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Organisationseinheit der BAM
- 6.6 Physik und chemische Analytik der Polymere (504) (entfernen)
Paper des Monats
- ja (5)
Quantifizierung der Schädigung von DNA in wässriger Lösung unter direkter Elektronenbestrahlung
(2018)
To cure cancer radiation therapy is used to kill tumor cells.
It is based on radiation induced damage to biomolecules.
Especially DNA damage is of key interest due to its central role in apoptosis and mutation.
Because of the high amount of water in biological tissue, most of the damage is caused by the secondary particles produced by the inelastic scattering of ionizing radiation and water.
A detailed understanding of the underlying molecular processes under physiological conditions is the prerequisite to develop more efficient therapies.
Goal of this work is to quantify the DNA damage caused by ionizing radiation in dependence of the inelastic scattering events and the energy deposit within the microscopic target volume of biological relevance.
The irradiations have to be performed in liquid, under consideration of the chemical environment.
Therefore, a new combination of experiment and Monte-Carlo simulations was developed and tested.
To make it possible to irradiate liquids with electrons within scanning electron microscopes a new sample holder was constructed incorporating an electron transparent nanomembrane.
It makes it possible to irradiate DNA, proteins or cells at different pH, salinity and in the presence of cosolutes.
%The most important results of this work are as follows:
The median lethal dose for a model system of plasmid DNA and water was determined by the combination of experimental data, particle scattering simulations (Geant4-DNA) and diffusion calculations as D0.5=(1.7+-0.3) Gy.
From the convolution of plasmid positions and the spatially resolved energy deposit, as determined by electron scattering simulations, the histogram of the energy deposit within the target volume of the plasmids and the microscopic median lethal energy deposit was calculated as E0.5=6+-4eV.
It could be deduced that on average less than two ionization events are sufficient to cause a single-strand-break.
The relation of single-strand-breaks (SSB) to double-strand-breaks (DSB), which is of importance for microdosimetric modeling, was determined as SSB:DSB = 12:1.
The presented method for the determination of microscopic dose-damage relations was further extended to be applicable for general irradiation experiments.
It becomes independent of the type of primary radiation used, the experimental geometry, and the diffusional properties of the molecules under investigation.
This way different experimental systems with varying, inhomogeneous energy deposit characteristics become comparable with each other, which is not possible when only macroscopic averaged values are taken into account.
In addition, the radiation protection properties of the compatible solute ectoine, as well as its influence on the water properties and biomolecules were investigated.
%In addition, the influence of the compatible solute ectoine on water, biomolecules and its radiation protection properties were investigated.
Raman spectroscopy revealed a concentration dependent increase of the collective water modes in the OH-stretching region, which was found to be independent of the sodium chloride concentration.
Molecular dynamic simulations showed that the zwitterionic properties of ectoine lead to its half-chair conformation.
The hydrogen bonds in the first hydration shell are more stable and have an increased lifetime compared to the bulk water.
Irradiation experiments with DNA in the presence of 1M ectoine revealed an increase of the survival rate by a factor of 1.41 as compared to the absence of ectoine.
The protective properties of ectoine result from the increase of the inelastic scattering probabilities of low energy electrons at the acoustic vibrational modes of water and its properties as OH-radical scavenger.
This was shown by Raman spectroscopy and electron paramagnetic resonance measurements (EPR).
Dynamics and ionic conductivity of ionic liquid crystals forming a hexagonal columnar mesophase
(2018)
For the first time, the molecular mobility of two linear-shaped tetramethylated guanidinium triflate ionic liquid crystals (ILCs) having different length of alkyl chains were investigated by a combination of broadband dielectric spectroscopy (BDS) and specific heat spectroscopy (SHS). By self-assembly, these ILCs can form a hexagonal ordered mesophase besides plastic crystalline phases and the isotropic state. Three dielectric active processes were found by BDS for both samples. At low temperatures, a γ-process in the plastic crystalline state is observed which is assigned to localized fluctuations of methyl groups including nitrogen atoms in the guanidinium head. At higher temperatures but still in the plastic crystalline state, an α1-process takes place. An α2 process was detected by SHS but with a completely different temperature dependence of the relaxation times than that of the α1-relaxation. This result is discussed in detail, and different molecular assignments of the processes are suggested. At even higher temperatures, electrical conductivity is detected and an increase in the DC conductivity by four orders of magnitude at the phase transition from the plastic crystalline to the hexagonal columnar mesophase is found. This result is traced to a change in the charge transport mechanism from a delocalized electron hopping in the stacked aromatic systems (in the plastic phase) to one dominated by an ionic conduction in the quasi-1D ion channels formed along the supermolecular columns in the ILCs hexagonal mesophases.
Polymers with intrinsic microporosity are promising candidates for the active separation layer in gas separation membranes. Here, the vibrational density of states (VDOS) for PIM-1, the prototypical polymer with intrinsic microporosity, is investigated by means of inelastic neutron scattering. The results are compared to data measured for a more conventional high-performance polyimide used in gas separation membranes (Matrimid). The measured data show the characteristic low frequency excess contribution to VDOS above the Debye sound wave level, generally known as the Boson peak in glass-forming materials. In comparison to the Boson peak of Matrimid, that of PIM-1 is shifted to lower frequencies. This shift is discussed considering the microporous, sponge-like structure of PIM-1 as providing a higher compressibility at the molecular scale than for conventional polymers. For an annealed PIM-1 sample, the Boson peak shifts to higher frequencies in comparison to the un-annealed sample. These changes in the VDOS of the annealed PIM-1 sample are related to changes in the microporous structure as confirmed by X-ray scattering.
Der Vortrag gibt den aktuellen Stand der Normung im Bereich der Oberflächen-technik insbesondere der Oberflächenanalytik und der Oberflächenmess- und -prüftechnik wider.
Vorgestellt wird der Status technischer Berichte, Normenentwürfe und Normen u.a. zur Charakterisierung von funktionellen Glasoberflächen für bioanalytische Anwendungen, zur Messung der Schichtdicke von Nanomaterialien mittels Ellipsometrie, zur Kalibrierung von Interferometern und Interferenzmikroskopen für die Formmessung, zur Rockwelleindringprüfung zur Bewertung der Schicht-haftung, zu den Grundlagen der Ellipsometrie, zur Messung der Schichtdicke mittels Wirbelstromverfahren, zur Schichtpotentialmessung von Mehrfach-Nickelschichten, zu Filtern und Augenschutzgeräten gegen Laserstrahlung sowie zur Bestimmung der Schichthaftung mittels Zugversuch.
Quantifizierung der Schädigung von DNA in wässriger Lösung unter direkter Elektronenbestrahlung
(2018)
Bei der Behandlung von Krebs wird Strahlentherapie zur Zerstörung von Tumorzellen eingesetzt. Der zugrunde liegende Wirkmechanismus ist die durch ionisierende Strahlung verursachte Schädigung an Biomolekülen. Dabei kommt den Schädigungsprozessen an DNA aufgrund ihrer zentralen Rolle in Mutation und Zelltod eine besondere Bedeutung zu. Durch den hohen Wasseranteil in menschlichen Zellen findet ein Großteil der inelastischen Streuprozesse an Wassermolekülen statt und führt zur deren Radiolyse. Die so entstehenden Radiolyseprodukte sind für einen Großteil des Schadens an DNA verantwortlich. Ein detailliertes Verständnis der zugrunde liegenden molekularen Interaktion ist die Voraussetzung um effizientere Therapien zu entwickeln.
Ziel dieser Arbeit ist es, die Schädigung von DNA durch ionisierende Strahlung in Abhängigkeit der inelastischen Streuevents und des Energieeintrags innerhalb des biologisch relevanten mikroskopischen Treffervolumens zu quantifizieren. Die Bestrahlungen müssen dazu in Flüssigkeit, unter Berücksichtigung der chemischen Umgebung durchgeführt werden, welche die indirekten Schäden vermittelt. Deshalb wurde eine neuartige Kombination aus Experiment und Monte- Carlo-Simulationen entworfen und angewandt. Um Elektronenbestrahlung flüssiger Lösungen innerhalb eines Rasterelektronenmikroskops zu ermöglichen, wurde ein Probenhalter mit einer für Elektronen durchlässigen Nanomembran entwickelt. So können Bestrahlungen an DNA,
Proteinen, und Zellen bei verschiedenen pH-Werten, Salzkonzentrationen oder in Anwesenheit von Kosoluten durchgeführt werden. Für ein Modellsystem aus Plasmid-DNA in Wasser wurde damit die mittlere letale Dosis aus der Kombination der experimentellen Daten, Partikelstreusimulationen (Geant4-DNA) und Diffusionsberechnungen zu D1/2 = 1.7 ± 0.3 Gy bestimmt. Aus der Konvolution der Plasmidpositionen mit dem durch Elektronenstreusimulationen bestimmten ortsaufgelösten Energieeintrag wurde dessen Häufigkeitsverteilung im Targetvolumen der
Plasmide sowie der mittlere mikroskopische letale Energieeintrag berechnet als E1/2 = 6 ± 4 eV .
Es wurde gefolgert, dass weniger als zwei Ionisationsprozesse im sensitiven Targetvolumen der DNA im Mittel zu einem Einzelstrangbruch führen. Das für mikrodosimetrische Modellierungen wichtige Verhältnis von Einzelstrangbrüchen (SSB) zu Doppelstrangbrüchen (DSB) wurde als SSB : DSB = 12 : 1 bestimmt. Die vorgestellte Methode zur Bestimmung mikroskopischer Schaden-Dosis Relationen wurde auf weitere Klassen von Bestrahlungsexperimenten verallgemeinert. Dadurch ist die Methode unabhängig von der verwandten Primärstrahlung, der Probengeometrie und den Diffusionseigenschaften der untersuchten Moleküle anwendbar. So wird eine Vergleichbarkeit experimenteller Systeme mit inhomogenen Energieverteilungen erreicht, die bei ausschließlicher Betrachtung makroskopischer, gemittelter Größen nicht gegeben ist.
Des weiteren wurden die Strahlenschutzfunktionen des kompatiblen Soluts Ectoine und sein Einfluss auf Wasser und Biomoleküle untersucht. Mittels Ramanspektroskopie wurde ein kon-zentrationsabhängiger Anstieg des Anteils der Kollektivmoden des Wassers der OH-Streckschwingungen und dessen Unabhängigkeit von der Natriumchloridkonzentration beobachtet.
Molekulardynamik-Simulationen zeigten, dass die zwitterionischen Eigenschaften zur Bildung einer half-chair Konformation Ectoines führen. Die Wasserstoffbrückenbindungen in der ersten Hydrationshülle sind signifikant stabiler und besitzen höhere Lebensdauern als das Bulk-Wasser. Bestrahlung von DNA in Anwesenheit von 1 M Ectoine führt zu einer Erhöhung der Überlebensrate um den Faktor 1,41. Die Schutzfunktion wurde auf die Erhöhung des Streuquerschnitts niederenergetischer Elektronen an den akustischen Vibrationsmoden des Wasser durch Ectoine und seine Wirkung als OH-Radikalfänger zurückgeführt. Dies wurde mittels Ramanspektroskopie und Elektronenspinresonanzmessungen (ESR) nachgewiesen.
Hybrid materials have attracted growing interest during the last decade, particularly due to their extraordinary properties. Cycloalyphatic-epoxy oligosiloxane (CEO) resin was shown to be a good candidate as a barrier material for the encapsulation purposes. Incorporation of inorganic nanoparticles such as Boehmite (BA) into polymers was observed to modify their specific characteristics, in particular, thermal, thermo-oxidative and barrier ones. In this work, novel BA-embedded organic inorganic hybrid nanocomposite material was engineered by combining the advantageous properties of hybrid polymers and nanoparticle enhancement effect. Impacts of particles on the photocuring kinetics, degree of crosslinking and the resultant changes in the thermal properties of the cured films were investigated. CEO synthesis via condensation reaction was confirmed by 1H and 29Si NMR. The particle distribution within the films was verified by SEM including transmission mode coupled with EDX elemental analysis. Photocuring kinetics and thermal properties of the films were studied by in situ FTIR spectroscopy and DSC with TGA, respectively.
The quantification of radiation induced damage to DNA in aqueous en-
vironment is of fundamental interest for dosimetry and its application
in radiation-therapy and protection. We present a combined experi-
mental and simulational approach to quantify and compare radiation
induced damage to biomolecules in liquid environment for a wide range
of primary radiation sources e. g. photons, electrons or ions and tar-
gets, such as DNA, proteins or cells.[1] To show its viability, we will
apply this method to an experimentally challenging systems, the di-
rect irradiation of plasmid DNA (pUC19) in water with electrons as
primary particles. Here we combine Geant4 electron-scattering simula-
tions with calculations concerning the diffusion and convection induced
movement of the biomolecules, within a coarse-grained model of the
irradiated liquid. Additionally a microscopic target model for the plas-
mid DNA based on the relation of lineal energy and radiation quality
is used to calculate the effective target volume.
Universität Berlin Radiation damage to biomolecules such as DNA, is the reason to treat cancer via radiation therapy. The understanding of the molecular processes and the quantification of the underlying damaging mechanisms is necessary to develope more efficient irradiation protocols for cancer therapy. Thereby damage to DNA is of key interest due to its central role in reproduction and mutation. Due to the high amount of water in biological tissue, most of the damage is caused by the secondary particles which are produced by the interaction of ionizing radiation with water. Thereby a multitude of species are produced, e.g. kinetic low energy electrons, prehydrated electrons, OH-radicals and ions. The quantification of the contribution to DNA damage by the various species is of interest. Here we present an experimental approach to disentangle their relative DNA strand break yields. Plasmid DNA (pUC19 ) is irradiated in water with electrons under the presence of different scavengers. The presented preliminary results reveal the relative contributions of OH-radicals, low energy electrons and prehydrated electrons and their DNA single and double strand break yields.
In recent years, substantial efforts have been devoted to investigating nanoscopic confinement of polymers, and its effect on glassy dynamics. Broadband Dielectric Spectroscopy (BDS) was used to study the dynamics of ultra-thin films of PVME/PS 50/50 wt% blend, employing a novel nano-structured capacitor sample arrangement. The investigated system shows a complex dynamic behavior. First, an α-relaxation, related to a bulk-like layer was found. Second, an α’-relaxation was observed, characteristic for dynamically asymmetric blends, where the out of equilibrium dynamics is attributed to weakly-cooperative PVME segments relaxing within a frozen environment of PS segments. Thirdly, for thinnest films, an Arrhenius-like process was dominant in the dielectric spectra, indicating localized fluctuations of the segments. Relaxation rates of this process resembled that of the degenerated α-relaxation of the adsorbed layer, found for pure PVME, thus it was assigned accordingly. For thinnest films, this process undergoes a further confinement, due to the topological constraints, introduced by PS. Such multiple confinement effect has not been reported for ultra-thin films of polymer blends, before this study.