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Quantifizierung von DNA-Schäden an adhaerenten Zelllinien nach Bestrahlung mit 188 Re- bzw. Röntgenstrahlung unter Zugabe von Methimazol, Nicotinamid und Perchlorat durch den Comet AssayKahmann, Cindy 20 August 2008 (has links) (PDF)
Dissertationsschrift zur Erlangung eines doctor medicinae (Dr.med.) der Medizinischen Fakultät Carl Gustav Carus der Technischen Universität Dresden
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Avancerad webbteknologi i mobila webbläsare / Advanced Web Techonology in Mobile BrowsersBjörk, Linus January 2011 (has links)
Utvecklingen på webben går snabbt framåt och webbapplikationerna blir bara mer avancerade. Samtidigt så har de mobila webbläsarna utvecklats i en snabb takt. Dock skiljer det fortfarande mycket mellan en mobil webbläsare och en vanlig webbläsare, samt att man integrerar med en mobiltelefon på ett annat sätt än vad man gör med en dator. Detta examensarbete undersöker om det är möjligt att skapa avancerade webbapplikationer som, genom att utnyttja de senaste webbteknologierna, kan ersätta vanliga mobilapplikationer. Undersökningen genomförs genom att skapa en lättviktsvariant av en telefonapplikation, Mobile Documents till Symbian S60, som är en applikation som hanterar dokument, mejl och bilagor. Utvecklingen sker till största del i Google Web Toolkit och tekniker så som AJAX och Comet används. Eftersom antalet olika sorters telefoner med tryckskärm är väldigt stort så kommer undersökningen att rikta sig mot ett fåtal telefoner som kör webbläsarna Mobile Safari, microB och Android Browser. Slutsatserna av rapporten är att JavaScript-stödet hos dagens webbläsare är stort nog till att köra avancerade webbapplikationer. Dock skiljer det mycket webbläsarna emellan och det största problemet är att skapa sig ett välfungerande användargränssnitt som fungerar lika bra på alla telefoner och med alla de olika interaktionsmöjligheter som finns i en mobiltelefon. / The web develops fast and web applications are getting more advanced. At the same time the mobile browsers develop at a rapid pace. However, it still differs a lot between a mobile browser and a standard web browser. You also interact with a mobile phone in a different way than what you do with a computer. This thesis examines whether it is possible to create advanced web applications that by utilizing the latest web technologies can replace ordinary mobile applications. The investigation is done by creating a lightweight version of a phone application, Mobile Documents on Symbian S60, which is an application that manages documents, emails and attachments. The development is done in Google Web Toolkit and technologies such as AJAX and Comet are both used. As the number of different types of phones with touch screens is very large the investigation only will target a small number of phones running web browsers as Mobile Safari, microB and Android Browser. The conclusions of this report is that the JavaScript support of today's browsers is enough to run advanced web applications. However, it differs a lot between browsers and the main problem is to create a functional user interface that works equally well on all phones and with all the different interaction possibilities that a mobile phone gives.
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The effect of fumigants on earthworms (Eisenia andrei) and soil microbial communities / Tanya Christina FouchéFouché, Tanya Christina January 2015 (has links)
Biofumigation is an important crop protection practice that uses a plant’s natural defence mechanisms to control agricultural crop pathogens and diseases. Glucosinolates are volatile compounds found in most Brassica species and when hydrolysed, it forms a range of natural toxins including isothiocyanates that act as biofumigants. Research suggests that biofumigation is a good alternative to chemical fumigants as it is effective in controlling plant pests but with lower health and environmental risks. Several studies have confirmed the effectiveness of the breakdown products, especially isothiocyanates, as fungicidal, bactericidal and nematicidal products against a series of plant pests. However, very little information is available on the effects of glucosinolates and its breakdown products on non-target and beneficial soil organisms. Negative effects on beneficial soil organisms can have serious negative impacts on soil quality especially when essential ecosystem functions such as nutrient cycling and soil bioturbation are affected.
Three biofumigants, broccoli, mustard and oilseed radish, and two chemical fumigants, metham sodium and cadusafos, were investigated for possible effects on non-target and essential soil organisms such as earthworms and the soil microbial community. Sublethal endpoints, including growth and reproductive success of the earthworms, were monitored. The genotoxicity of the biologically active compounds found in the fumigants, towards earthworms, was evaluated by means of the comet assay. The DNA damage was quantified by tail intensity parameters. Furthermore, the changes in the soil microbial community function and structure were evaluated by means of community level physiological profiling (CLPP) and phospholipid fatty acid (PLFA) analyses respectively. All exposures were done in artificial soil prepared according to the OECD standard guidelines.
In the biofumigant treated soils, results varied and different effects were observed on the non-target soil organisms. Broccoli reduced cocoon production and the number of hatchlings while mustard induced more DNA strand breaks in earthworm cells compared to the control. All the biofumigants stimulated microbial growth but broccoli and oilseed radish changed the microbial functional diversity. Mustard had no lasting effect on the functional diversity but altered the microbial community structure.
The chemical fumigants had a marked negative impact on the survival, growth, reproduction and the genotoxicity of the earthworms with metham sodium causing greater harm than cadusafos. The effects on the microbial community varied. Both chemicals had an inhibitory effect on the microbial growth in terms of the viable biomass determined by PLFA and the average well colour development in the Biolog™ Ecoplates. No lasting effects were
observed in the community structure. Overall, cadusafos had a more pronounced effect on the microbial community functional diversity than metham sodium.
Results indicated that each bioindicator species illustrates effects at their own level of organisation / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2015
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The effect of fumigants on earthworms (Eisenia andrei) and soil microbial communities / Tanya Christina FouchéFouché, Tanya Christina January 2015 (has links)
Biofumigation is an important crop protection practice that uses a plant’s natural defence mechanisms to control agricultural crop pathogens and diseases. Glucosinolates are volatile compounds found in most Brassica species and when hydrolysed, it forms a range of natural toxins including isothiocyanates that act as biofumigants. Research suggests that biofumigation is a good alternative to chemical fumigants as it is effective in controlling plant pests but with lower health and environmental risks. Several studies have confirmed the effectiveness of the breakdown products, especially isothiocyanates, as fungicidal, bactericidal and nematicidal products against a series of plant pests. However, very little information is available on the effects of glucosinolates and its breakdown products on non-target and beneficial soil organisms. Negative effects on beneficial soil organisms can have serious negative impacts on soil quality especially when essential ecosystem functions such as nutrient cycling and soil bioturbation are affected.
Three biofumigants, broccoli, mustard and oilseed radish, and two chemical fumigants, metham sodium and cadusafos, were investigated for possible effects on non-target and essential soil organisms such as earthworms and the soil microbial community. Sublethal endpoints, including growth and reproductive success of the earthworms, were monitored. The genotoxicity of the biologically active compounds found in the fumigants, towards earthworms, was evaluated by means of the comet assay. The DNA damage was quantified by tail intensity parameters. Furthermore, the changes in the soil microbial community function and structure were evaluated by means of community level physiological profiling (CLPP) and phospholipid fatty acid (PLFA) analyses respectively. All exposures were done in artificial soil prepared according to the OECD standard guidelines.
In the biofumigant treated soils, results varied and different effects were observed on the non-target soil organisms. Broccoli reduced cocoon production and the number of hatchlings while mustard induced more DNA strand breaks in earthworm cells compared to the control. All the biofumigants stimulated microbial growth but broccoli and oilseed radish changed the microbial functional diversity. Mustard had no lasting effect on the functional diversity but altered the microbial community structure.
The chemical fumigants had a marked negative impact on the survival, growth, reproduction and the genotoxicity of the earthworms with metham sodium causing greater harm than cadusafos. The effects on the microbial community varied. Both chemicals had an inhibitory effect on the microbial growth in terms of the viable biomass determined by PLFA and the average well colour development in the Biolog™ Ecoplates. No lasting effects were
observed in the community structure. Overall, cadusafos had a more pronounced effect on the microbial community functional diversity than metham sodium.
Results indicated that each bioindicator species illustrates effects at their own level of organisation / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2015
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Rosetta spacecraft potential and activity evolution of comet 67POdelstad, Elias January 2016 (has links)
The plasma environment of an active comet provides a unique setting for plasma physics research. The complex interaction of newly created cometary ions with the flowing plasma of the solar wind gives rise to a plethora of plasma physics phenomena, that can be studied over a large range of activity levels as the distance to the sun, and hence the influx of solar energy, varies. In this thesis, we have used measurements of the spacecraft potential by the Rosetta Langmuir probe instrument (LAP) to study the evolution of activity of comet 67P/Churyumov-Gerasimenko as it approached the sun from 3.6 AU in August 2014 to 2.1 AU in March 2015. The measurements are validated by cross-calibration to a fully independent measurement by an electrostatic analyzer, the Ion Composition Analyzer (ICA), also on board Rosetta. The spacecraft was found to be predominantly negatively charged during the time covered by our investigation, driven so by a rather high electron temperature of ~5 eV resulting from the low collision rate between electrons and the tenuous neutral gas. The spacecraft potential exhibited a clear covariation with the neutral density as measured by the ROSINA Comet Pressure Sensor (COPS) on board Rosetta. As the spacecraft potential depends on plasma density and electron temperature, this shows that the neutral gas and the plasma are closely coupled. The neutral density and negative spacecraft potential were higher in the northern hemisphere, which experienced summer conditions during the investigated period due to the nucleus spin axis being tilted toward the sun. In this hemisphere, we found a clear variation of spacecraft potential with comet longitude, exactly as seen for the neutral gas, with coincident peaks in neutral density and spacecraft potential magnitude roughly every 6 h, when sunlit parts of the neck region of the bi- lobed nucleus were in view of the spacecraft. The plasma density was estimated to have increased during the investigated time period by a factor of 8-12 in the northern hemisphere and possibly as much as a factor of 20-44 in the southern hemisphere, due to the combined effects of seasonal changes and decreasing heliocentric distance. The spacecraft potential measurements obtained by LAP generally exhibited good correlation with the estimates from ICA, confirming the accuracy of both of these instruments for measurements of the spacecraft potential.
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In vitro chemically-induced DNA damage in cancer patients and healthy individuals : the effect of genotoxic compounds in cells from polyposis coli, colon cancer patients and healthy individualsKurzawa-Zegota, Malgorzata January 2011 (has links)
In the present study DNA damage was measured in peripheral blood lymphocytes from polyposis coli and colorectal cancer patients, treated with different dietary and environmental compounds and compared with lymphocytes from healthy individuals. In addition, confounding factors such as age, gender, alcohol intake and smoking habits were taken into consideration. The assays used in this study included the Comet assay, the Micronucleus assay, the Micronucleus-FISH assay and the sister chromatid exchange assay. The food mutagens, PhIP and IQ, as well as titanium dioxide nanoparticles (TiO2 NPs) induced a dose dependent increase in the DNA damage and chromosomal abnormalities in all tested groups regardless of confounding factors. Prior to experiments physicochemical characterisation of nanoparticles was conducted. In the presence of the flavonoids, quercetin and rutin that were acting in an antioxidant manner, the DNA damage resulting from the highest doses of food mutagens was significantly reduced. Thus, dietary supplementation with flavonoid-rich vegetables and fruits may prove very effective in protection against oxidative stress. The polyposis coli and colon cancer patients were more susceptible to food mutagens, PhIP and IQ, as well as TiO2 NPs, and in the majority of cases had a higher level of DNA damage in the Comet assay and higher cytogenetic damage in the Micronucleus assay. In the final project, twelve frequently encountered (NewGeneris) chemical compounds were evaluated to establish their damaging potential in lymphocytes and spermatozoa from healthy donors. The highest damage was produced by DNA reactive aldehydes, food mutagens and benzo[a]pyrene when assessed with the neutral and alkaline Comet assay with and without metabolic activation.
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DNA damage and repair detected by the comet assay in lymphocytes of African petrol attendants : a pilot study / G.S. KeretetseKeretetse, Goitsemang Salvation January 2007 (has links)
Petrol attendants are exposed to petrol volatile organic compounds (VOCs) which may have genotoxic and carcinogenic effects. The single cell gel electrophoresis assay (comet assay) is a method highly sensitive to DNA damage induced by environmental and occupational exposure to carcinogenic and mutagenic agents. The aim of this study was to evaluate the level of exposure of petrol attendants to petrol VOCs and also to determine their effect on DNA damage and repair in lymphocytes of African petrol attendants. The exposed group consisted of 20 subjects, randomly selected from three petrol stations. A control group of 20 unexposed subjects was also chosen and matched for age and smoking habits with the exposed group. Sorbent tubes were used to assess personal exposure of petrol attendants. The comet assay was used to investigate the basal DNA damage and repair capacity in isolated lymphocytes of petrol attendants and control subjects. Blood samples were taken from the petrol attendants at the end of their 8 hour working shift and also from the control subjects. The petrol attendants were found to be exposed to levels of petrol VOCs lower than the occupational exposure limit (OEL) for constituent chemicals. A significant relationship was found between the volume of petrol sold during the shift and the average concentrations of benzene, toluene and the total VOCs measured. However, relative humidity had a negative correlation with the average concentrations of benzene, toluene, xylene and the total VOCs. Significantly higher basal DNA damage was observed with the exposed group compared to the control group. The period of exposure influenced the level of DNA damage and the calculated repair capacity. Smoking and age had a significant influence on the level of DNA damage. DNA repair capacity was delayed in smokers of both exposed and non-exposed group. / Thesis (M.Sc. (Occupational Hygiene))--North-West University, Potchefstroom Campus, 2008.
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Exercise and DNA damage and repair in middle aged men / Matthew Andrew AikmanAikman, Matthew Andrew January 2007 (has links)
Regular physical activity (PA) leads to an increased quality of life by means of certain
physiological adaptations. Regular PA is beneficial to the human body and its functionality,
including the physiological, biochemical and even psychological modalities. During PA an
increased burden is placed on all physiological mechanisms due to the increased energy demand,
resulting in an adaptation of the physiological systems. Currently the biochemical mechanisms
by which these adaptations occur are not well understood or defined.
During the flow of electrons through the electron transport chain in the mitochondria free
radicals and reactive oxygen species (ROS) are produced. PA results in increased ROS
production. The relationship of different exercise intensities and ROS production with resulting
DNA damage is unclear. These free radicals and ROS disturb the pro-oxidant anti-oxidant
balance resulting in oxidative stress. When this balance is disturbed oxidative stress could lead to
potential oxidative damage, Oxidative damage occurs in lipid, protein and nucleic acid
macromolecules. ROS can attack DNA bases or deoxyribose residues to produce damaged bases
and/or single and double strand breaks. When the DNA is regarded and the damages are
replicated it could cause mutations or apoptosis, affecting the cell function and physiology.
The purpose of this study was to investigate the influence of different aerobic intensities on
oxidative DNA damage and repair in middle aged men by means of the Comet assay. Five PA
males and five physically inactive males were assigned to an experimental and control group
respectively. The subjects did not differ significantly at baseline. The VO2-max of each subject
was determined at baseline. Subjects were then randomly assigned to 60, 70, 80 and 90% of
individual baseline VO2-max intensities for an acute exercise intervention of 30 minutes on a
bicycle ergometer. Blood sampling was done at baseline, post-exercise and 24 hours post-exercise
for oxygen radical absorbance capacity (ORAC) and hydroperoxide analysis (dROM).
Peripheral blood was obtained for DNA damage testing by means of Comet analysis at baseline,
post-exercise, 5, 15, 30 minutes, and also 6, 12, 24, 48 and 72 hours after exercise. The results
obtained indicated that subjects who regularly participate in PA had an increased baseline
reading of ORAC and dROM values. ORAC levels after each acute exercise session increased,
with the highest increase in the control group, with a decrease in the direction of baseline
readings 24 hours post exercise. A biphasic damage-repair cycle over the 72 hour period was
observed with the Comet analysis. The most damaged cells occur directly after acute exercise.
The highest incidence of DNA damage over a 72 hour period was observed at 70% VO2-max,
with the least amount of damage after 90% VO2-max.
In conclusion the study indicates stress proteins or other kinds of physiological reaction to
minimize the damaging effect of oxidative stress, is in place to restore the cell's homeostasis.
Thus PA results in the development of oxidative DNA damage. To minimize DNA damage the
optimal intensity for acute physical exercise is between 70-80% VO2-max. At higher intensities
the release of stress proteins are initiated to buffer the damaging effect of oxidative stress and to
restore homeostasis. / Thesis (M.Sc. (Human Movement Science))--North-West University, Potchefstroom Campus, 2007.
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Mass Loading of Space PlasmasLidström, Viktor January 2017 (has links)
The solar wind interaction with an icy comet is studied through a model problem. A hybrid simulation is done of a box with evenly distributed water ions and protons, where initially the water ions are stationary, and protons move with the speed of the solar wind. The purpose of the thesis is to investigate the interaction between the two species through the convective electric field, and focus is on early acceleration of pick-up ions, and deflection of the solar wind. It is relevant to the cometary case, because it enables study of the physics of this interaction, without involving other mechanisms, such as bow shock, magnetic field pile-up and draping. The species are found to exchange kinetic energy similar to a damped oscillator, where the dampening is caused by kinetic energy being transferred to the magnetic field. At early times, i.e. times smaller than the gyration time for the water ions, the solar wind does not lose much speed when it is deflected. For comparable number densities, the solar wind can be deflected more than 90° at early times, and loses more speed, and water ions are picked up faster. The total kinetic energy of the system decreases when energy builds up in the magnetic field. The nature of the energy exchange is strongly dependent on the number density ratio between water ions and protons. A density instability with behaviour similar to a plasma beam instability forms as energy in the magnetic field increases, and limits the amount of time the simulation preserves total energy, for the particular hybrid solver used. There is a discussion on the structure of the density instability, and it is compared to cometary simulations.
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Kinetic simulation of spherically symmetric collisionless plasma in the inner part of a cometary comaDogurevich, Pavel January 2019 (has links)
No description available.
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