The grain-scale distribution and behaviour of melt and fluid in crystalline analogue systems

The production, segregation and migration of melt and aqueous fluids (henceforth called liquid) plays an important role for the transport of mass and energy within the mantle and the crust of the Earth. Many properties of large-scale liquid migration processes such as the permeability of a rock matrix or the initial segregation of newly formed liquid from the host-rock depends on the grain-scale distribution and behaviour of liquid. Although the general mechanisms of liquid distribution at the grain-scale are well understood, the influence of possibly important modifying processes such as static recrystallization, deformation, and chemical disequilibrium on the liquid distribution is not well constrained. For this thesis analogue experiments were used that allowed to investigate the interplay of these different mechanisms in-situ. In high-temperature environments where melts are produced, the grain-scale distribution in “equilibrium” is fully determined by the liquid fraction and the ratio between the solid-solid and the solid-liquid surface energy. The latter is commonly expressed as the dihedral or wetting angle between two grains and the liquid phase (Chapter 2). The interplay of this “equilibrium” liquid distribution with ongoing surface energy driven recrystallization is investigated in Chapter 4 and 5 with experiments using norcamphor plus ethanol liquid. Ethanol in contact with norcamphor forms a wetting angle of about 25°, which is similar to reported angles of rock-forming minerals in contact with silicate melt. The experiments in Chapter 4 show that previously reported disequilibrium features such as trapped liquid lenses, fully-wetted grain boundaries, and large liquid pockets can be explained by the interplay of the liquid with ongoing recrystallization. Closer inspection of dihedral angles in Chapter 5 reveals that the wetting angles are themselves modified by grain coarsening. Ongoing recrystallization constantly moves liquid-filled triple junctions, thereby altering the wetting angles dynamically as a function of the triple junction velocity. A polycrystalline aggregate will therefore always display a range of equilibrium and dynamic wetting angles at raised temperature, rather than a single wetting angle as previously thought. For the deformation experiments partially molten KNO3–LiNO3 experiments were used in addition to norcamphor–ethanol experiments (Chapter 6). Three deformation regimes were observed. At a high bulk liquid fraction >10 vol.% the aggregate deformed by compaction and granular flow. At a “moderate” liquid fraction, the aggregate deformed mainly by grain boundary sliding (GBS) that was localized into conjugate shear zones. At a low liquid fraction, the grains of the aggregate formed a supporting framework that deformed internally by crystal plastic deformation or diffusion creep. Liquid segregation was most efficient during framework deformation, while GBS lead to slow liquid segregation or even liquid dispersion in the deforming areas.

Kristallisation der Arbutin-Synthase und der Strictosidin Glukosidase - zwei Enzyme aus dem sekundären Glykosidstoffwechsel von Rauvolfia serpentina

Kristallisation der Arbutin-Synthase und der Strictosidin Glukosidase - zwei Enzyme aus dem sekundären Glykosidstoffwechsel von Rauvolfia serpentina Die vorliegende Arbeit befasst sich mit der Kristallisation und der strukturellen Auswertung der Arbutin-Synthase (AS) und der Strictosidin Glukosidase (SG). Beide Enzyme stammen aus der Medizinalpflanze Rauvolfia serpentina. Für die Kristallisation der Arbutin-Synthase wurden ca. 2500 verschiedene Beding-ungen experimentell untersucht. Für einige dieser Experimente wurde das Enzym molekularbiologisch und chemisch verändert. Trotzdem konnten keine Kristalle erhalten werden. Die bei diesen Veränderungen erhaltenen Ergebnisse wurden anhand von Vergleichen mit Strukturen anderer Glykosyltransferasen der gleichen Familie analysiert. Bei der Reinigung der AS konnte mit verschiedenen Trennsystemen nie eine homogene Lösung produziert werden. Der wahrscheinliche Grund für diese schlechte Isolierbarkeit, und damit der wahrscheinliche Grund für die schwierige Kris-tallisation, liegt in der überdurchschnittlich hohen Anzahl an Cysteinen in der Proteinsequenz. Mit den Aminosäuren Cys171, Cys253 und Cys461 wurden drei Cysteine gefunden, die einem Strukturvergleich nach an der Proteinoberfläche liegen und möglicherweise durch Quervernetzungen mit anderen Proteinmolekülen ein heterogenes Gemisch bilden, das nicht geordnet kristallisieren kann. Durch gezielte Mutationen dieser drei Aminosäuren könnte die Kristallisation zukünftig ermöglicht werden. Für die SG waren bereits Bedingungen bekannt bei denen nicht vermessbare Enzymkristalle (Nadeln) wuchsen. In weit gefächerten Versuchen konnten diese Kristalle jedoch nicht zu 3D-Wachstum angeregt werden. Es wurden mit einem HTS-Screening neue Bedingungen zur Kristallisation gefunden. Anschließend konnten die native Struktur und der Strictosidin/Enzym-Komplex vermessen und aufgeklärt werden. Die SG gehört zur Familie 1 der Glukosidasen (GH-1) und besitzt die in dieser Familie konservierte (beta/alpha)8-Barrel-Faltung. Im Vergleich mit 16 bekannten Glykosidasen der Familie GH-1 wurde die Substratbindung untersucht. Dabei wurde die in der Familie konservierte Zuckerbindung vorgefunden, jedoch große Unterschiede in der Aglykonbindung entdeckt. Es wurden Bedingungen für die Konformationsänderung des Trp388 erkannt. Diese Konformationsänderung dirigiert den Aglykonteil des Substrates auf verschiedene Seiten der Substratbindungstasche und teilt so die Familie GH-1 in zwei Gruppen.

Konditionale Mutagenese von Desmoglein 2 in der Maus

Desmosomen sind hoch organisierte interzelluläre Verbindungen, die Zellverbänden eine mechanische Stabilität verleihen. Die Intermediärfilamentnetzwerke benachbarter Zellen werden mit Hilfe der desmosomalen Cadherine vom Desmoglein- und Desmocollin-Typ miteinander verknüpft. Diese Glykoproteine interagieren miteinander im Interzellularspalt zwischen benachbarten Zellen und stellen mit ihren zytoplasmatischen Domänen einen Ankerpunkt für desmosomale Brückenproteine dar, an welche wiederum die Proteine des Intermediärfilament-Zytoskeletts binden. Bei der Maus spielt das desmosomale Cadherin Desmoglein 2 (DSG2) bereits in frühen Stadien der Embryogenese eine entscheidende Rolle. Homozygote DSG2-Knockout-Mäuse sterben bereits vor der Implantation des Embryos ab. Im adulten Tier ist Dsg2 die am weitesten verbreitete Isoform, in Darm, Leber und Herzmuskel wird es zudem exklusiv exprimiert. Ziel dieser Arbeit war es, die Bedeutung von Dsg2 in differenzierten Gewebeverbänden adulter Tiere zu untersuchen. Im Rahmen dieser Doktorarbeit wurden mehrere transgene Mauslinien hergestellt, in denen mit Hilfe des Cre/loxP-Systems eine Deletion im DSG2-Gen konditional und gewebsspezifisch induziert werden konnte. Dazu wurden zuerst zwei loxP-Sequenzen und eine mit zwei FRT-Stellen flankierte Neomyzinresistenzgen-Kassette in das DSG2-Gen von embryonalen Stammzellen durch homologe Rekombination eines Targeting-Konstrukts inseriert. Diese Zellen wurden in Blastozysten injiziert und Mauslinien hergestellt. Mit Hilfe der Flpe-Rekombinase wurde anschließend die Resistenzenzgen-Kassette entfernt. Diese Stämme wurden mit Mäusen verpaart, die eine induzierbare und gewebsspezifische Synthese der Cre-Rekombinase ermöglichen. Im Darmepithel und der Leber konnte eine gewebsspezifische Rekombination des DSG2-Gens induziert werden. Untersuchungen der DSG2-mRNA zeigten, dass die DSG2-Rekombination in der Darmschleimhaut nahezu vollständig erfolgte. Immunfluoreszenz-Analysen an Gewebsfragmenten induzierter Tiere mit Isotyp-spezifischen Antikörpern, die im Rahmen dieser Arbeit hergestellt worden waren, zeigten jedoch keine signifikanten Unterschiede der Desmosomenzahl und -verteilung. Daher wurden eGFP-Hybride des zu erwartenden mutierten Dsg2-Proteins in Zellen exprimiert und mit wildtypischem Dsg2 verglichen. Es konnte hinsichtlich der Verteilung und Morphologie der Desmosomen keine Unterschiede zwischen beiden Dsg2-Proteinen festgestellt werden. Der Dsg2-Mutante fehlen wichtige Proteinbereiche, die für die trans-Interaktion der extrazellulären Domäne verantwortlich sind, die Haupt-N-Glykosylierungsstelle, sowie eine der insgesamt vier Kalzium-Bindestellen. Dies sind Eigenschaften, von denen man bisher annahm, dass sie eine zentrale Bedeutung für die desmosomale Adhäsion besitzen. Weitere Experimente werden zeigen, inwieweit die hergestellte Dsg2-Mutante in „Stresssituationen“, wie sie z.B. bei Regenerationsvorgängen oder der Tumorgenese auftreten, zu veränderten adhäsiven Eigenschaften führt.

Rupture forces of split aptamers

Rupture forces of ligand-receptor interactions, such as proteins-proteins, proteins-cells, and cells-tissues, have been successfully measured by atomic force spectroscopy (AFS). For these measurements, the ligands and receptors were chemically modified so that they can be immobilized on the tip and on a substrate, respectively. The ligand interact the receptor when the tip approaches the substrate. This interaction can be studied by measuring rupture force upon retraction. However, this technique is not feasible for measurements involving small molecules, since they form only few H-bonds with their corresponding receptors. Modifying small molecules for immobilization on surfaces may block or change binding sites. Thus, recorded rupture forces might not reflect the full scope of the involved small ligand-receptor interactions.rnIn my thesis, a novel concept that allows measuring the rupture force of small involved ligand-receptor interactions and does not require molecular modification for immobilization was introduced. The rupture force of small ligand-receptor interaction is not directly measured but it can be determined from measurements in the presence and in the absence of the ligand. As a model system, the adenosine mono phosphate (AMP) and the aptamer that binds AMP were selected. The aptamer (receptor) is a single stranded DNA that can partially self-hybridize and form binding pockets for AMP molecules (ligands). The bonds between AMP and aptamer are provided by several H-bonds and pair stacking.rnIn the novel concept, the aptamer was split into two parts (oligo a and oligo b). One part was immobilized on the tip and the other one on the substrate. Approaching the tip to the substrate, oligo a and oligo b partially hybridized and the binding pockets were formed. After adding AMP into the buffer solution, the AMP bound in the pockets and additional H-bonds were formed. Upon retraction of the tip, the rupture force of the AMP-split aptamer complex was measured. In the presence of excess AMP, the rupture force increased by about 10 pN. rnThe dissociation constant of the AMP-split aptamer complex was measured on a single molecular level (~ 4 µM) by varying the AMP concentrations and measuring the rupture force at each concentration. Furthermore, the rupture force was amplified when more pockets were added to the split aptamer. rnIn the absence of AMP, the thermal off-rate was slightly reduced compared to that in the presence of AMP, indicating that the AMP stabilized the aptamer. The rupture forces at different loading rates did not follow the logarithmic fit which was usually used to describe the dependence of rupture forces at different loading rates of oligonucleotides. Two distinguished regimes at low and high loading rates were obtained. The two regimes were explained by a model in which the oligos located at the pockets were stretched at high loading rates. rnThe contribution of a single H-bond formed between the AMP molecule and the split aptamer was measured by reducing the binding groups of the AMP. The rupture forces reduce corresponding to the reduction of the binding groups. The phosphate group played the most important role in the formation of H-bond network between the AMP molecule and the split aptamer. rn

Modeling and simulation of fibrinogen and its adsorption behavior

In this thesis different approaches for the modeling and simulation of the blood protein fibrinogen are presented. The approaches are meant to systematically connect the multiple time and length scales involved in the dynamics of fibrinogen in solution and at inorganic surfaces. The first part of the thesis will cover simulations of fibrinogen on an all atom level. Simulations of the fibrinogen protomer and dimer are performed in explicit solvent to characterize the dynamics of fibrinogen in solution. These simulations reveal an unexpectedly large and fast bending motion that is facilitated by molecular hinges located in the coiled-coil region of fibrinogen. This behavior is characterized by a bending and a dihedral angle and the distribution of these angles is measured. As a consequence of the atomistic detail of the simulations it is possible to illuminate small scale behavior in the binding pockets of fibrinogen that hints at a previously unknown allosteric effect. In a second step atomistic simulations of the fibrinogen protomer are performed at graphite and mica surfaces to investigate initial adsorption stages. These simulations highlight the different adsorption mechanisms at the hydrophobic graphite surface and the charged, hydrophilic mica surface. It is found that the initial adsorption happens in a preferred orientation on mica. Many effects of practical interest involve aggregates of many fibrinogen molecules. To investigate such systems, time and length scales need to be simulated that are not attainable in atomistic simulations. It is therefore necessary to develop lower resolution models of fibrinogen. This is done in the second part of the thesis. First a systematically coarse grained model is derived and parametrized based on the atomistic simulations of the first part. In this model the fibrinogen molecule is represented by 45 beads instead of nearly 31,000 atoms. The intra-molecular interactions of the beads are modeled as a heterogeneous elastic network while inter-molecular interactions are assumed to be a combination of electrostatic and van der Waals interaction. A method is presented that determines the charges assigned to beads by matching the electrostatic potential in the atomistic simulation. Lastly a phenomenological model is developed that represents fibrinogen by five beads connected by rigid rods with two hinges. This model only captures the large scale dynamics in the atomistic simulations but can shed light on experimental observations of fibrinogen conformations at inorganic surfaces.

Applications of GIS and remote sensing techniques for studying the housing patterns in Cairo Governorate

The main objective of this study is to reveal the housing patterns in Cairo as one of the most rapidly urbanizing city in the developing world. The study outlines the evolution of the housing problem and its influencing factors in Egypt generally and in Cairo specifically. The study takes into account the political transition from the national state economy to the open door policy, the neo-liberal period and finally to the housing situation after the January 2011 Revolution. The resulting housing patterns in Cairo Governorate were identified as (1) squatter settlements, (2) semi-informal settlements, (3) deteriorated inner pockets, and (4) formal settlements. rnThe study concluded that the housing patterns in Cairo are reflecting a multifaceted problem resulting in: (1) the imbalance between the high demand for affordable housing units for low-income families and the oversupply of upper-income housing, (2) the vast expansion of informal areas both on agricultural and desert lands, (3) the deterioration of the old parts of Cairo without upgrading or appropriate replacement of the housing structure, and (4) the high vacancy rate of newly constructed apartmentsrnThe evolution and development of the current housing problem were attributed to a number of factors. These factors are demographic factors represented in the rapid growth of the population associated with urbanization under the dictates of poverty, and the progressive increase of the prices of both buildable land and building materials. The study underlined that the current pattern of population density in Cairo Governorate is a direct result of the current housing problems. Around the depopulation core of the city, a ring of relatively stable areas in terms of population density has developed. Population densification, at the expense of the depopulation core, is characterizing the peripheries of the city. The population density in relation to the built-up area was examined using Landsat-7 ETM+ image (176/039). The image was acquired on 24 August 2006 and considered as an ideal source for land cover classification in Cairo since it is compatible with the population census 2006.rnConsidering that the socio-economic setting is a driving force of change of housing demand and that it is an outcome of the accumulated housing problems, the socio-economic deprivations of the inhabitants of Cairo Governorate are analyzed. Small administrative units in Cairo are categorized into four classes based on the Socio-Economic Opportunity Index (SEOI). This index is developed by using multiple domains focusing on the economic, educational and health situation of the residential population. The results show four levels of deprivation which are consistent with the existing housing patterns. Informal areas on state owned land are included in the first category, namely, the “severely deprived” level. Ex-formal areas or deteriorated inner pockets are characterized as “deprived” urban quarters. Semi-informal areas on agricultural land concentrate in the third category of “medium deprived” settlements. Formal or planned areas are included mostly in the fourth category of the “less deprived” parts of Cairo Governorate. rnFor a better understanding of the differences and similarities among the various housing patterns, four areas based on the smallest administrative units of shiakhat were selected for a detailed study. These areas are: (1) El-Ma’desa is representing a severely deprived squatter settlement, (2) Ain el-Sira is an example for an ex-formal deprived area, (3) El-Marg el-Qibliya was selected as a typical semi-informal and medium deprived settlement, and (4) El-Nozha is representing a formal and less deprived area.rnThe analysis at shiakhat level reveals how the socio-economic characteristics and the unregulated urban growth are greatly reflected in the morphological characteristics of the housing patterns in terms of street network and types of residential buildings as well as types of housing tenure. It is also reflected in the functional characteristics in terms of land use mix and its degree of compatibility. It is concluded that the provision and accessibility to public services represents a performance measure of the dysfunctional structure dominating squatter and semi-informal settlements on one hand and ample public services and accessibility in formal areas on the other hand.rn