dnaJ and gyrB gene sequence relationship among species and strains of genus Streptococcus

The dnaJ and gyrB nucleotide sequences were determined for members of the genus Streptococcus. The average similarity between the species tested was 76.4% (69.7-100%) for dnaJ and 75.9 (70.1-98.7%) for gyrB. These data indicated that the dnaJ and gyrB genes are more divergent and more discriminatory than the 16S rDNA gene. Furthermore, the variation in the dnaJ nucleotide sequences among the mitis group was greater than that of the gyrB nucleotide sequences, especially between Streptococcus pneumoniae and Streptococcus mitis. Subsequently, the high discrimination power of dnaJ within the mitis group was confirmed. Thus, we conclude that the dnaJ and gyrB genes are efficient alternative targets for the classification of the genus Streptococcus, and that dnaJ is suitable for phylogenetic analysis of closely related Streptococcus strains.     

Stenotrophomonas interspecies differentiation and identification by gyrB sequence analysis

Stenotrophomonas species are found commonly in environmental and clinical samples; Stenotrophomonas maltophilia is an important opportunistic pathogen of humans. Traditional phenotyping protocols, as well as genotyping by 16S rRNA gene sequence analysis, do not reliably distinguish the species of Stenotrophomonas. Sequence analyses of two targeted PCR-amplified regions of the gyrB gene, which encodes the β-subunit of DNA gyrase, enabled resolution and identification of these species. Most type strains of the different species of Stenotrophomonas exhibited more than 7% dissimilarity in the gyrB gene sequences. Among these, strains identified as the same species exhibited sequence dissimilarities up to 4.6% and 5.9% for the two regions, respectively. Strains identified as S. maltophilia, with 16S rRNA gene sequence similarities > 99.0%, were grouped within a 'S. maltophilia complex'; these organisms exhibited gyrB similarities as low as 93%. Many of these strains possessed genomic DNA similarities with the type strain of S. maltophilia CCUG 5866(T) below 70%. These data, including gyrB sequence comparisons, indicate that strains identified as S. maltophilia may comprise distinct, new species.     

拟诺卡氏菌16S rRNA,gyrB,sod和rpoB基因的系统发育分析

为了更好地了解拟诺卡氏菌属(Nocardiopsis)各物种间的系统发育关系,该属现有有效描述种的gyrB,sod和rpoB基因的部分序列被测定,结合16S rRNA基因,对拟诺卡氏菌属进行了系统发育重建。研究发现拟诺卡氏菌属gyrB,sod和rpoB基因的平均相似性分别为87.7%、87.3%和94.1%,而16S rRNA基因的平均相似性则达到96.65%,3个看家基因均比16S rRNA具有更高的分歧度。比较基于不同基因的系统树发现,由gyrB基因得到的系统树拓扑结构与16S rRNA得到的结构在亚群上基本一致。因此,gyrB基因在拟诺卡氏菌属的系统分类上比16S rRNA基因更具优越性。     

The phylogenetic significance of peptidoglycan types: Molecular analysis of the genera Microbacterium and Aureobacterium based upon sequence comparison of gyrB, rpoB, recA and ppk and 16SrRNA genes

The type strains of 27 species of the genus Microbacterium, family Microbacteriaceae, were analyzed with respect to the phylogeny of the housekeeping genes coding for DNA gyrase subunit B (gyrB), RNA-polymerase subunit B (rpoB), recombinase A (recA) and polyphosphate kinase (ppk). The resulting gene trees were compared to the 16S rRNA gene phylogeny of the same species. The topology of neighbour-joining and maximum parsimony phylogenetic trees based upon nucleic acid sequences and protein sequences of housekeeping genes differed among each other and no gene tree was identical to that of the 16S rRNA gene tree. Only some species showed consistent clustering by all genes analyzed, but the majority of species branched with different neighbours in most gene trees. The failure to phylogenetically cluster type strains into two groups based upon differences in the amino acid composition of peptidoglycan on the basis of 16S rRNA gene sequence similarity, once leading to the union of the genera Microbacterium and Aureobacterium, was also seen in the analysis of recA, rpoB and gyrB gene and protein phylogenies. Analysis of the pkk gene and protein as well as of a concatenate tree, combining sequences of all five genes (total of 3.700 nucleotides), sees members of the former genus Aureobacterium and other type strains with lysine as diagnostic diamino acid to form a coherent cluster that branches within the radiation of Microbacterium species with ornithine in the peptidoglycan.     

Development of PCR primers specific for the amplification and direct sequencing of gyrB genes from microbacteria, order Actinomycetales

PCR primer sets were developed for the specific amplification and sequence analyses encoding the gyrase subunit B (gyrB) of members of the family Microbacteriaceae, class Actinobacteria. The family contains species highly related by 16S rRNA gene sequence analyses. In order to test if the gene sequence analysis of gyrB is appropriate to discriminate between closely related species, we evaluate the 16S rRNA gene phylogeny of its members. As the published universal primer set for gyrB failed to amplify the responding gene of the majority of the 80 type strains of the family, three new primer sets were identified that generated fragments with a composite sequence length of about 900 nt. However, the amplification of all three fragments was successful only in 25% of the 80 type strains. In this study, the substitution frequencies in genes encoding gyrase and 16S rDNA were compared for 10 strains of nine genera. The frequency of gyrB nucleotide substitution is significantly higher than that of the 16S rDNA, and no linear correlation exists between the similarities of both molecules among members of the Microbacteriaceae. The phylogenetic analyses using the gyrB sequences provide higher resolution than using 16S rDNA sequences and seem able to discriminate between closely related species.     

Gene sequence heterogeneity of Corallococcus coralloides strains isolated from geographically diverse locations

Thirty-three strains classified as Corallococcus coralloides isolated from mostly soil samples in 14 countries of four continents, were subjected to phylogenetic analyses. Based on 16S rDNA analyses the strains form a highly related cluster, sharing above 98.7% sequence similarity. Four groups were recognized within this cluster, only one of which, containing two strains from St. Lucia, Lower Antilles, was exclusively defined by strains from the same sample. The other groups contained members from different countries, even continents. The largest group embraced the type strains of C. coralloides DSM 2259(T) and Corallococcus exiguus 14696(T) which were almost indistinguishable in their 16S rRNA gene sequence. Corallococcus macrosporus DSM 14697(T) grouped outside the C. coralloides cluster, showing a higher relationship to a member of Myxococcus. The topology of the tree generated on the basis of the partial gyrase B (gyrB) gene sequence supports the rRNA gene tree, though some differences in the order of branching were observed. As judged by the binary similarity values the higher resolution power of gyrB sequences was confirmed. From a taxonomic standpoint, the size of myxospores is not a valuable taxonomic criterion, as small- and medium-sized myxospores are members of the same group. If the species status of C. coralloides and C. exiguus is verified by other methods (e.g. DNA-DNA hybridisation, RiboTyping), the genus Corallococcus may embrace a broad range of yet-to-be described novel species. The presence of strains within the same sample displaying higher relatedness to strains from other locations points towards an intensive dispersal of myxospores across continents.     

Corresponding 16S rRNA gene segments in Rhizobiaceae and Aeromonas yield discordant phylogenies

Previous evidence has indicated that the 16S rRNA genes in certain species of Aeromonas may have a history of lateral transfer and recombination. A comparative analysis of patterns of 16S nucleotide sequence polymorphism among species of Rhizobium and Agrobacterium was conducted to determine if there is similar evidence for chimeric 16S genes in members of the Rhizobiaceae. Results from phylogenetic analyses and comparison of patterns of nucleotide sequence polymorphism in portions of rhizobial 16S genes revealed the same type of segment-dependent polymorphic site partitioning that was previously reported for Aeromonas. These results support the hypothesis that certain 16S segments in rhizobia may have a history of lateral transfer and recombination.Abbreviations 16S rRNA 16S ribosomal ribonucleic acid - 16S the 16S rRNA gene     

<Emphasis Type="Italic">Arthrobacter soli</Emphasis> sp. nov., a novel bacterium isolated from wastewater reservoir sediment

A novel Gram-positive bacterium, designated SYB2T, was isolated from wastewater reservoir sediment, and a polyphasic taxonomic study was conducted based on its morphological, physiological, and biochemical features, as well as the analysis of its 16S rRNA gene sequence. During the phylogenetic analysis of the strain SYB2T, results of a 16S rRNA gene sequence analysis placed this bacterium in the genus Arthrobacter within the family Micrococcaceae. SYB2T and Arthrobacter protophormiae ATCC 19271T, the most closely related species, both exhibited a 16S rRNA gene sequence similarity of 98.99%. The genomic DNA G+C content of the novel strain was found to be 62.0 mol%. The predominant fatty acid composition was anteiso-C15:0, anteiso-C17:0, iso-C16:0, and iso-C15:0. Analysis of 16S rRNA gene sequences and DNA-DNA relatedness, as well as physiological and biochemical tests, showed genotypic and phenotypic differences between strain SYB2T and other Arthrobacter species. The type strain of the novel species was identified as SYB2T (= KCTC 19291T= DSM 19449T).     

Aeromonas tecta sp. nov., isolated from clinical and environmental sources

Five Aeromonas strains, isolated from both clinical and environmental sources and characterized by a polyphasic approach, including phylogenetic analysis derived from gyrB, rpoD, and 16S rRNA gene sequencing, as well as DNA-DNA hybridization, extensive biochemical and antibiotic susceptibility tests, were recognized as members of an unknown, or undescribed, Aeromonas species. These "Aeromonas eucrenophila-like" strains were closely related to the species A. eucrenophila and Aeromonas encheleia, but they were negative for indole and acid from glycerol tests. Therefore, based on the results of the phylogenetic analyses and DNA-DNA pairing data of these strains, a novel species of the genus Aeromonas is described, for which the name Aeromonas tecta is proposed with isolate F518(T) (CECT7082(T), DSM17300(T), MDC91(T)) as the type strain.     

The complete nucleotide sequence of a 16S ribosomal RNA gene from tobacco chloroplasts: Recombinant plasmid; sequence homology; stem and loop structure

The complete nucleotide sequence of a 16S ribosomal RNA gene from tobacco chloroplasts has been determined. This nucleotide sequence has 96% homology with that of maize chloroplast 16S rRNA gene and 74% homology with that of Escherichia coli16S gene.The 3′ terminal region of this gene contains the sequence ACCTCC which is complementary to sequences found at the 5′ termini of prokaryotic mRNAs.The large stem and loop structure can be constructed from the sequences surrounding the 5′ and 3′ ends of the 16S gene. These observations demonstrate the prokaryotic nature of chloroplast 16S rRNA.     

The phylogeny of Mycoplasma bovis as determined by sequence analysis of the 16S rRNA gene

Abstract The nucleotide sequence of the 16S rRNA gene of Mycoplasma bovis has been determined. Comparisons with other 16S rRNA sequences of mycoplasmas showed that Mycoplasma agalactiae is phylogenetically the closet relative. In total, only eight nucleotides differed between the M. bovis and M. agalactiae 16S rRNA sequences. The phylogenetic position of M. bovis with respect to other mycoplasmas was determined by sequence comparisons and from features in the secondary structure of 16S rRNA.     

<Emphasis Type="Italic">Streptomyces tritolerans</Emphasis> sp. nov., a novel actinomycete isolated from soil in Karnataka,India

A Gram-positive, nonmotile, moderately halophilic, alkali and thermotolerant strain designated DAS 165(T), was isolated from a dry land soil sample from the Gulbarga region, Karnataka province, India. The isolate produced yellow substrate mycelia and gray aerial mycelia on most tested media. Strain DAS 165(T) showed growth in the presence of 5 to 7% NaCl and at 45 degrees C. The DNA G + C content was 69.7%. 16S rRNA gene sequence analysis together with these characteristics consistently assigned strain DAS 165(T) to the genus Streptomyces. The 16S rRNA gene sequence analysis revealed that strain DAS 165(T) was most closely related to S. tendae ATCC 19812(T) (D 63873) with a sequence similarity of 99.6% (three nucleotide differences out of 1,517). Strain DAS 165(T) formed a distinct clade based on analysis of the almost complete sequence and 120-nucleotide variable gamma region of the 16S rRNA gene. Despite the high sequence similarity, strain DAS 165(T) was phenotypically different from S. tendae ATCC 19812(T). DNA-DNA hybridization between these strains was 47% showing that strain DAS 165(T) is a distinct genomic species. Phenetic and genetic results support the classification of strain DAS 165(T) as a new species, for which the name S. tritolerans is proposed, with strain DAS 165(T) as the type strain (=DSM 41899(T )= CCTCCAA 206013(T)).     

<Emphasis Type="Italic">Acinetobacter soli</Emphasis> sp. nov., isolated from forest soil

A non-motile and rod shaped bacterium, designated strain B1(T), was isolated from forest soil at Mt. Baekwoon, Republic of Korea. Cells were Gram-negative, catalase-positive, and oxidase-negative. The major fatty acids were 9-octadecenoic acid (C(18:1) omega9c; 42%) and hexadecanoic acid (C(16:0); 25.9%) and summed feature 3 (comprising iso-C(15:0) 2-OH and/or C(16:1) omega7c; 10.0%). The DNA G+C content was 44.1 mol%. A phylogenetic tree based on 16S rRNA gene sequences showed that strain B1(T) formed a lineage within the genus Acinetobacter and was closely related to A. baylyi DSM 14961(T) (98.6% sequence similarity), followed by A. baumannii DSM 30007(T) (97.4%), A. calcoaceticus DSM 30006(T) (97.0%) and 3 genomic species (96.8 approximately 7.6%). Phenotypic characteristics, gyrB gene sequence analysis and DNA-DNA relatedness data distinguished strain B1(T) from type strains of A. baylyi, A. baumannii, and A. calcoaceticus. On the basis of the evidence presented in this study, strain B1(T) represents a novel species of the genus Acinetobacter, for which the name Acinetobacter soli sp. nov. is proposed. The type strain is B1(T) (= KCTC 22184(T)= JCM 15062(T)).     

The nucleotide sequence of the gene coding for the 16S rRNA from the archaebacterium Halobacterium halobium

The complete 1473-bp sequence of the 16S rRNA gene from the archaebacterium Halobacterium halobium has been determined. Alignment with the sequences of the 16S rRNA gene from the archaebacteria Halobacterium volcanii and Halococcus morrhua reveals similar degrees of homology, about 88%. Differences in the primary structures of H. halobium and eubacterial (Escherichia coli) 16S rRNA or eukaryotic (Dictyostelium discoideum) 18S rRNA are much higher, corresponding to 63% and 56% homology, respectively. A comparison of the nucleotide sequence of the H. halobium 16S rRNA with those of its archaebacterial counterparts generally confirms a secondary structure model of the RNA contained in the small subunit of the archaebacterial ribosome.     

Phylogenetic characterization of Centipeda periodontii, Selenomonas sputigena and Selenomonas species by 16S rRNA gene sequence analysis.

The nearly complete 16S rRNA gene sequences for oral Gram-negative anaerobic motile bacteria, Centipeda periodontii, Selenomonas sputigena and Selenomonas species (formerly S. sputigena type strain), were determined in order to unveil their relationship to other oral motile bacteria. To determine the phylogenetic characterization of these bacteria, their 16S rRNA gene sequences were obtained and compared with those from the ribosomal sequence databases previously reported. The 16S rRNA gene sequences of these bacteria were similar to those of Selenomonas ruminantium and Schwartzia succinivorans isolated from rumens, and to Pectinatus cerevisiiphilus isolated from spoiled beer. Among oral bacteria, the nucleotide sequence analysis of these bacteria revealed high nucleotide similarity to Veillonella species, whereas low similarity to oral motile bacteria such as Campylobacter species. Phylogenetic analysis clearly confirmed that C. periodontii and two Selenomonas species were classified as relatives of a group besides Selenomonas, Schwartzia, and Pectinatus species, and not as close relatives to oral motile bacteria, such as Campylobacter species. These results suggest that such oral Gram-negative anaerobic motile bacteria are close relatives of oral bacteria.     

DNA-based classification and sequence heterogeneities in the 16S rRNA genes of Lactobacillus casei/paracasei and related species

The sequence differences within the 16S rRNA genes of Lactobacillus casei/paracasei and related species, Lactobacillus zeae and Lactobacillus rhamnosus, were investigated. Thirty-seven strains of mostly human or cheese origin were grouped by restriction endonuclease analysis (REA) of the total chromosomal DNA and by temporal temperature gradient gel electrophoresis (TTGE) of PCR-amplified 16S rRNA gene fragments. REA verified that all strains were genomically unique and singled out three major clusters, one L. rhamnosus-cluster and two clusters containing L. paracasei strains. The groups obtained by TTGE corresponded with one exception to the REA-clusters. In the TTGE clustering all L. paracasei strains formed one general group with one TTGE-band in common, and this group was sub-divided into five subgroups due to the presence of more than one TTGE-band in four of the subgroups. The occurrence of multiple TTGE-bands was investigated by amplifying and cloning of the 16S rRNA genes from the strains showing this phenomenon, thereby 12 clones from each strain were sequenced, demonstrating polymorphisms in almost all the cases. Subjecting the clones displaying sequence variations to TTGE as well as sequencing of 16S rDNA revealed by ribotyping of the strains, verified the presence of polymorphisms within the 16S rRNA genes. The migration characteristic of amplified DNA from a single clone corresponded to a specific band in the TTGE-pattern of the strain from which the clone originated. Southern blot hybridisation with a 16S rDNA probe demonstrated the presence of at least five 16S rRNA genes in L. casei/paracasei. A higher degree of variable positions than previously reported was observed in the 16S rRNA gene fragments of the members in the complex. Sequence comparison between the 16S rRNA gene copies of L. casei (CCUG 21451T) and L. zeae (CCUG 35515T) demonstrated that the two species shared almost the same sequence in some copies while the others were more different. Our results provide one explanation for the difficulties in reaching clear-cut taxa within the L. casei/paracasei complex.     

Analysis of 16S rRNA gene mutations in a subset of Aeromonas strains and their impact in species delineation

Characterization of 999 Aeromonas strains using a published 16S rDNA RFLP identification method showed that 8.1% of the strains produced unexpected (hereafter called "atypical") restriction patterns, making their identification uncertain. Atypical patterns were due to the presence of nucleotide polymorphisms among the rrn operons of the 16S rRNA gene (so-called microheterogeneities). Double sequencing signals at certain positions revealed the nucleotide composition was responsible for the microheterogeneities. Although the number of microheterogeneities was relatively low (0.06-0.66%), trees inferred from the 16S rRNA gene led either to a misidentification or to an inconclusive result for the majority of these strains. Strains with atypical patterns were, however, correctly identified using the rpoD gene sequences, as belonging to Aeromonas caviae, A. veronii, and A. media. All of them, but particularly the two former species, are associated with human disease. Microheterogeneities in 16S rRNA gene sequence were significantly (P 0.01) more prevalent in clinical than in environmental strains. This work also analyzed the effects of these microheterogeneities on the taxonomic position of the investigated strains. The results suggest the need for recording microheterogeneities in the 16S rRNA gene.     

Detection and diversity assessment of Xylella fastidiosa in field-collected plant and insect samples by using 16S rRNA and gyrB sequences

The causal agent of diseases in many economically important plants is attributed to the xylem-limited bacterium Xylella fastidiosa. The detection of this plant pathogen has been hampered due to its difficult isolation and slow growth on plates. Nearly complete nucleotide sequences of the 16S rRNA gene and partial sequences of the gyrB gene were determined for 18 strains of X. fastidiosa isolated from different plant hosts. A phylogenetic analysis, based on gyrB, grouped strains in three clusters; grape-isolated strains formed one cluster, citrus-coffee strains formed another cluster, and a third cluster resulted from all other strains. Primer pairs designed for the 16S rRNA and gyrB genes were extensively searched in databases to verify their in silico specificity. Primer pairs were certified with 30 target and 36 nontarget pure cultures of microorganisms, confirming 100% specificity. A multiplex PCR protocol was developed and its sensitivity tested. Sequencing of PCR products confirmed the validity of the multiplex PCR. Xylella fastidiosa was detected in field-collected plants, disease vector insects, and nonsymptomatic but infected plants. Specific detection of X. fastidiosa may facilitate the understanding of its ecological significance and prevention of spread of the disease.