 6 loci (13) segregated V. vulnificus strains into two clusters. BT1 strains were in both clusters, while BT2 segregated into a single cluster and BT3 was a genetic mosaic of the two lineages. Significant associations were observed between MLST clusters and strain origin: most clinical strains (BT1) were in one cluster, and the other cluster was comprised mostly of environmental strains (some BT1 and all BT2). Clinical isolates were also associated with a unique genomic island (13).The relationship between genetic lineages and virulence has not been determined, and confirmed virulence genes are universally present in V. vulnificus strains from both clinical and environmental origins (19, 23). However, segregation of several polymorphic alleles agreed with the MLST analysis and correlated genotype with either clinical or environmental strain origin. Alleles include 16S rRNA loci (15, 26, 42), a virulence-correlated gene (vcg) locus (31, 41, 42), and repetitive sequence in the CPS operon (12). DiversiLab repetitive extrageneic palindromic (rep-PCR) analysis also confirmed these genetic distinctions and showed greater diversity among clinical strains (12).Wound infections associated with tilapia in Israel implicated aquaculture as a potential source of V. vulnificus in human disease (6, 40). Tilapia aquaculture is increasing rapidly, as shown by a 2.8-fold increase in tons produced from 1998 to 2007 (Food and Agriculture Organization; http://www.fao.org/fishery/statistics/en). Therefore, presence of V. vulnificus in tilapia aquaculture was examined in Bangladesh, a region that supports both coastal and freshwater sources of industrial-scale aquaculture. V. vulnificus strains were recovered from market fish, netted fish, and water samples, and the phylogenetic relationship among strains was examined relative to clinical and environmental reference strains collected elsewhere.     

The antifouling potentiality of galactosamine characterized from Vibrio vulnificus exopolysaccharide

To gain a better insight into biofilm composition, the exopolysaccharide (EPS) of the Gram-negative bacterium Vibrio vulnificus was studied. Monosaccharide composition analysis of the wild-type and mutant V. vulnificus EPS carried out with Bio-liquid chromatography revealed the presence of d-glucosamine, d-galactose, d-glucose and d-xylose in both strains. d-Galactosamine was found only in the mutant that formed less biofilm compared to its wild-type. The influence of galactosamine on biofilm formation was then studied by adding this substance gradually to six different Gram-negative/positive bacteria associated with various autoinducers. Four bacterial species known to use the autoinducer type-2 signaling system produced less biofilm in the presence of galactosamine. No significant inhibition of biofilm formation was observed in bacteria that produce autoinducer type-1 signal molecules. Galactosamine was also immobilized on polymeric nanofibers to determine its re-usability for the study of biofilm inhibition. The immobilized galactosamine retained >65% of its initial antifouling activity after 10 repeated uses. The results of this study suggest the antifouling role of galactosamine for bacteria that produce AI-2.     

Population Genetics of Vibrio vulnificus: Identification of Two Divisions and a Distinct Eel-Pathogenic Clone

Genetic relationships among 62 Vibrio vulnificus strains of different geographical and host origins were analyzed by multilocus enzyme electrophoresis (MLEE), random amplification of polymorphic DNA (RAPD), and sequence analyses of the recA and glnA genes. Out of 15 genetic loci analyzed by MLEE, 11 were polymorphic. Cluster analysis identified 43 distinct electrophoretic types (ETs) separating the V. vulnificus population into two divisions (divisions Ι and ΙΙ). One ET (ET 35) included all indole-negative isolates from diseased eels worldwide (biotype 2). A second ET (ET 2) marked all of the strains from Israel isolated from patients who handled St. Peter's fish (biotype 3). RAPD analysis of the 62 V. vulnificus isolates identified 26 different profiles separated into two divisions as well. In general, this subdivision was comparable (but not identical) to that observed by MLEE. Phylogenetic analysis of 543 bp of the recA gene and of 402 bp of the glnA gene also separated the V. vulnificus population into two major divisions in a manner similar to that by MLEE and RAPD. Sequence data again indicated the overall subdivision of the V. vulnificus population into different biotypes. In particular, indole-negative eel-pathogenic isolates (biotype 2) on one hand and the Israeli isolates (biotype 3) on the other tended to cluster together in both gene trees. None of the methods showed an association between distinct clones and human clinical manifestations. Furthermore, except for the Israeli strains, only minor clusters comprising geographically related isolates were observed. In conclusion, all three approaches (MLEE, RAPD, and DNA sequencing) generated comparable but not always equivalent results. The significance of the two divisions (divisions Ι and ΙΙ) still remains to be clarified, and a reevaluation of the definition of the biotypes is also needed.     

Role of Iron in Human Serum Resistance of the Clinical and Environmental Vibrio vulnificus Genotypes

We recently reported a simple PCR procedure that targets a sequence variation of the virulence-correlated gene locus vcg. It was found that 90% of all clinical isolates possessed the vcgC sequence variant, while 93% of all environmental isolates possessed the vcgE sequence variant. Here we report that the clinical genotype of Vibrio vulnificus is significantly better able to survive in human serum than is the environmental genotype. The presence of a siderophore-encoding gene, viuB, influenced serum survivability among all isolates of V. vulnificus tested. Those strains positive for viuB (all C-type strains but very few E-type strains) showed greater serum survivability than those lacking viuB (most E-type strains). The addition of iron (in the form of ferric ammonium citrate) to human serum restored the survival of E-type strains lacking viuB to levels not significantly different from those of C-type and E-type strains that possess viuB. These findings suggest that viuB may dictate serum survival in both C- and E-type strains of V. vulnificus and may explain why some strains (C- and E-type strains) are pathogenic and others (predominately E-type strains) are not. Additionally, C-type strains exhibited a cross-protective response against human serum, not exhibited by E-type strains, after incubation under nutrient and osmotic downshift conditions that mimicked estuarine waters. This suggests that the nutrient/osmotic environment may influence the survival of V. vulnificus following entry into the human body, leading to selection of the C genotype over the E genotype.     

DNA base composition and taxonomy of someAcinetobacter strains

The DNA base composition of a group of numerically analyzed acinetobacters was determined. Seven strains ofAcinetobacter anitratus appear to form a homogeneous group with S>90% and ca. 42.1 % GC.A. Iwoffii is less homogeneous. Most of the strains have around 46.6 % GC and a broad compositional distribution with 2=3.8 C. Two other small groups have a % GC of 44.8±0.3 and 42.1±1 % GC. The DNA characteristics of the latter group are indistinguishable fromA. anitratus-DNA. ThreeAlcaligenes faecalis strains have 58.8 % GC. Numerical analysis suggests that they might be related toBordetella bronchiseptica, but the % GC of the latter (69.5) shows that the relationship is only remote.     

Occurrence of Vibrio vulnificus Biotypes in Danish Marine Environments

During the unusually warm summer in Denmark in 1994, 11 clinical cases of Vibrio vulnificus infection were reported. These reports initiated an investigation of the occurrence of V. vulnificus biotypes in Danish marine environments. Samples of coastal water, sediment, shellfish, and wild fish were analyzed by preenrichment in alkaline peptone water amended with polymyxin B (2.0 × 10⁴ U/liter) followed by streaking onto modified cellobiose-polymyxin B-colistin agar. V. vulnificus-like colonies were tested with a V. vulnificus-specific DNA probe. Low densities of V. vulnificus were detected in water (0.8 to 19 CFU/liter) from June until mid-September and in sediment (0.04 to >11 CFU/g) from July until mid-November. The presence of V. vulnificus was strongly correlated with water temperature. However, we isolated V. vulnificus from water from a mussel farm at a lower temperature than previously reported (7°C). In 1 of the 13 locations studied, V. vulnificus was found in mussels in 7 of 17 samples analyzed; this is the first report of V. vulnificus in European shellfish. V. vulnificus was also isolated from gills, intestinal contents, and mucus from wild fish. Although biotyping of 706 V. vulnificus strains isolated during our investigations revealed that the majority of the strains (99.6%) belonged to biotype 1, biotype 2 was detected in seawater at a low frequency (0.4%). Our findings provide further evidence that seawater can serve as a reservoir and might facilitate spread of V. vulnificus biotype 2 to eels, with subsequent spread to persons handling eels. In conclusion, our data demonstrate that V. vulnificus is ubiquitous in a temperate marine environment and that V. vulnificus biotype 2 is not strictly confined to eels.     

Vibrio virulence genes in fishes collected from estuarine waters in Italy

Aims: The aim of this study was to investigate the presence of Vibrio vulnificus and potentially pathogenic strains of Vibrio parahaemolyticus in mullets collected from estuarine environment in Italy. Methods and Results: Two hundred and ninety‐five mullets were analysed by culture using the selective medium thiosulfate citrate bile salt sucrose agar, during a monitoring period of 2 years (2008–2009). Presumptive Vibrio colonies were initially identified by using biochemical tests, and strains identified as V. parahaemolyticus and V. vulnificus were subsequently examined by PCR for the presence of species‐specific and virulence genes (toxR, trh, tdh and vvh). V. parahaemolyticus was found in 55% (162/295) of fishes and V. vulnificus in 1% (3/295) with a higher presence in summer months. The trh+/tdh? strains were detected in 16% (47/295) of samples and only one strain resulted trh+/tdh+. One of the V. parahaemolyticus trh+ strains isolated belonged to the O1:KUT (K untypeable), a serotype recently associated to gastroenteritis in Italy. Conclusions: This is the first report demonstrating a high percentage of potential pathogenic V. parahaemolyticus trh+ strains in estuarine fishes of the Mediterranean area. Significance and Impact of the Study: These findings indicate the potential human health risk associated with the presence of pathogenic Vibrio spp. in wild fishes.     

创伤弧菌毒力相关因子的全基因组关联分析研究

【目的】创伤弧菌是致死率最高的弧菌物种,但目前尚无在全基因组层面挖掘毒力相关因子的研究。本研究以创伤弧菌分离来源(临床和环境)作为不同表型,通过与260株基因组序列进行关联分析,挖掘毒力相关因子,从而进一步了解创伤弧菌致病因素。【方法】对139株创伤弧菌分离株进行高通量测序,获取其全基因组序列;与公共数据库已公开发表的121株基因组整合,使用pyseer软件进行全基因组关联分析,对与不同分离来源显著相关的基因进行注释和解读。【结果】共发现11个基因与临床分离株显著相关,其中9个是本研究新发现的创伤弧菌潜在毒力相关因子。【结论】本研究使用群体基因组学和统计遗传学方法,在全基因组范围扫描挖掘了创伤弧菌毒力相关因子,为深入揭示该物种致病机制、设计新的疫苗和治疗靶点提供了重要依据。     

Phenotypic characterization of clinical and environmental isolates ofVibrio cholerae from Australia

One hundred fifty-seven isolates possessing the biochemical traits associated withVibrio cholerae were submitted to an extensive phenotypic characterization. A numerical analysis of the results suggested that isolates presently assigned to the biotypescholerae, eltor, andalbensis ofV. cholerae do not possess consistent phenotypic differences supporting their separation into distinct biotypes. The results further indicated that clinical and environmental isolates of non-O1 serotypes ofV. cholerae are phenotypically indistinguishable from strains ofV. cholerae serotype O1. This study also confirmed the persistent presence ofV. cholerae in the Australian environment.