Regional replication of the bacterial chromosome induced by derepression of prophage lambda

Summary We have demonstrated previously by DNA-DNA hybridization that induction of phage with wild type O and P genes results in an increase of bacterial DNA in the chromosomal region adjacent to the left of the prophage, that is a segment between gal and att (gal DNA) (Imae and Fukasawa, 1970). Evidence is presented in this report that such an increase of bacterial DNA is also seen in the region to the right of the prophage; a segment between bio and att (bio DNA). We postulate therefore that the bidirectional replication of DNA extends beyond the prophage and copies the neighboring host DNA until the prophage is excised. The model is verified by making use of excision-defective phages. The synthesis of gal DNA (or bio DNA) slows down to a halt within 40 min after the induction in the normal lysogens. The results are attributed to the prophage excision: (1) In lysogens for int, synthesis of the bacterial DNA continues for longer times. (2) The synthesis of the bacterial DNA slows down to a halt in lysogens for xis or b2 as in the control. However DNA synthesis also slows down in parallel so that the amount of the bacterial DNA relative to that of DNA synthesized by a given time stays constant from 20 min to 80 min. During that time the relative amount of the bacterial DNA rapidly decreases in the normal lysogen.The first article of this series is in J. molec. Biol. 54, 585 (1970).     

Bacillus subtilis bacteriophages SP beta c1 is a deletion mutant of SP beta

Summary The restriction fragment patterns of two mutant forms of the temperate Bacillus subtilis bacteriophage SP have been examined. The DNA of a heat-inducible mutant, SPc2, which has a molecular size of 128 kilobases (kb), yields the same restriction pattern as the wild type SPc⁺ DNA. The DNA of a clear-plaque mutant, SPc1, has a molecular size of 117 kb, and is deleted for an 11 kb region of phage DNA. Neither SPc1 nor SPc2 DNA is cleaved by the endonuclease HaeIII.     

DNA sequences homologous to the T DNA region of Agrobacterium tumefaciens are present in diverse Rhizobium species

Summary DNA sequences homologous to the T DNA region of the octopine-type Ti plasmid from Agrobacterium tumefaciens are present in different Rhizobium species. Plasmid DNA from each of two R. leguminosarum, two R. meliloti, and four slow-growing Rhizobium strains examined contain restriction endonuclease fragments that hybridize with the T DNA region, or with DNA sequences at or near the adjacent Ti plasmid transfer (ra) region. Four different BamHI fragments that contain homology to the T DNA region were cloned from R. leguminosarum 300 plasmid DNA. Cloned fragments of 5.9 kb and 10.3 kb hybridize to each other and are homologous to sequences which map at the right boundary region (EcoRI fragment 24) of the core T DNA. Ti plasmid sequences homologous to those present in cloned fragments of 10.9 kb and 2.0 kb map in adjacent fragments near the tra genes, approximately 10 kb to the right of the core T DNA.     

In situ detection and characterization of DNA polymerase activities in the nucleus of eukaryotic cells

We have developed a cytoenzymological method for localizing DNA polymerase activities in situ and for studying their responses to various chemical agents or environmental conditions. The incubation mixtures and the stimulatory or inhibitory agents added to these media were defined with reference to in vitro biochemical tests used to detect and to characterize DNA polymerases- or - found in eukaryotic cells. This method has already been used to study DNA polymerase activities during cell differentiation or cell senescence. Apart from two exceptions found with lower organisms, the nuclear DNA polymerase activity was always higher under conditions which favoured the in vitro expression of DNA polymerase- rather than DNA polymerase-. — In the various cell types studied, the cellular DNA polymerase activities were almost exclusively found in the nuclei. It is hoped that this methodology will be useful for obtaining more complete biochemical data on the intracellular localization of various DNA polymerases.     

DNA/DNA hybridization studies of the carnivorous marsupials. I: The intergeneric relationships of bandicoots (Marsupialia: Perameloidea)

Summary A complete suite of comparisons among six bandicoot species and one outgroup marsupial was generated using the hydroxyapatite chromatography method of DNA/DNA hybridization; heterologous comparisons were also made with three other bandicoot taxa. Matrices of T_m's, modes, and T₅₀Hs were generated and corrected for nonreciprocity, homoplasy, and, in the case of T_m's, normalized percent hybridization; these matrices were analyzed using the FITCH algorithm in Felsenstein's PHYLIP (version 3.1). Uncorrected and nonreciprocity-corrected matrices were also jackknifed and analyzed with FITCH to test for consistency. Finally, sample scores for T_m, mode, and T₅₀H matrices were bootstrapped and then subjected to phylogenetic analysis. These manipulations were carried out, in part, to address criticisms of the statistics used to summarize DNA/DNA hybridization (especially T₅₀H) and the method itself. However, with the exception of an unresolved trichotomy among the twoEchymipera species andPeroryctes longicauda, all trees showed the same branchpoints. Except in the case of the tree generated from reciprocal-corrected T_m data, nodes were stable under jackknifing; and, again excepting the above-mentioned trichotomy, all nodes were supported by 95% or more of the bootstrapped trees. These results suggest that, despite arguments to the contrary, all three summary statistics can be valid for DNA/DNA hybridization data. Of taxonomic interest is the placement ofEchymipera spp. andPeroryctes longicauda together and separate from the more distantPeroryctes raffrayanus; the genusPeroryctes is thus at least paraphyletic. The trees further groupedEchymipera-plus-Peroryctes as the sister group ofIsoodon-plus-Perameles. Limited hybridizations withMacrotis lagotis suggest that its current position as representative of an entirely distinct family of perameloids is correct.This article was presented at the C.S.E.O.L. Conference on DNA-DNA Hybridization and Evolution, Lake Arrowhead, California, May 11–14, 1989     

Bacteriophage phi 1 as a gene-cloning vector in Bacillus subtilis

Summary We attempted to use Bacillus subtilis phage 1 as a gene-cloning vector since the 1 genome was found to have few cleavage sites upon digestion with several kinds of restriction endonucleases. A 1 stock supplied by J. Ito (University of Arizona, Tucson, USA) consisted of two phages, 1E1 and 1E2, having one and two EcoRI-cleavage sites in their genomes respectively. From the latter isolate a deletion mutant 1E21 was induced to increase the size range of DNA segments to be cloned. It was demonstrated, by in vitro recombination experiments with phage 11 DNA, that 1E21 can be used for cloning EcoRI fragments of various sizes. We analyzed the DNAs of ten 1 clones isolated from independent transfectants and found that six of them carried 11 DNA fragments inserted at either of the two EcoRI-cleavage sites. Some of the hybrid phage DNAs were found to be cleaved with BamHI and HaeIII endonucleases at the 11 DNA portion, whereas the parental 1E21 DNA was insensitive to any of these enzymes. These hybrid phages would therefore be useful vectors for cloning foreign DNA fragments generated by cleavage with BamHI or HaeIII endonucleases.     

Polytene chromosome structure at the submicroscopic level

Nuclear DNA obtained by SDS treatment or phenol extraction of isolated polytene salivary gland nuclei of D. melanogaster and D. hydei was investigated electron-microscopically. All preparations contained only linear doublestranded DNA filaments of various length. The mean length of a sample of 52 DNA filaments of D. melanogaster produced by SDS treatment was 37.3 . For D. hydei a mean length of 24.2 was established on account of a sample of 51 filaments obtained by SDS treatment. In samples obtained by phenol extraction a mean length of 23.8 (26 filaments) was found. Pronase digestion following SDS treatment gave a mean length of 29.1 for D. melanogaster (46 filaments) and of 17.1 for D. hydei (57 filaments). — The mean length of DNA filaments from D. hydei sperm was 21.5 on the basis of 25 filaments measured. The length distribution of the DNA of the samples of filaments measured varied. Preparations of single-stranded DNA obtained by heat denaturation of samples of D. hydei nuclear DNA revealed very long filaments. An obvious increase in the number of filaments shorter than 30 as compared with double-stranded DNA could not be established.     

An effective method to extract DNA from environmental samples for polymerase chain reaction amplification and DNA fingerprint analysis

A rapid direct-extraction method was used to obtain DNA from environmental soil samples. Heat, enzymes, and guanidine isothiocyanate were utilized to lyse cells. The DNA was purified by agarose gel electrophoresis, amplified with 16S rRNA-based primers by use of the polymerase chain reaction, and then digested with the restriction endonucleasePalI. The extraction method was used to obtain DNA from a variety of plants, bacteria, and fungi includingGossypium hirsucum (cotton),Pseudomonas, Bacillus, Streptomyces, andColletotrichum. Up to 100 g DNA/g (wet weight) of soil and 400 g DNA/g of plant material were recovered. Restriction endonuclease analysis patterns of amplified rDNA from pure microbial cultures and plant species contained three to five different DNA fragments. Amplified rDNA of mixed population DNA extracts from soil samples, digested with the restriction endonucleasePalI, contained 12–20 DNA fragments, appearing as sample fingerprints. Results from eight environmental soil samples that were analyzed suggest that the amplified rDNA fingerprints can be used to help characterize the genetic and biological diversity of the microbial populations in these samples.     

Cloning bacterial genes with plasmid λdv

Summary Fragments ofEscherichia coli DNA carrying genes for -galactosidase, or for biosynthesis of guanine or biotin were recombined in vitro with dv DNA. The cloned recombinant molecules recovered from transformedE. coli cells consisted of a biologically functional bacterial DNA fragment and, except for dv-bio30-7, two dv monomer units: one of the dv units was used as the insertion site for the bacterial DNA, whereas the other was intact, and seemed to be responsible for the replication of the recombinant plasmid. The process which gives rise to these recombinant molecules at high frequency from mixtures of monomeric dv DNA's and bacterial DNA fragments is discussed.     

Host specificity of DNA produced by Escherichia coli. XVI. Phage lambda DNA carries a single site of affinity for A-specific restriction and modification

Summary Bacteria with A-specific restriction plate unmodified phage with an efficiency of 10^-2. One mutational event can produce restriction insensitive (sA^o) mutants of . These differ from the original sA form of by no other property than their response to A-host specificity. Two-parental phage crosses involving sA and sA^o, respectively, as non-selective marker allowed to map sA between genes cII and O. These data indicate that sA is the only site on DNA with affinity for A-specific restriction. DNA is thus an interesting substrate in in vitro A-specific restriction and modification. Using an assay based on the infectivity of DNA on helper-infected bacteria, A-specific modification activity was found in partially purified sonicates of bacteria with A-host specificity. In parallel to modification, ³H-methyl label from s-adenosylmethionine, the only cofactor required for modification, was transferred to unmodified DNA. No association of radioactivity was observed in control experiments with DNA from either modified ·A or from asA^o mutant. These data suggest that A-specific modification is brought about by DNA methylation and that the sA^o mutation not only abolished the affinity for A-specific restriction, but also for A-specific modification.     

Analysis of DNA–Protein Contacts in a Complex between Methyltransferase SsoII and a Promoter Region of the SsoII Restriction–Modification Genes

Heterocyclic bases and phosphate groups involved in the DNA–methyltransferase SsoII (M·SsoII) interaction were identified in the regulatory DNA region localized within the promoter region of the SsoII restriction–modification genes by footprinting with the use of formic acid, hydrazine, dimethyl sulfate, and N-ethyl-N-nitrosourea as modifying agents. It has been established that the enzyme interacts with three guanines, one adenine, two thymines, and three phosphate groups of each strand of the DNA duplex. These heterocyclic bases and phosphate groups are disposed symmetrically within the 15-mer inverted repeat of the regulatory DNA region. It has been demonstrated by footprinting with dimethyl sulfate that the C7 atoms of guanines interacting with the enzyme are exposed to the DNA major groove. Two theoretical models were built describing the contacts in a complex between M·SsoII and the regulatory DNA region.     

DNA base composition within the genusScenedesmus (Chlorophyta)

The DNA base compositions of 60 strains ofScenedesmus were determined and found to be a valuable indicator for the differentiation within this genus (except for the very closely related species of the subsect.Desmodesmus). The range for allScenedesmus species was 49.9–69.3 mol% GC for nuclear DNA and 36.8–39.9 mol% GC for chloroplast DNA. The separation of the genusTetradesmus cannot be verified by GC values, becauseS. obliquus andS. (Tetradesmus)wisconsinensis have a similar GC content.S. (Chlorella)ultrasquamata, S. costato-granulatus (sect.Costato-granulati) andS. lunatus are separated clearly from all other species of the genus because of their high GC content.     

Analysis of the genetic stability of <Emphasis Type="Italic">Eucalyptus globulus</Emphasis> Labill. somatic embryos by flow cytometry

Flow cytometry was used to measure the nuclear DNA content of Eucalyptus globulus Labill. somatic and zygotic embryos and leaves in order to determine if somatic embryogenesis induces DNA content and ploidy changes in this species. Mature zygotic embryos derived from open-pollination orchard families were collected from a location in the centre of Portugal. One group was kept for nuclear DNA content and ploidy analysis, and the other group was used for establishing embryogenic cultures. Mature zygotic embryos were grown on Murashige and Skoog (MS) medium supplemented with 3% (w/v) sucrose and 3 mg l^–1 -naphthaleneacetic acid (NAA) for 3 weeks and then transferred to MS medium without growth regulators. Globular somatic embryos from approximately 8-month-old embryogenic cultures were used in the assay. DNA ploidy levels and the nuclear DNA content of mature zygotic embryos, somatic embryos and leaves from the mother field tree were determined using flow cytometry combined with propidium iodide staining. Zygotic embryos had a nuclear DNA content of 1.32 pg/2C, somatic embryos had a nuclear DNA content of 1.39 pg/2C and leaves from the field tree had a nuclear DNA content of 1.40 pg/2C. The values estimated for the somatic embryos and mother plant did not differ statistically from each other (P0.05), but both differed from those of the zygotic embryos (P0.05). These results clearly indicate that no changes were induced during the embryogenic process. However, the differences found between the field plants and zygotic embryos did suggest that some aspects must be evaluated carefully, as propidium iodide fluorescence may potentially be influenced by the presence of secondary compounds (e.g. anthocyanins, tannins) in E. globulus somatic embryos and mature leaves. Therefore we believe that the somatic embryogenesis methodology used did not induce major genetic changes in the somatic embryos and that our primary goal of true-to-type propagation was assured.     

Preparation of Photoreactive Oligonucleotide Duplexes and Their Application to Photoaffinity Modification of DNA-Binding Proteins

To introduce photoreactive dNMP residues to the 3"-end of a mononucleotide gap, base-substituted photoreactive deoxynucleoside triphosphate derivatives, (5-[N-(2,3,5,6-tetrafluoro-4-azidobenzoyl)-trans-3-aminopropenyl-1]- and 5-{N-[N-(4-azido-2,5-difluoro-3-chloropyridine-6-yl)-3-aminopropionyl]-trans-3-aminopropenyl-1}-2"-deoxyuridine 5"-triphosphates, were used as substrates in the DNA polymerase -catalyzed reaction. The resulting nick, containing a modified base at the 3"-end, was sealed by T4 phage DNA ligase. This approach enables the preparation of DNA duplexes bearing photoreactive groups at a predetermined position of the nucleotide chain. Using the generated photoreactive DNA duplexes, the photoaffinity modifications of DNA polymerase and human replication protein A (hRPA) were carried out. It was shown that DNA polymerase and hRPA subunits were modified with the photoreactive double-stranded DNA considerably less effectively than by the nicked DNA. In the case of double-stranded DNA, the hRPA p70 subunit was preferentially labeled, implying a crucial role of this subunit in the protein–DNA interaction.     

Mutation as an error in base pairing

Summary The model of mutation by transitional change (Freese 1959) predicts that a heritable change in genotype is established when two replications of DNA succeed the initial incorporation of an analogue. The model was tested in populations ofSalmonella typhimurium strainstryD-10 andtryD-79 whose division had been synchronized by fractional filtration. Mutation from auxotrophy to prototrophy (try ^–try ⁺) induced by 5-bromodeoxyuridine (BUDR) and 2-aminopurine (AP) occurred in accordance with DNA replication. Two subsequent DNA replications were necessary to obtain BUDR-induced prototrophs inD-79, one subsequent DNA replication was required for AP-induced prototrophs inD-79, while no subsequent DNA replication was necessary for AP-induced prototrophs inD-10. This was observed whether the mutagens were present continuously or during only the first replication and also when the cells were allowed to replicate their DNA without cell division in the presence of inhibitory concentrations of the base analogue or when protein synthesis was blocked in the presence of chloramphenicol. A statistical analysis of the patterns of mutant increase observed for six mutant strains was used to distinguish between errors in replication and errors in incorporation induced by the base analogues and thereby the base pair at the mutant site was identified.With 10 Figures in the TextSupported in part by grants from the American Cancer Society the U.S. Public Health Service and the National Science Foundation administered by ProfessorF. J. Ryan.     

Ultraviolet reactivation of the single stranded DNA phage phiX 174.

Summary When UV-irradiated X174 was grown in pre-irradiated host cells of various strains, ultraviolet reactivation (UVR) was observed only in recombination proficient strains such as E. coli C (uvrA ⁺ recA ⁺) and HF4704 (uvrA ^- recA ⁺), but not in the recombination deficient strain HF4712 (uvrA ⁺ recA ^-). By increasing the multiplicity of infection, no rise in the amount of such reactivation was observed. From the study of the neutral and alkaline sucrose gradient sedimentation patterns of DNA samples extracted from unirradiated cells infected with unirradiated phage, it appears that after the conversion of the viral single stranded (SS) DNA to the double stranded form (DS), nicks or scissions were produced on it within all three strains, which were ultimately sealed up in the recA ⁺ but persisted within the recA ^- host cells. When UV-irradiated phage infected unirradiated host cells, such nicking of the DS DNA appeared to be much more extensive in uvrA ⁺ recA ⁺, but slightly reduced in uvrA ⁺ recA ^- and severely suppressed in uvrA ^- recA ⁺ strains. When the host cells were also UV-irradiated, the conversion of the infecting viral SS DNA to DS DNA as well as its subsequent nicking were reduced in all the three strains to a much greater extent. Although nicking of the DS DNA molecule is an essential step even in the normal intracellular replication of X DNA, the production and the sealing up of such nicks appear not to have any positive correlation with UVR of these phages. A drastic reduction in nicking due te pre-irradiation of the host cells might, however, mean slowing down of the replication of the damaged parental RF molecules which would facilitate their repair perhaps through recombination with the homologous parts of the host genome.