VIABILITY OF THE SPORES FORMED AFTER UV IRRADIATION IN DICTYOSTELIUM DISCOIDEUM

Both abilities of germination of spores formed after UV irradiation and of growth of amoeboid cells emerged from the spores were studied on two kinds of Dictyostelium discoideum strains, NC-4 and ys-13.
An inhibition of germination was observed on the spores of ys -13 when formed after UV irradiation, while no inhibition was detected on the ability of germination of spores of NC-4. The amoeboid cells of ys -13 emerged from the spores showed a heavy delay of growth, although no delay of growth was detected even on the amoeboid cells of NC-4 emerged from the spores formed after UV irradiation. The strain of NC-4 must repair UV lesions fully before spore formation, while the spores of ys-13 must keep some UV lesions unrepaired and send them to the next generation of amoeboid cells. The characters of UV lesion inheritable through the spores to the next amoeboid cells in ys-13 were discussed.     

ULTRAVIOLET EFFECTS ON KILLING, FRUITING BODY FORMATION AND THE SPORES OF DICTYOSTELIUM DISCOIDEUM

Abstract— -Ultraviolet effects on amoeboid cells of three strains of Dictyosrrlium discoidruin , NC-4. γs-13 and γs-18. for killing. fruiting body formation, spore formation and viability of the spores were studied.
The strain of γs-13 was more sensitive to UV light for killing than NC-4 at 10% survival. In addition. γs-13 was the most sensitive strain among the three for fruiting body formation and spore formation. The developmental process of this organism, however, showed a large resistance to UV light when compared with the killing. The spores of γs-13 formed after UV irradiation were mostly non-viable, though those of γs-18 and NC-4 were fully viable     

EFFECTS OF CAFFEINE ON DNA REPAIR OF UV-IRRADIATED DICTYOSTELIUM DISCOIDEUM

Abstract— Caffeine enhances the UV-killing of amoeboid cells of NC-4, but UV-irradiated γs-13 is insensitive to caffeine. UV-irradiated NC-4 becomes insensitive to the effect of caffeine during a postirradiation incubation in buffer for about 90 min, but γs-13 remains unchanged in the sensitivity to caffeine throughout the incubation for 180 min. Amoeboid cells of γs-13 can remove pyrimidine dimers as well as NC-4 even in the presence of caffeine. Caffeine inhibits rejoining of strand-breaks of DNA in UV-irradiated NC-4, but the rejoining in γs-13 is insensitive to caffeine.     

PYRIMIDINE DIMER FORMATION AND GERMINATION OF UV-IRRADIATED SPORES OF DICTYOSTELIUM DISCOIDEUMNC–4 ANDys–13

Abstract— Survival, UV-photoproducts and germination of UV-irradiated spores of Dictyostelium discoi-deum were studied on two strains,NC–4 andys–13. The spores ofNC–4 are about 35 times more resistant to UV thanys–13 spores at 10% survival. Pyrimidine dimers were formed in UV-irradiated spores in both strains. No photoproducts other than pyrimidine dimers were detected. The formation of pyrimidine dimers in spores was about 2% in both strains at 800 J/m₂. In the germination of spores, the conversion of spores into swollen spores was not affected by UV in both strains, but the emergence of amoebae from the swollen spores was suppressed, which was more distinctive inys–13 spores than inNC–4 spores. The emerged amoebae from the UV-irradiatedNC–4 spores were viable, while those from theys–13 spores were inviable even when they succeeded in emergence.     

ENHANCEMENT OF ULTRAVIOLET OR N-METHYL-N'- NITRO-N-NITROSOGUANIDINE SENSITIVITY OF DICTYOSTELIUM DISCOIDEUM BY 3-AMINOBENZAMIDE

Abstract— The amoeboid cells of Dktyostelium discoideum NC–4 possess a 3-aminobenzamide(3-ABA)-sensitive repair mechanism for DNA damages induced by UV-irradiation or N-methyl-N'-nitro-N-nitrosoguanidine (MNNG)-treatment. We have studied the effect of 3-ABA on each step of excision repair in the UV- irradiated cells. Although the nicking of DNA-strand and the excision of pyrimidine dimcrs are insensitive to 3-ABA, the rejoining of DNA strand-breaks is sensitive. The frequency of mutation induced by UV-irradiation or MNNG-treatment is depressed by 3-ABA. The mechanisms of repair inhibition by 3-ABA are discussed.     

ENHANCEMENT OF PHOTOREPAIR OF ULTRAVIOLET-DAMAGE BY PREILLUMINATION WITH FLUORESCENT LIGHT IN CULTURED FISH CELLS

Fluorescent light (FL) illumination of RBCF-1 cells, derived from a goldfish, prior to 254 nm UV-irradiation enhanced their ability to photorepair. The cells were illuminated with FL for 1 h (29 W/M2) and incubated for 8 h in the dark before being irradiated with 10 J/m2 UV. The surviving fraction of FL-treated cells after UV-irradiation rose about 7-fold (from 3 to 20%) by 20 min photorepair treatment with the same FL source, whereas 4-fold (from 1.6 to 6%) in the FL non-treated cells. Flow cytometric analysis showed that FL treatment did not affect the distribution of cell cycle phase at the time of UV-irradiation (8 h after FL treatment). Pyrimidine dimers induced by UV were measured by the use of UV endonuclease of Micrococcus luteus and alkaline agarose gel electrophoresis. Initial yields of dimers after exposure to 10 J/m2 UV were almost the same (about 0.11 dimer/kb) between FL treated and non-treated cells. But after 20 min photorepair treatment, about 70% of dimers were removed in the FL treated samples, while less than 20% were removed in the non FL-treated ones.     

CHANGES IN ULTRAVIOLET RESISTANCE AND PHOTOPRODUCT FORMATION AS EARLY EVENTS IN SPORE GERMINATION OF BACILLUS CEREUS T

Abstract— In order to determine the timing of the change in the state of DNA in bacterial spores during the course of germination, L-alanine-induced germination of Bacillus cereus spores was interrupted by 0.3 M CaCl₂ as an inhibitor, and the resulting semi-refractile spores (spores at the end of the first phase of germination) were examined on the UV-resistance and the photoproduct formation.
Upon UV-irradiation, these spores, still having a semi-refractile core as observed under a phase-contrast microscope, gave rise to mainly the cyclobutane-type thymine dimer. It was concluded that change in the state of the spore DNA occurs early in the process of germination, i.e. before the refractility of the core was lost.
It was also found that CaCl₂ markedly prolonged the duration of the transient UV-resistant stage.     

PHOTOREACTIVATION OF ULTRAVIOLET LIGHT-INDUCED SISTER CHROMATID EXCHANGES IN POTOROUS CELLS

Abstract— Exposure to visible light after UV-irradiation showed a remarkable effect on UV-induced sister chromatid exchanges (SCEs). After 6-h exposure to visible light (3 × 10⁵ J/m²), two-thirds of the UV-induced SCEs were prevented, confirming Kato's findings. Exposure to visible light before UV irradiation had no effect. This effect of visible light on UV-induced SCEs was temperature dependent, suggesting the presence of enzymatic photoreactivation.     

PHOTOREVERSIBILITY OF UV-INDUCED THYMINE DIMERS AND ABNORMAL MORPHOGENESIS IN SEA-URCHIN EMBRYOS

Abstract— Irradiation of synchronously dividing 16-cell embryos of a sea-urchin ( Hemicentrotus pul-cherrimus ) with 200 J m⁻² of UV light (254 nm) resulted in the complete inhibition of normal pluteus-larva formation when the embryos were cultured in the dark after UV-irradiation. Illumination of the UV-irradiated embryos with visible light (11 W m⁻²) for 1 h immediately after the UV-irradiation reversed the abnormal morphogenesis. Measurement of thymine dimers indicates that the degree of UV-induced abnormal morphogenesis is greatly correlated with the amount of thymine dimers in the DNA of the embryos. The degree of the photoreversal decreased with an increase in the interval between UV-irradiation and exposure to visible light. Visible light was ineffective as to the reversibility of both thymine dimers and the abnormal morphogenesis at 60 min after the UV-irradiation, when the UV-irradiated 16-cell embryos entered the next cell cycle.     

PHYSIOLOGICAL EFFECTS OF ULTRAVIOLET LIGHTON DICTYOSTELIUM DISCOIDEUM SPORE GERMINATION

Abstract— The spore germination in Dictyostelium discoideum consists of four stages: activation, postactivation lag, swelling and emergence. Ultraviolet irradiation (total fluence of 250 J/m²) of spores at any time prior to late spore swelling allows full swelling, but inhibits the emergence of myxamoebae. In the case of freshly activated spores, a UV exposure time of 30 s (total fluence of 50 J/m²) is sufficient to reduce emergence to about 6% when measured after 24 h of incubation. This same fluence results in about 10% viability as measured by plaque forming ability. Experiments utilizing 'fractionated exposures' result in the same percentage inhibition of emergence as that found for 'single exposures' provided the total fluence is equivalent. The higher fluences (250 J/m²) which completely prevent emergence, do not affect the endogenous oxygen uptake of spores during swelling. Ultraviolet light irradiated spores respond to the same activation and deactivation treatments as control unirradiated spores. Ultraviolet irradiation after late spore swelling allows emergence to occur in only a small fraction of the population. This fraction of cells which can emerge after UV treatment is said to have passed a 'competence point', which is believed to be the time when all the events necessary for emergence have been completed. Though the sites of UV inactivation in spores can only be postulated at present, it is apparent that the initial stages of germination (activation, postactivation lag and spore swelling) occur independently of the UV sensitive sites. The final stage of germination (emergence), however, is dependent on UV sensitive functions.     

Modifications of in vitro skin penetration under solar irradiation: evaluation on flow-through diffusion cells

The effect of solar irradiation on ex vivo dermatomed hairless rat skin samples maintained in culture on flow-through diffusion cells for at least 24 h was evaluated by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide assay and by histological observations. Transepidermal water loss (TEWL) measurements and kinetic analysis of the permeation of both tritiated water and 14C caffeine through the skin were performed after full-spectrum solar exposure involving the use of a xenon arc solar simulator. After a UV exposure of less than 420 mJ/cm2, skin integrity and permeation of both water and caffeine did not change significantly. In contrast, after a 420 mJ/cm2 UV exposure, the epidermis appeared more contracted, associated with an increase of 55% of TEWL and 220% of the skin permeation of tritiated water after 6 h. The data suggested a dramatic alteration of the skin barrier integrity. Moreover, the flux of 14C caffeine increased rapidly by 338% of the absorption of water 12 h after irradiation. These results reveal the presence of a threshold UV exposure that would not modify skin penetration.     

MODIFYING FACTORS OF THE CELLULAR CONCENTRATION OF PHOTOLYASE MOLECULES IN Saccharomyces cerevisiae—II. EFFECTS OF PREILLUMINATION WITH LIGHT FLASHES

Abstract The effects of preillumination with photoreactivating light flashes before UV-irradiation on the number of photoreactivable complexes consisting of UV-induced DNA-damages and active photolyase molecules (N_PREact), on the fluence decrements, ΔD_PRE, that are obtained from two UV-survival curves without and with 1 flash photoreactivation and proportional to N_PREact were determined in haploid Saccharomyces cerevisiae cells. ΔD_PRE increased by preillumination from 0.115 Jm^–2 to 0.460 Jm^–2 and from 0.376 Jm^–2 to 0.494 Jm^–2 in cells in logarithmic growth phase and in stationary growth phase, respectively. Δ_PRF in log-cells that were preilluminated before and after resuspension in buffer at 40°C for 60 min was larger than ΔD_PRE in log-cells preilluminated only after resuspension in buffer.     

SOME OBSERVATIONS ON THE LETHAL EFFECTS OF NEAR-ULTRAVIOLET LIGHT ON ESCHERICHIA COLI, COMPARED WITH THE LETHAL EFFECTS OF FAR-ULTRAVIOLET LIGHT

Abstract— Near-ultraviolet light (365.5 nm) reduces the ability of Escherichia coli B/r and B_8-1, to form colonies on nutrient agar after irradiation. This lethal effect is distinct from that obtained after far-u.v. irradiation (253.7 nm) because the far-u.v. sensitive and resistant strains are equally susceptible to near-u.v. Variation in susceptibility to ultraviolet light during growth is more marked for near-u.v. than for far-u.v. The number of survivors after near-u.v. irradiation of log phase cells is affected by several post-irradiation treatments; more cells survive if growth immediately after irradiation occurs at higher temperatures (unlike far-u.v.). Also, the presence of acriflavine and caffeine in the nutrient agar decreases the number of survivors (in common with far-u.v.).     

Photocatalytic conversion of NOx on AgCl/Al2O3 catalyst

The rate of NO conversion under UV illumination was evaluated over Ag/Al₂O₃ and AgCl/Al₂O₃ catalysts at room temperature. The AgCl/Al₂O₃ catalyst is highly active for the conversion of NO_x. The conversion is enhanced in the presence of O₂ and further enhanced when oxygen coexists with hydrocarbons. Diffuse reflectance spectra of AgCl/Al₂O₃ and Ag/Al₂O₃ show an absorption band at 250 nm, and a weak and broad band at 230 nm, respectively. The high photocatalytic NO_x conversion is achieved over the AgCl/Al₂O₃ catalyst. The conversion level of NO_x is maintained above 60% over 5 h in the presence of O₂ and hydrocarbons under UV-irradiation. The absorption band at 250 nm is ascribed to the band gap energy of crystallized AgCl particles on Al₂O₃. These results suggest that high photocatalytic NO_x conversion proceeds on crystallized AgCl particles formed on Al₂O₃.     

ENHANCEMENT OF PHOTOREPAIR OF ULTRAVIOLET-INDUCED PYRIMIDINE DIMERS BY PREILLUMINATION WITH FLUORESCENT LIGHT IN THE GOLDFISH CELL LINE. THE RELATIONSHIP BETWEEN SURVIVAL AND YIELD OF PYRIMIDINE DIMERS

The enhancement of photorepair of UV-induced pyrimidine dimers by preillumination with fluorescent light, previously reported with RBCF-1 cells derived from caudal fin of a goldfish, was studied in terms of clonogenic ability and yields of dimers. In the logarithmic growth phase, the ability of photorepair increased with the time after preillumination, reached a maximum at 8 h, and gradually declined. At 8 h, the dose decrement with the photorepair-treatment for 20 min at 7.5 J/m2 UV increased by preillumination for 1 h from 1.6 to 3.1 J/m2 in terms of restoration of survival and from 1.2 to 4.3 J/m2 in terms of the disappearance of dimers. Incubation of the preilluminated cells in the medium containing cycloheximide (0.5 microgram/mL) after preillumination until UV-irradiation diminished their enhancement of photorepair. In the density-inhibited state, the ability of photorepair was higher than in the log phase, and it was hardly enhanced by preillumination.     

VARIATION IN THE PHOTOCHEMICAL REACTIVITY OF THYMINE IN THE DNA OF B. SUBTILIS SPORES, VEGETATIVE CELLS AND SPORES GERMINATED IN CHLORAMPHENICOL*,†

Abstract— The chief photoproduct of thymine produced in u.v. irradiated (2537Å) vegetative cells of B. subtilis is the cyclobutane-type dimer while in spores very little of this dimer is produced (maximum yield 2·6 per cent of thymine) but a new photoproduct is produced in high yield (maximum of 28·4 per cent of thymine). This difference in photochemical response appears to be due, at least in part, to a difference in uydration of the DNA. The photochemistry of thymine in isolated DNA irradiated in solution is similar to that of DNA in irradiated vegetative cells, but differs markedly from that of isolated DNA irradiated dry. The yield of cyclobutane-type thymine dimer is much reduced in isolated DNA irradiated dry but a new photoproduct of thymine. is produced which is chromatographically similar to the spore photoproduct. The yield of this photoproduct, however, is never as great as that obtained in irradiated spores. The photochemistry of the DNA thymine of spores germinated in the presence of chloramphenicol is very similar to that of normal vegetative cells. Except for hydration, the physical state of the DNA is probably not otherwise altered by germination in the presence of chloramphenicol since DNA replication is prevented by the presence of chloramphenicol. These results are also consistent with the hypothesis that the unique photochemistry of spores is due, at least in part, to the hydration state of the DNA. The acid stability of the spore photoproduct is indicated by the fact that it is isolated from irradiated spores after hydrolysis in trifluoroacetic acid at 155°C for 60 min. It still contains the methyl group of thymine as judged by the fact that for a given dose of u.v. the same yield of photoproduct was obtained whether the spores were labeled with thymine-2–C-14 or -methyl-C-14. This photoproduct is stable to reirradiation (2537Å) in solution under condiditions where thymine dimers of the cyclobutane-type are completely converted back to monomeric thymine. On a column of molecular sieve material (Sephadex-G10), the spore photoproduct elutes in a region intermediate between the cyclobutanetype thymine dimers and monomeric thymine. Of the numerous compounds tested by paper chromatography, the spore photoproduct is most similar (but not identical) in several solvents to 5–hydroxyuracil and 5–hydroxymethyluracil. Our data do not allow us to decide if the product is a monomer or a dimer. Although the photochemistry of thymine in the DNA of spores differs markedly from that for vegetative cells, several lines of evidence make it seem doubtful that the enhanced resistance of spores to u.v. relative to that of vegetative cells can be explained solely on the basis of this difference in the photochemistry of DNA thymine.     

PYRIMIDINE DIMER SITES ASSOCIATED WITH THE DAUGHTER DNA STRANDS IN UV-IRRADIATED HUMAN FIBROBLASTS

Abstract. Pyrimidine dimer sites associated with the newly-synthesized DNA were detected during post-replication repair of DNA in UV-irradiated human fibroblasts. These pyrimidine dimer sites were inferred from a decrease in the molecular weight of pulse-labelled DNA after treatment with an extract of Micrococcus luteus containing UV-specific endonuclease activity. In DNA synthesized immediately after irradiation the frequency of these daughter strand dimer sites was 7–20% of that in the parental DNA. Such sites were found in fibroblasts from normal donors and from xeroderma pigmentosum patients (with defects in excision-repair or post-replication repair). They were excised from the DNA of normal cells. As the time between UV-irradiation and pulse-labelling was increased, the frequency of dimer sites associated with the labelled DNA decreased. If the pulse-label was delivered 6 h after irradiation of normal cells or excision-defective xeroderma pigmentosum cells, no dimer sites were detected in the labelled DNA. It has usually been assumed that daughter-strand dimer sites were the result of recombinational exchanges. The assay procedure used in these experiments and in similar experiments of others did not distinguish between labelled DNA containing pyrimidine dimers within the labelled section, and labelled DNA which did not contain pyrimidine dimers but was attached to unlabelled DNA which did contain dimers. The latter structures would arise during normal replication immediately following UV-irradiation of mammalian cells. Calculations are presented which suggest that a significant proportion and conceivably all of the dimer sites associated with the daughter strands may have arisen in this way, rather than from recombinational exchanges as has been generally assumed.     

A DSC STUDY OF PHOTOPOLYMERIZATION OF POLYESTERS CONTAINING CONJUGATED DIACETYLENES

The photopolymerization of two kinds of prepolyesters containing conjugated diacetylene (PDA-6 and PDA-12)was investigated using DSC. By measuring the endothermic enthalpy of the prepolymers after different UV-irradiation times,the polymerizations were found to follow the first-order rate law which agreed with the results of other investigators using adifferent method. The endothermic enthalpy measurements of PDA-6 and PDA-12 before UV-irradiation precluded thepossibility that the decrease of endothermic enthalpy was caused by thermal polymerization.     

Biological effects of magnesium particles degradation on UMR-106 cell line: influence of fluoride treatments

Mg-based materials are promising for orthopedic, dental, and cardiovascular applications but their high degradation rate in vivo (release of Mg ions and debris particles) is cause of great concern. Protective treatments involving fluoride conversion coatings have been proposed in order to reduce corrosion rates. The aim of this study was to evaluate Mg debris biodegradation and its possible cytotoxic effects on osteoblastic cells in situ. Neutral Red dying and Acridine Orange staining techniques were used as endpoints to analyse the cytotoxic effects at 100-2000 μg/mL concentration range. Results showed a marked variation of Mg ion concentration in the culture medium after different exposure periods (1, 2, or 24h). Interestingly, the release rate of magnesium ions was dependent on the presence or absence fluoride treatment. Adverse effects induced by ≥1000 μg/mL MP doses and Mg ion concentrations higher than 480 μg/mL were observed on cells. Results showed significant differences between the concentration of Mg ions in the presence and absence of cells. This fact reveals a dynamic equilibrium mediated by Mg ion input and output in the cells that leads to the change in MP corrosion rates. Fluoride release from conversion coatings did not show cytotoxic effects.     

紫外光固化超支化聚硅氧烷的合成及其光固化动力学研究

利用γ-甲基丙烯酰氧基丙基三甲基硅氧烷的受控水解反应即A2-B3单体对法来制备超支化聚硅氧烷,并对合成出的聚合物通过FT-IR、1H-NMR和多角度激光光散射技术(MALLS)进行了表征.结果表明,所得聚合物具有超支化结构且分子中含有大量活性官能团,从而可以实现紫外光引发固化.通过等温差示光量热实验(DPC)研究了聚合物结构、引发剂用量、光强度和聚合温度对聚合物光固化行为的影响规律,并得到了其中一种聚合物的光固化动力学参数,光固化反应总级数约为3,表观活化能为16.9kJ/mol.