Bacteriophage phiNS11: a lipid-containing phage of acidophilic thermophilic bacteria. IV. Sedimentation coefficient, diffusion coefficient, partial specific volume, and particle weight of the phage.

The particle weight (molecular weight) of phiNS11 was determined from the sedimentation coefficient, diffusion coefficient, and partial specific volume of the phage. The sedimentation coefficient of the phage (S(0)20, W) is 416 +/- 2.7S. The diffusion coefficient D(0)20, W), which was determined by quasielastic light scattering measurement, is (0.57 +/- 0.03) x 10(-7) cm2/s. The partial specific volume was determined by the mechanical oscillation technique to be 0.747 +/- 0.007 cm3/g. Based on these values, the particle weight of the phage was calculated to be (70.3 +/- 4.3) x 10(6) daltons, which agrees well with the particle weight (69--72 x 10(6) daltons) estimated from the molecular weight of phage DNA and the content of DNA. The Stokes radius of the phage particle was calculated to be 37.7 +/- 2 nm and hydration of the phage was estimated to be 1.18 cm3/g of dry phage. From the particle weight and the chemical composition of the phage, we estimated that one phage particle contains one double-stranded DNA molecule, 16,000 residues of fatty acid, 72 protein I molecules, 920 protein II, 42 protein III, 48 protein IV, 290 protein V molecules, and 3,700 molecules of polyamines.     

Purification and properties of an endodeoxyribonuclease from nuclei of bovine small intestinal mucosa

An endodeoxyribonuclease has been purified from nuclei of bovine small intestinal mucosa to a homogeneous state by a procedure involving affinity chromatography on heparin-agarose. The endonuclease, which was found to be bound to chromatin, has a pH optimum of 5.4. It requires Mn2+ or Co2+ for activity and its maximum activity with Mg2+ is about 80% of that with Mn2+. Its activity is strongly inhibited by sulfhydryl-blocking agents, and by ethidium bromide. The enzyme does not attack RNA and is inhibited by it. Its isoelectric point is 8.5 +/- 0.1, and its molecular weight is 49,000 +/- 3,000, determined by sucrose gradient sedimentation and gel filtration on Sephadex G-100. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate indicated that the enzyme is composed of two nonidentical subunits with molecular weights of 30,000 and 23,000. The enzyme catalyzes the endonucleolytic cleavage of circular duplex ColE1 DNA via single strand scissions from the initial stage of degradation. The average size of the limit products of native phage T7 or ColE1 DNA is about 2,000 to 1,500 base pairs, estimated by neutral sucrose gradient sedimentation or agarose gel electrophoresis. The enzyme degrades denatured DNA about 20 times faster than native DNA. The products contain 5'-phosphoryl and 3'-hydroxyl termini, and all four deoxymononucleotides are present in almost equal amounts at the 5'-termini.     

Double-Length, Circular, Single-Stranded DNA from Filamentous Phage

Wild-type and gene 3 mutant filamentous phage stocks, containing different relative amounts of multiple-length particles, were treated exhaustively with DNase and then were highly purified. The phage DNA was extracted and examined by electron microscopy. In all cases, about 0.03% of the molecules were circular dimers. (3)H-labeled phage DNA was separated as to size by sedimentation in a preformed CsCl density gradient. Individual fractions were then examined in the electron microscope, and the percentage of linear and circular monomer and dimer DNAs was determined. A peak of double-length, circular molecules (with the expected sedimentation constant of 38S) was found ahead of the 24S monomer peak. The double-length molecules had been purified 65-fold. As previously found for single-stranded DNA, the contour length of these molecules was strongly dependent upon ionic strength. Possible artifacts were ruled out, and it was shown that the double-length molecules arose from phage particles.     

Characterization of Inducible Bacteriophages in Bacillus licheniformis

Two morphologically distinct and physically separable defective phages have been found in Bacillus licheniformis NRS 243 after induction by mitomycin C. One of them (PBLB) is similar to the defective phage PBSX of B. subtilis, which has a density of 1.373 g/cm(3) in CsCl and a sedimentation coefficient of 160S. PBLB incorporates into its head mainly bacterial deoxyribonucleic acid (DNA) which has a sedimentation coefficient of 22S and a buoyant density in CsCl of 1.706 g/cm(3). The other phage (PBLA) has a morphology similar to the temperate phage phi105 of B. subtilis; the head diameter is about 66 nm, and it possesses a long and noncontractile tail. PBLA has a density of 1.484 g/cm(3) in CsCl and the phage-specific DNA, which is exclusively synthesized after induction by mitomycin C, has a density of 1.701 g/cm(3). PBLA DNA is double-stranded and has a sedimentation coefficient of 36S, corresponding to a molecular weight of 34 x 10(6) to 35 x 10(6) daltons. The phage DNA has one interruption per single strand, giving single-stranded segments with molecular weights of 13 x 10(6) and 4 x 10(6) daltons. Common sequences between the two phage DNA species and with their host DNA have been demonstrated by DNA-DNA hybridization studies. Both phage particles kill sensitive bacteria. However, all attempts thus far to find an indicator strain to support plaque formation have been unsuccessful.     

Deoxyribonucleic acid poymerase of BHK-21/C13 cells. Heterogeneity, molecular asymmetry and subcellular distribution of the enzymes.

Nuclear and cytoplasmic fractions were prepared from exponentially-growing BHK-21/C13 cells; DNA polymerase was extracted from them and analysed by gel filtration and sucrose-density-gradient centrifugation. DNA polymerase I is heterogeneous comprising species covering a considerable range of molecular weights. These have been tentatively identified as four subspecies of apparent molecular weights 900000-1000000 (IA), 460000-560000 (IB), 270000-320000 (IC) and 140000-200000 (ID), as assessed by gel filtration through Sepharose 6B. DNA polymerase II has a mol.wt. of 46000 +/- 4000 as assessed by gel filtration on Sepharose 6B, and 48000 +/- 2000 as assessed by gel filtration on Sephadex G-100. Sedimentation analyses on sucrose density gradients showed that the DNA polymerase I species had sedimentation coefficients predominantly in the range 6-8 S. DNA polymerase II had predominantly a sedimentation coefficient of 3.2 S although a component with lower sedimentation coefficient was found. The lack of correlation between the molecular weights derived from gel filtration and the sedimentation coefficients is attributed to molecular asymmetry. DNA polymerase I was found to be associated predominantly with the cytoplasm although certain types of nuclear preparation contained large amounts of it. DNA polymerase II was found to be mostly if not exclusively in nuclear preparations.     

Properties of "diplophage": a lipid-containing bacteriophage.

We describe the purification and properties of Dp-1, a bacteriophage isolated from Diplococcus pneumoniae. The phage was sensitive to the organic solvents deoxycholate and Sarkosyl, and its infectivity was reduced by treatment with phospholipase C. Electron microscopy indicated the presence of a double-layered coat around the phage particles. Purified phage preparations contained lipid amounting to about 8.5% of the dry weight of the phage, and thin-layer chromatography resolved the lipids into four components. The phage had a buoyant density in CsCl of 1.47 g/cm3, and a sedimentation constant in 0.1 M NaCl of 313S. Analysis in acrylamide gel electrophoresis indicated the presence of three major proteins. Dp-1 DNA shows a density of 1.681 g/cm3. Neutralizing antisera against the phage have a low potency (K less than 120/min).     

Molecular weight of DNA from actinophage MSP2.

Actinophage MSP2 is infectious for Streptomyces venezuelae S13. Based upon electron microscopy of coliphage T4 mixed with MSP2, MSP2 had a head about 48 +/- 2 nm wide and 87 +/- 5 nm long. DNA from polyoma virus and from coliphages T4 and T7 served as reference markers in estimating the molecular weight of MSP2 DNA from sedimentation in sucrose gradients. Denatured MSP2 DNA was estimated to be about 17 x 10(6) and double-stranded MSP2 DNA was about (36 +/- 1.6) x 10(6) in molecular weight.     

Purification of the JS-3 isolate of Herpesvirus ovis (Bovid herpesvirus 4) and some properties of its DNA.

A procedure incorporating the use of heparin was developed to purify Herpesvirus ovis. The viral DNA has a buoyant density of 1.706 +/- 0.001 g/cm3, and the sedimentation constant was estimated to be 47.5 +/- 1.5S; from the latter, the molecular weight was calculated as 67.3 +/- 5.4 X 10(6). Estimates of the guanine-plus-cytosine content made from the buoyant density and melting point (72 degrees C) gave levels of 47 and 46%, respectively.     

Characterization of the antibiotic resistance plasmid ERL1 from Streptococcus pyogenes

Summary The streptococcal plasmid ERL1 determining inducible resistance to erythromycin, lincomycin, and staphylomycin S was isolated by dye-buoyant density centrifugation and shown to have a molecular weight of about 17.5 Mdal, as revealed by sedimentation through neutral sucrose gradients. In SM60 cells entering the stationary phase its covalently closed circular form was present to the extent of 5 copies per chromosomal genome equivalent. ERL1 was subject to the DNA restriction and modification mechanism discovered in strain 56188. It did not apear to exercise restriction of phage DNA but mediated a partial release of the restricted growth of A25.     

Defective Bacteriophage PBSH in Bacillus subtilis: I. Induction, Purification, and Physical Properties of the Bacteriophage and Its Deoxyribonucleic Acid

PBSH, a defective phage of Bacillus subtilis strain 168, is described. Conditions are given for optimal induction of the prophage with mitomycin C. After a latent period of 90 min, cells were lysed and phage-like particles were released with a burst size of approximately 100 to 400 phage per bacterium. Since no known host supports phage replication after infection, burst size was determined by electron microscope count. Purification procedures and criteria for purity are described. The molecular weight of deoxyribonucleic acid (DNA) extracted from PBSH was estimated by length measurement and sedimentation. No circular DNA molecules were found by either technique. PBSH DNA molecules are linear, double-stranded, and of homogeneous molecular weight, about 12 x 10(6) daltons. There is no evidence for single-strand breaks. The majority of PBSH DNA molecules show a sedimentation behavior dependent on ionic strength. It is inferred that most of the DNA molecules are less hydrodynamically rigid than native DNA having a similar average base composition and molecular weight. Possible reasons for the sedimentation behavior are discussed.     

Assessment by sedimentation equilibrium analysis of a heterologous macromolecular interaction in the presence of self-association: interaction of S5 with S8

The proteins S5 and S8 from the Escherichia coli 30S ribosomal subunit have been examined by sedimentation equilibrium methods for behavior in solution as isolated components and in mixtures. The means of resolving two simultaneous associations in this system is discussed, and the energy of association of S5 and S8 is reported. It was found that protein S5 from the MRE 600 strain tends to self-associate weakly at 4 degree C in a manner that can be described as an isodesmic self-association with an association constant and corresponding standard Gibbs free energy equal to (7.7 +/- 0.7) X 10(3) M-1 and -4.9 +/- 0.1 kcal/mol, respectively. Protein S8 was found to have a molecular weight of 15800 and was monomeric in a pure state. Mixtures of S5 and S8 clearly demonstrated the presence of an S5-S8 complex in addition to the self-association of S5. The equilibrium constant of association for the formation of a simple S5-S8 complex at 4 degree C and the corresponding standard Gibbs free energy were found to be (5.5 +/- 1.0) X 10(4) M-1 and -6.0 +/- 0.1 kcal/mol, respectively.     

Isolation and characterization of a new bacteriophage, KF1, immunologically cross-reactive with F-type pyocins

Pseudomonas aeruginosa strain NIH S produced a bacteriophage, KF1, immunologically cross-reactive with F-type pyocins. Phage KF1 was neutralized by both anti-pyocin F1 and anti-pyocin F3 sera, although the efficiency was very low. About eleven polypeptides were detected by SDS-polyacrylamide gel electrophoresis of the phage. Most of the subunit proteins were different from those of F-type pyocins, but the molecular weights of minor subunit proteins P3 and P6 seemed to be the same as those of band 1 and band 5 of F-type pyocins, respectively. The head of the phage appeared to have an icosahedral structure, approximately 63 nm in diameter, with a long (190 nm, 11 nm wide and about 45 striations) flexuous tail connected to a fiber structure (about 53 nm in length). The density in CsCl and the sedimentation coefficient of the phage were 1.54 g/ml and 392S, respectively. Some other biochemical properties were described. The nucleic acid of the phage was linear, double stranded DNA of molecular weight 4 x 10(7). The density of the DNA in CsCl was 1.719 g/ml, the melting temperature was 95.4 degrees C. The guanine plus cytosine content was calculated to be 60 to 64%.     

Erythrocruorin from the water-flea Daphnia magna. Quaternary structure and arrangement of subunits.

The subunit structure of erythrocruorin from the cladoceran Daphnia magna was studied. The native protein was found to have a sedimentation coefficient (S2(20), w) of 17.9 +/- 0.2 S and a molecular weight, as determined by sedimentation equilibrium, of 494 000 +/- 33 000. Iron and haem determinations gave 0.312 +/- 0.011% and 3.84 +/- 0.04%, corresponding to minimal molecular weights of 17900 +/- 600 and 16 100 +/- 200 respectively. Sodium dodecyl sulphate/polyacrylamide-gel electrophoresis gave one band with mobility corresponding to a molecular weight of 31 000 +/- 1 500. The molecular weight of the polypeptide chain determined by sedimentation equilibrium in 6 M-guanidinium chloride and 0.1 M-2-mercaptoethanol is 31 100 +/- 1300. On a molecular-weight basis, Daphnia erythrocruorin is composed of 16 identical polypeptide chains carrying two haem groups each. The native structure is stable between pH5 and 8.5. At alkaline and acidic pH, a gradual decrease in the sedimentation coefficient down to 9.8S occurs. Above pH 10 and below pH4, a slow component with S20, w between 2.7S and 4.0S is observed. The 2.7S, 4.0S and 9.8S species are identified as single-chain subunits, subunit dimers and half-molecules respectively. We propose a model for the molecule composed of 16 2.7S subunits grouped in two layers stacked in an eclipsed orientation, the eight subunits of each layer occupying the vertices of a regular eight-sided polygon. Support for this arrangement is provided from electron microscopy and from analysis of the pH-dissociation pattern.     

Induction and partial purification of bacteriophages from Desulfovibrio vulgaris (Hildenborough) and Desulfovibrio desulfuricans ATCC 13541.

Bacteriophages were induced from cultures of Desulfovibrio vulgaris NCIMB 8303 and Desulfovibrio desulfuricans ATCC 13541 by UV light. The optimum time of UV exposure was 1 min and the maximum yield of phage was obtained 9-10 h after UV treatment. The two phage preparations were compared by restriction enzyme analysis and Southern blot hybridization. The nucleic acid from both phages was cut by restriction endonucleases specific for double-stranded DNA. The phage DNAs from D. vulgaris and D. desulfuricans showed different restriction enzyme cleavage patterns. No homology was observed between a 25 kb probe from the D. vulgaris phage DNA and the phage DNA from D. desulfuricans. Protein profiles of the phages from both sources were also studied; the D. vulgaris phage contained two major bands corresponding to Mr values of 37 000 and 56 000 while the D. desulfuricans phage contained only one major band, of Mr 38 000.     

Sedimentation velocity of DNA in isokinetic sucrose gradients: calibration against molecular weight using fragments of defined length.

The relationship between sedimentation coefficient and molecular weight for DNA sedimenting in preformed alkaline and neutral sucrose gradients was determined using absolute molecular weight standards (restriction fragments of plasmid pBR322 and phage lambda DNA). The range of calibration for alkaline gradients was extended to small DNA fragments (652 base-pairs) for the first time. The exponent b in the equation S20 degrees, w = aMb was found to be 0.380 in neutral gradients and 0.410 in alkali. The latter value differs significantly from previous estimates. The gradients were isokinetic, and the distance sedimented was shown to be directly proportional to the sedimentation coefficient at all times.     

Ultracentrifugation studies of yeast valyl-tRNA synthetase and of its interaction with tRNAVal.

Yeast valyl-tRNA synthetase and its complexes with yeast tRNAVal were investigated by means of analytical ultracentrifugation. A molecular weight of 125 700 +/- 1500 and a sedimentation coefficient (SO 20, w) of 6.3 +/- 0.3 were found for the native enzyme. When the enzyme (3--60 muM) was mixed with its cognate tRNA, several types of complex were observed, depending on the relative amounts of the two macromolecules. In the presence of equimolecular amounts of tRNA and enzyme, a complex formed by the association of one of each molecule was observed with a sedimentation coefficient of about 7.3 S. However, for tRNA/enzyme stoichiometries lower than one, beside the 1 : 1 complex, a complex of higher molecular weight was observed, with a sedimentation coefficient of about 10.0 S which fits with the association of two valyl-tRNA synthetase molecules with one tRNA molecule. This 2 : 1 complex was predominant from tRNA/enzyme stoichiometries lower than 0.3. It dissociated into the 1 : 1 complex upon addition of monovalent salts or MgCl2, suggesting the electrostatic nature of the interaction in this association. All these association and dissociation phenomena were detected over a large range of pH (6.0--7.5) and in various buffers.     

Molecular interactions between ribosomal proteins--a study of S4-S9 interaction.

The ribosomal proteins S4 and S9 were isolated from the 30S ribosomal subunit of Escherichia coli to greater than 95% purity and characterized in the reconstitution buffer. Neither of the proteins indicated any tendency to self associate at 3 degrees C in the concentration range studied. At higher temperatures (greater than 20 degrees C), protein S9 forms a significant amount of a soluble aggregate as seen from the sedimentation velocity and sedimentation equilibrium experiments. From an analysis of the solution mixture of S4 and S9 at 1:1.08 molar concentration ratio by sedimentation velocity experiment, an s20,w value of 1.77 +/- 0.02S was obtained. A fast moving component which accounts for approximately 20% of the mass was also observed. Increasing the concentration of S9 does not alter the observed s20w value significantly for that component which could be followed. A detailed analysis of the data obtained at 3 degrees C from sedimentation equilibrium experiments on mixtures of the proteins indicated that a species of molecular weight greater than either of the two proteins was present. The proteins were found to interact with a mean equilibrium constant of association of 3.66 +/- 2.39 x 10(4) M-1 and a Gibbs free energy of interaction, delta Go = -5.8 kcal/mole at 3 degrees C in TMKD buffer. This information helps in understanding the energetics of the 30S ribosomal subunits of E. coli.     

Purification and Some Properties of Bacteriophage ST-1

Bacteriophage ST-1 is shown to be a small, isometric, single-stranded deoxyribonucleic acid (SS-DNA) virus with a diameter of about 260 nm. Standard methods for growth, assay, preparation of high-titer lysates, and purification of the phage are suggested. ST-1 infects K-12 and not C strains of Escherichia coli and requires a divalent cation to adsorb to susceptible bacteria. Adsorption also requires an activation of the particle brought on by incubation at 37 C. The latent and eclipse periods are essentially identical (9 to 11 min) in ST-1 infections, with an average burst size about 250 phages per cell. Multiple densities of ST-1 infectivity are observed during purification in CsCl gradients. The virus recovered from different densities has the same sedimentation coefficient and, therefore, all phage containing fractions are pooled during purification. The purified ST-1 particle has a sedimentation coefficient of 121S relative to phiX-174 (114S) in a sucrose gradient and a molecular weight of 6.8 x 10(6) (as estimated from its relative sedimentation). The nucleic acid is assumed to be SS-DNA on the basis of (i) the specific incorporation of (3)H-thymine, (ii) the dependence of its UV absorption on temperature, and (iii) its reaction with formaldehyde. ST-1 SS-DNA sediments at 24.4S relative to phiX-174 SS-DNA (23.8S).     

Cloning of the saliva-interacting protein gene from Streptococcus mutans.

Genomic libraries from Streptococcus mutans OMZ175 were constructed in bacteriophage vectors. DNA fragments 1 to 2 kilobases in length were cloned in expression vector lambda gt11. S. mutans DNA fragments 15 to 20 kilobases in length were inserted in the BamHI site of phage EMBL3. Rabbit antiserum raised against an S. mutans saliva-interacting protein with a molecular weight of 74,000, designated 74K SR, was used to screen the lambda gt11 library. A recombinant phage carrying an S. mutans DNA sequence of 1.45 kilobases, lambda SmAD2, was detected and isolated. This fragment, named SmAD2, was used to construct the recombinant expression plasmid pSAD2-4 which encoded for the expression of a 60,000-molecular-weight protein controlled by the beta-galactosidase promoter from plasmid pUC8. The SmAD2 fragment and polyclonal anti-74K SR antibodies were used to screen the EMBL3 library. A total coincidence between the screening with antibodies and the DNA probe was observed, and two phages, lambda SmAD9 and lambda SmAD10, were isolated. They contained a common S. mutans DNA sequence of about 11.8 kilobases and coded for a protein with a molecular weight of about 195,000, which comigrated with a protein of an S. mutans cell wall extract. The expressed protein was purified, and a very strong relationship with the S. mutans 74K SR protein was found by competitive enzyme-linked immunosorbent assay. Thus, cloning of the 74K SR gene allowed us to demonstrate that the saliva receptor appears to be a part of an S. mutans precursor molecule with a molecular mass of 195,000 daltons.     

Physico-chemical properties of several phages of Bacillus thuringiensis

A study was made of biological and physico-chemical properties of phages of Bac. thuringiensis as well as of a number of parameters of nucleic acids isolated from these phages. The phages contain double-stranded DNA. Molecular weights of DNA from three phages--Tg9, Tg10 and Tg13 have been determined by two independent methods: by measuring the contour length of DNA, from the sedimentation constant and for DNA of phage Tg10 also by endonuclease EcRI hydrolysis. These methods gave similar results. On the basis of the temperature of DNA melting the content of GC pairs was found equal to 37.9, 33.4 and 35.1 mole% for DNA's of phage Tg9, Tg10 and Tg13, respectively. On the basis of measuring the intervals of DNA melting a conclusion was made that DNA of the Tg9 and Tg13 phage has a random distribution of base pairs, while DNA of phage Tg10 displays some clustering of base distribution along the molecule. It has been shown that restrictase EcoRI hydrolyses phage Tg10 DNA into 6 fragments of different molecular weights; DNA's of Tg9 and Tg13 phages are not hydrolyzed. A possibility of existance of phage Tg10 DNA in linear and ring forms has been established. The characteristics of phage particles have been determined by electron microscopy.