Salt dependent changes in structure and dynamics of circular single stranded DNA of filamentous phages of Escherichia coli.

We have analyzed the static and dynamic behaviour of the circular single stranded DNA of the filamentous Escherichia coli phages F1 and M13mp8 in solution as a function of salt concentration using static and dynamic light scattering and sedimentation analysis in the analytical ultracentrifuge. We show by static light scattering that native and denatured single stranded DNA behave like a randomly coiled macromolecule at all salt concentrations used. The size of the native single stranded DNA is governed by the formation of secondary structures. While the radius of gyration decreases with increasing salt concentration the translational diffusion of the center-of-mass of native single stranded DNA and the sedimentation coefficient increase with increasing salt concentration in a biphasic manner. Below 100 mM monovalent cation concentration there is a strong dependence of the hydrodynamic parameters upon salt which is reduced approx. 3-fold at higher salt concentrations. We attribute the compaction of single stranded DNA by salt to electrostatic shielding and, in case of native single stranded DNA, secondary structure formation. Internal motions of the native single stranded DNA are observable at all salt concentrations and can be interpreted with a model of segmental diffusion of the elements of the polymer chain. The observed segmental diffusion coefficient of the native single stranded polynucleotide increases with increasing salt under the conditions investigated.

Hydrogen exchange kinetics in a membrane protein determined by 15N NMR spectroscopy: use of the INEPT experiment to follow individual amides in detergent-solubilized M13 coat protein.

The coat protein of the filamentous coliphage M13 is a 50-residue polypeptide which spans the inner membrane of the Escherichia coli host upon infection. Amide hydrogen exchange kinetics have been used to probe the structure and dynamics of M13 coat protein which has been solubilized in sodium dodecyl sulfate (SDS) micelles. In a previous 1H nuclear magnetic resonance (NMR) study [O'Neil, J. D. J., & Sykes, B. D. (1988) Biochemistry 27, 2753-2762], multiple exponential analysis of the unresolved amide proton envelope revealed the existence of two slow "kinetic sets" containing a total of about 30 protons. The slower set (15-20 amides) originates from the hydrophobic membrane-spanning region and exchanges at least 10(5)-fold slower than the unstructured, non-H-bonded model polypeptide poly(DL-alanine). Herein we use 15N NMR spectroscopy of biosynthetically labeled coat protein to follow individual, assigned, slowly exchanging amides in or near the hydrophobic segment. The INEPT (insensitive nucleus enhancement by polarization transfer) experiment [Morris, G. A., & Freeman, R. (1979) J. Am. Chem. Soc. 101, 760-762] can be used to transfer magnetization to the 15N nucleus from a coupled proton; when 15N-labeled protonated protein is dissolved in 2H2O, the INEPT signal disappears with time as the amide protons are replaced by solvent deuterons. Amide hydrogen exchange is catalyzed by both H+ and OH- ions. Base catalysis is significantly more effective, resulting in a characteristic minimum rate in model peptides at pH approximately equal to 3. Rate versus pH profiles have been obtained by using the INEPT experiment for the amides of leucine-14, leucine-41, tyrosine-21, tyrosine-24, and valines-29, -30, -31, and -33 in M13 coat protein. The valine residues exchange most slowly and at very similar rates, showing an apparent 10(6)-fold retardation over poly(DL-alanine). A substantial basic shift in the pH of the minimum rate (up to 1.5 pH units) was also observed for some residues. Possible reasons for the shift include accumulation of catalytic H+ ions at the negatively charged micelle surface or destabilization of the negatively charged transition state of the base-catalyzed reaction by either charge or hydrophobic effects within the micelle. The time-dependent exchange-out experiment is suitable for slow exchange rates (kex), i.e., less than (1-2) x 10(-4) s-1.(ABSTRACT TRUNCATED AT 400 WORDS)

[Water quality and microbiological status of the distribution system: traditional parameters and emerging parameters]. / Qualità dell'acqua e stato microbiologico alla distribuzione: parametri tradizionali e parametri emergenti.

Most pollution of drinking water is caused by inadequacy of the uptake and distribution systems, by insufficient upkeep of the sewage system and by defects or breaks in the disinfection processes. This may be the cause of waterborne epidemic outbreaks and therefore it is necessary carry out routine controls by simple and rapid tests for the detection of intestinal organisms. In the light of minor hepatitis A epidemics occurred in the town of Messina, we have carried out a study to determine the drinking water quality. To this end, in addition to the traditional tests recommended by CEE and required by the 8/2/1985 DPCM (37 degrees C and 20 degrees C viable count, total and faecal coliforms and faecal streptococci), we have carried out P. aeruginosa, coliphages and gram-negative endotoxins tests, in 74 water samples drawn on way in and way out of the tanks and along the piping system. Only 12.5% of the sixteen water samples drawn on way in (before disinfection system) was in compliance with the law. 75% of these samples showed positivity for faecal streptococci. The water quality was lower in the fourteen water samples drawn on way out of the tanks (7.1% was in compliance with the law). The percent of positivity along the piping system for total and faecal coliforms and for faecal streptococci was 34.1, 15.9 and 59.1 respectively. Coliphages were always absent. P. aeruginosa was almost always present in way in water (93.7%). Moreover this microorganism was recovered in 85.7% of the samples drawn on the way out and in 77.3% along the piping system. In the same drawing places endotoxins were present at high percentage (100%, 85.7% and 90.9%). These values come from high test sensitivity and poor water quality. Finally we have pointed out the importance of all the parameters examined. The significance of coliform bacteria is known, but we consider very important, as organisms indicative of pollution, the enterococci, since they P. aeruginosa may survive long time in fresh water though it is not autoctone, but, in general, of faecal origin. Several soluble antigens of this microorganism as well as enterococci show positive LAL tests (1-5-6). The endotoxin content in fresh water reflects the degree of bacterial contamination. We believe, therefore, it is needed to fix an upper limit to endotoxins in drinking water. Coliphages concentrations could be correlated with enteric virus concentrations but the ratio of coliforms to coliphages is about 100:1. Therefore this indicator of viral pollution is helpful only for highly polluted surface waters.

Environmental modulation of M13 coat protein tryptophan fluorescence dynamics.

The effects of detergent [deoxycholate (DOC) and phospholipid [dimyristoylphosphatidylcholine (DMPC)] environments on the rotational dynamics of the single tryptophan residue 26 of bacteriophage M13 coat protein have been investigated by using time-resolved single photon counting measurements of the fluorescence intensity and anisotropy decay. The total fluorescence decay of tryptophan-26 is complex but rather similar in DOC as compared to DMPC when analyzed in terms of a lifetime distribution (exponential series method). This similarity, in conjunction with the almost identical steady-state fluorescence spectra, indicates only minor differences between the tryptophan environments in DOC and DMPC. The reorientational dynamics of tryptophan-26 are dominated by slow rotation of the entire protein in both detergent and phospholipid environments. The resolved anisotropy decay in DOC can be approximated by a simple hydrodynamic model of protein/detergent micelle rotational diffusion, although the data indicative slightly greater complexity in the rotational motion. The tryptophan fluorescence anisotropy is not sensitive to protein conformational changes in DOC detected by nuclear magnetic resonance on the basis of pH independence in the range 7.5-9.1. In DMPC bilayers, restricted tryptophan motion with a correlation time of approximately 2 ns is observed together with a second very slow reorientational component. Resolution of the time constant for this slow rotation is obscured by the tryptophan fluorescence time window being too short to clearly locate its anisotropic limit. The possible contribution made by axial rotational diffusion of the protein to this slow rotational process is discussed.(ABSTRACT TRUNCATED AT 250 WORDS)

Large-scale isolation of covalently closed circular DNA using gel filtration chromatography.

The isolation of covalently closed circular (ccc) DNA free of contamination by RNA and other forms of DNA is fundamental to molecular biology. A variety of methods have been explored but CsCl density-gradient centrifugation remains the method most widely used for preparative scale resolution. The process is expensive, time-consuming, requires the use of large amounts of the carcinogen ethidium bromide, and is subject to considerable variation in yield and purity. To avoid these problems, we have devised a procedure for the preparation of cell lysates which results in consistently good yields of biologically active ccc DNA minimally contaminated with chromosomal DNA fragments and RNA. Lysates are deproteinized, precipitated with CaCl2 to remove rRNA, concentrated by ethanol precipitation, and applied to a Sephacryl S-1000 column which resolves chromosomal fragments, open circular plasmid DNA, and residual RNA from the ccc DNA. We have found that substituting the gel filtration column for CsCl density-gradient centrifugation results in substantially better purification as well as reducing processing time, cost, and degree of difficulty. The time required from harvest of cells to final recovery of DNA is about 16 h. We have used the method to isolate plasmids from 4.4 to 12 kb and, with slight modifications, recombinant M13 replicative form DNAs.

Secondary structure of filamentous bacteriophage coat protein is preserved in lipid environments.

1H nuclear magnetic resonance experiments have shown that the amide hydrogens of residues 30 to 40 of bacteriophage Pf1 coat protein in micelles undergo very slow exchange with solvent deuterons. The amide 1H resonances from these residues were used to monitor the structural stability of the membrane-spanning helix of the coat protein during the transition of the coat protein from its structural form, in the virus particle, to the membrane-bound form, in micelles. The helix was found to remain folded on the 10(-3) second time-scale of the experiment, which indicates that no major disruption or rearrangement of the central part of the protein structure occurs during the process of coat protein solubilization by detergent. The results also suggest that a helical peptide can associate with lipids without reorganization of its secondary structure. However, a general model for the insertion of proteins into membranes cannot be established from these results, because the mechanism of the detergent solubilization process may differ somewhat from that of the membrane insertion process.

A Raman scattering study of the helix-destabilizing gene-5 protein with adenine-containing nucleotides.

Raman spectra of gp5 and complexes of gp5 with poly(rA) and poly(dA) have been determined and analysed. From a fit of the amide I-band with model spectra it follows that the secondary structure of gp5 contains 52% beta-sheet, 28% undefined conformation and 19% alpha-helix. The band at 1032 cm-1 due to phenylalanine has an anomalous intensity both in the spectra of the complexes and the free protein. This possibly indicates a stacked structure present in the protein. Binding of gp5 to poly(rA) and poly(dA) influences the intensity of bands near 1338 and 1480 cm-1 which are considered to be marker-bands for the phosphate-sugar-base conformer. A change in conformation of the nucleotides is also reflected by vibrations originating in the phosphate- and sugar-residues of the backbone. In the spectrum of complexed poly(rA) the intensity of the conformation sensitive band at 813 cm-1, which is due to the phosphodiester group, is zero. It seems that gp5 forces poly(rA) and poly(dA) to a similar conformation. A marker band for stacking interaction in poly(rA) indicates that stacking interactions in the complex have increased.

A simple and rapid preparation of M13 sequencing templates for manual and automated dideoxy sequencing.

A simple and rapid procedure for the preparation of M13 single stranded DNA sequencing templates which does not involve phenol extractions and alcohol precipitations is described. Bacteriophages are precipitated from media supernatants with acetic acid and recovered on glass fiber filters. Subsequent dissociation of the phages and removal of contaminants is performed while the DNA is bound to the glass. Finally, the purified DNA is eluted in a small volume of low-salt buffer. The yield is higher than that obtained by standard methods. The simplified procedure takes less than 30 minutes and does not demand special skills or equipment; the sequence resolution is as good as that obtained by standard procedures both with the Klenow fragment and T7 DNA polymerase, with radioactive labelling as well as in automated sequencing with a fluorescent label.

A sensitive colorimetric detection of virus DNA and oncogene.

Advantage of cloning probe DNA fragment in phage M13 DNA was taken to provide a larger single stranded DNA as a hybridization probe. High level of direct enzyme labels was introduced via the M13 DNA moiety as well as probe DNA. A highly sensitive colorimetric detection of virus DNA and oncogene was developed.

Dynamics of fd coat protein in the bacteriophage.

The dynamics of the coat protein in fd bacteriophage are described with solid-state 15N and 2H NMR experiments. The virus particles and the coat protein subunits are immobile on the time scales of the 15N chemical shift anisotropy (10(3) Hz) and 2H quadrupole (10(6) Hz) interactions. Previously we have shown that the Trp-26 side chain is immobile, that the two Tyr and three Phe side chains undergo only rapid twofold jump motions about their C beta-C gamma bond axis [Gall, C. M., Cross, T. A., DiVerdi, J. A., & Opella, S. J. (1982) Proc. Natl. Acad. Sci. U.S.A. 79, 101-105], and that most of the backbone peptide linkages are highly constrained but do undergo rapid small amplitude motions [Cross, T. A., & Opella, S. J. (1982) J. Mol. Biol. 159, 543-549] in the coat protein subunits in the virus particles. In this paper, we demonstrate that the four N-terminal residues of the coat protein subunits are highly mobile, since both backbone and side-chain sites of these residues undergo large amplitude motions that are rapid on the time scales of the solid-state NMR experiments. In addition, the dynamics of the methyl-containing aliphatic residues Ala, Leu, Val, Thr, and Met are analyzed. Large amplitude jump motions are observed in nearly all of these side chains even though, with the exception of the N-terminal residue Ala-1, their backbone peptide linkages are highly constrained. The established information about the dynamics of the structural form of fd coat protein in the virus particle is summarized qualitatively.(ABSTRACT TRUNCATED AT 250 WORDS)

[Complex formation of single-stranded phage DNA with synthetic oligodeoxynucleotides and interaction of complexes with DNA-polymerase and restriction endonuclease]. / Kompleksoobrazovanie odnotsepochechnoi fagovoi DNK s sinteticheskimi oligodezoksinukleotidami i vzaimodeistvie kompleksov s DNK-polimerazoi i éndonukleazoi restriktsii.

Hybridization of synthetic oligodeoxynucleotides with single-stranded phage M13mp2 DNA has been studied in terms of temperature, ionic strength, oligonucleotide molar excess and chain length, and DNA secondary structure. Combination of two decadeoxynucleotides corresponding to a nicked eicosamer (composite primer) was found to be efficient in the template-directed DNA polymerase-catalyzed chain elongation, where both decamers separately failed. Circular SS DNA was specifically linearized by BamHI cleavage of SS DNA-tetradecadeoxynucleotide duplex.

Proximity relations between tyrosine and tryptophan residues in fd phage determined by luminescence measurements.

Resonance energy transfer from tyrosine to tryptophan residues was detected in the phage fd. The magnitude of the transfer efficiency was estimated by both a traditional and an alternative method. The latter involved comparison of the indole acceptor excitation spectrum full-width half-maximum with a set of standard values differing in the amount of absorbance contributed by tyrosine donor. Both methods lead to the same conclusion: essentially all the tyrosine residues of the viral coat are within 0.9 nm of a tryptophan residue. Also, fluorescence lifetime measurements provide additional support for the hypothesis that there are at least two different environments for the coat protein's sole indole side-chain. Little if any DNA phosphorescence was seen, consistent with the nucleic acid bases being stacked in the DNA core.

Purification, crystallization and preliminary X-ray data of the bacteriophage MS2.

Single crystals of the bacteriophage MS2 have been produced by the vapour diffusion technique in the presence of 1.5% polyethylene glycol 6000 and 0.2 M-sodium phosphate buffer (pH 7.4). These are the first bacteriovirus crystals diffracting to high resolution. The crystal space group is C2 with the unit cell parameters a = 467.9 A, b = 289.5 A, c = 275.6 A and beta = 121.8 degrees. The asymmetric unit contains one half of the virion. The maximum resolution limit of the X-ray diffraction data obtained from these crystals was 2.9 A. The purification of the virus material was done by mild procedures exclusively and involved precipitation with polyethylene glycol 6000 and size exclusion chromatography on Sepharose CL-4B.

[Tritium labeling of RNA and protein of bacteriophage MS2]. / Vvedenie tritievoi metki v RNK i melok bakteriofaga MS2.

Thermal activation of tritium gas is used for labeling of the nucleoprotein, phage MS 2. The obtained preparation of tritiated phage has a specific radioactivity of 20-50 Ci/mmole, is considerably infectious and appears suitable for a wide range of studies. The radioactivity is distributed between intraphage RNA and phage outer protein (approximately 1:3 ratio). Consequently, phage capsid is porous and sufficiently permeable for activated tritium atoms.

The complete nucleotide sequence of the group II RNA coliphage GA.

The complete nucleotide sequence of the RNA coliphage GA, a group II phage, is presented. The entire genome comprises 3466 bases. Three large open reading frames were identified, which correspond to the maturation protein gene (390 amino acids), the coat protein gene (129 amino acids) and the replicase beta-subunit protein gene (531 amino acids). In addition, untranslated regions occur at the 5' (135 bases) and 3' (122 bases) ends of the molecule. Two intercistronic untranslated regions occur between the cistrons for the maturation and coat proteins, and between the coat and beta-subunit proteins. We have compared the nucleotide sequence of GA RNA with the published sequence of MS2 RNA, and show that they are related. The comparative structures of two important regulatory regions are presented; the coat protein binding site which is involved in translational repression of the replicase beta-subunit protein gene, and a hairpin in a region proximal to the lysis protein gene.

[Isolation and properties of recombinant DNA from a plasmid and filamentous phage]. / Poluchenie i svoistva rekombinantnoi DNK na osnove plazmidy i nitchatogo bakteriofaga.

In the course of studying extrachromosomal DNA with composite replicons, a hybrid has been constructed by the in vitro recombination of the filamentous phage M13mp2 DNA (RF) and plasmid pUR222 (ApR). Both parental DNAs contain a fragment of lac-operon (ca. 800 bp), which includes the distal end of lacI gene, lacPO segments, and the lacZ gene proximal region coding for 145 N-terminal amino acid residues of beta-galactosidase and thus providing for alpha-complementation, the effect being cancelled with a polynucleotide insertion at the unique EcoRI site in the lacZ gene segment. E. coli BMH71-18 cells were transformed with the ligated mixture of EcoRI restricts of both DNAs. A phage-like nucleoprotein was isolated from colourless plaques (on the Xgal- and IPTG-supplemented medium); its deproteinization yielded a DNA which contains the ApR-determinant and, according to PAGE, structurally specific staining, restriction analysis, sequencing by the Sanger procedure, and electron microscopy data, is a linear double-stranded molecule comprising the phage and plasmid genomes in an equimolar ratio. Since the hybrid DNA does not display the alpha-complementation effect, both bacterial inserts are in the opposite orientation. Transformation of both phage (F+) and plasmid (F-) hosts with the hybrid DNA led to cultures which, after precipitation of the nucleoprotein from the extracellular medium and deproteinization, afforded the same composite DNA.(ABSTRACT TRUNCATED AT 250 WORDS)

Protein structure by solid state nuclear magnetic resonance. Residues 40 to 45 of bacteriophage fd coat protein.

The three-dimensional structure of part of the coat protein in the filamentous bacteriophage fd is described by nuclear magnetic resonance (n.m.r.). Residues 40 to 45 are in a somewhat distorted alpha-helix. This n.m.r. approach for determining protein structure relies on the spectral manifestations of chemical shift and heteronuclear dipolar couplings in a symmetrical assembly of protein subunits oriented parallel to the applied magnetic field. The angles between individual peptide linkages and the filament axis of the virion constitute the basic source of structural information. These angles are directly related to x, y, z co-ordinates for describing the protein structure.