Determination of the base composition of deoxyribonucleic acid by measurement of the adenine/guanine ratio

A method is described for determination of the base composition (as guanine+cytosine or adenine+thymine content) of DNA by accurate measurement of the adenine/guanine ratio. The DNA is hydrolysed with 0.03n-hydrochloric acid for 40min. to release the purines. The hydrolysate is subjected to ion-exchange chromatography on Zeo-Karb 225. Apurinic acids are eluted with 0.03n-hydrochloric acid and then guanine and adenine are eluted separately with 2n-hydrochloric acid. Guanine and adenine are each collected as a single fraction, and the amount of base in each case is determined by measuring the volume and the extinction at suitable wavelengths. For use in the calculations, millimolar extinction coefficients in 2n-hydrochloric acid of 12.09 for adenine at 262mmu, and 10.77 for guanine at 248mmu, were determined with authentic samples of bases. The method gives extremely reproducible results: from 12 determinations with calf thymus DNA the adenine/guanine molar ratio had a standard deviation of 0.011; this corresponds to a standard deviation in guanine+cytosine content of 0.2% guanine+cytosine.     

Some applications of deoxyribonucleic acid base composition in bacterial taxonomy

The melting pointT _m, the mean molar (guanine+cytosine) composition and the compositional distribution of purified DNA from several strains ofXanthomonas, Chromobacterium and yellow-pigmented marine bacteria have been determined. These groups were selected because they had been analyzed adansonially. Ten strains ofXanthomonas had an average molar (guanine+cytosine) composition within the range 66.0–68.2%, which was very close to that ofPseudomonas (60–68%), as expected. All strains ofChromobacterium (six of theviolaceum biotype and three of thelividum biotype) had mean molar (guanine+cytosine) compositions within the range 63.4–71.4%. The yellow-pigmented marine flavobacteria had mean molar (guanine+cytosine) compositions of 35.6–40.6%. This suggests that they would not be genetically related to the yellow-pigmentedXanthomonas, nor to facultative aerobic organisms, such asAeromonas and theEnterobacteriaceae. The yellow-pigmented marine swarming bacteria, which resembleCytophaga, fell into two separate groups: some had a mean molar (guanine+cytosine) composition of about 34%, others were around 63%. This suggests genetic heterogeneity. The compositional distribution of DNA molecules was on the whole more narrow in polarly flagellated than in peritrichous organisms.     

THE BASE COMPOSITION OF NUCLEIC ACIDS IN CHROMOSOMES, PUFFS, NUCLEOLI, AND CYTOPLASM OF CHIRONOMUS SALIVARY GLAND CELLS

The base composition of RNA from individually isolated giant chromosomes, puffed chromosome segments, nucleoli, and samples of cytoplasm from Chironomus salivary gland cells was determined by microelectrophoresis. Data on the adenine: guanine quotient of the chromosomal DNA were also obtained. The results show that: 1) Chromosomal, nucleolar, and cytoplasmic RNA's differ significantly from each other in base composition. 2) Nucleolar and cytoplasmic RNA's, in spite of the difference, show great similarities with regard to the base composition and are both rich in adenine and uracil. 3) The RNA extracted from chromosome I differs significantly from the RNA's extracted from different segments of chromosome IV, and the latter differ significantly from each other. 4) The values for the RNA: DNA quotients of chromosome segments parallel the development of synthetically active genes, so-called Balbiani rings. 5) The chromosomal RNA does not show a base symmetry in any of the investigated cases, nor is the content of guanine + cytosine the same as that for DNA. The first of these two facts excludes the possibility that the chromosomal RNA is a complete copy of both strands of the chromosomal DNA. In spite of the difference in guanine + cytosine content between the two nucleic acids the RNA may still partly or completely be a single strand copy depending upon how representative the DNA values are for the synthetically active DNA.     

DNA base composition ofKlebsiella rubiacearum

The base composition of pure DNA from a strain of a nitrogen-fixing leaf-nodule bacterium was determined. The mean molar (guanine + cytosine) composition of 55.5% is in agreement with previous conclusions that this bacterium belongs in the genusKlebsiella.     

RNA associated with nonhistone chromosomal proteins of dog liver

The nonhistone chromosomal proteins were separated on Sephadex G-200 into 3 fractions of which two were associated with 3S RNA. The RNA eluted with fraction I (guanine + cytosine content 54%) is tightly bound to the proteins from which it can be separated only after digestion with pronase. The RNA associated with fraction III (guanine + cytosine content 64%) can be separated from the proteins directly by chromatography on DEAE-Sephadex A 25. No dihydropyrimidines have been detected in any of the two RNAs.     

The deoxyribonucleic acid of Micrococcus radiodurans

The DNA of Micrococcus radiodurans was prepared by three methods. Although the recovery of DNA varied considerably, the percentage molar base ratios of the DNA from the three preparations were essentially the same: guanine, 33±2; adenine, 18±1; cytosine, 33±2; thymine, 17±1. Base compositions calculated from T_m values and from density in caesium chloride gradients also yielded guanine+cytosine contents of 66 and 68% of total bases respectively. No unusual bases were observed. The S_20,w values were characteristic of high-molecular-weight DNA. Electron microscopy showed the purified DNA in long strands; occasionally these were coiled.     

Comparative Study of Ribosomal Ribonucleic Acid Cistrons in Enterobacteria and Myxobacteria

Deoxyribonucleic acid (DNA)-ribonucleic acid (RNA) hybrids are formed by Escherichia coli 16S or 23S ribosomal RNA or pulse-labeled RNA with the DNA of various species of the Enterobacteriaceae. The relative extent of hybrid formation is always greater for ribosomal RNA. These DNA-RNA hybrids have been further characterized by their stability to increasing temperature, and, in every case, the stability of pulse-labeled RNA hybrids was lower than that of the corresponding ribosomal RNA hybrids, although 16S and 23S ribosomal RNA hybrids had very similar stabilities. Therefore, ribosomal RNA showed a greater degree of apparent conservation in base sequence than pulse-labeled or messenger RNA both in the extent of cross-reaction and in the stability of hybrid structures. Similar results were obtained with Myxococcus xanthus RNA. Since in this case the base composition of the pulse-labeled or messenger RNA is richer in guanine plus cytosine than ribosomal RNA, the higher cross-reaction of ribosomal RNA is more readily attributable to conservation of base sequence in these cistrons than to its base composition. Thus, the base sequence of ribosomal RNA cistrons of bacilli, enteric bacteria, and myxobacteria is conserved relative to those of the rest of the genomes. This conservation is, however, not absolute since the stability of heterologous ribosomal RNA hybrids is always lower than that of homologous hybrids.     

RNA of simian sarcoma-associated virus type 1 produced in human tumor cells.

Simian sarcoma-associated virus type 1 propagated in human rhabdomyosarcoma cells exhibited characteristics typical of oncornaviruses but seemed to have several aberrant properties. It had a buoyant density of 1.14 g/cm3, had RNA-dependent DNA polymerase activity, seemed to be labile to high salt concentrations, and contained little 50 to 60S RNA but relatively large amounts of human ribosomal RNA. In addition to 50 to 60S RNA, purified virions contained smaller RNA molecules with sedimentation coefficients of 28 to 30S, 18 TO 20S, and 4 to 10S. Unlike the 50 to 60S RNA species, the smaller virion-associated RNAs lacked polyadenylic acid, and the 28 to 30S RNA had an average base composition similar to that of human ribosomal RNA. Upon heat denaturation, the native 50 to 60S RNA genome yielded polyadenylic acid-containing 28 to 30S subunits that degraded in to 18 to 20S molecules upon further heat treatment. The 50 to 60S viral RNA had a guanine plus cytosine content of 56%.     

The nucleic acids of some insect viruses

Purine and pyrimidine bases have been estimated from the desoxyribonucleic acids of eleven insect viruses. Their proportions vary in the different species in a balanced way so that the molar ratios adenine:thymine and guanine:cytosine are constant and close to unity, whereas adenine + thymine:guanine + cytosine ranges from 0.71 to 1.87. This ratio is identical for some biologically dissimilar viruses, and no general parallelism is evident between DNA composition and biological relationship. Two different viruses from one host have distinct DNA's.     

Nutrient media for plant-parasitic nematodes. VI. Nucleic acids content and nucleotide synthesis in Aphelenchoides rutgersi

The nucleic acids content of Aphelenchoides rutgersi, Hooper and Myers, was 0.9% DNA and 2.6% RNA dry weight. The DNA contained 29.5% adenine, 29.3% thymine, 22.5% guanine, and 18.8% cytosine, while the RNA was composed of 22.8% adenine, 23.0% uracil, 31.4% guanine, and 22.9% cytosine on a molar basis.The nematodes needed folic acid for reproduction regardless of the presence or absence of nucleic acid supplements in the culture medium. This was shown by including aminopterin, a folic acid antagonist in the culture medium. A 2-hr incubation of nematodes with glycine-¹⁴C (U) and orotic-5-³H acid resulted in the incorporation of ³H-label into both DNA and RNA. Only the RNA fraction contained a significant amount of ¹⁴C-label. When this RNA was fractionated, the adenine and guanine accounted for the ¹⁴C-label, while cytidylic and uridylic acids contained the ³H-label, thereby demonstrating purine and pyrimidine synthesis by A. rutgersi. The incorporation of orotic acid into the pyrimidines was 8 times higher than that of glycine into purines.     

Deoxyribonucleic acid base compositions of hyphomicrobia

Summary The deoxyribonucleic acids of 70 hyphomicrobia were examined at equilibrium in neutral CsCl density gradients. The guanine plus cytosine (%G+C) content was estimated to range from 59.2 to 66.8% G+C. The strains could be divided into three groups with different base composition of their DNA; 61.0±1.1%, 64.1±0.6%, and 66.5±0.6% G+C. The values are compared with those for the base composition of DNA of a number of phototrophic, budding bacteria.     

Relationships Between Genomic G+C Content,RNA Secondary Structures,and Optimal Growth Temperature in Prokaryotes

G:C pairs are more stable than A:T pairs because they have an additional hydrogen bond. This has led to many studies on the correlation between the guanine+cytosine (G+C) content of nucleic acids and temperature over the last 20 years. We collected the optimal growth temperatures (T_opt) and the G+C contents of genomic DNA; 23S, 16S, and 5S ribosomal RNAs; and transfer RNAs for 764 prokaryotic species. No correlation was found between genomic G+C content and T_opt, but there were striking correlations between the G+C content of ribosomal and transfer RNA stems and T_opt. Two explanations have been proposed—neutral evolution and selection pressure—for the approximate equalities of G and C (respectively, A and T) contents within each strand of DNA molecules. Our results do not support the notion that selection pressure induces complementary oligonucleotides in close proximity and therefore numerous secondary structures in prokaryotic DNA, as the genomic G+C content does not behave in the same way as that of folded RNA with respect to optimal growth temperature. Received: 25 September 1996 / Accepted: 21 January 1997     

Isolation and Partial Characterization of Nucleic Acid of Influenza Virus

The principal ribonucleic acid (RNA) component isolated from purified equine influenza virus has an approximate sedimentation coefficient (S(20,W)) of 21S in sucrose gradient containing 0.1 m NaCl. Three other components of 18S, 14S, and 8S were also detected. All the RNA components have characteristics of single-stranded RNA. The average base composition of the principal RNA components is cytosine, 22.2; adenine, 22.9; guanine, 22.3; and uridine, 32.6. There was no qualitative difference in the RNA isolated from noninfectious virus particles compared to that from infectious virions.     

Why are there four letters in the genetic alphabet?

We list, without thinking, the four base types that make up DNA as adenine, guanine, cytosine and thymine. But why are there four? This question is now all the more relevant as organic chemists have synthesized new base pairs that can be incorporated into nucleic acids. Here, I argue that there are theoretical, experimental and computational reasons to believe that having four base types is a frozen relic from the RNA world, when RNA was genetic as well as enzymatic material.     

Sequence Analysis of DNA Fragments from the Genome of the Primary Endosymbiont of the Whitefly <Emphasis Type="Italic">Bemisia tabaci</Emphasis>

The whitefly Bemisia tabaci contains a primary prokaryotic endosymbiont housed within specialized cells in the body cavity. Two DNA fragments from the endosymbiont, totaling 33.3 kilobases, were cloned and sequenced. In total, 37 genes were detected and included the ribosomal RNA operon and genes for ribosomal RNA proteins. The guanine plus cytosine of the DNA was 30.2 mol%, different from that of endosymbionts of other plant sap-sucking insects.     

Physiological and biochemical contributions to the taxonomy of the genus Prototheca

16 strains of the genus Prototheca do not produce extracellular amylolytic enzymes. The base composition of their DNA shows rather continuous values from 62% to 78% GC (guanine + cytosine). Their assignment to four species and their possible relationship with Chlorella protothecoides are discussed.Abbreviations Used GC guanine + cytosine - SSC saline sodium citrate     

Nucleotide composition of nucleic acids of fungi. I. Ribonucleic acids

Storck, Roger (The University of Texas, Austin). Nucleotide composition of nucleic acids from fungi. I. Ribonucleic acids. J. Bacteriol. 90:1260-1264. 1965.-The nucleotide composition of the ribonucleic acids (RNA) present in extracts of 26 species of fungi was determined. The results were analyzed, together with those in the literature. It was found that the content in moles per cent of guanine plus cytosine (GC content) varied from 44.1 to 60.5 in a distribution composed of 8 species of zygomycetes, 10 of ascomycetes, 11 of deuteromycetes, and 8 of basidiomycetes. The GC-content range and average were, respectively, 44.1 to 49.3 and 46.4 for the zygomycetes, 47.4 to 54.4 and 50.2 for the ascomycetes, 48.2 to 54.5 and 51.6 for the deuteromycetes, and 50.4 to 60.5 and 52.4 for the basidiomycetes. The GC content averaged 45.6 and ranged from 44.1 to 46.3 for four Mucor species. In addition, GC contents significantly lower than 50 were also encountered in some species of Hemiascomycetidae, suggesting that AT type RNA is not uncommon in fungi. It was proposed that the base composition of fungal RNA might have a taxonomic and phylogenetic significance.     

Studies on the secondary structure of nuclear ribonucleic acids

Rat liver nuclei were separated into two fractions, the nucleolus and the nucleoplasm, by a combined salt-enzymic extraction. RNA was purified from both sources and analysed on sucrose density gradients. In both fractions a prominent heterogeneous RNA class with mean sedimentation coefficient of 18S was found. This material was analysed by measuring the rate of reaction with formaldehyde, the ultraviolet absorbance-temperature profile, the spectrophotometric observation of conformational changes as a function of pH, the spectrophotometric titration of uracil and guanine residues and the effect of both temperature and ionic strength on the spectrophotometric titration of cytosine residues. Nucleoplasmic 18S RNA fraction exhibited, on heating and also by adjustment of the pH to 2.5, a hyperchromicity of about 16%, close to that observed, in control experiments, for ribosomal RNA (22%). Titration of cytosine residues in solutions containing 1mm-NaCl and 0.1m-NaCl yielded pK values equal to 4.41 and 3.84 respectively. These results suggest that this RNA fraction is composed of structurally complex polymers. The hypochromicity of the nucleolar 18S RNA fraction determined by heating or adjusting the pH to 2.5, was not greater than 6% of the initial value. The rate of reaction with formaldehyde was 88% of that observed for the hydrolysed 18S fraction which suggested only 12% hydrogen bonding. pK values for uracil and guanine residues were 10.1 and 10.05 respectively. Titration of cytosine residues yielded a pK of 4.10, which was found to be independent of temperature and ionic strength variations.     

Two-dimensional gel analysis of repetitive nuclear DNA sequences in the genome of Physarum polycephalum. Developmental regulation of the ribosomal gene number

The composition of repetitive sequences in restriction patterns of nuclear DNA of Physarum polycephalum was determined by high-resolution gel analysis. Three types of repeated DNA fragments in the size range of (0.2-2) X 10(3) base pairs could be identified as discrete spots on the gels and distinguished by their abundance and above-average base composition of either guanine and cytosine (G + C) or adenine and thymidine (A + T). On comparing the DNA composition from exponentially growing plasmodia with that of starved plasmodia, which have become competent to sporulate and have lost 80% of their nuclei, no change was detected among the (A + T)-rich repeat fractions, whereas several of the (G + C)-rich fractions revealed fewer copies in the DNA prepared from starved cells. As shown by hybridization under saturating conditions, the reduction of several (G + C)-rich repeated sequences in the restricted nuclear DNA in sporulation-competent cells can be explained by a 64% elimination of the extrachromosomal nucleolar ribosomal DNA sequences.