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)     

Taxonomy of alkaliphilic Bacillus strains

The DNA base compositions of 78 alkaliphilic Bacillus strains were determined. These strains were grouped as follows: DNA group A, guanine-plus-cytosine (G+C) content of 34.0 to 37.5 mol% (17 strains); DNA group B, G+C content of 38.2 to 40.8 mol% (33 strains); and DNA group C, G+C content of 42.1 to 43.9 mol% (28 strains). DNA group A includes the type strain of Bacillus alcalophilus Vedder 1934. DNA-DNA hybridization studies with DNA group A strains revealed that only one strain, strain DSM 2526, exhibited a high level of DNA homology with B. alcalophilus DSM 485T (T = type strain). Neither strain DSM 485T nor any other DNA group A strain is homologous to any of the Bacillus type strains with comparable base compositions. Six strains formed a distinct group containing three highly homologous strains and three strains exhibiting greater than 50% DNA homology.     

Base composition and sequence homology of deoxyribonucleic acid of thermotolerantCampylobacter from human and animal sources

A total of 31Campylobacter strains were studied. Of these, 24 were thermotolerant field isolates and 7 were reference strains. Mol% G+C was estimated by thermal denaturation and DNA-DNA-relatedness by the hydroxyapatite method. The strains identified asC. jejuni orC. coli and differentiated by the hippurate hydrolysis test formed separate, homogenous DNA homology groups. The two species were genetically more related to each other than to otherCampylobacter species. Results also show that the group of hippurate-negative thermotolerant campylobacters resistant to nalidixic acid is genetically heterogenous.     

Isolation and characterization ofAnaplasma marginale DNA

Two procedures were used to isolateAnaplasma marginale bodies from bovine erythrocytes. DNA extracted from bodies prepared by the second method was free of any detectable bovine DNA contamination.Anaplasma marginale DNA was analyzed by agarose gel electrophoresis of endonuclease restriction fragments and by reassociation kinetics. Genome size was estimated to be 340 kb. Base composition of the DNA was 33 mol% guanine+ cytosine (G+C), determined from its thermal denaturation temperature.Anaplasma marginale has a very small genome compared with that of other bacteria and has a low G+C content. It is proposed thatA. marginale may be a close, but degenerate, relative of the rickettsiae.     

克鲁斯假丝酵母及其近似种的脉冲电泳核型分析

用钳位均匀电场脉冲电泳(CHEF)系统分析了克鲁斯假丝酵母(Candida krusei),郎比可假丝酵母(C. lambica)和粗状假丝酵母(C. valiad)的模式菌株的电泳核型,发现这三种表型相似的假丝酵母却具有互不相同的染色体DNA分子带型,为其分类学研究提供了可靠的鉴别依据。在常规分类学研究的基础上,测定了AS 2.75(原定种名为(C. incospicua),AS2.1182(原定种名为 C. lambica)和AS 2.1772(未定种)等三株假丝酵母的G+C含量和脉冲电泳核型。通过对已报道的C. inconspicu的G+C含量及上述三种假丝酵母模式菌株的脉冲电泳核型的比较分析证明,AS 2.75和AS 2.1772为粗状假丝酵母(C. valida),AS 2.1182为克鲁斯假丝酵母(C. krusei)。     

DNA base composition heterogeneity in some agarophytes (Gracilariales,Rhodophyta) from Mexico and the Philippines

Estimates of nuclear DNA base composition by determination of thermal denaturation temperatures (T_m) indicate guanine + cytosine (G + C) levels of 35.4–46.8% for ten species of the Gracilariaceae, representing the generaGracilaria andHydropuntia. T_m values were found to be reproducible with variation among most samples and replicates of less than 1 °C and 2 mol%. Interspecific variation in G + C values was less than 11.4% amongGracilaria species. Calculation of intragenomic base pair composition distribution based on mid-resolution thermal denaturation (A 1 °C/min with 4s interval H and dT logging) indicated an inverse relationship between maximum similarity values and taxonomic rank. Intraspecific (population level) maximum similarity (homology) values were estimated to range from 79–90% inGracilaria tikvahiae (4 isolates). Interspecific values of 46–69% were found in 13 species ofGracilaria. Nucleotide distribution similarity values for the Gracilariaceae are compared with previous information for genome organization and complexity, genome size and karyotype patterns.Author for correspondence     

Bacteriophages of Clostridium saccharoperbutylacetonicum

The HM-phages contained only deoxyribonucleic acid (DNA) as the nucleic acid moiety. The DNA was extracted from the phages by the phenol method. The content of guanine plus cytosine (%G + C) in the DNA was determined by paper chromatography and by thermal denaturation method. The values of HM 2 (group I), HM 3 (group II) and HM 7 (group III) were 35, 30 and 29, respectively.

The DNA was also isolated from the two host strains of Clostridium saccharoperbutylacetonicum by the method of Marmur and by Saito and Miura’s phenol extraction method. The %G + C of the DNA was 31. No unusual bases were detected in either the bacterial or phage DNA.     

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.     

Isolation and characterization of a virulent phage for Rhodobacter sphaeroides

A new virulent bacteriophage, termed øRsV, was isolated from a local sewage plant on the facultative phototrophic bacterium Rhodobacter sphaeroides DSM 159 as the host organism. Electron microscopic studies revealed that in general morphology phage øRsV resembles the T-even Escherichia coli phages. The host range of phage øRsV was restricted to strains of R. sphaeroides. E. coli strains B and K 12 were not infected. The phage genome was characterized on the basis of thermal denaturation profiles and restriction analyses indicating that it consists of about 160 kb of double-stranded DNA lacking cohesive ends. The G+C content was determined to be 46.8 mol%.     

The DNA of Volvox carteri: a biophysical and biosynthetic characterization.

Various biophysical and biosynthetic characteristics of deoxyribonucleic acid (DNA) from Volvox carteri are examined. The DNA from three strains (HK-10,NB-7 and KA-1) is compared, and all strains are shown to contain at least two distinct DNA species which band at densities of 1.714-1.715 and 1.704-1.705 g/cm3 in neutral CsCl and correspond to nuclear and "cytoplasmic" DNA, respectively. Base compositions calculated from these densities, 55-56% G+C for nuclear DNA, and 45-46% G+C for cytoplasmic DNA, are in close agreement with % G+C values estimated from thermal denaturation data. DNA from strain KA-1 has a third component with a buoyant density of 1.693 g/cm3. DNA synthesis is analysed using radioactively labelled heterogeneously grown strains of Volvox carteri and profiles obtained following preparative CsCl density gradient centrifugation are presented. In addition, dissimilarities in patterns of DNA synthesis at various periods in the asexual life cycle are reported for synchronous cultures of strain HK-10. These differences in temporal patterns of DNA synthesis clearly indicate that while nuclear DNA is make to some degree throughout the life cycle, cytoplasmic DNA synthesis appears to occur only at discrete intervals.     

Gram-positive bacteria with a high DNA G+C content are characterized by a common insertion within their 23S rRNA genes.

An insertion of about 100 bases within the central part of the 23S rRNA genes was found to be a phylogenetic marker for the bacterial line of descent of Gram-positive bacteria with a high DNA G + C content. The insertion was present in 23S rRNA genes of 64 strains representing the major phylogenetic groups of Gram-positive bacteria with a high DNA G+C content, whereas it was not found in 23S rRNA genes of 55 (eu)bacteria representing Gram-positive bacteria with a low DNA G + C content and all other known (eu)bacterial phyla. The presence of the insertion could be easily demonstrated by comparative gel electrophoretic analysis of in vitro-amplified 23S rDNA fragments, which contained the insertion. The nucleotide sequences of the amplified fragments were determined and sequence similarities of at least 44% were found. The overall similarity values are lower than those of 16S and 23S rRNA sequences of the particular organism. Northern hybridization experiments indicated the presence of the insertion within the mature 23S rRNA of Corynebacterium glutamicum.     

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.     

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.     

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.     

Characteristics of glutamate dehydrogenase, a new diagnostic marker for the genus Fusobacterium

Enzymes representative of carbohydrate and nitrogen metabolism were screened for their presence and activity amongst species of the genus Fusobacterium. Glutamate dehydrogenase (GDH) was reliably detected in all 25 strains studied. The pH profile of this enzyme and the DNA base composition of selected strains were also determined. DNA base composition of selected strains ranged between 28-32.9 mol% G + C. GDH was active between pH 7.5-11.5 but two pH profiles of activity, with optima at 9.5 and 10.5, were discernible among species. Apart from Fusobacterium nucleatum, which had a heterogeneous enzyme pattern, the GDH electrophoretic mobility was constant within a species but in a few cases the enzyme bands overlapped. A combination of the pH profile, the GDH electrophoretic pattern and the DNA base composition provided clear separation of the test organisms into discrete groups; however, a larger number of strains must be examined before the full potential of these tests can be evaluated.     

Reexamination of the Association Between Melting Point, Buoyant Density, and Chemical Base Composition of Deoxyribonucleic Acid

The equations currently used for the calculation of the chemical base composition of deoxyribonucleic acid (DNA), expressed as moles per cent guanine plus cytosine (% GC), from either buoyant density (rho) or midpoint of thermal denaturation (T(m)) were recalculated by using only sets of data on DNA determined with the same strains. All available information from the literature was screened and supplemented by unpublished data. The results were calculated by regression and correlation analysis and treated statistically. From the data on 96 strains of bacteria, it was calculated that% GC = 2.44 (T(m) - 69.4). T(m) appears to be unaffected by the substitution of cytosine by hydroxymethylcytosine. This equation is also valid for nonbacterial DNA. From the data on 84 strains of bacteria, the relation% GC = 1038.47 (-1.6616) was calculated. The constants in this equation are slightly modified when data on nonbacterial DNA are included. Both correlations differ only slightly from those currently used, but now they lean on a statistically sound basis. As a control, the relation between rho and T(m) was calculated from data of 197 strains; it agrees excellently with the above two equations.     

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.     

Nucleic acid homologies of selected bacteria, L forms, Mycoplasma species

Rogul, M. (Walter Reed Army Institute of Research, Washington, D.C.), Z. A. McGee, R. G. Wittler, and Stanley Falkow. Nucleic acid homologies of selected bacteria, L forms, and Mycoplasma species. J. Bacteriol. 90:1200-1204. 1965.-The molar per cent of guanine plus cytosine (G + C) in the deoxyribonucleic acids (DNA) of Proteus mirabilis, strain 9, and its stable L form was determined by thermal denaturation and found to be approximately 39.5% G + C. The DNA homologies of this bacterium and its L form were estimated by the agar-column technique and were equivalent in their abilities to anneal and form specific duplexes. The next series of comparisons were performed between two Mycoplasma species and their often suggested bacterial parent. The G + C ratios of M. gallisepticum (32.7%), M. gallinarum (28.1%), and Haemophilus gallinarum (41.9%) varied to a high degree. In the homologous system, the denatured DNA of H. gallinarum trapped in agar bound approximately 40% of its sheared, denatured, and H(3)-labeled DNA. In comparison, the nucleic acids of M. gallinarum and M. gallisepticum were incapable of binding the labeled DNA of H. gallinarum. These findings provided evidence that the two strains of Mycoplasma were not derived from H. gallinarum.     

超慢生大豆根瘤菌DNA G+C含量和DNA同源性测定

用热变性温度法和液相复性速率法分别测定了超慢生大豆根瘤菌(ESG,extra-slow-growing soybean rhizobia)DNA G+C mol%及与其它根瘤菌间的DNA同源性.结果表明,ESG的DNA G+C mol含量在59.2—63.5%之间,且不同地区不同血清型的ESG代表菌株DNA同源率在70%以上,说明它们是遗传型一致的类群.ESG与在大豆上结瘤的快生大豆根瘤菌(Rhizobium fredii USDA205)同源率为14.8%,与慢生大豆根瘤菌(Bradyrhizobiumjaponicum)三个DNA同源组的同源率分别为20.5%,30.0%,19.4%.测定结果还表明,ESG与其它根瘤菌遗传学的亲缘关系也很远.