Your search keyword '"Komano T"' showing total 23 results

1. Alternative secondary structures in the phage G4 origin of the complementary DNA strand synthesis: effects of NaCl concentration on the bleomycin-DNA interaction.

Author

Ueda K, Hiasa H, Takebe S, Sakai H, and Komano T

Subjects

Bacteriophages drug effects, Bacteriophages genetics, Base Sequence, DNA analysis, DNA drug effects, DNA, Viral analysis, DNA, Viral chemistry, Molecular Sequence Data, Oligonucleotides analysis, Bacteriophages metabolism, Bleomycin pharmacology, DNA biosynthesis, DNA, Viral drug effects, Sodium Chloride pharmacology

Abstract

The effects of NaCl concentration on bleomycin-induced cleavages of single-strand and double-strand DNA fragments containing the phage G4 origin of complementary DNA strand synthesis were investigated. It was found that bleomycin could be used as a reagent to analyze secondary and tertiary structures and subtle changes of DNA structures. The effects of NaCl concentration on cleavages of single-stranded DNA were distinct at every target site, indicating that the diversity of topolotical properties of DNA might change the selectivity of the bleomycin-induced DNA cleavage. These results showed alternative secondary structures within and close to the G4 origin of complementary DNA strand synthesis.

Published

1992

2. Structural features of the priming signal recognized by primase: mutational analysis of the phage G4 origin of complementary DNA strand synthesis.

Author

Hiasa H, Sakai H, Komano T, and Godson GN

Subjects

Base Sequence, DNA Mutational Analysis, DNA Primase, DNA Transposable Elements, Molecular Sequence Data, Nucleic Acid Conformation, RNA biosynthesis, RNA Nucleotidyltransferases metabolism, Transcription, Genetic, Bacteriophages genetics, DNA Replication, DNA, Viral biosynthesis, Genes, Viral, Regulatory Sequences, Nucleic Acid

Abstract

45 mutations (insertion, deletion and base substitution) of the G4 Goric were tested for their functional activity in M13 and R199 in vivo. The critical mutants were also assayed for their ability to synthesize pRNA in vitro using SSB and primase. The results demonstrate that the secondary structure and spacing of stem-loops I and III are essential for Goric activity and that the 5'-CTG-3' sequence flanking stem-loop I is essential for initiation of pRNA synthesis.

Published

1990

3. The effects of metal ions on the DNA damage induced by hydrogen peroxide.

Author

Kobayashi S, Ueda K, and Komano T

Subjects

Bacteriophage phi X 174, Base Sequence, Cations, Divalent, Copper pharmacology, Molecular Sequence Data, Potassium Iodide pharmacology, DNA Damage, DNA, Superhelical drug effects, DNA, Viral drug effects, Hydrogen Peroxide pharmacology, Metals pharmacology

Abstract

The effects of metal ions on DNA damage induced by hydrogen peroxide were investigated using two methods, agarose-gel electrophoretic analysis of supercoiled DNA and sequencing-gel analysis of single end-labeled DNA fragments of defined sequences. Hydrogen peroxide induced DNA damage when iron or copper ion was present. At least two classes of DNA damage were induced, one being direct DNA-strand cleavage, and the other being base modification labile to hot piperidine. The investigation of the damaged sites and the inhibitory effects of radical scavengers revealed that hydroxyl radical was the species which attacked DNA in the reaction of H2O2/Fe(II). On the other hand, two types of DNA damage were induced by H2O2/Cu(II). Type I damage was predominant and inhibited by potassium iodide, but type II was not. The sites of the base-modification induced by type I damage were similar to those by lipid peroxidation products and by ascorbate in the presence of Cu(II), suggesting the involvement of radical species other than free hydroxyl radical in the damaging reactions.

Published

1990

4. In vitro conversion of S13 viral DNA in phage particles to the double-stranded DNA.

Author

Watabe K, Kubota M, Morita J, and Komano T

Subjects

Bacterial Proteins metabolism, Bacteriophage phi X 174 metabolism, Centrifugation, Density Gradient, DNA biosynthesis, Escherichia coli, Polymyxin B pharmacology, Bacteriophages metabolism, DNA, Single-Stranded metabolism, DNA, Viral metabolism

Abstract

The conversion of single-stranded DNA in S13 intact phage particles to the double-stranded replicative form DNA was observed in cell extracts prepared from Escherichia coli H560 (S13s, polA, endA) cells lysed with lysozyme and the non-ionic detergent, Brij 58. The DNA product, which associated with a rapidly sedimenting component, was identified as RFII-DNA with a gap by sedimentation analysis. The conversion was inhibited by N-ethylmaleimide, but not by rifampicin, nicotinamide mononucleotide or polymyxin B. The dnaB gene product was involved in the replicative system. Similar extracts prepared from a S13-resistant E. coli strain K12W6 also catalyzed this synthesis.

Published

1981

5. Sequence-specific DNA damage induced by reduced mitomycin C and 7-N-(p-hydroxyphenyl)mitomycin C.

Author

Ueda K and Komano T

Subjects

Bacteriophage phi X 174, Base Sequence, Borohydrides, Chelating Agents pharmacology, DNA Restriction Enzymes, Dithiothreitol, Kinetics, Mitomycin, Oxidation-Reduction, Sodium Chloride pharmacology, DNA, Viral, Mitomycins pharmacology

Abstract

Mitomycin C reduced with sodium borohydride induced the DNA damage at deoxyguanosines preferentially in dinucleotide sequence G-T. The DNA damage produced strand breaks when subsequently heated. The DNA damage scarcely occurred when the end-labeled DNA was preincubated with ethidium bromide or actinomycin D before the addition of mitomycin C and the reducing agent. Fully reduced mitomycin C did not induce the DNA damage. The mitomycin C-inducing DNA damage seems to require the intercalation of the partially reduced mitomycin C of short life time, probably semiquinone radical, between DNA base pairs. The inhibitory effects of sodium chloride and radical scavengers suggested that the requirement of the covalent bond formation of mitomycin C to DNA and the involvement of oxygen radicals in the DNA damage. 7-N-(p-hydroxyphenyl)mitomycin C, which is reported to show a higher antitumor activity and a lower toxicity than mitomycin C, was readily reduced with dithiothreitol and induced the sequence-specific DNA damage, whereas mitomycin C was not.

Published

1984

6. Mutational analysis of the primer RNA template region in the replication origin (oric) of bacteriophage G4: priming signal recognition by Escherichia coli primase.

Author

Hiasa H, Sakai H, Tanaka K, Honda Y, Komano T, and Godson GN

Subjects

Base Sequence, Chromosome Deletion, Coliphages growth & development, DNA Primase, DNA Transposable Elements, Escherichia coli enzymology, Genetic Vectors, Kinetics, Molecular Sequence Data, Nucleic Acid Conformation, Oligonucleotide Probes, Templates, Genetic, Coliphages genetics, DNA Replication, DNA, Viral genetics, Escherichia coli genetics, Mutation, RNA Nucleotidyltransferases metabolism, RNA, Viral genetics

Abstract

The primase-dependent phage G4 origin of complementary DNA strand synthesis (G4oric) contains three stable stem-loops (I, II, and III) upstream from the initiation point of primer RNA (pRNA). Site-directed mutagenesis was used to introduce alterations into the nucleotide (nt) sequence of the G4oric pRNA template region. Mutations in stem-loop I, that changed the length of the stem and the sequence of the loop, slightly depressed, but did not abolish, G4oric activity. However, functional G4oric activity was destroyed when the sequence containing the starting position of pRNA synthesis was deleted, or when insertions were introduced between the pRNA starting position (5'-CTG-3') and stem-loop I. Reintroducing a CTG as part of a PstI linker close to stem-loop I, however, resulted in recovery of G4oric functional activity. These results suggest that the specific nt sequence, containing 5'-CTG-3', between nt 3994 and 4007, and also the distance between the starting position of pRNA synthesis and stem-loop I, are essential structural features for G4oric function.

Published

1989

7. Phage inactivation and DNA strand scission activities of 7-N-(p-hydroxyphenyl)mitomycin C.

Author

Ueda K, Morita J, and Komano T

Subjects

Bacteriophage phi X 174 drug effects, Electrophoresis, Agar Gel, Pseudomonas, Bacteriophages drug effects, DNA, Viral metabolism, Mitomycin, Mitomycins pharmacology

Abstract

A new derivative of mitomycin C (MMC), 7-N-(p-hydroxyphenyl)mitomycin C (M-83), had higher phage inactivation activity against phages phiX174 and PM2 than MMC, and also higher DNA strand scission activity against their single- and double-stranded DNAs. M-83, at one third to one sixth concentration of MMC, showed the same level of phage inactivation and DNA strand scission activities. The mechanism of phage inactivation and DNA strand scission by M-83 were similar to those of MMC: (1) Reduction of M-83 was required for its action. (2) Oxygen radicals were involved in DNA strand scission, and metal ions possibly participated in the generation of oxygen radicals. (3) DNA strand scission was single strand scission, and dependent on temperature. The high DNA strand scission activity of M-83 is considered to reflect the rapid conversion to the active form.

Published

1982

8. DNA damage induced by ascorbate in the presence of Cu2+.

Author

Kobayashi S, Ueda K, Morita J, Sakai H, and Komano T

Subjects

Bacteriophage phi X 174 drug effects, Bacteriophage phi X 174 genetics, Base Sequence, Cations, Divalent, DNA, Viral genetics, Kinetics, Molecular Sequence Data, Ascorbic Acid pharmacology, Calcium pharmacology, DNA Damage, DNA, Viral drug effects

Abstract

DNA damage induced by ascorbate in the presence of Cu2+ was investigated by use of bacteriophage phi X174 double-stranded supercoiled DNA and linear restriction fragments as substrates. Single-strand cleavage was induced when supercoiled DNA was incubated with 5 microM-10 mM ascorbate and 50 microM Cu2+ at 37 degrees C for 10 min. The induced DNA damage was analyzed by sequencing of fragments singly labeled at their 5'- or 3'-end. DNA was cleaved directly and almost uniformly at every nucleotide by ascorbate and Cu2+. Piperidine treatment after the reaction showed that ascorbate and Cu2+ induced another kind of DNA damage different from the direct cleavage. The damage proceeded to DNA cleavage by piperidine treatment and was sequence-specific rather than random. These results indicate that ascorbate induces two classes of DNA damage in the presence of Cu2+, one being direct strand cleavage, probably via damage to the DNA backbone, and the other being a base modification labile to alkali treatment. These two classes of DNA damage were inhibited by potassium iodide, catalase and metal chelaters, suggesting the involvement of radicals generated from ascorbate hydroperoxide.

Published

1988

9. Cleavage of stem-and-loop structure DNA by bleomycin. Reaction on the bacteriophage G4 origin of complementary strand synthesis.

Author

Ueda K, Kobayashi S, Sakai H, and Komano T

Subjects

Base Sequence, DNA, Single-Stranded metabolism, Dithiothreitol pharmacology, Repetitive Sequences, Nucleic Acid, Bacteriophages genetics, Bleomycin pharmacology, DNA, Viral analysis, Nucleic Acid Conformation drug effects

Abstract

The cleavage by bleomycin-Fe(II) complex in the presence of dithiothreitol of 3'-or 5'-end-labeled DNA from the region of the bacteriophage G4 origin of complementary strand synthesis was investigated by using the DNA-sequencing technique. Bleomycin cleaved a single-stranded DNA substrate preferentially at inverted repeat sequences, which potentially form stem-and-loop structures, while it cleaved double-stranded DNA substrates with different specificity. The results support the formation of three adjoining stem-and-loop structures in the region of the phage G4 origin of complementary strand synthesis under the low-salt conditions used and suggest a difference in the form of the double helix between the stem and the double-stranded DNA fragment. Bleomycin appears to be a useful reagent for searching stem-and-loop structures. The results may also contribute to the understanding of the mode of action of bleomycin as an antitumor antibiotic.

Published

1985

10. Bacteriophage phiX174 growth in an Escherichia coli dnaIts mutant, KS810.

Author

Sakai H, Watabe K, and Komano T

Subjects

Coliphages metabolism, Genes, Mutation, Temperature, Coliphages growth & development, DNA, Viral biosynthesis, Escherichia coli genetics, Virus Replication

Abstract

A bacteriophage phiX174-sensitive Escherichia coli dnaIts mutant, KS810, was constructed and growth of phiX174 in the cells was investigated. phiX174 and phiX174am3trD could grow normally at 43 degrees C as well as 27 degrees C, therefore we conclude that the growth of bacteriophage phiX174 is not dependent upon the host dnaI gene product.

Published

1978

11. Bacteriophage phi X174 DNA synthesis in Escherichia coli HF4704S (dnaHts) cells.

Author

Sakai H and Komano T

Subjects

Chloramphenicol pharmacology, Coliphages drug effects, DNA Viruses drug effects, DNA Viruses metabolism, Escherichia coli drug effects, Mutation, Temperature, Time Factors, Virus Replication, Coliphages metabolism, DNA Replication drug effects, DNA, Bacterial biosynthesis, DNA, Viral biosynthesis, Escherichia coli metabolism

Abstract

The DNA synthesis of bacteriophage phiX174 in Escherichia coli HF470S, a mutant temperature sensitive in the initiation of DNA replication (dnaHts), has been examined. In HF4704S cells, phiX174 can grow normally at 27 degree C whereas the phage cannot grow after the cessation of DNA synthesis of the host cells at 42 degrees C. Upon infection, phiX174 DNA can be injected into the host cell and the parental replicative form can be formed, but the progency replicative form cannot be synthesized at 43 degrees C in the absence of host DNA synthesis. The progency replicative form cannot be synthesized at 27 degrees C in the presence of 30 mug chloramphenicol/ml in the host cell which has been incubated for 74 min at 43 degrees C followed by transfer to 27 degrees C in the presence of 30 mug chloramphenicol/ml. When 30 mug chloramphenicol/ml is added later than 5 min after the temperature shift-down to 27 degrees C, the progency replicative form synthesis is not inhibited. Thus, the host cell function, for which the gene dnaH is responsible, has been shown to be essential to the progency replicative form production.

Published

1975

12. A new procedure for determining thymine residues in DNA sequencing. Photoinduced cleavage of DNA fragments in the presence of spermine.

Author

Saito I, Sugiyama H, Matsuura T, Ueda K, and Komano T

Subjects

Autoradiography, Bacteriophage phi X 174, Base Sequence, Chemical Phenomena, Chemistry, DNA Restriction Enzymes, Phosphorus Radioisotopes, Photolysis, DNA, Viral radiation effects, Spermine, Thymine analysis, Ultraviolet Rays

Abstract

A new procedure for T specific cleavage of DNA fragments utilizing photoreaction with spermine has been described. Irradiation of 3'-[32P]-end-labeled DNA fragments for 10-20 min with a germicidal lamp emitting mainly 254-nm light in the presence of 1 M spermine in distilled water resulted in a T specific cleavage of the DNA chains. This method does not require piperidine treatment. By contrast, when the DNA fragments were irradiated in the presence of methylamine under similar conditions, both G and T bands with the intensity of G greater than T have appeared. A similar but less selective T cleavage has also been observed in the irradiation of 5'-[32P]-end-labeled DNA fragments in the presence of spermine followed by brief heating of the photolysate in a loading buffer for gel electrophoresis. The T specific photoreaction with spermine and the G greater than T reaction with methylamine described here may be conveniently used in combination with the standard Maxam-Gilbert's reactions to provide independent confirmatory readings.

Published

1984

13. Distinct functional contributions of three potential secondary structures in the phage G4 origin of complementary DNA strand synthesis.

Author

Hiasa H, Tanaka K, Sakai H, Yoshida K, Honda Y, Komano T, and Godson GN

Subjects

Base Sequence, Coliphages growth & development, Kinetics, Molecular Sequence Data, Mutation, Nucleic Acid Conformation, Oligonucleotide Probes, Coliphages genetics, DNA Replication, DNA, Viral genetics, Escherichia coli genetics

Abstract

Three potential secondary structures, stem-loops I, II, and III, are contained in the phage G4 origin of complementary DNA strand synthesis, G4oric, and are believed to be involved in its recognition by dnaG-encoded primase and the synthesis of primer RNA. In a previous publication [Sakai et al., Gene 71 (1988) 323-330], we suggested that base pairing between the loops of stem-loops I, and II, and/or II and III, might play a role in G4oric function. To test this hypothesis, site-directed mutagenesis was used to construct mutants which carried base substitutions in loops I, II and III that destroyed possible interloop base pairing. These mutations, however, did not seriously affect G4oric activity. This indicates that base pairing between the loops is not essential for G4oric functional activity, and also that base substitutions which do not affect the secondary structure of stem-loops I, II and III, do not affect G4oric activity. To complete an analysis of the effects of altering the structure of the G4oric stem-loops, insertions were made into stem-loop III. In contrast to stem-loops I and II, all insertions into stem-loop III destroyed in vivo G4oric activity.

Published

1989

14. Involvement of host cell gene products in conversion of bacteriophage S13 single-stranded DNa to duplex replicative form DNA in vitro.

Author

Watabe K, Sakai H, and Komano T

Subjects

Escherichia coli analysis, Ethylmaleimide pharmacology, Rifampin pharmacology, Coliphages genetics, DNA Replication drug effects, DNA, Single-Stranded metabolism, DNA, Viral metabolism, Gene Conversion, Virus Replication drug effects

Abstract

The single-stranded circular DNA of bacteriophage S13 was converted to the duplex replicative form DNA by soluble extracts from Escherichia coli strain H560 (polA, endA) in vitro. The maximal conversion required four deoxyribonucleoside triphosphates, Mg2+, exogenous S13 DNA and ATP, but not CTP, UTP, or GTP. The conversion was blocked by N-ethylmaleinimide but not by rifampicin. The product was identified as a gapped duplex replicative form DNA. Using extracts from some thermosensitive mutants of E. coli defective in DNA replication, we found that dnaB and dnaC gene products are involved in the conversion stage of single-stranded DNA to duplex DNA in vitro.

Published

1981

15. Growth and DNA synthesis of bacteriophage phi x174 in a dnaP mutant of Escherichia coli.

Author

Mano Y, Sakai H, and Komano T

Subjects

Adsorption, Coliphages genetics, Coliphages metabolism, DNA Replication, DNA, Viral metabolism, Temperature, Coliphages growth & development, DNA, Bacterial genetics, DNA, Viral biosynthesis, Escherichia coli genetics, Mutation, Virus Replication

Abstract

phi X174am3trD, a temperature-resistant mutant of bacteriophage phi X174am3, exhibited a reduced ability to grow in a dnaP mutant, Escherichia coli KM107, at the restrictive temperature (43 degrees C). Under conditions at which the dnaP gene function was inactivated, the amount and the rate of phi X174am3trD DNA synthesis were reduced. The efficiency of phage attachment to E. coli KM107 at 43 degrees C was the same as to the parental strain, E. coli KD4301, but phage eclipse and phage DNA penetration were inhibited in E. coli KM107 at 43 degrees C. It is suggested that the dnaP gene product, which is necessary for the initiation of host DNA replication, participates in the conversion of attached phages to eclipsed particles and in phage DNA penetration in vivo in normal infection.

Published

1979

16. Sequence specificity of heat-labile sites in DNA induced by mitomycin C.

Author

Ueda K, Morita J, and Komano T

Subjects

Bacteriophage phi X 174, Base Sequence, Chemical Phenomena, Chemistry, Hot Temperature, Mitomycin, Oxidation-Reduction, Phosphorus Radioisotopes, Antibiotics, Antineoplastic, DNA, Viral, Mitomycins toxicity

Abstract

The sequence specificity of the mitomycin C-DNA interaction was directly determined by using DNA sequencing techniques and by using 3'- or 5'-end-labeled DNA fragments of defined sequence as substrates. Mitomycin C reduced with sodium borohydride induced heat-labile sites in DNA preferentially at specific sequences. The heat-labile sites were induced most preferentially at the dinucleotide sequence G-T ( especially Pu G-T), which was determined by scanning autoradiograms with a microdensitometer after gel electrophoresis. DNA was cleaved at the 3' side of deoxyguanosines and of some deoxyadenosines by heat treatment. Oligonucleotides produced by heat treatment after reaction with reduced mitomycin C contained phosphoryl groups at the 5' termini. The 3' termini seemed not to have simple structures, judging from their electrophoretic mobilities. Oxygen radicals such as singlet oxygen and hydroxyl radical were possibly involved in the induction of heat-labile sites.

Published

1984

17. Inactivation of infectivity of phiX174 DNA by menadione and reduced menadione.

Author

Morita J, Narita S, and Komano T

Subjects

Escherichia coli drug effects, Escherichia coli metabolism, Kinetics, Molecular Weight, Oxidation-Reduction, Spheroplasts drug effects, Spheroplasts metabolism, Virus Replication drug effects, Coliphages metabolism, DNA Replication drug effects, DNA, Viral metabolism, Vitamin K pharmacology

Abstract

Interaction of menadione and reduced menadione with phage phiX174 DNA was investigated. A concentration of 2-10(-4) M menadione inactivated 60% of the infectivity of phiX174 DNA to spheroplasts of Escherichia coli, while reduced menadione inactivated 97% of the infectivity of phiX174 DNA at the same concentration. Alkaline sucrose gradient centrifugation revealed 2-10(-5) M reduced menadione caused approximately 24% of phiX174 DNA to produce strand break under the condition of 80% lethanlity. DNA strand break was not observed even at 4 - 10(-4) M menadione. These results indicated that there were different mechanisms for inactivation of phiX174 DNA between menadione and reduced menadione.

Published

1977

18. Process of attachment of phi X174 parental DNA to the host cell membrane.

Author

Azuma J, Morita J, and Komano T

Subjects

Cell Membrane metabolism, DNA Replication, Kinetics, Membrane Proteins isolation & purification, Molecular Weight, Protein Binding, Viral Proteins isolation & purification, Virus Replication, Bacteriophage phi X 174 metabolism, DNA, Viral metabolism, Escherichia coli metabolism, Membrane Proteins metabolism

Abstract

The phi X174-DNA membrane complex was isolated from Escherichia coli infected with phi X174 am3 by isopycnic sucrose gradient centrifugation followed by zone electrophoresis. The phi X174 DNA-membrane complex banded at two positions, intermediate density membrane fraction and cytoplasmic membrane fraction, having bouyant densities of 1.195 and 1.150 g/ml, respectively. Immediately after infection with phi X147, replicating DNA was pulse-labeled and then the incorporated label was chased. The radioactivity initially recovered in the intermediate density membrane fraction migrated to the cytoplasmic membrane fraction. The DNAs from both complexes sedimented mainly at the position of parental replicative form I (RFI). The phi X174 DNA-membrane complex contained a speficic membrane-bound protein having a molecular weigth of 80,000 which is accumulated in the host DNA-membrane complex. These results suggest that when phi X174 DNA penetrated into cells in the early phase of infection, single-stranded circular DNA was converted to parental RFI at a wall/membrane adhesion region and migrated to the cytoplasmic membrane fraction, where the parental RF could serve as a template in the replication of progeny RF.

Published

1980

19. Plasmid pACYC184 contains an ssi signal for initiation of single-strand phage DNA replication.

Author

Bahk JD, Sakai H, and Komano T

Subjects

Base Sequence, DNA Restriction Enzymes, Molecular Sequence Data, Nucleotide Mapping, Coliphages genetics, DNA Replication, DNA, Viral genetics, Escherichia coli genetics, Plasmids

Abstract

Using the plaque assay system for screening the single-strand (ss) initiation determinant (ssi) sequences, we have found that 119-bp region in pACYC184, a derivative of the plasmid P15A of Escherichia coli, can direct such ss DNA initiation. This region is located downstream from the P15A origin of replication and conserves consensus sequences of the ssi signals found in the other plasmids. Signals for ss DNA initiation are defined as nucleotide sequences present on ss DNA templates and required for priming DNA synthesis. The direction of chain elongation in DNA synthesis is opposite to that of the leading strand. In this region, we found a potential stem-and-loop structure. The 119-bp DNA segment of plasmid pACYC184 cloned in f1R199 filamentous phage could direct rifampicin-resistant conversion of the ss DNA to the double-stranded replicative form.

Published

1988

20. The nucleic acid of nuclear-polyhedrosis virus of the silkworm.

Author

Onodera K, Komano T, Himeno M, and Sakai F

Subjects

Chemical Phenomena, Chemistry, In Vitro Techniques, Bombyx, DNA, Viral, Insect Viruses

Published

1965

21. The process of infection with bacteriophage phi-X174. XXII. Synthesis of progeny single-stranded DNA.

Author

Komano T, Knippers R, and Sinsheimer RL

Subjects

Centrifugation, Density Gradient, Centrifugation, Zonal, Hybridization, Genetic, Infections, Thymine metabolism, Tritium, Bacteriophages metabolism, DNA, Viral biosynthesis, Virus Replication

Published

1968

22. Preparation and purification of phi X-RF component I.

Author

Komano T and Sinsheimer RL

Subjects

Acrylic Resins, Cellulose, Centrifugation, Zonal, Chromatography, Gels, Genetics, Microbial, Methods, Mutation, Phosphorus Isotopes, Spectrophotometry, Tritium, Coliphages analysis, DNA, Bacterial analysis, DNA, Viral analysis, Escherichia coli analysis, Virus Replication

Published

1968

23. Stages in the replication of bacteriophage phi X174 DNA in vivo.

Author

Sinsheimer RL, Knippers R, and Komano T

Subjects

Carbon Isotopes, Centrifugation, Density Gradient, Chromatography, Ion Exchange, Escherichia coli metabolism, Genetics, Microbial, Mutation, Phosphorus Isotopes, Thymine metabolism, Transduction, Genetic, Tritium, Coliphages metabolism, DNA Replication, DNA, Viral biosynthesis

Published

1968