Comparative 16S rDNA sequence analysis of some alkaliphilic bacilli and the establishment of a sixth rRNA group within the genus Bacillus

Abstract Comparative sequence analysis of the 16S rDNA of 14 alkaliphilic or alkalitolerant, Gram-positive, aerobic, endo-spore forming bacterial strains was performed. Bacillus alcalophilus DSM 485^T and Bacillus cohnii DSM 6307^T were included to represent the two validly described alkaliphiles assigned to the genus Bacillus . The majority of isolates (8 strains) clustered with B. alcalophilus DSM 485^T forming a distinct phylogenetic group (rRNA group 6) within the radiation of the genus Bacillus and related taxa. Bacillus cohnii DSM 6307^T and two of the isolates, DSM 8719 and DSM 8723, grouped with B. fastidiosus and B. megaterium and are allocated to rRNA group 1. The remaining two strains DSM 8720 and DSM 8721 show an equidistant relationship to both groups.     

Proposal of two subspecies of Fusobacterium necrophorum (Flügge) Moore and Holdeman: Fusobacterium necrophorum subsp. necrophorum subsp. nov., nom. rev. (ex Flügge 1886), and Fusobacterium necrophorum subsp. funduliforme subsp. nov., nom. rev. (ex Hallé 1898)

The biological and biochemical properties, DNA base compositions, and levels of DNA-DNA homology of two biovars of Fusobacterium necrophorum were examined. Some differences were found between the two biovars in biological and biochemical properties. The G + C contents of DNAs from biovar A strains VPI 2891T (T = type strain), NCTC 10576, N167, Fn47, and Fn43, were 32, 30, 29, 28, and 31 mol%, respectively. The G + C contents of DNAs from biovar B strains Fn524T, 606, Fn49, Fn45, and 1260 were 30, 31, 27, 31, and 30 mol%, respectively. Labeled DNA from biovar A strain VPI 2891T exhibited 100 to 80% relatedness to DNAs from biovar A strains and 59 to 51% relatedness to DNAs from biovar B strains. Labeled DNA from biovar B strain Fn524T exhibited 100 to 81% relatedness to DNAs from biovar B strains and 71 to 60% relatedness to DNAs from biovar A strains. Therefore, the names Fusobacterium necrophorum subsp. necrophorum subsp. nov., nom. rev. (ex Flügge 1886), and Fusobacterium necrophorum subsp. funduliforme subsp. nov., nom. rev. (ex Hallé 1898), are proposed for Fusobacterium necrophorum biovars A and B, respectively. The type strain of F. necrophorum subsp. necrophorum is strain VPI 2891 (= JCM 3718 = ATCC 25286), and the type strain of F. necrophorum subsp. funduliforme is strain Fn524 (= JCM 3724).     

Bacillus brevis Migula 1900 taxonomy: reassociation and base composition of DNA.

Of 87 strains previously identified as Bacillus brevis Migula 1900, 58 had G + C contents of 47.0 to 51.9 mol%, a range that included the G + C content (48.7 mol%) of the type strain. The G + C contents for three other groups consisting of 5, 7, and 17 strains were 37.0 to 41.9, 42.0 to 46.9, and 52.0 mol% or higher, respectively. DNA reassociation studies showed that 25 of the 58 strains with G + C contents of 47.0 to 51.9 mol% were closely related genetically to the type strain and to each other. For the most part, this genetically related group was phenotypically homogeneous; variations in the fermentation of mannitol and mannose were observed. My results strongly suggest that many of the strains were misclassified as B. brevis. Consequently, much of the phenotypic heterogeneity of the species B. brevis Migula 1900 is not due to variations exhibited by genetically related organisms, but is the result of variability introduced by the presence of genetically unrelated strains.     

<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)).     

中国吐鲁番两株产木聚糖酶的极端耐碱Bacillus halodurans的分类鉴定

通过生理生化实验、16S rDNA序列分析和同源性杂交,将分离到的XJU-1和XJU-80菌种进行了分类鉴定。XJU-1和XJU-80具有较宽的pH生长范围(分别是pH4·5 ~12·6和pH3·8 ~12·6) ,其G C mol%含量分别是40·5mol%和42·2mol%。16S rDNA序列分析和DNA-DNA同源杂交结果表明,XJU-1和XJU-80与Bacillushalodurans C-125和Bacillus halodurans DSM497T具有较高的同源性(99 %) ;两者之间也具有85 %的相关性,但其与Bacillus halodurans C-125和Bacillus halodurans DSM497T分别具有81·3 %和71·5 %的相关性。基于以上结果,将两株分离菌株分类为Bacillus halodurans的两个新品系。     

The electrochemical proton potential of Bacillus alcalophilus.

Bacillus alcalophilus strain ATCC 27647 showed usual growth characteristics, when inoculated at pH 10.4. The cells entered the logarithmic phase at pH 10.3, and as growth continued, the pH dropped further to a value of 8.8 in the stationary phase. B. alcalophilus strain DSM 485 showed comparable growth only in the initial phase after the addition to fresh medium. The small initial growth period was succeeded by a long lag phase, where the pH continuously dropped. The cells resumed growth after the pH was about 10.0 and continued to grow accompanied by a further decrease of external pH. The bioenergetic parameters measured in the initial growth phase of the two strains at high pH (10.1-10.3) were nearly the same, i.e. delta pH = +97 to +110 mV, delta psi = -206 to -213 mV and delta microH+ = -109 to -103 mV. The inverted proton gradient of about 1.7-1.9 at high pH decreased, as the external pH dropped during growth. This led to an increase of the proton motive force (delta microH+), although the membrane potential (delta psi) also declined. The ATP/ADP ratio of strain DSM 485 was high (4.5-5.5) at fast growth during the initial and second growth period. The ratio declined to about 1.5 at the end of the lag phase. At the initial growth phase and at the end of the lag phase, the delta microH+ was, however, the same (approximately -106 mV) and considerably lower than in the middle of the second growth period (approximately -140 mV). Fast growth, therefore, correlates with a high ATP/ADP ratio but not necessarily with a high delta microH+. Addition of gramicidin or carbonylcyanide m-chlorophenylhydrazone stopped growth of B. alcalophilus strain DSM 485 at pH 10.3 or 9.5 and gramicidin immediately decreased the internal ATP/ADP ratio from 4.5 to 1.2 at pH 10.3.     

Molar growth yields and bioenergetic parameters of extremely alkaliphilic Bacillus species in batch cultures, and growth in a chemostat at pH 10.5.

Alkaliphilic Bacillus species that grow at pH 10.5 must cope with a low protonmotive force (-50 mV) due to a reversed transmembrane pH gradient at least 2 pH units more acid inside. Here we demonstrate that strictly alkaliphilic B. firmus RAB and two strains of B. alcalophilus (ATCC 27467 and DSM 485) grow exponentially in batch cultures with a doubling time of less than 1 h in 100 mM buffered medium, while the actual medium pH remains above 10.2. The ATCC strain continued to grow rapidly for at least 7 h, but the growth rate of the DSM strain declined dramatically after 3 h. However, both the B. alcalophilus strains, B. firmus RAB and facultatively alkaliphilic B. firmus OF4 were readily maintained for at least 24 h between pH 10.4 and 10.6 in a chemostat where nutrients were constantly replenished. A critical nutrient may be limiting in batch cultures of the DSM strain of B. alcalophilus. The facultative alkaliphile grew equally well in batch cultures at an initial pH of 7.5 or 10.5. Its molar growth yield (23 mg dry wt mmol-1) on malate (Ymal) was the same at the two pH values and was comparable to Ymal for B. subtilis grown at neutral pH. B. firmus RAB and B. alcalophilus ATCC 27467 grown at pH 10.5 also showed Ymal values at least as high as the neutralphile, indicating efficient use of the energy source even at low protonmotive force. Moreover, the phosphorylation potential of B. firmus OF4 grown at pH 7.5 (45.2 kJ mol-1) or pH 10.5 (46 kJ mol-1) was in a conventional range for bacteria.     

Deoxyribonucleic acid homologies among strains of Bacteroides melaninogenicus and related species

Saccharolytic, black-pigmented Bacteroides strains, which at present belong to the species Bacteroides melaninogenicus were classified on the basis of deoxyribonucleic acid (DNA) base ratios and DNA hybridization studies. These strains were divided into several DNA homology groups, which showed no or low mutual DNA homology. A DNA homology group with a percentage guanine plus cytosine (G + C) of 42–43% was formed by three strains of Bact. melaninogenicus subsp. melaninogenicus ; the type strain of this subspecies, strain ATCC 25845, had about 60% DNA homology with this group. Strain ATCC 15930, which has been assigned to this subspecies, had a percentage G + C of 47% and showed no DNA homology with the former group. All strains of Bact. melaninogenicus subsp. intermedius had a percentage G + C of 39–45%. A DNA homology group was formed by eight strains of this subspecies. The type strain of Bact. melaninogenicus subsp. intermedius , ATCC 25611, showed relatively low DNA homology with this main DNA homology group. A strain of Bact. melaninogenicus subsp. intermedius serotype C1 showed no DNA homology with the other strains tested. Furthermore two strains labelled 'Bact. melaninogenicus subsp. levii' were found to form a distinct DNA homology group. On the basis of the DNA homology results, the strains, which at present are classified in the species Bact. melaninogenicus , were clearly distinguished from strains of Bact. asaccharolyticus and Bact. gingivalis , and also from strains of related non-pigmented Bacteroides species.     

Bacillus tianmuensis sp. nov., isolated from soil in Tianmu Mountain national natural reserve, Hangzhou, China

In a project aiming to isolate strains with the ability to produce nonribosomal peptides, a Gram-negative, endospore-forming, rod-shaped strain, designated B5^T, was isolated from a soil sample collected from Tianmu Mountain national natural reserve in Hangzhou, China. Strain B5^T contained meso -diaminopimelic acid in the cell wall peptidoglycan. The major cellular fatty acids were anteiso-C_15:0 and iso-C_15:0. The DNA G+C content was 42.5 mol%. The phylogenetic analysis based on 16S rRNA gene sequence indicated that strain B5^T fell within the genus Bacillus , with highest sequence similarity values to Bacillus barbaricus DSM 14730^T (96.4%) and Bacillus macauensis JCM 13285^T (95.5%). The isolate, however, could be distinguished from Bacillus strains with validly published names by low 16S rRNA gene sequence similarity values, distinct phenotypic and chemotaxonomic characteristics. On the basis of these polyphasic evidences, it is demonstrated that the isolate B5^T represents a novel species of the genus Bacillus , for which the name Bacillus tianmuensis sp. nov. is proposed. The type strain is B5^T (=DSM 22111^T=CGMCC 1.8879^T).     

Bacillus beringensis sp. nov., a psychrotolerant bacterium isolated from the Bering Sea

Psychrotolerant Bacillus-like strains BR035(T) and BR011 were isolated from seawater of the Bering Sea and were characterized by means of a polyphasic approach. Phylogenetic analysis based on 16S rRNA gene sequences revealed that these strains were related to the members of the genus Bacillus and had the highest 16S rRNA gene sequence similarity with Bacillus korlensis ZLC-26(T). DNA-DNA hybridization experiments confirmed that strains BR035(T) and BR011 belonged to the same species and were distinct from their closest relatives. The cells were Gram-positive, rods, motile, spore-forming and psychrotolerant. The temperature range for growth was 4-42°C. The main respiratory quinone was MK-7. The polar lipids were diphosphatidylglycerol, phosphatidylglycerol, phosphatidylethanolamine, an unknown aminolipid and two unknown phospholipids. The major cellular fatty acids were iso-C15:0, anteiso-C15:0, iso-C14:0 and C16:1ω7c alcohol. The diagnostic diamino acid in the cell-wall peptidoglycan was meso-diaminopimelic acid. The genomic DNA G + C content was 37.6-37.8 mol%. On the basis of the phenotypic characteristics, phylogenetic analysis and DNA-DNA relatedness data, a novel species Bacillus beringensis is proposed and the type strain is BR035(T) (=CGMCC 1.9126(T)=DSM 22571(T)).     

Taxonomic heterogeneity of strains comprising Gluconacetobacter hansenii

The taxonomic standing of Gluconacetobacter hansenii was clarified through phenotypic characteristics, quinones, DNA base composition, DNA relatedness, and the production of gluconic and ketogluconic acids from glucose. All strains that Gosselé et al. (Syst. Appl. Microbiol., 4, 338-368, 1983) employed in the establishment of Acetobacter hansenii (=G. hansenii) were used in this study. Phenotypic differences were shown among the strains of G. hansenii, suggesting heterogeneity within the species. The major ubiquinone was Q-10 for all strains of G. hansenii, except for strain IFO 3296, which was characterized by Q-9. This excluded IFO 3296 from the species G. hansenii and placed it in the genus Acetobacter. DNA relatedness revealed four distinct homology groups (I, II, III, and IV) among strains of the species. Group I was distinguished from the other genomic groups by a lower G1C range from 58.9 to 59.2 mol%. Groups II, III, and IV showed higher G+C contents of 60.4 to 62.2, 60.8, and 61.7 mol%, respectively. Groups I and IV produced both 2- and 5-ketogluconic acids from glucose, and Group III produced only 2-ketogluconic acid. Group II included strains that produced both 2- and 5-ketogluconic acids and strains that produced only 2-ketogluconic acid. It is clear that G. hansenii consists of genotypically heterogeneous strains comprising four homology groups (I, II, III, and IV). Since group I contains the type strain (IFO 14820(T)=LMG 1527(T)) of the species, this group is designated as the species G. hansenii.     

Recognition of biovar C of Fusobacterium necrophorum (Flügge) Moore and Holdeman as Fusobacterium pseudonecrophorum sp. nov., nom. rev. (ex Prévot 1940)

The cellular morphology, colonial morphology, biochemical properties, DNA base compositions, and DNA-DNA homolgies of three biovars of Fusobacterium necrophorum were examined. Some differences were found among the three biovars in cellular morphology, colonial morphology, and biochemical properties. The guanine-plus-cytosine contents of DNAs from biovar C strains Fn521T (T = type strain), Fn522, and Fn520 were 30.4, 29.3, and 28.0 mol%, respectively, and the guanine-plus-cytosine contents of DNAs from strains VPI 2891 (biovar A) and VPI 6161 (biovar B) were 31.3 and 32.0 mol%, respectively. Labeled DNA from biovar C strain Fn521T exhibited 96 and 82% relatedness to DNAs from biovar C strains Fn522 and Fn520, respectively; however, it exhibited only about 10% relatedness to DNAs from strains of biovars A and B. Labeled DNAs from strains VPI 2891 and VPI 6161 exhibited more than 70% relatedness to each other, but about 6 to 20% relatedness to DNAs from biovar C strains. Therefore, Fusobacterium pseudonecrophorum sp. nov., nom. rev. (ex Prévot 1940) is proposed for Fusobacterium necrophorum biovar C. The type strain is strain Fn521 (= JCM 3722).     

Obligately and facultatively autotrophic,sulfur- and hydrogen-oxidizing thermophilic bacteria isolated from hot composts

A variety of autotrophic, sulfur- and hydrogen-oxidizing thermophilic bacteria were isolated from thermogenic composts at temperatures of 60–80° C. All were penicillin G sensitive, which proves that they belong to the Bacteria domain. The obligately autotrophic, non-spore-forming strains were gram-negative rods growing at 60–80°C, with an optimum at 70–75°C, but only under microaerophilic conditions (5 kPa oxygen). These strains had similar DNA G+C content (34.7–37.6 mol%) and showed a high DNA:DNA homology (70–87%) with Hydrogenobacter strains isolated from geothermal areas. The facultatively autotrophic strains isolated from hot composts were gram-variable rods that formed spherical and terminal endospores, except for one strain. The strains grew at 55–75° C, with an optimum at 65–70° C. These bacteria were able to grow heterotrophically, or autotrophically with hydrogen; however, they oxidized thiosulfate under mixotrophic growth conditions (e.g. pyruvate or hydrogen plus thiosulfate). These strains had similar DNA G+C content (60–64 mol%) to and high DNA:DNA homology (> 75%) with the reference strain of Bacillus schlegelii. This is the first report of thermogenic composts as habitats of thermophilic sulfur- and hydrogen-oxidizing bacteria, which to date have been known only from geothermal manifestations. This contrasts with the generally held belief that thermogenic composts at temperatures above 60° C support only a very low diversity of obligatory heterotrophic thermophiles related to Bacillus stearothermophilus. Received: 20 July 1995 / Accepted: 25 September 1995     

Lactobacillus harbinensis sp. nov., consisted of strains isolated from traditional fermented vegetables 'Suan cai' in Harbin, Northeastern China and Lactobacillus perolens DSM 12745

Taxonomical analysis of two genetically distinguished Lactobacillus strains isolated from traditional Chinese fermented vegetables ‘Suan cai’ was performed. They formed l-lactate from glucose, were facultatively heterofermentative, and had a DNA G+C content of 53–54 mol%. They fermented d- and l-arabinose. They produced lactate, ethanol and acetate from gluconate at a molar ratio of 1.1:0.4:0.7. Phylogenetic analysis of 16S rDNA revealed that the two strains were closely related to L. perolens. DNA–DNA hybridization analysis revealed that the two strains were different from L. perolens type strain DSM 12744 and formed a separate cluster with L. perolens DSM 12745. G+C molar content of DNA of the former is 51%, whereas those of the latter strains were in the range of 53–54%. Based on the results, we propose that the new species be named L. harbinensis sp. nov. and that L. perolens DSM 12745 be reclassified as L. harbinensis DSM 12745. The type strain of L. harbinensis DSM 16991^T (=AHU 1762^T=SBT 10908^T).     

Diverse endophytic nitrogen-fixing bacteria isolated from wild rice Oryza rufipogon and description of Phytobacter diazotrophicus gen. nov. sp. nov.

Twenty-three nitrogen-fixing bacteria were isolated from surface-sterilized stems and roots of wild rice Oryza rufipogon. Four clusters were defined among these bacteria by SDS-PAGE protein patterns and further confirmed by IS-PCR finger-printing analysis. Phylogenetic analysis of 16S rRNA gene sequences showed that the representative strains LS 8 and LS 18 of cluster II formed a monophyletic group sharing 94.0-97.3% similarities with defined enterobacterial species within the genera Salmonella, Citrobacter, Pantoea, Klebsiella, and Enterobacter. DNA-DNA hybridization, physiological, biochemical tests, and cell morphology also revealed that these strains could be differentiated from the related enterobacterial species. Based upon these results, we propose Phytobacter diazotrophicus gen. nov., sp. nov. to the bacterial group represented by strains LS 8 and LS 18. The type strain is LS 8(T) (=DSM 17806(T) = LMG 23328(T) = CGMCC 1.5339(T)). The DNA G+C content of strain LS 8(T) is 58.6 +/- 0.5 mol%.     

DNA base composition and DNA relatedness among species of Trichosporon Behrend

The nuclear DNa of 28 species (30 strains investigated) of yeasts classified currently or previously in the genus Trichosporon. was analysed for its molar percentage of guanine + cytosine (mol% G+C). This criterion, together with biochemical characteristics, suggested the separation of the organisms studied into two groups. The first group, which appears related to the Ascomycetes, includes thirteen species with a G+C content lower than 50 mol% (34.7–48.8), and lacks urease (except T. margaritiferum). The second group appears related to the Basidiomycetes and includes fifteen species with a G+C content higher than 50 mol% (57–64) and has the ability to hydrolyse urea.A DNA homology experiment with T. beigelii and twelve other species of the second group showed very low values of complementarity with T. beigelii-labeled DNA. All these species must be considered as taxa other than T. beigelii.     

Deoxyribonucleic acid hybridization betweenSpiroplasma citri and the corn stunt spiroplasma

The DNA base composition of the R8-A2 strain ofSpiroplasma citri and the I-747 and E strains of corn stunt spiroplasma was determined, by using the thermal denaturation temperature (T _m ), to be 26.8, 26.3, and 26.0 mol% (G+C), respectively. By the simple hybridization method, a measurement of the relative binding of homologous or heterologous labeled DNA to unlabeled, DNA-immobilized, nitrocellulose membrane, a homology of 56–60% was demonstrated betweenS. citri and two strains of corn stunt spiroplasma. A relatively higher DNA homology (66–71% between these two organisms was obtained in teh competition experiment, a measurement of the relative ability of homologous or heterologous competitor DNA to block the formation of homologous DNA-DNA duplex.     

Identification of a starch degrading anaerobic thermophile producing thermostable α-amylase and pullulanase

Summary A thermophilic bacterium which was recently isolated and designated Clostridium sp. EM1 has been now identified and characterized. On the basis of its physiological characeristics and DNA-DNA homology data, the strain was designated as Clostridium thermosulfurogenes (DSM 3896). The guanine-plus-cytosine (G+C) content (mol%) of the DNA was determined to be 37%.