Replication of Coliphage M-13 II. Intracellular Deoxyribonucleic Acid Forms Associated with M-13 Infection of Mitomycin C-treated Cells

Intracellular deoxyribonucleic acid (DNA) forms associated with bacteriophage M-13 infection have been isolated and characterized. Escherichia coli HF4704 (F⁺, hcr⁻, thy⁻) cells were treated with mitomycin C to inhibit host-cell DNA synthesis and were then infected with phage M-13. This treatment permitted radioactive labeling of phage-specific DNA forms with ³H-thymine. These labeled DNA components were characterized by sucrose density sedimentation and equilibrium density gradient centrifugation in neutral and ethidium bromide CsCl gradient. Two double-stranded circular forms were found with properties analogous to the replicative form I and replicative form II of X174. A third component, identified as single-stranded DNA, was isolated in some samples removed 45 min after phage synthesis was initiated.     

Synthesis of satellite DNA in Rhynchosciara hollaenderi

During the latter part of the fourth instar development of Rhynchosciara larvae, DNA synthesis occurs in both germ cells and somatic cells, even though these cells do not undergo mitosis. CsCl density gradient analysis has revealed the synthesis of d(AT) satellite DNAs in the testis and in somatic tissues such as salivary gland, fat body, and gastric cecum. In these studies it has been shown that there is a tissue-specific variation in the relative proportions of synthesis of d(AT) satellite and main-band DNA in the testis during the fourth instar. The initiation of synthesis of the d(AT) satellite in the testis corresponds with the appearance and formation of the highly characteristic mitochondria which develop during the maturation of the spermatocytes. This satellite DNA has been shown to be circular and has a density of 1.681 gm/cm³ in CsCl. Synthesis of a similar circular DNA cannot be detected in somatic tissues, although these tissues do synthesize a d(AT) satellite of similar density.     

Effect of L-phenylalanine on I-methyladenine production and spontaneous oocyte maturation in starfish

5-Bromodeoxyuridine (BUdR)-resistant cells were obtained from N-methyl-N′-nitro-N-nitrosoguanidine (NTG)-treated soybean protoplasts and cultured in liquid nutrient medium containing BUdR (20 μg/ml) and uridine (100 μg/ml). Addition of uridine to the medium improved growth of the BUdR-resistant cells. The growth of BUdR-resistant cells was partly inhibited when hypoxanthine, aminopterine, glycine and thymidine were added to the medium. Both BUdR-resistant and BUdR-sensitive cells exhibited thymidine kinase activity. CsCl density gradient analyses showed that the DNA of BUdR-resistant cells, which were cultured in the presence of BUdR, had a buoyant density of 1.703 g/ml, while the DNA of the parental soybean cells grown without BUdR had a buoyant density of 1.692 g/ml. Uptake of ³H-thymidine or ¹⁴C-BUdR by the cells occurred in both BUdR-resistant and BUdR-sensitive cells. CsCl density gradient patterns of labelled DNA also demonstrated that ¹⁴C-BUdR and ³H-thymidine were incorporated into the DNA of BUdR-resistant cells, as well as into that of BUdR-sensitive cells.     

Molecular Fate of Heterologous Bacterial DNA in Competent BACILLUS SUBTILIS. I. Processing of B. PUMILUS and B. LICHENIFORMIS DNA in B. SUBTILIS

Competent Bacillus subtilis cells were exposed to radioactive and density labeled donor DNA extracted from B. pumilus and B. licheniformis. The DNA from these strains hybridized with B. subtilis DNA in vitro at a rate of 24% and 11%, respectively. After entry the vast majority of heterologous DNA was found at the single-strand DNA position in CsCl gradients, and was gradually degraded during incubation. Much less donor DNA than expected from the hybridization values participated in the formation of the donorrecipient complex (DRC). By subjecting the heterologous DRC to sonication and alkaline CsCl gradient centrifugation, it was established that the DRC consisted of three components: (1) recipient DNA in which breakdown products of donor DNA were incorporated through DNA synthesis, (2) recipient DNA in which donor DNA was covalently integrated and (3) recipient DNA in which the donor moiety was not covalently integrated.     

Uptake of exogenous DNA by pea seedlings and tobacco cells

1.

(1) The uptake of Pseudomonas aeruginosa DNA by pea seedlings, and uptake of tobacco DNA or P. aeruginosa DNA by tobacco cells in shake cultures has been investigated. The fate of the DNA has been followed by CsCl density gradient equilibrium centrifugation, using radiolabeled donor DNA of high density.     

A revised equation relating DNA buoyant density to guanine plus cytosine content

An equation relating DNA buoyant density of CsCl to G + C content is given which uses the correct density value of Escherichia coli DNA as the reference. This is done to eliminate the current confusion brought about by two references states.     

Isolation and characterization of satellite DNA from mustard seedlings

The DNA from mustard (Sinapis alba L.) seedlings was examined by neutral CsCl and Ag⁺/Cs₂SO₄ density gradient centrifugation. Different satellite fractions were revealed by these two methods. The satellite fractions obtained from the Ag⁺/Cs₂SO₄ density gradient could not be generally correlated with satellite DNA fractions observed in CsCl. In CsCl density gradient centrifugation, a main band at density 1,695 g/cm³ and a heavy shoulder at density 1,703 g/cm³ are found. By preparative CsCl gradient centrifugation the heavy shoulder can be enriched but not completely separated from the main band DNA.—Gradient centrifugation by complexing the DNA with Ag⁺ rf. 0.25 to DNA phosphate reveals three distinct fractions which are further characterized: The heavy satelite DNA fraction revealed by Ag⁺/Cs₂SO₄ gradient centrifugation has the same density in a CsCl gradient and the same Tm value as the main band, but differs from main band DNA in the details of its melting profile and in its renaturation kinetics. The light Ag⁺/Cs₂SO₄ satellite DNA fraction had a higher melting temperature corresponding to a GC-rich base composition. Differences between these 3 fractions are observed in thermal denaturation and renaturation profiles, hybridization in situ with ribosomal RNA, and their response to restriction endonuclease digestion. The light satellite fraction from the Ag⁺/Cs₂SO₄ gradient, rich in ribosomal cistrons corresponds to the heavy shoulder DNA of neutral CsCl gradients which also is rich in ribosomal cistrons. The heavy satellite fraction from Ag⁺/Cs₂SO₄ gradient which contains highly repetitive short nucleotide sequences could not be revealed by the classical CsCl gradient centrifugation technique.     

Composition and synthesis of DNA in synchronously growing cells of Chlorella pyrenoidosa

Summary The composition and synthesis of DNA in synchronous cultures of Chlorella pyrenoidosa strain 211/8b has been investigated. Analytical CsCl density gradient centrifugation gave a homogenous major DNA component with a (G+C) content of 51% and a minor component containing 28% (G+C). The (G+C) contents derived from melting profiles were 2–3% lower. A second minor component with approximately 41% (G+C) content was inferred from banding patterns of labelled DNA in preparative CsCl density gradients. ¹⁴C-uracil was readily incorporated into the pyrimidine moieties of the major (nuclear) DNA between the 10th and 18th hour after beginning of the light period, but not at any other time. ¹⁴C-uracil incorporation into the minor (satellite) component was low but continuous throughout the whole cell cycle. The incorporation is correlated with an increase in the proportion of satellite DNA from 6% up to 20% during the time when no nuclear DNA replication takes place. The results suggest that different regulatory mechanisms exist for the nuclear and for satellite DNA synthesis.     

Identification and separation of components of calf thymus DNA using a CsCl-netropsin density gradient

Calf thymus DNA containing satellite components of various densities was used as a model to study the effect of netropsin on the density of DNA in a CsCl gradient. The binding of netropsin resulted in a decrease in density which depended upon the quantity of netropsin added and on the average composition of the DNA. Differences in density of DNA components were higher in CsCl - netropsin gradients than in simple CsCl gradients. By use of netropsin a main band and four satellite bands could be differentiated in calf thymus DNA. Satellite DNA's were isolated using preparative CsCl - netropsin gradient centrifugation and were characterised by density and homogeneity in native and in reassociated state. Two of the satellite components, with densities of 1.722 and 1.714 g/cm³, are probably of homogenous sequence, the other two components of densities 1.709 and 1.705 g/cm³ appear to be heterogeneous.     

Isopycnic characterization of lipopolysaccharides from Pasteurella multocida

In a novel application of an established procedure, isopycnic density gradient centrifugation procedures were used to analyze material obtained from the Westphal phenol extraction procedure of Pasteurella multocida cells. The initial phenol phase contained most of the lipopolysaccharides (LPS) and the major component had a buoyant density of 1.38 g/ml in CsCl density gradients. Repartitioning the phenol phase with an equal volume of water produced a second aqueous phase which contained most of the LPS. This LPS appeared as a single symmetrical band with a buoyant density of 1.40 g/ml. Buoyant density patterns obtained with schlieren optics in CsCl density gradients were useful in characterizing LPSs from P. multocida.     

Autoradiographic studies of the replication of satellite DNA in the kangaroo rat. Autoradiographs of satellite DNA

Cells of the Kangaroo rat Dipidomys ordii contain large quantities of satellite DNA (Bostock et al., 1972). Radioactive DNA from such cells has been examined by autoradiography. After a long period of radioactive labeling, long tandem arrays of short radioactive pieces are suddenly observed which are attributed to the replication of satellite DNA. Autoradiograms of DNA isolated by CsCl density centrifugation from such lysates are in agreement with this hypothesis.This material is non-randomly distributed in lysates of single cells. The length of these pieces and their spacings are not remarkably different from DNA made earlier (presumably non-satellite DNA).     

Molecular mechanisms of induced mutagenesis: Replication in vivo of bacteriophage φX174 single-stranded,ultraviolet light-irradiated DNA in intact and irradiated host cells

Genetic analysis has revealed that radiation and many chemical mutagens induce in bacteria an error-prone DNA repair process which is responsible for their mutagenic effect. The biochemical mechanism of this inducible error-prone repair has been studied by analysis of the first round of DNA synthesis on ultraviolet light-irradiated φX174 DNA in both intact and ultraviolet light-irradiated host cells. Intracellular φX174 DNA was extracted, subjected to isopycnic CsCl density-gradient analysis, hydroxylapatite chromatography and digestion by single-strand-specific endonuclease S₁. Ultraviolet light-induced photolesions in viral DNA cause a permanent blockage of DNA synthesis in intact Escherichia coli cells. However, when host cells are irradiated and incubated to fully induce the error-prone repair system, a significant fraction of irradiated φX174 DNA molecules can be fully replicated. Thus, inducible error-prone repair in E. coli is manifested by an increased capacity for DNA synthesis on damaged φX174 DNA. Chloramphenicol (100 μg/ml), which is an inhibitor of the inducible error-prone DNA repair, is also an inhibitor of this particular inducible DNA synthesis.     

Isolation of viral RNA using cesium chloride-ethidium bromide equilibrium sedimentation

The effect of ethidium bromide (EB) on the buoyant density of reovirus RNA during equilibrium sedimentation has been investigated. The addition of the dye ethidium bromide was found to reduce the buoyant density of reovirus RNA in a Cs₂SO₄ gradient by a value of 0.13 to 0.15 g/cc, and provided a separation limit of 0.10 g/cc relative to the ? of marker DNA. Ethidium bromide was found also to reduce the ? of reovirus RNA to allow this RNA to band on a CsCl gradient. The separation factor between DNA and RNA on a CsCl-EB gradient was found to be 0.23 g/cc, indicating this type of gradient to be highly effective for separating the two types of polynucleotides.     

A Simple Method for the Purification of Organelle DNA of Plants

We report here a simple procedure for the purification of the organelle DNA. Mitochondrial DNA from Sorghum and the chloroplast DNA from Populus and spinach were purified using this protocol. The method utilizes a quick centrifugation of the isolated organelle DNA through a two step CsCl density gradient for removal of small molecular weight nucleic acids which pose a major problem for getting clean restriction patterns. This method of purification can be adopted with any isolation procedure for organelle DNA.     

Purification and Characterization of Thin Pili of IncI1 Plasmids ColIb-P9 and R64: Formation of PilV-Specific Cell Aggregates by Type IV Pili

Thin pili of the closely related IncI1 plasmids ColIb-P9 and R64 are required only for liquid mating and belong to the type IV family of pili. They were sedimented by ultracentrifugation from culture medium in which Escherichia coli cells harboring ColIb-P9- or R64-derived plasmids had been grown, and then the pili were purified by CsCl density gradient centrifugation. In negatively stained thin pilus samples, long rods with a diameter of 6 nm, characteristic of type IV pili, were observed under an electron microscope. Gel electrophoretic analysis of purified ColIb-P9 thin pili indicated that thin pili consist of two kinds of proteins, pilin and the PilV protein. Pilin was demonstrated to be the product of the pilS gene. Pilin was first synthesized as a 22-kDa prepilin from the pilS gene and subsequently processed to a 19-kDa protein by the function of the pilU product. The N-terminal amino group of the processed protein was shown to be modified. The C-terminal segments of the pilV products vary among six or seven different types, as a result of shufflon DNA rearrangements of the pilV gene. These PilV proteins were revealed to comprise a minor component of thin pili. Formation of PilV-specific cell aggregates by ColIb-P9 and R64 thin pili was demonstrated and may play an important role in liquid mating.     

Purification of bacteriophage M13 by anion exchange chromatography

M13 is a non-lytic filamentous bacteriophage (phage). It has been used widely in phage display technology for displaying foreign peptides, and also for studying macromolecule structures and interactions. Traditionally, this phage has been purified by cesium chloride (CsCl) density gradient ultracentrifugation which is highly laborious and time consuming. In the present study, a simple, rapid and efficient method for the purification of M13 based on anion exchange chromatography was established. A pre-packed SepFast™ Super Q column connected to a fast protein liquid chromatography (FPLC) system was employed to capture released phages in clarified Escherichia coli fermented broth. An average yield of 74% was obtained from a packed bed mode elution using citrate buffer (pH 4), containing 1.5 M NaCl at 1 ml/min flow rate. The purification process was shortened substantially to less than 2 h from 18 h in the conventional ultracentrifugation method. SDS-PAGE revealed that the purity of particles was comparable to that of CsCl gradient density ultracentrifugation method. Plaque forming assay showed that the purified phages were still infectious.     

The Dampening of DNA Replication Cycles after X-Irradiation or Ultraviolet Light Irradiation

Escherichia coli strains 15T^- (555-7) and B/r were grown in the presence of thymine-¹⁴C to label all DNA. The ability of these parental DNA's to undergo cycles of replication subsequent to cellular irradiation with either X-ray or ultraviolet light (UV) was followed with density labels. Exposed cells were shifted into the density medium at times which were approximately multiples of normal rounds of DNA replication. A portion of the parental DNA, replicated semiconservatively once during an initial cycle following UV or X-irradiation in E. coli, failed to replicate again within the time studied. The time course of semiconservative parental DNA replication is altered.     

Induction of Excessive Deoxyribonucleic Acid Synthesis in Escherichia coli by Nalidixic Acid

Prior treatment of Escherichia coli with nalidixic acid in nutritionally complete medium altered the subsequent pattern of deoxyribonucleic acid (DNA) synthesis normally observed in nutritionally deficient medium. Transfer of E. coli 15 TAU to an amino acid- and pyrimidine-deficient medium usually resulted in a 40 to 50% increase in DNA content. Previous treatment with nalidixic acid caused a 200 to 300% increase in DNA content under these conditions. The extent of this DNA synthesis depended on the duration of prior exposure to nalidixic acid. The maximal rate of synthesis was obtained after a 40- to 60-min exposure to nalidixic acid and was two to three times that of the control. The induction of this excessive DNA synthesis was prevented by chloramphenicol or phenethyl alcohol, but the synthesis of this DNA was only partially sensitive to these agents. With E. coli TAU-bar, the rate of DNA synthesis, after removal of nalidixic acid, was similar to that of E. coli 15 TAU, but the maximal amount of DNA synthesized was 180 to 185% of that initially present. Cesium chloride density gradient analysis demonstrated that DNA synthesis after removal of nalidixic acid occurs by a semiconservative mode of replication. The density distribution of this DNA was similar to that obtained after thymine starvation. These results suggest that nalidixic acid treatment may induce additional sites for DNA synthesis in E.coli.