Molecular comparative studies among Blastocystis isolates obtained from humans and animals

This study compared specific polymerase chain reaction (PCR) primers and phylogenetic tree analysis of restriction fragment length polymorphism using the small subunit ribosomal RNA gene in various Blastocystis populations. A phylogenetic tree was constructed using 12 restriction enzymes and a sample pool of 22 isolates, including 2 reference strains and Proteromonas lacertae as an outgroup. The analysis showed that the 22 isolates could be separated into 7 clusters. Four of the 7 clusters were mixed groups that comprised isolates from both humans and nonhuman hosts. The other 3 clusters contained isolates from humans or nonhuman hosts only. The phylogenetic analysis also showed that B. hominis isolates from geographical separated areas did not necessarily cluster in the genetically different groups. The results of genetic homology and phylogenetic tree analysis among Blastocystis isolates from humans and animals indicated that all isolates from animals appear to be B. hominis. Polymerase chain reaction amplifications using previously described and newly defined specific primers mirrored the clusters obtained by the phylogenetic tree analysis. Our results show that primer PCR can be used as a powerful tool for the typing of Blastocystis populations.     

The hemolytic enterotoxin HBL is broadly distributed among species of the Bacillus cereus group

The prevalence of the hemolytic enterotoxin complex HBL was determined in all species of the Bacillus cereus group with the exception of Bacillus anthracis. hblA, encoding the binding subunit B, was detected by PCR and Southern analysis and was confirmed by partial sequencing of 18 strains. The sequences formed two clusters, one including B. cereus and Bacillus thuringiensis strains and the other one consisting of Bacillus mycoides, Bacillus pseudomycoides, and Bacillus weihenstephanensis strains. From eight B. thuringiensis strains, the enterotoxin gene hblA could be amplified. Seven of them also expressed the complete HBL complex as determined with specific antibodies against the L(1), L(2), and B components. Eleven of 16 B. mycoides strains, all 3 B. pseudomyoides strains, 9 of 15 B. weihenstephanensis strains, and 10 of 23 B. cereus strains carried hblA. While HBL was not expressed in the B. pseudomycoides strains, the molecular assays were in accordance with the immunological assays for the majority of the remaining strains. In summary, the hemolytic enterotoxin HBL seems to be broadly distributed among strains of the B. cereus group and relates neither to a certain species nor to a specific environment. The consequences of this finding for food safety considerations need to be evaluated.     

Sequence diversity of the Bacillus thuringiensis and B. cereus sensu lato flagellin (H antigen) protein: comparison with H serotype diversity

We set out to analyze the sequence diversity of the Bacillus thuringiensis flagellin (H antigen [Hag]) protein and compare it with H serotype diversity. Some other Bacillus cereus sensu lato species and strains were added for comparison. The internal sequences of the flagellin (hag) alleles from 80 Bacillus thuringiensis strains and 16 strains from the B. cereus sensu lato group were amplified and cloned, and their nucleotide sequences were determined and translated into amino acids. The flagellin allele nucleotide sequences for 10 additional strains were retrieved from GenBank for a total of 106 Bacillus species and strains used in this study. These included 82 B. thuringiensis strains from 67 H serotypes, 5 B. cereus strains, 3 Bacillus anthracis strains, 3 Bacillus mycoides strains, 11 Bacillus weihenstephanensis strains, 1 Bacillus halodurans strain, and 1 Bacillus subtilis strain. The first 111 and the last 66 amino acids were conserved. They were referred to as the C1 and C2 regions, respectively. The central region, however, was highly variable and is referred to as the V region. Two bootstrapped neighbor-joining trees were generated: a first one from the alignment of the translated amino acid sequences of the amplified internal sequences of the hag alleles and a second one from the alignment of the V region amino acid sequences, respectively. Of the eight clusters revealed in the tree inferred from the entire C1-V-C2 region amino acid sequences, seven were present in corresponding clusters in the tree inferred from the V region amino acid sequences. With regard to B. thuringiensis, in most cases, different serovars had different flagellin amino acid sequences, as might have been expected. Surprisingly, however, some different B. thuringiensis serovars shared identical flagellin amino acid sequences. Likewise, serovars from the same H serotypes were most often found clustered together, with exceptions. Indeed, some serovars from the same H serotype carried flagellins with sufficiently different amino acid sequences as to be located on distant clusters. Species-wise, B. halodurans, B. subtilis, and B. anthracis formed specific branches, whereas the other four species, all in the B. cereus sensu lato group, B. mycoides, B. weihenstephanensis, B. cereus, and B. thuringiensis, did not form four specific clusters as might have been expected. Rather, strains from any of these four species were placed side by side with strains from the other species. In the B. cereus sensu lato group, B. anthracis excepted, the distribution of strains was not species specific.     

Genetic relationship in the 'Bacillus cereus group' by rep-PCR fingerprinting and sequencing of a Bacillus anthracis-specific rep-PCR fragment

AIMS: To evaluate the genetic relationship in the Bacillus cereus group by rep-PCR fingerprinting. METHODS AND RESULTS: A collection of 112 strains of the six species of the B. cereus group was analysed by rep-PCR fingerprinting using the BOX-A1R primer. A relative genetic distinctness was found among the species. Cluster analysis of the rep-PCR patterns showed clusters of B. thuringiensis strains quite separate from those of B. cereus strains. The B. anthracis strains represented an independent lineage in a B. cereus cluster. The B. mycoides, B. pseudomycoides and B. weihenstephanensis strains were clustered into three groups at some distance from the other species. Comparison of sequences of AC-390, a typical B. anthracis rep-PCR fragment, from 27 strains of B. anthracis, B. cereus, B. thuringiensis and B. weihenstephanensis, representative of different clusters identified by rep-PCR fingerprinting, confirmed that B. anthracis diverges from its related species. CONCLUSIONS: The genetic relationship deduced from the rep-PCR patterns indicates a relatively clear separation of the six species, suggesting that they can indeed be considered as separate units. SIGNIFICANCE AND IMPACT OF THE STUDY: rep-PCR fingerprinting can make a contribution in the clarification of the genetic relationships between the species of the B. cereus group.     

Application of the multiplex PCR and PCR-RFLP method in the identification of the Bacillus anthracis

The aim of this study was to apply the multiplex PCR and PCR-RFLP method for the identification of the B. anthracis strains and to distinguish those bacteria from other members of the Bacillus cereus group. The multiplex PCR method enables to detect the virulence factors, i.e. the toxin and the capsule in B. anthracis strains. To do that, the authors have used 5 primer pairs specific for the fragments of lef, cya, pag genes which are present in the pXO1 plasmid and encode the toxin, the cap gene, which is present in the pXO2 plasmid and encodes the capsule, and the Ba813 chromosomal sequence. Among the four B. anthracis strains examined, three contained two plasmids and the Ba813 chromosomal sequence, while the fourth one contained the pXO1 plasmid only, together and the Ba813 chromosomal sequence. Other bacterial species, belonging to the B. cereus group, were also examined: 6 strains of B. cereus, 4 strains of B. thuringiensis and one strain of B. mycoides. The presence of Ba813 chromosomal sequence has been detected in two B. cereus strains. Neither plasmids nor Ba813 chromosomal sequence have been discovered in other B. cereus, B. thuringiensis and B. mycoides strains. The results of the survey indicate that the Ba813 chromosomal sequence does not occur solely in B. anthracis strains. The PCR-RFLP method with the use of SG-749f and SG-749r primers enabled to demonstrate the presence of DNA sequence (SG-749) in B. anthracis, B. cereus, B. thuringiensis and B. mycoides strains. Restriction analysis with enzyme AluI of the SG-749 sequence, has shown the presence of two DNA fragments at the size of about 90 and 660 bp in all B. anthracis strains. The restriction profile obtained was characteristic for B. anthracis strains and it did not occur in other investigated bacterial species belonging to the B. cereus group. It was not observed even in such B. cereus strains in which the presence of Ba813 sequence was discovered and it enabled to differentiate between B. anthracis strains and other closely related species of the B. cereus group.     

A randomly amplified polymorphic DNA marker specific for the Bacillus cereus group is diagnostic for Bacillus anthracis

Aiming to develop a DNA marker specific for Bacillus anthracis and able to discriminate this species from Bacillus cereus, Bacillus thuringiensis, and Bacillus mycoides, we applied the randomly amplified polymorphic DNA (RAPD) fingerprinting technique to a collection of 101 strains of the genus Bacillus, including 61 strains of the B. cereus group. An 838-bp RAPD marker (SG-850) specific for B. cereus, B. thuringiensis, B. anthracis, and B. mycoides was identified. This fragment included a putative (366-nucleotide) open reading frame highly homologous to the ypuA gene of Bacillus subtilis. The restriction analysis of the SG-850 fragment with AluI distinguished B. anthracis from the other species of the B. cereus group.     

Partial sequencing of sodA gene and its application to identification of Streptococcus dysgalactiae subsp. dysgalactiae isolated from farmed fish

AIMS: To investigate the difference between Lancefield group C Streptococcus dysgalactiae (GCSD) strains isolated from diseased fish and animals by sequencing and phylogenetic analysis of the sodA gene. METHODS AND RESULTS: The sodA gene of Strep. dysgalactiae strains isolated from fish and animals were amplified and its nucleotide sequences were determined. Although 100% sequence identity was observed among fish GCSD strains, the determined sequences from animal isolates showed variations against fish isolate sequences. Thus, all fish GCSD strains were clearly separated from the GCSD strains of other origin by using phylogenetic tree analysis. In addition, the original primer set was designed based on the determined sequences for specifically amplify the sodA gene of fish GCSD strains. The primer set yield amplification products from only fish GCSD strains. CONCLUSIONS: By sequencing analysis of the sodA gene, the genetic divergence between Strep. dysgalactiae strains isolated from fish and mammals was demonstrated. Moreover, an original oligonucletide primer set, which could simply detect the genotype of fish GCSD strains was designed. SIGNIFICANCE AND IMPACT OF THE STUDY: This study shows that Strep. dysgalactiae isolated from diseased fish could be distinguished from conventional GCSD strains by the difference in the sequence of the sodA gene.     

Markers for species-specific detection of bacteria from Bacillus cereus group

rpoB and gyr genes (and their fragments) of chromosomal DNA of bacteria from Bacillus cereus group - B. anthracis, B. cereus, and B. thuringiensis - which are the potential markers for their genotyping were sequenced and phylogenetic trees were constructed. Sets of primers for species-specific detection of B. anthracis, B. cereus, and B. thuringiensis by multiplex polymerase chain reaction were designed. Also primers sets, which allow to differentiate strains of B. anthracis with various plasmid profiles (containing both plasmids (pXO1+, pXO2+), and without one (pXO1+, pXO2- or pXO1-, pXO2+) or both plasmids (pXO1-, pXO2-), determining pathogenic characteristics of the strains, were developed. For multiplex PCR primer sets were optimized on the annealing temperature of primers and amplicon length. Itwas shown that phylogenetic tree can be applied as an indicator of reliability and accuracy of taxonomical classification of microorganisms' species and subspecies. Comparison of pXO1 and pXO2 plasmid sequences of B. anthracis showed that these plasmids contain 18 and 4 palindrome sequences respectively which can potentially form thermodynamically stable hairpin-loop structures.     

Enterotoxigenic profiles and polymerase chain reaction detection of Bacillus cereus group cells and B. cereus strains from foods and food-borne outbreaks

Bacillus cereus is one of the important food pathogens. Since B. cereus group cells, such as B. cereus, B. thuringiensis, B. anthracis and B. mycoides, share many phenotypical properties and a high level of chromosomal sequence similarity, it is interesting to investigate the virulence profiles for B. cereus group cells, including B. cereus strains isolated from foods and samples associated with food-poisoning outbreaks. For this investigation, the presence of enterotoxin genes, such as those of haemolysin BL, B. cereus enterotoxin T and enterotoxin FM, were assayed by polymerase chain reaction (PCR) methods. Meanwhile, their enterotoxin activities were assayed using the BCET-RPLA kit, haemolytic patterns on sheep blood agar and their cytotoxicity to Chinese hamster ovary (CHO) cells. Results showed that there were 12 enterotoxigenic profiles for the 98 B. cereus group strains collected. In addition, if any of the three types of enterotoxins was present in the B. cereus group cells, these cells were shown to be cytotoxic to the CHO cells. Similar enterotoxigenic profiles could be found among strains of B. cereus, B. mycoides and B. thuringiensis. Thus, all B. cereus group strains may be potentially toxigenic and the detection of these cells in foods is important. We thus designed PCR primers, termed Ph1/Ph2, from the sphingomyelinase gene of B. cereus cells. These primers were specific for all B. cereus group strains and could be used for the detection of B. cereus cells contaminated in food samples.     

Evaluation of the diversity of cyclodextrin-producing Paenibacillus graminis strains isolated from roots and rhizospheres of different plants by molecular methods

To address the diversity of cyclodextrin-producing P. graminis strains isolated from wheat roots and rhizospheres of maize and sorghum sown in Australia, Brazil, and France, restriction fragment length polymorphism analysis of part of genes encoding RNA polymerase (rpoB-RFLP) and DNA gyrase subunit B (gyrB-RFLP) was used to produce genetic fingerprints. A phylogenetic tree based on rpoB gene sequences was also constructed. The isolates originated from Brazil could be separated from those from Australia and France, when data from the rpoB-based phylogenetic tree or gyrB-RFLP were considered. These analyses also allowed the separation of all P. graminis strains studied here into four clusters; one group formed by the strains GJK201 and RSA19T, second group formed by the strains MC22.02 and MC04.21, third group formed by the strains TOD61, TOD 221, TOD302, and TOD111, and forth group formed by all strains isolated from plants sown in Cerrado soil, Brazil. As this last group was formed by strains isolated from sorghum and maize sown in the same soil (Cerrado) in Brazil, our results suggest that the diversity of these P. graminis strains is more affected by the soil type than the plant from where they have been isolated.     

Structures of and allelic diversity and relationships among the major outer membrane protein (ompA) genes of the four chlamydial species.

DNA sequences coding for 81% of the ompA gene from 24 chlamydial strains, representing all chlamydial species, were determined from DNA amplified by polymerase chain reactions. Chlamydial strains of serovars and strains with similar chromosomal restriction fragment length polymorphism had identical ompA DNA sequences. The ompA sequences were segregated into 23 different ompA alleles and aligned with each other, and phylogenetic relationships among them were inferred by neighbor-joining and maximum parsimony analyses. The neighbor-joining method produced a single phylogram which was rooted at the branch between two major clusters. One cluster included all Chlamydia trachomatis ompA alleles (trachoma group). The second cluster was composed of three major groups of ompA alleles: psittacosis group (alleles MN, 6BC, A22/M, B577, LW508, FEPN, and GPIC), pneumonia group (Chlamydia pneumoniae AR388 with the allele KOALA), and polyarthritis group (ruminant and porcine chlamydial alleles LW613, 66P130, L71, and 1710S with propensity for polyarthritis). These groups were distinguished through specific DNA sequence signatures. Maximum parsimony analysis yielded two equally most parsimonious phylograms with topologies similar to the ompA tree of neighbor joining. Two phylograms constructed from chlamydial genomic DNA distances had topologies identical to that of the ompA phylogram with respect to branching of the chlamydial species. Human serovars of C. trachomatis with essentially identical genomes represented a single taxonomic unit, while they were divergent in the ompA tree. Consistent with the ompA phylogeny, the porcine isolate S45, previously considered to be Chlamydia psittaci, was identified as C. trachomatis through biochemical characteristics. These data demonstrate that chlamydial ompA allelic relationships, except for human serovars of C. trachomatis, are cognate with chromosomal phylogenies.     

Genotypic characterization of Burkholderia cenocepacia strains by rep-PCR and PCR-RFLP of the fliC gene

Thirty-five strains of Burkholderia cenocepacia from clinical and environmental sources were characterized genotypically by repetitive sequence PCR (ERIC- and BOX-PCR) and polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) analysis of the flagellin gene (fliC). In cluster analysis based on the repetitive PCR profiles the strains were composed of five clusters, of which clusters 1, 2 and 3 were more closely related to each other than to clusters 4 and 5. It has been reported that the majority of Burkholderia cepacia complex strains can be separated into two types on the basis of fliC size (types I and II correspond to 1.4 and 1.0 kb, respectively). When the strains were analysed by PCR of fliC, all strains yielded amplified products of 1.0 kb except for three strains. The latter strains gave PCR products of 0.7 kb (atypical type), which belonged to repetitive PCR cluster 5. These results indicated that the majority of B. cenocepacia strains belonged to flagellin type II. In the RFLP analysis of the large fliC amplicons with HaeIII, 10 patterns were observed indicating remarkable variation. Strains grouping in repetitive PCR cluster 4 had a unique fliC RFLP pattern. The results of repetitive PCR typing and PCR-RFLP analysis of fliC showed a strong correlation. Strains belonging to the repetitive PCR clusters 4 or 5 were distinctly different from other B. cenocepacia strains as shown by PCR-RFLP analysis of the fliC gene and phenotypic assays.     

Bacillus anthracis diverges from related clades of the Bacillus cereus group in 16S-23S ribosomal DNA intergenic transcribed spacers containing tRNA genes

Mung bean nuclease treatment of 16S-23S ribosomal DNA intergenic transcribed spacers (ITS) amplified from several strains of the six species of the Bacillus cereus group showed that B. anthracis Davis TE702 and B. mycoides G2 have other intermediate fragments in addition to the 220- and 550-bp homoduplex fragments typical of the B. cereus group. Long and intermediate homoduplex ITS fragments from strains Davis TE702 and G2 and from another 19 strains of the six species were sequenced. Two main types of ITS were found, either with two tRNA genes (tRNA(Ile) and tRNA(Ala)) or without any at all. Strain Davis TE702 harbors an additional ITS with a single tRNA gene, a hybrid between the tRNA(Ile) and tRNA(Ala) genes, suggesting that a recombination event rather than a deletion generated the single tDNA-containing ITS. Strain G2 showed an additional ITS of intermediate length with no tDNA and no similarity to other known sequences. Neighbor-joining analysis of tDNA-containing long ITS indicated that B. cereus and B. thuringiensis represent a single clade. Three signature sequences discriminated B. anthracis from B. cereus and B. thuringiensis, indicating that the anthrax agent started evolving separately from the related clades of the B. cereus group. B. mycoides and B. weienstephanensis were very closely related, while B. pseudomycoides appeared the most distant species.     

Multiple-locus sequence typing analysis of Bacillus cereus and Bacillus thuringiensis reveals separate clustering and a distinct population structure of psychrotrophic strains

We used multilocus sequence typing (MLST) to characterize phylogenetic relationships for a collection of Bacillus cereus group strains isolated from forest soil in the Paris area during a mild winter. This collection contains multiple strains isolated from the same soil sample and strains isolated from samples from different sites. We characterized 115 strains of this collection and 19 other strains based on the sequences of the clpC, dinB, gdpD, panC, purF, and yhfL loci. The number of alleles ranged from 36 to 53, and a total of 93 allelic profiles or sequence types were distinguished. We identified three major strain clusters-C, T, and W-based on the comparison of individual gene sequences or concatenated sequences. Some less representative clusters and subclusters were also distinguished. Analysis of the MLST data using the concept of clonal complexes led to the identification of two, five, and three such groups in clusters C, T, and W, respectively. Some of the forest isolates were closely related to independently isolated psychrotrophic strains. Systematic testing of the strains of this collection showed that almost all the strains that were able to grow at a low temperature (6 degrees C) belonged to cluster W. Most of these strains, including three independently isolated strains, belong to two clonal complexes and are therefore very closely related genetically. These clonal complexes represent strains corresponding to the previously identified species Bacillus weihenstephanensis. Most of the other strains of our collection, including some from the W cluster, are not psychrotrophic. B. weihenstephanensis (cluster W) strains appear to comprise an effectively sexual population, whereas Bacillus thuringiensis (cluster T) and B. cereus (cluster C) have clonal population structures.     

Phylogenetic analysis of Bacillus cereus isolates from severe systemic infections using multilocus sequence typing scheme

Bacillus cereus strains from cases of severe or lethal systemic infections, including respiratory symptoms cases, were analyzed using multilocus sequence typing scheme of B. cereus MLST database. The isolates were evenly distributed between the two main clades, and 60% of them had allele profiles new to the database. Half of the collection's strains clustered in a lineage neighboring Bacillus anthracis phylogenetic origin. Strains from lethal cases with respiratory symptoms were allocated in both main clades. This is the first report of strains causing respiratory symptoms to be identified as genetically distant from B. anthracis. The phylogenetic location of the presented here strains was compared with all previously submitted to the database isolates from systemic infections, and were found to appear in the same clusters where clinical isolates from other studies had been assigned. It seems that the pathogenic strains are forming clusters on the phylogenetic tree.     

Homoduplex and heteroduplex polymorphisms of the amplified ribosomal 16S-23S internal transcribed spacers describe genetic relationships in the "Bacillus cereus group"

Bacillus anthracis, Bacillus cereus, Bacillus mycoides, Bacillus pseudomycoides, Bacillus thuringiensis, and Bacillus weihenstephanensis are closely related in phenotype and genotype, and their genetic relationship is still open to debate. The present work uses amplified 16S-23S internal transcribed spacers (ITS) to discriminate between the strains and species and to describe the genetic relationships within the "B. cereus group," advantage being taken of homoduplex-heteroduplex polymorphisms (HHP) resolved by polyacrylamide gel electrophoresis and silver staining. One hundred forty-one strains belonging to the six species were investigated, and 73 ITS-HHP pattern types were distinguished by MDE, a polyacrylamide matrix specifically designed to resolve heteroduplex and single-strand conformation polymorphisms. The discriminating bands were confirmed as ITS by Southern hybridization, and the homoduplex or heteroduplex nature was identified by single-stranded DNA mung bean nuclease digestion. Several of the ITS-HHP types corresponded to specific phenotypes such as B. anthracis or serotypes of B. thuringiensis. Unweighted pair group method arithmetic average cluster analysis revealed two main groups. One included B. mycoides, B. weihenstephanensis, and B. pseudomycoides. The second included B. cereus and B. thuringiensis, B. anthracis appeared as a lineage of B. cereus.     

Simultaneous detection and identification of Bacillus cereus group bacteria using multiplex PCR

Bacillus cereus group bacteria share a significant degree of genetic similarity. Thus, to differentiate and identify the Bacillus cereus group efficiently, a multiplex PCR method using the gyrB and groEL genes as diagnostic markers is suggested for simultaneous detection. The assay yielded a 400 bp amplicon for the groEL gene from all the B. cereus group bacteria, and a 253 bp amplicon from B. anthracis, 475 bp amplicon from B. cereus, 299 bp amplicon from B. thuringiensis, and 604 bp amplicon from B. mycoides for the gyrB gene. No nonspecific amplicons were observed with the DNA from 29 other pathogenic bacteria. The specificity and sensitivity of the B. cereus group identification using this multiplex PCR assay were evaluated with different kinds of food samples. In conclusion, the proposed multiplex PCR is a reliable, simple, rapid, and efficient method for the simultaneous identification of B. cereus group bacteria from food samples in a single tube.     

Differentiation of Bacillus anthracis and other 'Bacillus cereus group' bacteria using IS231-derived sequences

Abstract Sequences based on the conserved 20 bp inverted repeat of IS 231 variants were used as polymerase chain reaction-based fingerprinting primers of the member species of the Bacillus cereus group ( B. anthracis, B. cereus, B. thuringiensis and B. mycoides ), because of their close association with transposons, principally Tn 4430 in B. thuringiensis . Fingerprints of B. anthracis were simple, and specifically allowed its identification and sub-differentiation from other members of the group. Fingerprints for B. cereus were strain-specific; those for B. thuringensis gave a 1650 bp product, characteristic of 1S 231 variants A-F. The same reaction conditions gave one or two bands for both B. anthracis and B. cereus that differed by restriction endonuclease mapping from the B. thuringiensis PCR product and established IS 231 restriction maps; this does not preclude some kind of relationship between these products and IS 231 .     

Analysis of genomic diversity among photosynthetic stem-nodulating rhizobial strains from northeast Argentina

The genomic diversity among photosynthetic rhizobia from northeast Argentina was assessed. Forty six isolates obtained from naturally occurring stem and root nodules of Aeschynomene rudis plants were analyzed by three molecular typing methods with different levels of taxonomic resolution: repetitive sequence-based PCR (rep-PCR) genomic fingerprinting with BOX and REP primers, amplified 16S rDNA restriction analysis (ARDRA), and 16S-23S rDNA intergenic spacer-restriction fragment length polymorphism (IGS-RFLP) analysis. The in vivo absorption spectra of membranes of strains were similar in the near infrared region with peaks at 870 and 800 nm revealing the presence of light harvesting complex I, bacteriochlorophyll-binding polypeptides (LHI-Bchl complex). After extraction with acetone-methanol the spectra differed in the visible part displaying peaks belonging to canthaxanthin or spirilloxanthin as the main carotenoid complement. The genotypic characterization by rep-PCR revealed a high level of genomic diversity among the isolates and almost all the photosynthetic ones have identical ARDRA patterns and fell into one cluster different from Bradyrhizobium japonicum and Bradyrhizobium elkanii. In the combined analysis of ARDRA and rep-PCR fingerprints, 7 clusters were found including most of the isolates. Five of those contained only photosynthetic isolates; all canthaxanthin-containing strains grouped in one cluster, most of the other photosynthetic isolates were grouped in a second large cluster, while the remaining three clusters contained a few strains. The other two clusters comprising reference strains of B. japonicum and B. elkanii, respectively. The IGS-RFLP analysis produced similar clustering for almost all the strains. The 16S rRNA gene sequence of one representative isolate was determined and the DNA sequence analysis confirmed the position of photosynthetic rhizobia in a distinct phylogenetic group within the Bradyrhizobium rDNA cluster.     

三江源高寒草甸土固氮基因(nifH)的多样性和系统发育研究

首次利用PCR_RFLP和测序分析对位于青藏高原腹地的青海三江源保护区高寒草甸土壤微生物固氮基因（nifH）的多样性和系统发育进行了探讨。在2个样地中,共得到143个阳性克隆,用限制性内切酶MspⅠ和RsaⅠ进行RFLP分析后得到35个不同的RFLP谱带型,多样性为24.5%,其中ZD样品中获得82个阳性克隆和21个不同的RFLP谱带型,多样性为25.6％,而YS样品中获得61个阳性克隆和19个不同的RFLP谱带型,多样性为311％,2个样地中有5个相同的RFLP谱带型。在各样地都发现一个明显的优势种群,ZD样地的明显优势种群占克隆数的293%,YS的优势种群占克隆数的328%。对21个克隆进行了部分序列的测定,序列的相似性在71％～98％之间,在GenBank数据库中没有发现完全匹配的序列,因此这些序列可能代表着新的固氮生物株系。最后利用Clustal W与Mega软件和已有序列构建了系统发育树,结果发现,21个序列分为4个不同的簇,大部分的克隆与Proteobacteria的3个系统发育亚簇（α、β和γ）具有较高的相似性,其中主要的序列都落在第一和第二簇内。YS样地中的优势种群与α_Proteobacteria中的Rhodobacter sphaeroides具有较高的相似性,而ZD样地中的优势种群则与β_Proteobacteria中的Delftia tsuruhatensis具有较高的相似性。