Biochemical Studies on Polyamine and its Analogues

Preincubation with spermine, of λ T 7 and P 465 phages which were sensitive to oxidized spermine, resulted in a decrease of their susceptibility to the action of oxidized spermine. Phages resistant to oxidized spermine such as T 4 and ?X 174 became susceptible to this agent after dialysis.

The mechanism of phagocidal action of oxidized spermine was examined with ³²P-labelled λ phage. Oxidized spermine interfered neither with the absorption of λ phage, nor with the injection of its DNA into the host cells. The injected DNA, however, did not lead to the formation of mature phage.

The interaction of oxidized spermine with the DNA of phages T 4 and T 7 was investigated by thermal denaturation studies. DNA treated with oxidized spermine showed the same Tm as untreated DNA. However, the treated DNA was decreased in its hyperchromicity and was renatured to a great extent, even after rapid cooling. These facts are explained by the formation of cross-links which prevents the separation of complementary DNA strands.     

Kinetic Properties of Fungal Polyamine Oxidases and Their Application to Differential Determination of Spermine and Spermidine

Polyamine oxidase from Penicillium chrysogenum oxidized spermine rapidly and spermidine slightly at pH 7.5. The apparent Km values for spermine and spermidine were calculated to be 2.25 × 10^?5 m and 9.54 × 10^?6 m, respectively. The relative maximum velocities for spermine and spermidine were 3.37 × 10^?3 m (H₂O₂) per min per mg of protein and 2.08 × 10^?4 m (H₂O₂) per min per mg of protein, respectively. Spermine oxidation of the enzyme was competitively inhibited by spermidine and putrescine. The apparent Ki values by spermidine and putrescine were calculated to be 3.00 × 10^?5 m and 1.80 × 10^?8 m, respectively. On the other hand, polyamine oxidase from Aspergillus terreus rapidly oxidized both spermidine and spermine at pH 6.5. The apparent Km values for spermidine and spermine were 1.20 × 10^?8 m and 5.37 × 10^?7 m, respectively. The relative maximum velocities for spermidine and spermine were 1.55 × 10^?2 m (H₂O₂) per min per mg of protein and 6.20 × 10^?3 m (H₂O₂) per min per mg of protein, respectively.

Differential determination of spermine and spermidine was carried out using the two enzymes. The initial rate was assayed with Penicillium enzyme and the end point was measured afte addition of Aspergillus enzyme. Small amounts of polyamines (25 to 200 nmol of spermine and 25 to 250 nmol of spermidine) were assayed by solving two simultaneous equations obtained from the rate assay method and the end point assay method. The calculated values were in close agreement with those obtained by an amino-acid analyzer.     

Regulatory light-chains and scallop myosin. Full dissociation, reversibility and co-operative effects

Lambda duplication phages grown for several rounds on Escherichia coli strains containing arl mutations were recombined at elevated frequencies (3 to 6-fold higher) in subsequent test infections. Enhanced recombination of Arl^? phages (grown on arl bacteria) was demonstrable by assays for altered genetic linkages as well as by the standard assay, which measures the conversion of duplication phages (EDTA-sensitive) to single-copy phages (EDTA-resistant). The accumulated potential for enhanced recombination was lost during subsequent growth of the phages on arl⁺ bacteria. Arl^? phages had the same mutation frequencies, at a variety of loci, as control phages; arl bacteria themselves exhibited normal mutation rates. Arl^? phages had normal plating efficiencies and buoyant densities. DNA extracted from Arl^? phages exhibited the same frequency of strand interruption, the same superhelical density (when circularized in vivo), and the same thermal denaturation profile as DNA from phages grown on arl⁺ bacteria. Recombination of Arl^? phages in the presence of λ repressor was very low, as is the case for normal phages. The recombination frequency of ultraviolet light irradiated (80 J/m²) Arl^? phages was more than twice the sum of the frequencies for unirradiated Arl^? phages and irradiated control phages. Substantially increased recombination of Arl^? phages was observed when either the E. coli RecBC, or RecE (but not RecF) pathway was active.     

REDOR NMR characterization of DNA packaging in bacteriophage T4

Bacteriophage T4 is a large-tailed Escherichia coli virus whose capsid is 120 × 86 nm. ATP-driven DNA packaging of the T4 capsid results in the loading of a 171-kb genome in less than 5 min during viral infection. We have isolated 50-mg quantities of uniform ¹⁵N- and [ε-¹⁵N]lysine-labeled bacteriophage T4. We have also introduced ¹⁵NH₄⁺ into filled, unlabeled capsids from synthetic medium by exchange. We have examined lyo- and cryoprotected lyophilized T4 using ¹⁵N{³¹P} and ³¹P{¹⁵N} rotational-echo double resonance. The results of these experiments have shown that (i) packaged DNA is in an unperturbed duplex B-form conformation; (ii) the DNA phosphate negative charge is balanced by lysyl amines (3.2%), polyamines (5.8%), and monovalent cations (40%); and (iii) 11% of lysyl amines, 40% of -NH₂ groups of polyamines, and 80% of monovalent cations within the lyophilized T4 capsid are involved in the DNA charge balance. The NMR evidence suggests that DNA enters the T4 capsid in a charge-unbalanced state. We propose that electrostatic interactions may provide free energy to supplement the nanomotor-driven T4 DNA packaging.     

Inhibition of gene expression of T7-related phages by prophage P1

Summary The gene expression of nine phages of the T7 group was compared after infection of Escherichia coli B(P1). With the exception of phage 13a which grew normally, all of them infected E. coli B(P1) abortively. Differences were found in the efficiency of host killing which ranged from 100% for phage 13a to 37% for phage A1122. Infection by T7 prevented colony formation by about 70% of the cells but they showed filamentous growth until about 2h after infection. It was shown by SDS-polyacrylamide gel electrophoresis and autoradiography of [³⁵S]methionine-labelled phage-coded proteins that all phages except for 13a showed measurable expression only of the early genes. No correlation was observed between killing capacity and the pattern of gene expression, and the ability to hydrolyse S-adenosyl-methionine (SAM, a cofactor for the P1 restriction endonuclease) by means of a phage-coded SAMase. Mixed infection of E. coli B(P1) with 13a and T7 yielded mixed progeny indistinguishable from that observed after mixed infection of the normal host E. coli B. Genetic crosses with amber mutants of 13a and T7 showed that the 13a marker opo ⁺ (overcomes P one), required for growth on B(P1), is located in the early region, to the left of gene 1 (RNA polymerase gene).     

A molecular dynamics simulation study of polyamine– and sodium–DNA. Interplay between polyamine binding and DNA structure

Four different molecular dynamics (MD) simulations have been performed for infinitely long ordered DNA molecules with different counterions, namely the two natural polyamines spermidine(3+) (Spd³⁺) and putrescine(2+) (Put²⁺), the synthetic polyamine diaminopropane(2+) (DAP²⁺), and the simple monovalent cation Na⁺. All systems comprised a periodical hexagonal cell with three identical DNA decamers, 15 water molecules per nucleotide, and counterions balancing the DNA charge. The simulation setup mimics the DNA state in oriented DNA fibers, previously studied using NMR and other experimental methods. In this paper the interplay between polyamine binding and local DNA structure is analyzed by investigating how and if the minor groove width of DNA depends on the presence and dynamics of the counterions. The results of the MD simulations reveal principal differences in the polyamine–DNA interactions between the natural [spermine(4+), Spd³⁺, Put²⁺] and the synthetic (DAP²⁺) polyamines.Abbreviations DAP diaminopropane - DDD Drew–Dickerson dodecamer - MD molecular dynamics - Put putrescine - RDF radial distribution function - Spd spermidine - Spm spermine     

Purification,Characterization, and Crystallization of Monoamine Oxidase from Escherichia coli K-12

The gene for monoamine oxidase (MAO) was cloned from an Escherichia coli genomic library and MAO was overproduced in the periplasmic space. The enzyme was purified to homogeneity by preparation of a periplasmic fraction, followed by ammonium sulfate fractionation and DEAE-cellulose column chromatography. Crystals were obtained by the hanging drop method using sodium citrate as a precipitant. The enzyme was found to be a dimer of identical subunits with a molecular weight of 80,000, and showed the highest activity at pH 7.5 and 45°C. The enzyme was inhibited by a MAO specific inhibitor, hydroxylamine, hydrazine, phenelzine, isoniazid, and tranycypromine. The enzyme oxidized tyramine, phenethylamine, and tryptamine at higher rates, but not oxidized diamine and polyamines such as putrecine and spermine. The antibody against E. coli MAO cross-reacted with purified MAO A from Klebsiella aerogenes.     

Alteration of reducing powers in an isogenic phosphoglucose isomerase (pgi)-disrupted Escherichia coli expressing NAD(P)-dependent malic enzymes and NADP-dependent glyceraldehyde 3-phosphate dehydrogenase

Aims: To understand the intracellular reducing power metabolism, growth and intracellular NAD(P)H concentrations of a phosphoglucose isomerase (pgi)‐disrupted Escherichia coli (KS002) were investigated with the expressions of redox enzymes. Methods and Results: The isogenic pgi‐mutation enabled E. coli to harbour two times both the intracellular NADPH and NADH at half the growth rate. The wild‐type expressing NAD‐dependent malic enzyme (maeA) was incapable of sufficient growth (<0·02 h^?1), and the growth retardations were distinctively recovered when NADP‐dependent glyceraldehyde‐3‐phosphate dehydrogenase (gapB) from Bacillus subtilis was coexpressed. The KS002 expressing maeA harboured the highest intracellular reducing powers (NADPH of 3·9 and NADH of 5·2 μmol g DCW^?1) by three times each of those in wild type. The expression of NADP‐dependent malic enzyme (maeB) enabled wild‐type and KS002 strains to grow without significant alteration. Conclusions: The alterations of reducing powers and the growth were analysed in the genetic engineered E. coli strains. The potential application of the cells with the high intracellular NAD(P)H level is discussed based on the results. Significance and Impact of the Study: Metabolic engineering strategy for higher reducing power regeneration is provided.     

A New Enzyme,Agmatine Oxidase,from Fungi

A new enzyme, agmatine oxidase, was found in Penicillium chrysogenum. The oxidation products of agmatine with the enzyme were identified as γ-guanidinobutyraldehyde, NH₃ and H₂O₂. The enzyme rapidly oxidized agmatine, and slightly oxidized histamine, putrescine, 1,3-diaminopropane and cadaverine. Monoamines, polyamines and guanidyl derivatives were not oxidized by the enzyme. Maximal formation of the enzyme of P. chrysogenum was observed in the early stationary phase of growth, and thereafter the enzyme disappeared with consumption of substrate. In addition to agmatine, spermine, spermidine and putrescine were also effective as nitrogen sources. Agmatine oxidase was found in mycelia of fungi belonging to the genera of Aspergillus, Penicillium, Absidia, Fusarium, Mucor, Gibberella, Cylindrocarpon and Monascus when they were grown in agmatine-containing medium.     

Transient electric birefringence of T-even bacteriophages. IV. T2L0 and T6 with extended tail fibers

Transient electric birefringence measurements of the bacteriophages T2L0 and T6 were performed under such conditions that the tail fibers are extended. The data obtained are compared to previously reported data for T4B. For all T-even phages the degree of extension of the tail fibers is a function of pH, ionic strength, and temperature. For T4B, much higher ionic strengths are needed than for T2L0 and T6 to accomplish complete tail-fiber extension. The rotational diffusion coefficients of the phages with fully extended fibers are equal to 120 ± 3 sec^?1, 132 ± 5 sec^?1, 157 ± 4 sec^?1 for T2L0, T4B, and T6, respectively. The respective optical anistropies are ? (2.66 ± 0.05) × 10^?4, and ? (3.07 ± 0.15) × 10^?4. The differences in the rotational diffusion coefficient and optical anisotropy arise because the conformation of the fully extended tail fibers is different for the three phages. The tail fibers of T2L0 project further into the solution (away from the head) than do those of T4B and T6. The apparent permanent dipole moments of T2L0 and T6 decrease with increasing ionic strength. This decrease is caused by the screening of the surface charges on the phage body by the counter-ions in the solution. The biological relevance of this decrease is illustrated by the fact that the adsorption rate of T6 phages to E. coli B bacteria shows a similar dependence of ionic strength. Evidence is pressented that the tail fibers may move more or less independently of the phage body when an electric field is applied to the suspension.     

Decreasing Enterobacter sakazakii (Cronobacter spp.) food contamination level with bacteriophages: prospects and problems

Enterobacter sakazakii (Cronobacter spp.) is an opportunistic pathogen, which can cause rare, but life‐threatening infections in neonates and infants through feeding of a contaminated milk formula. We isolated 67 phages from environmental samples and tested their lytic host range on a representative collection of 40 E. sakazakii strains. A cocktail of five phages prevented the outgrowth of 35 out of 40 test strains in artificially contaminated infant formula. Two E. sakazakii phages represented prolate head Myoviridae. Molecular tests identified them as close relatives of Escherichia coli phage T4. The remaining three phages represented isometric head Myoviridae with large genome size of 140 and 200 kb, respectively, which belonged to two different DNA hybridization groups. A high dose of 10⁸ pfu ml^?1 of phage could effectively sterilize a broth contaminated with both high and low pathogen counts (10⁶ and 10² cfu ml^?1). In contrast, broth inoculated with 10⁴ phage and 10² bacteria per ml first showed normal bacterial growth until reaching a cell titre of 10⁵ cfu ml^?1. Only when crossing this threshold, phage replication started, but it could not reduce the contamination level below 100 cfu ml^?1. Phages could be produced with titres of 10¹⁰ pfu ml^?1 in broth culture, but they were not stable upon freeze‐drying. Addition of trehalose or milk formula stabilized the phage preparation, which then showed excellent storage stability even at elevated temperature.     

Insulin-like effects of polyamines spermine binding to fat cells and fat cell membranes

Two naturally occurring polyamines, spermine and spermidine, mimic the action of insulin on lipid and glucose metabolism in adipocytes. To evaluate the role of cell membranes in the action of polyamines, studies of [¹⁴C] spermine binding using an oil separation method were conducted in isolated rat adipocytes and adipose cell membranes. Spermine binding and dissociation in fat cells and fat cell membranes were rapid and complete within 3–6 min. Following a 30-min incubation of [¹⁴C] spermine with fat cell membranes, over 90% of bound [¹⁴C] spermine was dissociable while under similar conditions only 25% of bound [¹⁴C] spermine was dissociable in cells. The non-dissociable fractions in cells likely represented intracellular accumulation. Binding and stimulation of glucose oxidation were demonstrated at similar concentrations. Bound spermine was displaced by spermine, spermidine and 1,8-diaminooctane with greater efficacy than putrescine (a polyamine devoid of insulin-like properties) or insulin. Similarly, polyamines did not complete with insulin for binding to isolated adipocytes. It appears, therefore, that polyamines initiate their insulin-like effects by interacting with the cell membrane at sites which are common to biologically active polyamines and which are distinct from the insulin receptor.     

Effects of testosterone and 17, β– estradiol on the polyamine metabolism in cultivated normal rat kidney epithelial cells

Summary. Ornithine decarboxylase (ODC) and diamine oxidase (DAO) are important enzymes involved in the metabolism of polyamines (putrescine, spermidine and spermine). The influence of testosterone (T) and 17, β– estradiol (E₂) on the activity of ODC and DAO was examined in cultivated normal rat kidney (NRK) epithelial cells. The results showed an increase in enzyme activities 4 hours or 12 hours after hormonal treatment. Both T and E₂ led to a significant increase (1.6-fold) in ODC protein level as compared to the controls. Cellular concentration of spermidine and spermine increased (2.2- and 2.6-fold respectively) 4 hours after T addition. A higher levels in concentrations of putrescine (1.4-fold) and spermine (1.5-fold) 12 hours after E₂ treatment were observed. These results suggest that the biosynthesis and terminal oxidation of the polyamines in NRK epithelial cells are androgen- and estrogen-mediated and depend on the hormonal sensitivity of the cells. Received April 5, 1999, Accepted December 20, 1999     

Bacteriophages of l-Glutamic Acid-Producing Bacteria

Deoxyribonucleic acids were isolated from Brevibacterium lacto fermentum No. 2256 and its four representative phages belonging to different serological groups, i.e., P465 (group I), P 468 II (group II), Ap 85 III (group III) and P4 (group IV), by phenol extraction.

DNA’s isolated from the four phages contained only usual four bases, i.e., guanine, adenine, cytosine and thymine. The G-C content of the phage DNA was determined by thermal denaturation method (T_m); the values of P465, P 468 II, Ap 85 III and P4 were 54.0, 54.6, 56.6 and 55.3%, respectively. Sedimentation coefficient was measured by ultracentrifugal analysis using ultraviolet optics; s_20,w of the phage DNA’s were 15.5 to 31.8 s.

Unusual bases were not detected also in the host bacterial DNA. The G-C content of the bacterial DNA determined by paperchromatography was 55.1% which came very close to the G-C content derived from the T_m.

Morphological properties of the P- and Ap-series phages described in previous papers were examined by means of electron microscopy, analytical centrifugation, CsCl density-gradient centrifugation and ultrafiltration.

In view of the buoyant density of phage particles, fourteen Brevibacterium phages were classified into four groups, i.e., the phages under group I had buoyant density of 1.511 to 1.514g cm^?3, and those under groups II, III and IV, densities of 1.482, 1.492 and 1.508 g cm^?3, respectively; and above grouping corresponded to that by the serological chracteristics of the phages.

Electron microscopic observation by means of shadow-casting or negative staining recognized all the phages as tadpole-shaped; their particles having polyhedral head (40 ~ 70 mμ in diameter) and long tail (80 ~ 275 mμ in length).

In relation to particle sizes of the phages as estimated by all of above-mentioned methods, no significant differences were observed between the sizes calculated from ultrafiltration and those obtained directly from electron micrographs by negative staining.     

Temperature dependence of CD spectra of DNA from various sources

The CD spectra of DNA from various sources (T2; T4; C_d; Escherichia coli; calf thymus; Streptomyces chrysomalis) were investigated. A new band Δ_ε210 in the CD spectra of glucosylated DNA of the T even phages was found. The temperature dependence of the CD spectra of DNA was obtained over a wide range of temperatures, including those of the helix–coil transition. The band Δ_ε275 for all DNAs does not appreciably change in the range of the helix–coil transition. The monotonic increase of this band before melting, and its decrease after melting is observed with an increase in temperature. The amplitude of the CD band Δ_ε245 for all the DNAs studied and Δ_ε210 (glucosylated DNA) parallels the change of E₂₆₀ absorbance.     

Synthesis of a novel flourescent polyriboadenylic acid analog by polynucleotide phosphorylase

Poly(1,N⁶-etheno-2-aza-adenylic acid) [poly(2-aza-εA)] was synthesized from 1,N⁶-etheno-2-aza-adenosine 5′-diphosphate (2-aza-εADP) and Escherichia coli polynucleotide phosphorylase. The values K_m = 1.02 mM, V = 1.06 μmol hr^?1 enzyme unit^?1 were found for the polymerization reaction. In contrast to polyadenylic acid, this novel fluorescent polymer has a random structure in solution. The application of the 2-aza-εADP for localization of polynucleotide phosphorylase was also described.     

Bacteriophages of l-Glutamic Acid-Producing Bacteria

The growth characteristics of phages were investigated with the four phages, active on Brevibacterium lactofermentum, which were selected from the respective serological groups, namely, P465 (group I), P468II (group II), Ap85III (group III) and P4 (group IV).

The adsorption rate of the phages, P465 and P468II, on the host bacteria was low, whereas that of the phages, Ap85III and P4, was higher. The adsorption rate constants for the four phages were respectively calculated at 2.02 × 10^?10, 1.87 × 10^?10, 4.32 × 10^?10 and 3.15 × 10^?10 cm³ per minute, at 30°C in G₅B₂ medium. With reference to the ionic environment for adsorption, the phages, P465 and Ap85III, specifically required either for Ca⁺⁺ or Mg⁺⁺; the phage P468II, for both; and the phage P4, for neither.

The growth characteristics of these phages were examined by the one-step growth experiment. The latent periods of the phages were 50, 53, 57 and 47 minutes, respectively; and the corresponding average burst sizes were about 98, 31, 145 and 126. The growth of the phage P4 was completely suppressed at above 34°C, although the host bacteria and the other three phages were capable of the full growth at that temperature.     

Influence of polyamines on growth and formation of secondary metabolites in hairy root cultures of Beta vulgaris and Tagetes patula

Growth of hairy roots of Beta vulgaris, which produces betalaines, and of Tagetes patula, which produces thiophenes, was studied under the influence of externally treated polyamines. Of the three polyamines, viz. putrescine, spermidine and spermine, administered singly at 1.5 mM concentration, putrescine and spermidine at 0.75 mM concentration influenced increase in the accumulation of biomass of B. vulgaris and T. patula hairy roots by 1.42 and 1.30 fold over the control. Whereas, the treatment of spermine (1.5 mM) alone resulted in decrease in the biomass in both the systems. Combined administration of putrescine (0.75 mM) and spermidine (0.75 mM) enhanced growth in both B. vulgaris and T. patula than that observed in individual treatments. Polyamines administered alone or in combination did alter production of betalaine and thiophene content. Dose response experiments showed that, when putrescine and spermidine was administered at 0.75 mM concentration, it resulted in maximum biomass and production of beta-laine and thiophene in B. vulgaris and T. patula respectively as compared to the control and the media treated with double and triple strength of nitrates and in combination with putrescine and spermidine at equimolar concentration. In B. vulgaris and T. patula hairy root cultures, endogenous spermine titers were maximum in putrescine and spermidine 0.75 mM each treated, cultures, which was 1.63 and 2.0 fold higher than in control on 28^th and 35^th days respectively.     

Inhibition of the polyadenylation reaction in vitro by polyamines

The effect of polyamines on the polyadenylation reaction in vitro was investigated. Varying concentrations of spermine were added to the reaction catalyzed by purified poly(A) polymerase using rat liver nuclear RNA, poly(A), Escherichia coli tRNA or (Ap)₃A as exogenous primers. The enzyme activity decreased progressively with increasing concentrations of polyamines; complete inhibition was obtained at 0.4 and 1.2 mm spermine for the nuclear RNA- and poly(A)-primed reactions, respectively. No inhibition was observed for the (Ap)₃A-primed reaction. Spermidine and putrescine also inhibited polyadenylation but to a lesser extent than spermine. The degree of inhibition by spermine was related to the polynucleotide primer concentrations. Spermine prevented polyadenylation by binding to the primer but not to the poly(A) polymerase molecule as shown by the migration of [¹⁴C]spermine through glycerol gradients after preincubation with enzyme or tRNA. At concentrations inhibitory to polyadenylation in vitro, spermine could stimulate the DNA-dependent RNA synthesis catalyzed by RNA polymerase II. The present study suggests that low levels of polyamines could be used as specific inhibitors of the poly(A) synthesis in vitro.     

Comparative studies of RNA polymerase subunits from various bacteria

Summary The molecular structure of RNA polymerases from Escherichia coli, Salmonella typhimurium, Salmonella anatum, Serratia marcescens, Aerobacter aerogenes, Proteus mirabilis and Bacillus subtilis were compared based on: i) inhibition of the enzyme activity by treatment with antibodies against E. coli RNA polymerase subunits; ii) analysis of antibody precipitates by sodium dodecyl sulfatepolyacrylamide gel electrophoresis; and iii) analysis of antibody precipitates by urea-isoelectrofocusing followed by sodium dodecyl sulfate-slab gel electrophoresis in the second dimension.All the bacterial RNA polymerases examined cross-react equally with anti-E. coli holopolymerase but exhibit different extents of cross-reaction with antibodies against individual subunits. Except for B. subtilis RNA polymerase, the molecular weight and isoelectric point of the enzyme subunits are close to those of E. coli polymerase. However, minor differences were found at least within the resolution of the techniques employed: S. anatum polymerase has subunit larger than E. coli subunit; P. mirabilis enzyme has subunit larger in size and more acidic in charge, and subunit smaller and more basic than corresponding E. coli subunits. The electrophoretic map of B. subtilis enzyme subunits is completely different from that of E. coli enzyme.