An in vitro method for increasing UV-tolerance in a strain of Helicoverpa armigera (Lepidoptera: Noctuidae) nucleopolyhedrovirus

A method for increasing tolerance to ultraviolet (UV) radiation in a strain of nucleopolyhedrovirus of cotton bollworm, Helicoverpa armigera (Hübner) (HearNPV) using a solar simulator is described. The Coimbatore isolate (CBE I) of HearNPV was subjected to a five-step sequence of selection to increase its UV tolerance. Each step consisted of irradiation of wet deposits of the virus to near UV (at energy level of 300W/m²), bioassay against second instar H. armigera larvae and propagation in early fifth instar larvae. Selection steps carried out at 15, 30, 60 and 90 minutes of exposure revealed that the continuous exposure of HearNPV-CBE I at low doses of UV irradiation (270–540 KJ/m²) did not significantly affect the virus activity as measured by its biological activity against second instar larvae. Selection at higher doses (1620 KJ/m²) led to loss of viral activity in the first two exposure cycles; however, there was retention of virulence coupled with increased tolerance to UV doses from third cycle onwards. Further, studies on the persistence of UV tolerant strain of HearNPV-CBE I in comparison with original strain showed that the tolerant strain had more persistence even after 7 days of weathering both under exposed (18% original activity remaining) and shaded (26% original activity remaining) condition on potted cotton plant.     

Genetic Inactivation of European Sea Bass (Dicentrarchus labrax L.) Eggs Using UV-Irradiation: Observations and Perspectives

Androgenesis is a form of uniparental reproduction leading to progenies inheriting only the paternal set of chromosomes. It has been achieved with variable success in a number of freshwater species and can be attained by artificial fertilization of genetically inactivated eggs following exposure to gamma (γ), X-ray or UV irradiation (haploid androgenesis) and by restoration of diploidy by suppression of mitosis using a pressure or thermal shock. The conditions for the genetic inactivation of the maternal genome in the European sea bass (Dicentrarchus labrax L.) were explored using different combinations of UV irradiation levels and durations. UV treatments significantly affected embryo survival and generated a wide range of developmental abnormalities. Despite the wide range of UV doses tested (from 7.2 to 720 mJ.cm⁻²), only one dose (60 mJ.cm⁻².min⁻¹ with 1 min irradiation) resulted in a small percentage (14%) of haploid larvae at hatching in the initial trials as verified by flow cytometry. Microsatellite marker analyses of three further batches of larvae produced by using this UV treatment showed a majority of larvae with variable levels of paternal and maternal contributions and only one larva displaying pure paternal inheritance. The results are discussed also in the context of an assessment of the UV-absorbance characteristics of egg extracts in this species that revealed the presence of gadusol, a compound structurally related to mycosporine-like amino acids (MAAs) with known UV-screening properties.     

鱼类雄核发育的研究进展

雄核发育是在雄核控制下发育的一种特殊的有性生殖方式,它是鱼类单性发育的重要组成部分。本文全面综述了国内外鱼类雄核发育研究的进展状况。主要包括雌核染色体灭活和雄核二倍化诱导技术。雌核染色体灭活主要通过γ、X和紫外线(UV)等辐射处理完成的,其辐射剂量和方法因研究者不同而不同。雄核的二倍化诱导则主要是采用静水压和温度休克阻止第一次有丝分裂来实现的,其二倍化诱导条件与研究的种类不同而有所差异。同时,本文对鱼类雄核发育在遗传育种中的应用前景作了评价。 Abstract：Fish andtogenesis is a kind of secial sexual development which is controlled by male nucleus and it is an important part of fish unisexual development. This paper summarizes the progress of fish androgenesis comprehensively in the world.It includes the techniques of inactive female nucleus of eggs and diploidization of male nucleus. The methods of inactive female nucleus are carride out by using γ,X and ultraviolet (UV)rays to irradiate the eggs,the irradiation dosages and methods are different based on the different researchers. The techniques of diploidization of male nucleus are carried out by using hydrostatic pressure, heat and cold shock to restrain the fish mitosis,the diploidization condition are different from species to species.Meanwhile,the paper evaluates the application perspectives of fish androgenesis on the genetics and breeding.     

Induction of diploid androgenetic and mitotic gynogenetic Nile tilapia (Oreochromis niloticus L.)

Androgenesis is a potentially valuable technique for recovering fish from gene banks composed of cryopreserved sperm, developing inbred lines, and analyzing patterns of inheritance. The procedure for producing diploid organisms whose nuclear DNA is wholly of paternal origin is dependent on: (1) the denucleation of host eggs, and (2) the inhibition of the first mitotic division in order to double the haploid sperm chromosome complement following fertilization of host eggs. Denucleation of tilapia (Oreochromis niloticus L.) eggs was carried out using UV irradiation. Treatment durations of 5–8 min (total dose of 450–720 J/m²) produced acceptable yields of viable denucleated eggs [22.9±1.6% (±SE) of controls] as estimated by the survival of haploid androgenetic tilapia to 48 h post-fertilization. Successful mitotic inhibition was accomplished using a heat-shock of 42.5 °C for 3–4 min, applied at 2.5-min intervals from 22.5 to 30 min post-fertilization (mpf). The mean survival of androgenetic diploid fish to yolk-sac absorption for treatment groups varied from 0.4% to 5.3%, relative to the controls. Differences in the suceptibility of eggs from different females to UV irradiation were a significant factor in the overall yield of androgenetic diploids. Paternal effects did not significantly influence the androgenetic yield, suggesting that individual males would not be selected against. For comparative purposes mitotic gynogenetic mitogyne diploids were produced from UV-irradiated sperm. Mean survival to yolk-sac absorption varied from 0.5% to 10.64%, relative to controls. Similar optima for androgenetic and gynogenetic induction were found in the period 25–27.5 mpf (minutes post-fertilization). Induction treatments would appear to be operating on the same developmental events in both these techniques, and the results suggest that the UV irradiations used do relatively little damage to the eggs beyond nuclear inactivation. The results indicate that the production of androgenetic O. niloticus is possible on a consistent basis and that the application of this technique may be useful in quantitative and conservation genetics.     

Induction of Haploid Androgenesis in Pacific Oyster by UV Irradiation

Androgenesis, development from paternal but not maternal chromosomes, can be induced in some organisms including fish, but has not been induced previously in mollusk. In this study we investigated the induction of haploid androgenesis in the Pacific oyster by ultraviolet irradiation and observed nuclear behavior in the androgenetic eggs. Irradiation for 90 seconds at a UV intensity of 72 erg/mm² per second (6480 erg/mm²) was the optimal dose to achieve haploid androgenesis. The fertilization and development rates of D-shaped larvae decreased with increasing exposure time, and the development of the genetically inactivated eggs terminated before reaching the D-shaped stage. Cytologic observations showed that UV irradiation did not affect germinal vesicle breakdown or chromosomal condensation but caused various nuclear behavioral patterns during meiosis and first mitosis: 21.7% of eggs extruded all maternal chromosomes as 2 or 3 polar bodies, and 59.1% of eggs formed one female pronucleus. The maternally derived nucleus did not participate, or partially participated, in the first karyokinesis. The cytologic evidence demonstrates that the male genome is directing development in haploids produced by UV irradiation.     

Potential effects of spawning habitat changes on the segregation of northern pike (<Emphasis Type="Italic">Esox lucius</Emphasis>) and muskellunge (<Emphasis Type="Italic">E</Emphasis>. <Emphasis Type="Italic">masquinongy</Emphasis>) in the Upper St. Lawrence River

Changes in spawning habitat of northern pike (Esox lucius) may affect their segregation from and coexistence with the closely related muskellunge (E. masquinongy). We estimated the areal coverage of robust and shallow emergent vegetation in three shared-spawning bays in the Upper St. Lawrence River from aerial photographs taken from 1948 to 2003. Robust emergent vegetation (e.g., cattail) increased in coverage by 155–241% while shallow emergents (sedges) decreased by 46–96%. The loss of sedges, an important northern pike-spawning habitat, may facilitate greater spawning overlap in offshore-submersed aquatic vegetation within bay habitats used by muskellunge. Development rates and characteristics of northern pike and muskellunge eggs and larvae were compared to better understand the implications of greater spawning overlap. Northern pike eggs developed faster than muskellunge eggs at temperatures of 4.7–19°C, and adhesive eggs and the presence of adhesive papillae were present in both species. Equations were used to predict degree-day requirements for hatching and swim-up in three habitats (shallow emergents, bay, and offshore shoal) along a temperature gradient. Northern pike required more estimated degree days to reach hatching in bay and offshore shoal habitat relative to shallow emergent habitat due to cooler temperatures. Significant spawning overlap is known to occur within bay habitats, but poor success of northern pike in deep bay habitats and overall reductions in abundance are hypothesized to currently buffer muskellunge from potential negative interactions between these species. Guest editors: J. M. Farrell, C. Skov, M. Mingelbier, T. Margenau & J. E. Cooper International Pike Symposium: Merging Knowledge of Ecology, Biology, and Management for a Circumpolar Species     

Water- and temperature-dependence of DNA damage and repair in the fruticose lichen Cladonia arbuscula ssp. mitis exposed to UV-B radiation

The induction of cyclobutane pyrimidine dimers (CPDs) by ultraviolet‐B radiation (UV‐B, 280–315 nm) and repair mechanisms were studied in the lichen Cladonia arbuscula ssp. mitis exposed to different temperatures and water status conditions. In addition, the development and repair of CPDs were studied in relation to the different developmental stages of the lichen thallus podetial branches. Air‐dried lichen thalli exposed to UV‐B radiation combined with relatively high visible light (HL, 800 μmol m^?2 s^?1; 400–700 nm) for 7 days showed a progressive increase of CPDs with no substantial repair, although HL was present during and after irradiation with UV‐B. Fully hydrated lichen thalli, that had not been previously exposed to UV‐B radiation for 7 days, were given short‐term UV‐B radiation treatment at 25°C, and accumulated DNA lesions in the form of CPDs, with repair occurring when they were exposed to photoreactivating conditions (2 h of 300 μmol m^?2 s^?1, 400–700 nm). A different pattern was observed when fully hydrated thalli were exposed to short‐term UV‐B radiation at 2°C, in comparison with exposure at 25°C. High levels of CPDs were induced at 2°C under UV‐B irradiation, without significant repair under subsequent photoreactivating light. Likewise, when PAR (300 μmol m^?2 s^?1) and UV‐B radiation were given simultaneously, the CPD levels were not lowered. Throughout all experiments the youngest, less differentiated parts of the lichen thallus – namely ‘tips’, according to our arbitrary subdivision – were the parts showing the highest levels of CPD accumulation and the lowest levels of repair in comparison with the older thallus tissue (‘stems’). Thus the experiments showed that Cladonia arbuscula ssp. mitis is sensitive to UV‐B irradiation in the air‐dried state and is not able to completely repair the damage caused by the radiation. Furthermore, temperature plays a role in the DNA damage repairing capacity of this lichen, since even when fully hydrated, C. arbuscula ssp. mitis did not repair DNA damage at the low temperatures.     

Effect of ultraviolet radiation on cell division and microtubule organization inPetunia hybrida protoplasts

Summary Mesophyll protoplasts isolated fromPetunia hybrida were subjected to UV radiation (280–360 nm) in an attempt to assess whether (a) UV radiation has an effect on cortical microtubule organization, (b) UV radiation affects the progression of protoplasts through the cell cycle, and (c) there is a connection between the effect of UV radiation on cell division and the polymerization state of the microtubules. The proto plasts were irradiated with the following UV doses: 4, 8, 12, and 24mmol photons/m², 30 min after isolation. Cell cycle analysis and immuno-localization of microtubules were carried out 0, 24, 48, and 72 h after irradiation. The length of cortical microtubules was determined after irradiation and in corresponding controls. We found that UV radiation induced breaks in cortical microtubules resulting in shorter fragments with increasing dose. Also, the protoplasts were delayed in their progression through the cell cycle, with G1 and G2 phases being affected as well as the S phase. The commencement of DNA synthesis in the irradiated protoplasts followed the re-establishment of a microtubule network. At 48 h after irradiation the protoplasts in all treatments, except for the 24 mmol/m², had cortical microtubules of similar length, and at 72 h after irradiation only the protoplasts that had received 24 mmol photons/m² had not started dividing.Abbreviations BSA bovine serum albumin - DMSO dimethyl sulfoxide - FDA fluorescein diacetate - MT microtubules - MTSB microtubule stabilizing buffer - PAR photosynthetically active radiation (400–700 nm) - PBS phosphate buffered saline - UV ultraviolet     

Correlation between survival,ability to rejoin DNA and stability of DNA after preirradiation inhibition of protein synthesis in arec - mutant ofEscherichia coli K12

A 90 min inhibition of protein synthesis induced by starvation for amino acids (AA^-) or by treatment with chloramphenicol (CAP) prior to UV irradiation (2.5 J m^-2) increased the resistance of the strainEscherichia coli K12 SR19 to UV radiation more than ten-fold. Under these conditions, cultures in which protein synthesis was inhibited before the UV irradiation rejoin short regions of DNA synthesized after the irradiation to a normal-size molecule, whereas an exponentially growing culture does not rejoin DNA synthesized after UV irradiation to a molecule of a normal size. In the exponentially growing culture both the parental and the newly synthesized DNA are unstable after the irradiation. In cultures with inhibited protein synthesis only the parental DNA is somewhat unstable. InEscherichia coli K12 SR19 where protein synthesis was inhibited before the irradiation, a correlation between the survival of cells, the ability to rejoin short regions of DNA synthesized after UV irradiation and a higher stability of both parental and newly synthesized DNAs could be demonstrated.     

Complex repair kinetics of DNA strand breaks induced by γ-rays or UV radiation in Ehrlich ascites tumour cells

Fluorometric analysis of DNA unwinding (FADU) – a sensitive technique for the detection of strand breaks in DNA – has been modified and used for the detailed investigation of repair kinetics of DNA-strand breaks arising under different conditions in Ehrlich ascites tumour (EAT) cells irradiated by γ-rays or ultraviolet (UV) radiation. The repair kinetics of DNA-strand breaks induced in EAT cells by γ-radiation was measured at radiation doses of 8, 20 and 50 Gy. We found complex repair curves in all cases, probably reflecting the combined processes of break rejoining and break generation during repair. In order to affect the above-mentioned processes, we have used different conditions of repair and different types of radiation. Lowering of the temperature of incubation and treating the cells by 5-fluoro-2′-deoxyuridine (FUdR) lead to complex changes of the repair curve with a reduced ``wave' pattern. In order to change the type of damage to DNA, we used UV radiation (254 nm, 10 and 20 J/m²). Detailed studies of the repair kinetics showed that the repair curve for 10 J/m² had a second maximum within 70 min after irradiation. Received: 17 May 1995 / Accepted in revised form: 15 March 1996     

Developmental changes in the sensitivity of Volvox to ultraviolet light

The response of Volvox to ultraviolet irradiation was analyzed. Young individuals isolated from a synchronous culture were exposed to UV light (120 J/m²) and subjected to variable lenght periods of dark following irradiation. The major effect of the UV treatment was the inability of the gonidia present in the colonies at the time of irradiation to continue and complete the developmental program. Individuals show a heightened sensitivity to UV for a limited period immediately following inversion and are insensitive at other stages of development. The cytotoxic effect of UV during this interval is completely reversed by the immediate exposure to white light and is increased with longer periods of dark treatment prior to exposure to white light. The temporal profile of the sensitivity defines a smooth curve in which the maximal sensitivity occurs three hours after inversion. The response to higher doses of UV (up to 500 J/m²) is a nonlinear increase in cytotoxicity and is disproportionanately greater in those individuals just prior to the period of maximal sensitivity than those later in development. The results suggest that Volvox has at least two pathways for the repair of UV damage and that one of these, the principal dark repair pathway, is temporarily deficient in the gonidia of young individuals.     

Induction and Characterization of Artificial Diploids from the Haploid Yeast Torulaspora delbrueckii

The yeast Torulaspora delbrueckii, which propagates as a haploid, was made into a diploid by treatment with dimethyl sulfoxide (DMSO) on the regeneration of protoplasts. The diploid state was stably inherited; the cell volume was three times that of the parent strain and the cellular DNA content was two times that of the parental strain. No essential difference was found between diploids induced by DMSO and those formed through intraspecific protoplast fusion. The diploid strains sporulated fairly well, with their cells converting directly into asci. Random spore analysis revealed that diploids induced through protoplast fusion gave rise to auxotrophic segregants (haploids) with the parental genetic marker or to segregants formed by recombination, while diploids induced by DMSO from a doubly auxotrophic parent gave rise to no recombinant, indicating that it was chromosomally homoallelic in nature. The magnesium level in the protoplast regeneration medium was found to be an important factor for inducing diploid formation. At 0.2 mM magnesium diploids appeared even in the absence of DMSO, while at 2 mM magnesium diploids never appeared unless DMSO was added to the regeneration medium. Evidence is provided that the diploids induced by DMSO or a low magnesium level are due to direct diploidization but not protoplast fusion. UV light irradiation of intact cells (without protoplasts), 10% of which survived, also produced diploids among this surviving population. From these results we conclude that the perturbation of protoplast regeneration or of cell division by the treatments mentioned above somehow induced direct diploidization of T. delbrueckii.     

Ways of apoptosis development in human lymphocytes, induced by UV-irradiation

The level of DNA damage and cytochrome c content in human lymphocytes in the dynamics of apoptosis induced by UV light (240?C390 nm) at doses of 151, 1510 and 3020 J/m² is studied. DNA fragmentation is revealed in 20 h after UV irradiation of lymphocytes at doses mentioned above. It is shown that DNA damages (single strand breaks) appear immediately after UV irradiation of lymphocytes at doses of 1510 and 3020 J/m² (comets of C1 type) and reach their maximum 6 h after cell modification (comets of C2 and C3 types). It is concluded that p53-dependent and receptor caspase pathways are involved in apoptosis development in the human lymphocytes, modified after UV irradiation.     

Apoptosis development pathways in human lymphocytes induced by UV light and reactive oxygen species

We have studied alterations in the structural state of DNA, the level of membrane Fas-receptor expression, functional activity of caspase-3, the concentration of Ca²⁺, p53 and cytochrome c proteins in human lymphocyte cells in the dynamics of apoptosis, induced by UV light (240–390 nm) at doses of 151, 1510, and 3020 J/m² and reactive oxygen species (ROS): superoxide anion radical, hydroxyl radical, hydrogen peroxide, and singlet oxygen. It was established that UV light and ROS induce lymphocyte DNA fragmentation after the incubation of a modified cell for 20 h. It was shown that in 1–5 h after UV light and ROS exposure on lymphocytes, an increase is observed in the level of membrane death Fas-receptors as compared to intact cells. Enhancement was revealed in the functional activity of lymphocyte caspase-3 4 h after the generation of singlet oxygen, hydroxyl radical, and the addition of hydrogen peroxide, as well as 8 and 24 h and 6 and 8 h of UV irradiation of cells at doses of 151 and 1510 J/m², respectively. Using the DNA comet approach, it was revealed that DNA damage (single-stranded breaks) appears approximately 15–20 min after UV irradiation of lymphocytes at doses of 1510 and 3020 J/m² and the addition of hydrogen peroxide at a concentration of 10⁻⁶ mol/L (comets of the C1 type) and reaches its maximum 6 h after cell modification (comets of the C2 and C3 types). Six hours after exposure of lymphocytes to hydrogen peroxide and UV light at doses of 1510 and 3020 J/m², it was established that the p53 level increased in the investigated cells. It was established that under UV light exposure and exogenous generation of reactive oxygen species, the increase in the calcium level in lymphocyte cytoplasm is determined by Ca²⁺ efflux from the intracellular depots as a result of activation of the components of the phosphoinositide information transmission mechanism to a cell. A hypothesis was proposed on the correlation between changes in the calcium level and initiation of programmed cell death in human lymphocytes after UV light and ROS exposure. It was concluded that the lead role is played by receptor-mediated (Fas-dependent) caspase and p53-dependent pathways in the development of lymphocyte apoptosis induced by exposure to UV light at doses of 151 and 1510 J/m² and reactive oxygen metabolites. A scheme is presented which considers possible intracellular events leading to apoptotic death of lymphocytes after UV irradiation.     

UV light killing efficacy of fluorescent protein‐expressing cancer cells in vitro and in vivo

We investigated the cell‐killing efficacy of UV light on cancer cells expressing GFP in the nucleus and RFP in the cytoplasm (dual‐color cells). After exposure to various doses of UVA, UVB, or UVC, apoptotic and viable cells were quantitated under fluorescence microscopy using dual‐color 143B human osteosarcoma cells, HT‐1080 human fibrosarcoma cells, Lewis lung carcinoma (LLC), and XPA‐1 human pancreatic cancer cells in vitro. UV‐induced cancer cell death was wave‐length and dose dependent, as well as cell‐line dependent. After UVA exposure, most cells were viable even when the UV dose was increased up to 200 J/m². With UVB irradiation, cell death was observed with irradiation at 50 J/m². For UVC, as little as 25 J/m² UVC irradiation killed approximately 70% of the 143B dual‐color cells. This dose of UVB or UVA had almost no effect on the cancer cells. UV‐induced cancer cell death varied among the cell lines. Cell death began about 4 h after irradiation and continued until 10 h after irradiation. UVC exposure also suppressed cancer cell growth in nude mice in a model of minimal residual cancer (MRC). No apparent side effects of UVC exposure were observed. This study opens up the possibility of UVC treatment for MRC after surgical resection. J. Cell. Biochem. 110: 1439–1446, 2010. © 2010 Wiley‐Liss, Inc.     

Calicivirus Inactivation by Nonionizing (253.7-Nanometer-Wavelength [UV]) and Ionizing (Gamma) Radiation

Noroviruses (previously Norwalk-like viruses) are the most common viral agents associated with food- and waterborne outbreaks of gastroenteritis. In the absence of culture methods for noroviruses, animal caliciviruses were used as model viruses to study inactivation by nonionizing (253.7-nm-wavelength [UV]) and ionizing (gamma) radiation. Here, we studied the respiratory feline calicivirus (FeCV) and the presumed enteric canine calicivirus (CaCV) and compared them with the well-studied bacteriophage MS2. When UV irradiation was used, a 3-log₁₀ reduction was observed at a fluence of 120 J/m² in the FeCV suspension and at a fluence of 200 J/m² for CaCV; for the more resistant phage MS2 there was a 3-log₁₀ reduction at a fluence of 650 J/m². Few or no differences were observed between levels of UV inactivation in high- and low-protein-content virus stocks. In contrast, ionizing radiation could readily inactivate MS2 in water, and there was a 3-log₁₀ reduction at a dose of 100 Gy, although this did not occur when the phage was diluted in high-protein-content stocks of CaCV or FeCV. The low-protein-content stocks showed 3-log₁₀ reductions at a dose of 500 Gy for FeCV and at a dose of 300 for CaCV. The inactivation rates for both caliciviruses with ionizing and nonionizing radiation were comparable but different from the inactivation rates for MS2. Although most FeCV and CaCV characteristics, such as overall particle and genome size and structure, are similar, the capsid sequences differ significantly, making it difficult to predict human norovirus inactivation. Adequate management of UV and gamma radiation processes for virus inactivation should limit public health risks.     

Inactivation of Single-Celled Ascaris suum Eggs by Low-Pressure UV Radiation

Intact and decorticated single-celled Ascaris suum eggs were exposed to UV radiation from low-pressure, germicidal lamps at fluences (doses) ranging from 0 to 8,000 J/m² for intact eggs and from 0 to 500 J/m² for decorticated eggs. With a UV fluence of 500 J/m², 0.44- ± 0.20-log inactivation (mean ± 95% confidence interval) (63.7%) of intact eggs was observed, while a fluence of 4,000 J/m² resulted in 2.23- ± 0.49-log inactivation (99.4%). (The maximum quantifiable inactivation was 2.5 log units.) Thus, according to the methods used here, Ascaris eggs are the most UV-resistant water-related pathogen identified to date. For the range of fluences recommended for disinfecting drinking water and wastewater (200 to 2,000 J/m²), from 0- to 1.5-log inactivation can be expected, although at typical fluences (less than 1,000 J/m²), the inactivation may be less than 1 log. When the eggs were decorticated (the outer egg shell layers were removed with sodium hypochlorite, leaving only the lipoprotein ascaroside layer) before exposure to UV, 1.80- ± 0.32-log reduction (98.4%) was achieved with a fluence of 500 J/m², suggesting that the outer eggshell layers protected A. suum eggs from inactivation by UV radiation. This protection may have been due to UV absorption by proteins in the outer layers of the 3- to 4-μm-thick eggshell. Stirring alone (without UV exposure) also inactivated some of the Ascaris eggs (~20% after 75 min), which complicated determination of the inactivation caused by UV radiation alone.     

Sustained release of Smac/DIABLO from mitochondria commits to undergo UVB-induced apoptosis

Apoptotic response of keratinocytes to UVB irradiation has physiological significance on photocarcinogenesis. Here, we show that the sustained release of Smac/DIABLO from mitochondria is an important event for the onset of apoptosis in keratinocytes exposed to UVB irradiation. In human keratinocyte HaCaT cells, UVB irradiation at 500 J/m², but not at 150 J/m², induces apoptosis. Significant activations of caspases-9 and -3, and slight activation of caspase-7 were observed only in 500 J/m² UVB irradiated HaCaT cells. Correspondingly, the cleavage of PARP, a substrate of caspases-3 and -7, was detected in cells irradiated at 500 J/m² UVB, but not at 150 J/m². However, with both 150 and 500 J/m² UVB irradiation, cytochrome c, an activator of caspase-9 via the formation of apoptosome, was released from mitochondria to the cytosol at the same extent. In contrast, significant amounts of Smac/DIABLO are released from mitochondria to the cytosol only with 500 J/m² UVB irradiation, and that the level of XIAP is decreased. These results suggest that the extent of Smac/DIABLO efflux from mitochondria is a determinant whether a cell will undergo apoptosis or survival.     

In vivo nicking and rejoining of nuclear DNA in ultraviolet-irradiated radiation-resistant and sensitive strains of Dictyostelium discoideum

Summary Some aspects of DNA repair in several radiation-resistant and radiation-sensitive strains of Dictyostelium discoideum were investigated by using alkaline sucrose gradients to analyze for the production and resealing of single-strand breaks following irradiation with 254 nm UV. All radiation-resistant strains and all mutants assayed that are sensitive to both UV and ⁶⁰Co gamma rays produced singlestrand breaks in their nuclear DNA after a UV fluence of 15 J/m². Mutants at the radC locus which are sensitive to UV but as resistant as their parental strains to ⁶⁰Co gamma rays produced many fewer single-strand breaks in their DNA after irradiation with UV. Thus, the radC mutations alter a repair pathway specific for UV-induced DNA damage and presumably affect the activity of a UV-damage-specific endonuclease involved in excision repair. All radiation-resistant strains and all of our mutants sensitive to gamma rays rejoined much of their DNA during a three-hour post-UV-irradiation incubation, suggesting that these strains have at least a partially intact excision repair system.Abbreviations used UV ultraviolet light - PBS phosphate buffered saline - cpm counts per minute     

Improved reproducibility of citric acid production in Aspergillus niger

Summary We report the derivation of Aspergillus niger strains having a lower standard deviation in citric acid production by the use of ⁶⁰Co gamma radiation and by the parasexual cycle. On the basis of the results obtained by isolating diploids and segregants, diploidization seems to be sufficient for reducing variability. The implications of these results in terms of improvement of industrial strains are discussed.