Differentiation of Gluconacetobacter liquefaciens and Gluconacetobacter xylinus on the basis of DNA base composition,DNA relatedness,and oxidation products from glucose

Gluconacetobacter liquefaciens and Gluconacetobacter xylinus share very similar phenotypic characteristics. They are differentiated by the production of a reddish-brown water-soluble pigment of the former and cellulose production of the latter. However, the loss of the two distinguishing features questions the separate standings of the two species. The DNA base composition and the DNA relatedness of strains of the two species, including other established species of acetic acid bacteria, were determined. G. liquefaciens strains had the higher guanine-plus-cytosine content (G+C content) in DNA, ranging from 63.5 to 66.9 mol%, and G. xylinus had the lower range, from 59.4 to 63.2 mol%. DNA hybridization revealed a low level of DNA similarity between the two species. G. liquefaciens strains produced 2,5-diketogluconic acid and pyrones from glucose, and G. xylinus strains produced 5-ketogluconic acid. From these results, it is unequivocal that G. liquefaciens is a distinct species from G. xylinus.     

Taxonomic characterization of <Emphasis Type="Italic">Haloferax</Emphasis> sp. ("<Emphasis Type="Italic">H. alicantei</Emphasis>") strain Aa 2.2: description of <Emphasis Type="Italic">Haloferax lucentensis</Emphasis> sp. nov.

An extremely halophilic archaeon, previously named as Haloferax sp. strain Aa 2.2 or "Haloferax alicantei" that has been extensively used for genetic studies with halobacteria, was taxonomically characterized by using phenotypic tests (including morphological, physiological, biochemical and nutritional features), DNA-DNA hybridization and 16S rRNA sequence phylogenetic analysis. This organism was isolated in 1986 by Torreblanca et al. from a pond of a Spanish saltern located in Alicante. The cells were pleomorphic, Gram negative and grew optimally at 25% NaCl. The polar lipid composition was similar to that of species of the genus Haloferax. The DNA G+C content of this strain was 64.5 mol%. Phylogenetic analysis based on 16S rRNA sequence comparison confirmed that this archaeon is a member of the genus Haloferax and was most closely related to Haloferax volcanii. DNA-DNA hybridization between strain Aa 2.2 and the type strain of all named species of the genus Haloferax revealed low levels of relatedness (25-2%), supporting the placement of this organism in a new species. On the basis of the phenotypic characteristics, molecular data and phylogenetic analysis we propose to name strain Aa 2.2 as a new species, Haloferax lucentensis sp. nov. The type strain is Aa 2.2 (=JCM 9276=NCIMB 13854=CIP 107410=DSM 14919=CECT 5871=CCM 7023).     

DNA characterization of Lyme disease spirochetes.

Lyme disease spirochetes (LDS) have phenotypic characteristics of both treponemes and borreliae. To ascertain whether one or more species of LDS exist, as well as their taxonomic status, we determined the DNA base (G + C) content for three strains of LDS, the DNA relatedness of ten strains isolated in the United States or Europe, and the DNA relatedness of LDS to other spirochetes. The G + C content of the three LDS strains was 28.1-29.0 mol%, most similar to those of Borellia hermsii (30.6 mol %) and Treponema hyodysenteriae (25.6 mol %) among the other spirochetes tested. DNA hybridization studies of nine LDS strains to a reference strain isolated from human blood revealed divergence (unpaired bases) within related nucleotide sequences of only 0.0-1.0 percent, indicating the strains were one species. Similarly, relatedness values of seven strains to the reference strain were high: 58-98 percent (mean, 71 percent) in 50 degrees C reactions and 50-93 percent (mean, 69 percent) in 65 degrees C reactions. Labeled DNA from B. hermsii was 30-40 percent related to three Lyme disease spirochete strains in 50 degrees C reactions and 8-10 percent related in 65 degrees C reactions. In contrast, DNA from the reference LDS strain showed relatedness of only 1 percent to DNAs of two leptospires and only 16 percent to DNA from T. hyodysenteriae. We conclude that LDS are a single species, genetically unlike treponemes or leptospires, which belong in the genus Borrelia.     

Description of Idiomarina insulisalsae sp. nov., isolated from the soil of a sea salt evaporation pond,proposal to transfer the species of the genus Pseudidiomarina to the genus Idiomarina and emended description of the genus Idiomarina

A halophilic, aerobic Gram-negative bacterium, designated strain CVS-6^T, was isolated from a sea salt evaporation pond on the Island of Sal in the Cape Verde Archipelago. Phylogenetic analysis of the 16S rRNA gene sequence revealed a clear affiliation of the organism with members of the family Idiomarinaceae. Sequence similarities between CVS-6^T and the type strains of the species of the genera Pseudidiomarina and Idiomarina ranged from 93.7% to 96.9%. The major isoprenoid quinone was ubiquinone 8 (Q-8). The major cellular fatty acids were 15:0 iso (21.8%), 17:0 iso (12.5%), 17:1 iso ω9c (10.7%), and 16:1 ω7c (10.6%). The DNA G+C content was 51.6 mol%. The species represented by strain CVS-6^T could be distinguished from the species of the genera Pseudidiomarina and Idiomarina; however, it was not possible to distinguish both genera from each other using the phenotypic or chemotaxonomic characteristics examined. Consequently, we propose that the species classified in the genus Pseudidiomarina should be transferred to the genus Idiomarina. We also propose that, on the basis of physiological and biochemical characteristics, strain CVS-6^T (=LMG 23123=CIP 108836) represents a new species which we name Idiomarina insulisalsae.     

Characterization ofAlteromonas hanedai (sp. nov.), a nonfermentative luminous species of marine origin

Eleven marine luminous isolates, which could not be identified with previously studied species of luminous marine bacteria, were subjected to an extensive characterization. The results indicated that these strains were phenotypically similar, had a G+C content in their DNA of 45 mol%, and differed from all previously characterized luminous species by their inability to ferment sugars. On the basis of these and other properties, the 11 luminous strains were assigned to the genusAlteromonas and given the species designationA hanedai. Strain 281 (ATCC 33224) has been designated as the type strain of this new species.     

Characterization of Methanosarcina mazeii TMA isolated from a paddy field soil

We isolated a methanogenic strain, designated as strain TMA (=DSM 9195), from an enrichment culture inoculated with a Japanese paddy field soil. Strain TMA was Gram positive and strictly anaerobic. Cell shape was pseudosarcina-like, and cells were nonmotile. The strain was able to use methylamines, methanol, H₂–CO₂, and acetate as substrates for methanogenesis, but did not utilize formate. The optimum temperature and optimum pH were 30–37°C and 6.5–7.5 respectively. The G+C content of the DNA was 42.1 mol %. Strain TMA had DNA-DNA hybridization values of more than 80% with Methanosarcina mazeii S-6^T (T = type strain). On the basis of phenotypic and genotypic characteristics, we identified strain TMA as M. mazeii. This is the first methylotrophic methanogen isolated from a paddy field soil and identified to the species level.     

Biochemical and chemotaxonomic characterization of Pseudomonas stutzeri genomovars

A total of 48 strains representing the seven Pseudomonas stutzeri genomovars (DNA/DNA homology groups) were studied for cellular fatty acid composition, physiological characteristics and protein profiles. All strains were found to be homogeneous with respect to their fatty acid patterns. Numerical analysis of physiological properties demonstrated a considerable phenotypic heterogeneity within the genomovars. Characterization of the individual genomic groups on the basis of biochemical tests was not possible. In a numerical study of cellular protein patterns, two main clusters were obtained, one representing genomovars 1, 6 and 7 characterized by a high G + C content (mean value > 64 mol%), the other representing genomovars 2, 3, 4 and 5 with a low G + G content (< 64 mol%). The standardized cellular protein patterns have potential for differentiation of the genomic groupings within the species Ps. stutzeri as currently circumscribed.     

Isolation of bacteria of the genus <Emphasis Type="Italic">Variovorax</Emphasis> from the <Emphasis Type="Italic">Thioploca</Emphasis> mats of Lake Baikal

Three strains of gram-negative bacteria were isolated from the mats of colorless sulfur bacteria Thioploca (Lake Baikal). The cells of new strains are motile with peritrichous flagella. Bacteria are aerobic, obligate chemoorganoheterotrophs growing within the pH range of 3.0–8.8 with the optimum at 8.3 and within the temperature range of 5–42°C with the optimum at 28°C. The cells contained menaquinones MK-8 H2 as the major component, as well as MK-7 H2 (less than 15%), while the content of ubiquinone Q8 was at least an order of magnitude lower. The G+C content of DNA in the new strains varied from 67.4 to 69.9 mol %. The level of DNA-DNA hybridization between the strains ranged from 80 to 94%, indicating that all the isolates belonged to one species. Analysis of the 16S rRNA gene nucleotide sequences of the type strain (Gen-Bank HQ400611) revealed close homologues among the known species of the genus Variovorax: 98% resemblance with the type strains of the species V. paradoxus, V. soli, V. ginsengisoli, and V. boronicumulans and 96% similarity with the type strain of V. dokdonensis. However, since the isolates differed significantly in the composition of fatty acids and isoprenoid quinones from the nearest neighbors in the phylogenetic tree, they cannot be related implicitly to the known species.     

Thiobacillus sajanensis sp. nov., a new obligately autotrophic sulfur-oxidizing bacterium isolated from Khito-Gol hydrogen-sulfide springs, Buryatia

Four strains of rod-shaped gram-negative sulfur-oxidizing bacteria were isolated from Khoito-Gol hydrogen-sulfide springs in the eastern Sayan Mountains (Buryatia). The cells of the new isolates were motile by means of a single polar flagellum. The strains were obligately chemolithoautotrophic aerobes that oxidized thiosulfate (with the production of sulfur and sulfates) and hydrogen sulfide. They grew in a pH range of 6.8–9.5, with an optimum at pH 9.3 and in a temperature range of 5–39°C, with an optimum at 28–32°C. The cells contained ubiquinone Q-8. The DNA G+C content of the new strains was 62.3–64.2 mol %. According to the results of analysis of their 16S rRNA genes, the isolates belong to the genus Thiobacillus within the subclass Betaproteobacteria. However, the similarity level of nucleotide sequences of the 16S rRNA genes was insufficient to assign the isolates to known species of this genus. The affiliation to the genus Thiobacillus was confirmed by DNA-DNA hybridization of the isolates with the type strain of the type species of the genus Thiobacillus, T. thioparus DSM 505^T (= ATCC 8158^T). Despite the phenotypic similarity, the hybridization level was as low as 21–29%. In addition, considerable differences were revealed in the structure of the genes encoding RuBPC, the key enzyme of autotrophic CO₂ assimilation, between the known Thiobacillus species and the new isolates. Based on molecular-biological features and certain phenotypic distinctions, the new isolates were assigned to a new Thiobacillus species, T. sajanensis sp. nov., with the type strain 4HG^T (= VKM B-2365^T).     

Correlation of DNA base composition and metabolism ofPseudomonas putrefaciens isolates from food,human clinical specimens,and other sources

The DNA base composition and other characteristics of 54 bacterial cultures isolated from refrigerated foods, human clinical specimens, and other sources, designated asP. putrefaciens by one or more investigators were determined. On the basis of % G + C content and ability to grow in 6.0% NaCl two species were clearly distinguished. The first, consists of 37 isolates all but one incapable of growth in 6.0% NaCl. The DNA composition of these isolates falls within the range of 47.8 to 50.8% G + C with a mean of 49.5 ± 0.7% G + C from Tm determinations. This group contains all fishery and dairy isolates studied, and several isolates from human clinical specimens. The second species consists of 16 isolates, 13 of human clinical origin, 2 from meat products, and 1 from soil. All members of this second species grow readily in 6.0% NaCl and the composition of their DNA falls within the range of 55.9–59.0% G + C with a mean of 57.6 ± 0.65% G + C from Tm determinations. This investigation was supported by Public Health Service grant FD 00153-05 from the Food and Drug Administration. The author wishes to acknowledge helpful correspondence received during the course of this study from G. Gilardi, R. Hugh, M. Mandel, A. von Graevenitz, and R. Weaver.     

Genomic organization of the fungus Phycomyces

The fungus Phycomyces blakesleeanus has a relatively small genome, 30 megabases (Mb), with a low guanine and cytosine (G+C) content, 35%; the coding sequences cloned to date all have a G+C content of about 50%. In order to investigate the organization of the genome of this fungus, we have cloned and sequenced 251 DNA fragments. One hundred and twenty-six clones were obtained by digestion with MspI (target sequence 5′-CCGG-3′) and 125 random clones were obtained by sonication. The average length of sequence obtained was about 200 base pairs (bp) and the total length was about 50 kilobases (kb). The G + C content is not homogeneous throughout the genome: sequences obtained after digestion with MspI have an average of 5% more G + C content than the random fragments, and are enriched in coding sequences. Fourteen MspI fragments show similarities to known proteins and 21 encode ribosomal RNA (rRNA). By contrast, only three of the random fragments are similar to known proteins and only one to a rRNA. We conclude that the Phycomyces genome is composed of G+C-rich genes surrounded by G+C-poor areas. Two clones have similarities to the transposase of the transposon Tcl from Caenorhabditis elegans. This result suggests the presence of a high copy number of a Tcl-like transposable element in the Phycomyces genome. Another clone was similar to the transposon Txl from Xenopus laevis. A novel repetitive nt sequence has been characterized; about 5% of the total genome is a repetition of any of two consensus sequences of 31 by named PrAI and PrA2.     

Determination of guanine-plus-cytosine content of bacterial DNA by dual-laser flow cytometry

A dual-laser flow cytometer was used to analyse different species of bacteria for the molar percentage of guanine-plus-cytosine (% G + C) without the need for DNA extraction or purification. Ethanol-fixed bacterial cells were stained with a combination of DNA-specific fluorochromes, Hoechst 33258 and chromomycin A3, which bind to AT- and GC-rich regions of DNA, respectively. A linear relationship (r = 0.99) was demonstrated between the log of the ratio of chromomycin A3 to Hoechst 33258 fluorescence and the log of the % G + C as determined by thermal denaturation (Tm) or buoyant density centrifugation (Bd) methods. Linearity was maintained for all bacterial species tested over the range of 28-67% G + C. A standard curve was constructed using five strains whose % G + C had been determined by other methods. From the equation describing this line, the % G + C values of nine other strains with known DNA base composition, together with the five strains used to construct the curve, were calculated using the chromomycin A3 to Hoechst 33258 ratio and were in agreement with values obtained by Tm, Bd or HPLC. The reproducibility of flow cytometric analysis (mean error 0.7% G + C) compared well with the reproducibility of other methods. Mixtures containing two species were also analysed. Two cell populations could be discerned in mixtures containing two species which differed in base composition by as little as 4% G + C.(ABSTRACT TRUNCATED AT 250 WORDS)     

Comparison of antibacterial activity in the hemocytes of different crustacean species

Antibacterial activity in hemocytes of the squat lobster, Galathea strigosa, the Norway lobster, Nephrops norvegicus, the common shrimp, Crangon crangon, and the giant Antarctic isopod, Glyptonotus antarcticus, was investigated in vitro. For all species, the marine bacterium, Psychrobacter immobilis, was used as the test organism, although with G. antarcticus, the Gram positive bacteria, Planococcus citreus and BS 68 (an isolate from Antarctic waters), were also used. Hemocyte lysate supernatants (HLS) from all four species reduced the viable count of test bacteria over a period of 4 hr showing that their hemocytes contain factors able to neutralize bacteria in vitro. However, comparison of responses produced by serially diluted samples of HLS from G. strigosa, N. norvegicus and C. crangon, revealed that activity (per unit protein) is weaker than for Carcinus maenas. Using G. antarcticus, positive activity was also observed against P. citreus and BS 68; with the response effective against all of the bacteria at both 0°C and 20°C. These results show that: (1) the hemocytes from a range of crustacean species contain factor(s) able to neutralize bacteria in vitro; (2) antibacterial potency varies from species to species; and (3) antibacterial immunity in at least one polar invertebrate functions at low temperature.     

Molecular analysis of deep-subsurface bacteria.

Bacterial isolates from deep-sediment samples from three sites at the Savannah River site, near Aiken, S.C., were studied to determine their microbial community composition and DNA structure by using total DNA hybridization and moles percent G + C. Standard phenotypic identification underestimated the bacterial diversity at the three sites, since isolates with the same phenotype had different DNA structures in terms of moles percent G + C and DNA homology. The G + C content of deep-subsurface bacteria ranged from 20 to 77 mol%. More than 60% of the isolates tested had G + C values similar to those of Pseudomonas spp., and 12% had values similar to those of Acinetobacter spp. No isolates from deeper formations showed the same DNA composition as isolates from upper formations. Total-DNA hybridization and DNA base composition analysis provided a better resolution than phenotypic tests for the understanding of the diversity and structure of deep-subsurface bacterial communities. On the basis of the moles percent G + C values, deep-subsurface isolates tested seemed to belong to the families Pseudomonadaceae and Neisseriaceae, which might reflect a long period of adaptation to the environmental conditions of the deep subsurface.     

Molecular analysis of deep-subsurface bacteria

Bacterial isolates from deep-sediment samples from three sites at the Savannah River site, near Aiken, S.C., were studied to determine their microbial community composition and DNA structure by using total DNA hybridization and moles percent G + C. Standard phenotypic identification underestimated the bacterial diversity at the three sites, since isolates with the same phenotype had different DNA structures in terms of moles percent G + C and DNA homology. The G + C content of deep-subsurface bacteria ranged from 20 to 77 mol%. More than 60% of the isolates tested had G + C values similar to those of Pseudomonas spp., and 12% had values similar to those of Acinetobacter spp. No isolates from deeper formations showed the same DNA composition as isolates from upper formations. Total-DNA hybridization and DNA base composition analysis provided a better resolution than phenotypic tests for the understanding of the diversity and structure of deep-subsurface bacterial communities. On the basis of the moles percent G + C values, deep-subsurface isolates tested seemed to belong to the families Pseudomonadaceae and Neisseriaceae, which might reflect a long period of adaptation to the environmental conditions of the deep subsurface.     

Two Aspects of DNA Base Composition: G+C Content and Translation-Coupled Deviation from Intra-Strand Rule of A=T and G=C

The relative contribution of mutation and selection to the G+C content of DNA was analyzed in bacterial species having widely different G+C contents. The analysis used two methods that were developed previously. The first method was to plot the average G+C content of a set of nucleotides against the G+C content of the third codon position for each gene. This method was used to present the G+C distribution of the third codon position and to assess the relative neutrality of a set of nucleotides to that of the G+C content of the third codon position. The second method was to plot the intrastrand bias of the third codon position from Parity Rule 2 (PR2), where A=T and G=C. It was found that whereas intragenomic distributions of the DNA G+C content of these bacteria are narrow in the majority of species, in some species the G+C content of the minor class of genes distributes over wider ranges than the major class of genes. On the other hand, ubiquitous PR2 biases are amino acid specific and independent of the G+C content of DNA, so that when averaged over the amino acids, the biases are small and not correlated with the DNA G+C content. Therefore, translation coupled PR2-biases are unlikely to explain the wide range of G+C contents among different species. Considering all data available, it was concluded that the amino acid-specific PR2 bias has only a minor effect, if any, on the average G+C content. In addition, PR2 bias patterns of different species show phylogenetic relationships, and the pattern can be as a taxal fingerprint. Received: 5 November 1998 / Accepted: 1 March 1999     

Vibrio zhuhaiensis sp. nov., isolated from a Japanese prawn (Marsupenaeus japonicus)

A Gram-negative, oxidase-positive, facultatively anaerobic bacterium, designated strain E20121, was isolated from the digestive tract of a Japanese prawn (Marsupenaeus japonicus) collected from the coastal sea water area of Zhuhai, Guangdong province, China. The new isolate was determined to be closely related to Vibrio ponticus DSM 16217^T, having 97.6 % 16S rRNA gene sequence similarity. Phylogenetic analysis based on recA, pyrH and rpoA also showed low levels of sequence similarities (72.6–96.6 %) with all species of the genus Vibrio. A multigene phylogenetic tree using concatenated sequences of the four genes (16S rRNA, rpoA, recA and pyrH) clearly showed that the new isolate is different from the currently known Vibrio species. DNA–DNA hybridization experiments revealed similarity values below 70 % with the closest related species V. ponticus DSM 16217^T. Several phenotypic traits enabled the differentiation of strain E20121 from the closest phylogenetic neighbours. The DNA G+C content of strain E20121 was determined to be 47.6 mol % and the major fatty acid components identified were C_16:1ω7c and/or C_16:1ω6c (39.8 %), C_18:1ω7c (13.6 %) and C_16:0 (9.6 %). Based on genotypic, phenotypic, chemotaxonomic, phylogenetic and DNA–DNA hybridization analyses, strain E20121 is proposed to represent a novel species of the genus Vibrio for which the name Vibrio zhuhaiensis sp. nov. is proposed. The type strain is E20121^T(=DSM 25602^T = CCTCC AB 2011174^T).     

Isolation and characterization of a novel violacein-like pigment producing psychrotrophic bacterial species Janthinobacterium svalbardensis sp. nov

A bacterial strain designated JA-1, related to Janthinobacterium lividum, was isolated from glacier ice samples from the island Spitsbergen in the Arctic. The strain was tested for phenotypic traits and the most prominent appeared to be the dark red brown to black pigmentation different from the violet pigment of Janthinobacterium, Chromobacterium and Iodobacter. Phylogenetic analysis based on 16S rRNA gene sequences and DNA–DNA hybridization tests showed that strain JA-1 belongs to the genus Janthinobacterium but represents a novel lineage distinct from the two known species of this genus, J. lividum and Janthinobacterium agaricidamnosum. The DNA G + C content of strain JA-1 was determined to be 62.3 mol %. The isolate is a psychrotrophic Gram negative bacterium, rod-shaped with rounded ends, containing intracellular inclusions and one polar flagellum. On the basis of the presented results strain JA-1 is proposed as the type strain of a novel species of the genus Janthinobacterium, for which the name Janthinobacterium svalbardensis sp. nov. is proposed (JA-1^T = DSM 25734, ZIM B637).     

Characterization of morphospecies and strains of the genus Microcystis (Cyanobacteria) for a reconsideration of species classification

For characterization of Microcystis species and strains, cell size, growth temperature optimum, salinity tolerance, dark chemoheterotrophy, photoheterotrophy, guanine + cytosine content in DNA, total fatty acid composition and restriction fragment length polymorphism of a polymerase chain reaction product (PCR-RFLP) of the cpcBA intergenic spacer and flanking region were examined using 24 strains of Microcystis isolated from various lakes and ponds in Japan. From the results obtained it was observed that Microcystis spp. displayed low phenotypic diversity. Cell diameters of these strains were overlapping and there was no clear correlation with morphospecies. Slight differences in growth temperature optimum and salinity tolerance were observed among all strains. No strains showed either chemoheterotrophy or photoheterotrophy. The fatty acids present were the same in different strains although the amounts were different. All the strains had a similar G + C content ranging from 39 to 43 mol%. The phonogram constructed from the PCR-RFLP analysis showed that the species assignment for Microcystis species by morphology did not correspond with the genetic background.