Different sensitivities of T4D and lambda mutants to photodynamic action

Summary While T4D phages and both T4v and T4v₁x mutants are equally sensitive to photodynamic action, T4x mutants are much more sensitive. It is proposed that T4x mutants undergo an abortive repair process involving action of the nuclease coded by the v gene.Lambda redB mutants deficient in protein are much more sensitive to photodynamic action than wildtype phages and redA mutants. On the other hand lambda redA mutants, which do not produce the phage-specific exonuclease, are much more sensitive to U.V. light than wildtype phages and redB mutants.These results were presented in an abstracted version at the V. International U.V.-Colloquium Grundlagen der UV-Wirkung, Kühlungsborn, DDR, in October 1969.     

Reactivation of photodynamically inactivated lambda phages

Summary UV-irradiated c phages show a lower survival when plated on rec ^–-cells as compared to rec ⁺-cells. Photodynamically inactivated c phages show the lowest survival on hcr ^–; rec ^–-cells. The rec-functions do not influence the repair of UV- or photodynamically induced lesions in T1 phages.     

Effects of puromycin aminonucleoside on excision repair and recombination repair inescherichia coli

Ultraviolet (UV) lethality was increased when puromycin aminonucleoside (PAN) (3.0 mM) was added to the postirradiation medium ofEscherichia coli strains. The extent of repair inhibition differed greatly for strains WP-2hcr ⁺, B/r()hcr ⁺, WP-2hcr ^–, and Bs-1hcr ^–. The interaction between PAN and UV was synergistic in thehcr ⁺ strains. PAN enhanced UV lethality in strain B/r () to a greater degree than in WP-2hcr ⁺. There was no UV lethality enhancement by PAN (3.0 mM) in thehcr ^– strains, but the interaction of PAN (8.0 mM) with UV was synergistic. PAN decreased plaque formation of T1 UV-irradiated phage plated onE. coli Bhcr ⁺ but had no effect on phage plated on Bs-1 or WP-2hcr ^– strains. These results suggest that PAN interferes with thehcr function in UV-irradiated bacteria.     

Ultraviolet inactivation and photoreactivation of the cholera phage ‘Kappa’

Summary The lysogenic cholera phage, Kappa is some ten to twenty folds more resistant to UV (254 nm) than are most of the T. phages ofE. coli, or the cholera phage PL 163/10, or the hostV. cholerae strain H218 Sm^r, the 37% (D ₃₇) and 10% (D ₁₀) survival doses being 255.8 J/m² and 633.6 J/m² respectively. The UV-irradiated Kappa phages could be photoreactivated in the hostV. cholerae strain H218 Sm^r to a maximum extent of 40%. The removal of the number of lethal hits per phage by the survival-enhancement treatment (photoreactivation) with time followed an exponential relation, the constant probability of removal of lethal hit per unit time being 2.8 × 10^–2 min^–1. The UV-irradiated phages could also be Weigle reactivated in the host strain H218 Sm^r by a small degree, the maximum reactivation factor (ratio of survivals in UV-irradiated and non-irradiated hosts) being 1.50.     

Photodynamische Inaktivierung des E. coli-Phagen T4: Untersuchung der Kreuzungsreaktivierung und des Schutzeffekts von Spermin

Summary The lethal effect of methylene blue (MB) plus light on extracellular phage T4o is mainly due to lesions in the DNA; the extent of this DNA-specifity is about 80% of that of the lethal effect of ultraviolet light. This has been concluded from marker rescue experiments performed with UV-as well as with photodynamically inactivated phages. The difference by a factor of 3.5 in the photodynamic sensitivity of T4o and T4o⁺ could be referred to the fact that the mutant lacks polyamines, because addition of spermine to T4o increases its resistance at least to the wildtype level. Glucose-containing and glucose-lacking T4-phages show almost the same photodynamic sensitivity so that the difference in the sensitivity of T4 and T2 probably is not due to their various degree of glucosylation.

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Die Experimente wurden vom ersten Verfasser als Teil seiner Doktorarbeit unter Anleitung des zweiten und unter Betreuung durch Prof. Dr.R. W. Kaplan durchgeführt.     

Reaktivierung von UV-Schäden in Salmonella typhimurium

Summary The uv- and x-ray sensitivity for colony formation of Salmonella typhimurium has been compared. If the comparation is done on the basis of equal sensitivity of the bacterial gene responsible for host reactivation of uv-damaged P22, the uv-sensitivity of colony formation is only 1/4 of the sensitivity to x-ray irradiation.It is concluded, that 3/4 of the uv-damage to colony formation in Salmonella typhimurium can be reactivated by the cell itself. This reactivable sector of uv-damage in the bacterial cell is the same as the sector of hostreactivable uv-damages in the phage P22 which is able to grow and to be hostreactivated in Salmonella typhimurium.     

Host-dependent modification of bacteriophage T7 and SAMase-negative T3 derivatives affecting their adsorption ability

Summary When passaging phage T7 and SAMase-negative T3 mutants betweenE. coli strains with identical (EcoB) or without (EcoO) DNA host specificity, phenotypically a host-controlled modification and restriction is observed. This phenomenon is not due to classical modification and restriction of the bacteriophage DNA but depends on the reversibly altered adsorption capacity of the phages on the different host strains.     

Major outer membrane proteins of E. coli K12 serve as receptors for the phages T2 (protein Ia) and 434 (protein Ib).

Summary Mutants of E. coli resistant to bacteriophage T2 have lowered amounts of protein Ia in their outer membrane. Bacteriophage T2 was inactivated by a mixture of protein Ia-lipopolysaccharide. Protein Ia or lipopolysaccharide alone had no neutralizing activity. However, only protein Ia was required to inactivate a T2 host range mutant. In the presence of polymyxin B T2 receptor activity of protein Ia — lipopolysaccharide mixtures could not be restored. E. coli strains missing protein Ib were resistant against the lambdoid phage 434. Purified protein Ib inactivated 434 and virh ⁴³⁴. Addition of lipopolysaccharide did not enhance the neutralizing activity of protein Ib, indicating that lipopolysaccharide may not be necessary for the inactivation of the phage.     

On the nature of HNO2 and UV damages in T-even bacteriophages

Summary The interpretation of experiments with HNO₂-inactivated phage T4 published byHarm (1960) and of similar experiments with UV inactivated phages T2 and T4 (Dulbecco 1952,Harm 1956, andEpstein 1958) is discussed. Two alternative theories are used as possible interpretations of the HNO₂ experiments: (1) The injection damage theory holding that a fractionJ of the damages caused in a phage by HNO₂ treatment prevent participation of the phage in the infectious process. (2) The finite damage theory holding that the damages produced by HNO₂ in the genetic material are much larger (have a greater target length) than UV damages, and otherways applying to HNO₂ damages the same theory earlier applied to UV-damages (Barricelli 1956 and 1960).Experimental methods to decide between the two theories are indicated. In the conclusion it is shown that the injection damage theory is not valid for UV damages in T2 and T4. In this case the theory is ruled out by the results ofDulbecco's (1952),Harm's (1956) andEpstein's (1958) MR experiments.With 2 Figures in the TextThis investigation was supported by research grant RG-6980 from the Division of General Medical Sciences and C-4437 from the National Cancer Institute of the National Institutes of Health, U.S.A. Public Health Service.     

DNA homology and adsorption specificity of Pseudomonas aeruginosa virulent bacteriophages

Summary The DNA homology and adsorption specificity of newly isolated virulent bacteriophages of P. aeruginosa have been studied. On the basis of this analysis all phages were divided into four groups: k, m, mnP78-like and mnF82-like bacteriophages. DNA's of k as well as m phages were shown to possess different restriction patterns although they have an extensive homology. Unlike other groups, k phages were characterized by the presence of T4 DNA ligase-repaired, single-chain breaks.Abbreviations kbp kilobase pairs - EM electron microscopy     

Activation of the Alternative Oxidase of Yarrowia lipolytica by Adenosine Monophosphate

The study of the effect of nucleoside phosphates on the activity of cyanide-resistant oxidase in the mitochondria and the submitochondrial particles of Yarrowia lipolytica showed that adenosine-5-monophosphate (AMP) did not stimulate the respiration of the intact mitochondria. The incubation of the mitochondria at room temperature (25°) for 3–5 h or their treatment with ultrasound, phospholipase A, and the detergent Triton X-100 at a low temperature inactivated the cyanide-resistant alternative oxidase. The inactivated alternative oxidase could be reactivated by AMP. The reactivating effect of AMP was enhanced by azolectin. Some other nucleoside phosphates also showed reactivating ability, in the following descending order: AMP = GMP > GDP > GTP > XMP > IMP. The apparent reaction rate constant K _m for AMP upon the reactivation of the alternative oxidase of mitochondria treated with Triton X-100 or incubated at 25°C was 12.5 and 20 M, respectively. The K _m for AMP upon the reactivation of the alternative oxidase of submitochondrial particles was 15 M. During the incubation of yeast cells under conditions promoting the development of alternative oxidase, the content of adenine nucleotides (AMP, ADP, and ATP) in the cells and their respiration tended to decrease. The subsequent addition of cyanide to the cells activated their respiration, diminished the intracellular content of ATP by three times, and augmented the content of AMP by five times. These data suggest that the stimulation of cell respiration by cyanide may be due to the activation of alternative oxidase by AMP.     

2-aminopurine induced DNA repair in E. coli

Summary The survival of UV-irradiated phages is increased when host bacteria are grown in the presence of the base analogue 2-aminopurine (2AP) before infection. This increase in survival, which we have called 2AP-reactivation depends upon the concentration of 2AP and the time of exposure to 2AP. 2AP-reactivation can be distinguished from Weigle-reactivation in that it is not accompanied by an increase in mutagenesis, does not act on the single-stranded DNA bacteriophage X174, and occurs in recA and lexA bacteria. 2AP reactivation does not appear to involve known systems of recombinational repair, as it occurs in recB and recF bacteria, or excision repair, as it occurs in uvrA and uvrB bacteria. It is however dependent upon DNA polymerase I.     

Reactivation of Photoinactivated Single-Stranded DNA Bacteriophage φX174 by UV-Irradiated Escherichia coli Cells

Reactivation of single-stranded DNA phage, photodynamically inactivated in the presence of proflavine sulfate, by three isogenic Escherichia coli strains having different DNA repair capabilities has been studied. It was found that reactivation of photoinactivated phiX174 was possible only if the host cells were recombination proficient (recA(+)) and had been lightly irradiated with UV light prior to infection; the presence of the uvrA(+) gene was not essential. Only a small part of the proflavine-mediated photodynamic damage in phiX174 could be repaired in this fashion. Burst sizes of reactivated phages were, however, comparable to those of normal unirradiated phages.     

Induction of c-mutations in extracellular phage lambda by gamma-rays

Summary Mutagenic action of ⁶⁰Co -rays on extracellular phages red ⁺ and red1 13 after irradiation in 4% nutrient broth in the absence or in the presence of 0.1 M cysteamine or in dried samples was studied. The yield of c mutations was almost independent of the repair genotype of the host cells (uvrA6, polA1, recA13, lexA102, uvrE502, uvrD3 or xthA9), of the phage Red function and of the conditions of -irradiation and was 1·10^-12 per base pair and 1 rad. When the SOS-repair system of the host cells was induced by moderate UV irradiation, the yield of c-mutations was drastically enhanced in phage irradiated in broth, but not in phage irradiated in the dried state. These data allow us to suppose that the direct action of -rays induces, in phage DNA, premutational lesions that are fixed into mutations by replication. On the other hand after -irradiation in broth, when indirect radiation effects are only partially suppressed, about 85% of premutational lesions are converted into mutations by means of the inducible, errorprone SOS-repair system.     

Synthesis and secretion of caseins by the mouse mammary gland: Production and characterization of new polyclonal antibodies

Polyclonal antibodies to mouse - and /-caseins were raised in rabbits. These antibodies display tissue- and species specificity as shown by immunoblotting. Immunohistochemical analyses demonstrate that both - and /-caseins were synthesized and secreted from virtually all lactating mammary epithelial cells, in a pattern very similar to that of the mouse -lactalbumin. Residual amounts of caseins were located also in the apical surface of epithelial cells surrounding the ducal lumen of virgin mammary gland sections. In contrast to the significant level of -casein in the milk, the amount of this protein compared to - or -caseins was extremely low in medium conditioned for 24 h by mammary explants of mid-pregnant mice immediately after explantation or after 4 days.     

Genetic organization of the E. coli chromosome around the structural gene for initiation factor IF3 (infC).

Summary A set of transducing phages carrying varying lengths of the E. coli chromosome around the structural gene for initiation factor IF3 (infC) was derived from p2 which is known to cary, besides infC, the structural genes for the subunit of phenylalanyl-tRNA synthetase (pheS), the subunit of phenylalanyl-tRNA synthetase (phetT) and the structural gene for threonyl-tRNA synthetase (thrS). The E. coli coding content of these derived phages was analysed by genetic complementation of a set of mutants and by SDS-polyacrylamide gel analysis of the proteins synthesized in UV irradiated cells infected with these phages. The segregation pattern of the different genes among these derived phages indicates that the order of the genes is pheT-pheS-P12-(infC, thrS) where infC is probably between P12 and thrS. P12 is the structural gene of a 12,000 molecular weight unidentified protein.Abbreviations PRS (EC 6.1.1.20) phenylalanyl-tRNA synthetase - TRS (EC 6.1.1.3) threonyl-tRNA synthetase - IF3 Initiation factor IF3 - SDS Sodium dodecyl sulfate - PP^R pyrophosphate resistant - PP^S pyrophosphate sensitive     

Redox interconversion of Escherichia coli glutathione reductase. A study with permeabilized and intact cells

Summary The redox interconversion of Escherichia coli glutathione reductase has been studied both in situ, with permeabilized cells treated with different reductants, and in vivo, with intact cells incubated with compounds known to alter their intracellular redox state.The enzyme from toulene-permeabilized cells was inactivated in situ by NADPH, NADH, dithionite, dithiothreitol, or GSH. The enzyme remained, however, fully active upon incubation with the oxidized forms of such compounds. The inactivation was time-, temperature-, and concentration-dependent; a 50% inactivation was promoted by just 2 M NADPH, while 700 M NADH was required for a similar effect. The enzyme from permeabilized cells was completely protected against redox inactivation by GSSG, and to a lesser extent by dithiothreitol, GSH, and NAD(P)⁺. The inactive enzyme was efficiently reactivated in situ by physiological GSSG concentrations. A significant reactivation was promoted also by GSH, although at concentrations two orders of magnitude below its physiological concentrations. The glutathione reductase from intact E. coli cells was inactivated in vivo by incubation with DL-malate, DL-isocitrate, or higher L-lactate concentrations. The enzyme was protected against redox inactivation and fully reactivated by diamide in a concentration-dependent fashion. Diamide reactivation was not dependent on the synthesis of new protein, thus suggesting that the effect was really a true reactivation and not due to de novo synthesis of active enzyme. The glutathione reductase activity increased significantly after incubation of intact cells with tert-butyl or cumene hydroperoxides, suggesting that the enzyme was partially inactive within such cells. In conclusion, the above results show that both in situ and in vivo the glutathione reductase of Escherichia coli is subjected to a redox interconversion mechanism probably controlled by the intracellular NADPH and GSSG concentrations.     

Segregation analysis in hereditary retinoblastoma

Summary Segregation analysis was performed on 211 nuclear families belonging to 166 pedigrees of hereditary retinoblastoma found in a number of series which have been gathered from the literature. Bilaterally affected carriers appear homogeneous. The segregation ratio in their offspring is 0.49, and the proportion of bilateral cases among affected offspring is 0.87. Both unilaterally affected and unaffected carriers appear heterogeneous. The very low segregation ratio (0.08) in the offspring of unilateral carriers who are not detected through an affected child, suggests the possiblity of two types of carriers, high and low transmitters. The proportions of low transmitters was estimated as 0.14 among all familial unilateral carriers and as 0.45 among all detected unaffected carriers. Unilateral and unaffected high transmitters give a significantly lower segregation ratio than bilaterally affected carriers.On the one hand, the existence of these two different types of carriers provides arguments in support of the hypothesis of delayed mutation. On the other hand, the differences in penetrance among high transmitters, according to their phenotype, supports the hypothesis of host resistance. Under the two-mutation hypothesis, the possibility that the mutation rate is variable among individuals and partly genetically determined, is suggested.     

Induction of mutation in phage T4 by extracellular treatment with methylene blue and visible light

Summary Photodynamic inactivation with methylene blue and light (MB+Li) of maximally sensitized phages T4 and T4rII nearly followed single-hit kinetics. Not so mutation induction, which in one phage (T4rII N₁₇) tested showed multi-hit kinetics. This difference and the fact that T4rII phages with a GC base pair at the site of the rII-mutation showed no enhanced backmutation when compared to rII phages with an AT base pair or to sign mutants suggests that there is no guanine specificity for MB+Li-induced mutation in phage T4.