Copolymerisation Of Carbon Disulfide, Carbon Dioxide And Other Carbonic Acid Derivatives With Cyclic Ethers By Using Metal Xanthate Catalysts

Ozturk, Elif

01 May 2006

The synthesis of high molecular weight copolymer of carbon disulphide (CS2) and propylene oxide (PO) has not reported in literature. In the present work, zinc isopropyl xanthate (Zn(Xt)2) was used as catalyst for the copolymerisation of PO and CS2 into high copolymer. However, the product can be fractionated into high and low molecular weight components. High molecular weight copolymer was rubbery products, but low molecular weight copolymers were oily products containing cyclic dithiocarbonates. Copolymers were characterized by elemental, end group analysis, DSC, TGA, GPC, Light Scattering, UV, IR, NMR spectroscopy, polarized microscopy and refractometry. Copolymerization process was zeroth order with respect to monomers, and its non-terminated but suffered from several types of transfer reactions. As a result of transfer reactions S-(C=S)-S, O-(C=S)-O, O-(C=O)-O groups in the backbone of copolymer and SH groups at the chain terminals and cyclic dithiocarbonates are formed. Apart from SH groups, OH and double bonds were found and their amounts were determined at the chain terminals. Copolymers with high mole fractions of PO units (F1) in the copolymer are crystallized in the shape of Malta&amp / #8217 / s Cross. Melting points of products were obtained from DSC. The F1 values are calculated from elemental analysis as well as zeroth order rate constants and from melting point of the crystals. All three results were in close agreement and changed between 0.9 &amp / #8211 / 0.7. However, these ratios depend on reaction conditions (temperature, catalyst and monomer concentrations, time and dielectric constant of reaction medium). A mechanism for coordination-copolymerization on the basis of above observation was proposed.

QD Polymers, Macromolecules 380-388

Investigating the role of a novel ER molecular chaperone : Creld2 in the physiology and pathophysiology of endochondral bone growth

Edwards, Sarah

January 2015

Cysteine rich with EGF-like domains 2 (Creld2) is a novel endoplasmic reticulum (ER) resident molecular chaperone that has been recently implicated in the ER stress signalling response (ERSS) and the unfolded protein response (UPR). Global transcriptomic data derived from in vivo mouse models of rare chondrodysplasias; Multiple Epiphyseal Dysplasia (MED Matn3 p.V194D) and Metaphyseal chondrodysplasia type Schmid (MCDS Col10a1 p.N617K), identified a significant upregulation in Creld2 expression in mutant chondrocytes. These chondrodysplasias share a common disease signature consisting of aberrant folding of a matrix component often as a result of inappropriate alignment of intramolecular disulphide bonds. This in turn culminates in toxic protein aggregation, intracellular retention mutant polypeptides and a classical ER stress response. The aim of this study was to further analyse the function of Creld2 in cartilage development and chondrodysplasias in which endochondral bone growth is perturbed. Protein disulphide isomerases (PDIAs) were amongst the most up-regulated genes in the MED and MCDS mouse models, consistent with the prolonged exposure of normally 'buried' cysteine residues. This led to the hypothesis that Creld2 was functioning as a novel PDI-like oxidoreductase to assist in the correct folding and maturation of aggregated misfolded polypeptide chains through REDOX regulated thiol disulphide exchange. A series of Creld2-CXXA substrate trapping mutants were generated in order to determine whether Creld2 possessed inherent isomerase activity. Here potential substrates interacting with Creld2 were 'trapped' as mixed disulphide intermediates, then isolated by immunoprecipitation and identified by mass spectrometry analysis. It was demonstrated that Creld2 possessed a catalytic active CXXC motif in its N-terminus that enabled the molecular chaperone to participate in REDOX regulated thiol disulphide exchange with at least 20 potential substrates including; laminin (alpha3,β3,γ2), thrombospondin 1, integrin alpha3 and type VI collagen. There was also numerous co-chaperones and foldases thought to be part of a specialised protein-protein interactome (PPI) for folding nascent polypeptides translocating the ER lumen. Moreover, co-immunoprecipitation experiments supported a protein-protein interaction between Creld2 and mutant matrilin-3, thereby inferring a potential chondro-protective role in resolving non-native disulphide bonded aggregates in MED. An established biochemical approach was employed to test the hypothesis that all MATN3-MED disease causing mutations have a generic cellular response to the β-sheet V194D mutation, consisting of intracellular retention, protein aggregation and ER stress induction. Several missense mutations were selected for analyses which encompassed a spectrum of disease severity and included examples of both β-sheet and alpha helical mutations. It was possible to define a reliable and reproducible assay for categorising MATN3 missense mutations into pathological or benign based on these basic parameters. This study was extended further to determine whether there were common pathological mechanisms behind MED and Bethlem myopathy (BM) caused by missense mutations in von Willebrand Factor A domain (vWF-A) containing proteins (matrilin-3 and type VI collagen respectively). We chose to compare and contrast the effects of an archetypal MATN3-MED causing mutation (R121W) with the equivalent COL6A2-BM causing mutation (R876H). These mutations compromised protein folding and maturation, resulting in the familiar disease profile of intracellular retention, protein aggregation and an ER stress response in an artificial overexpression system. However, the mutant C2 domain was efficiently targeted for degradation whilst mutant matrilin-3 vWF-A domain appeared to be resistant to these molecular processes.Molecular genetics was employed to study the role of Creld2 in vivo. Creld2-/- null mice (both global and conditional) were generated to directly examine the role of Creld2 in endochondral bone growth. Global knock-out mice were viable with no overt phenotype at birth. However, female Creld2-/- null mice showed a significant reduction in body weight and tibia bone length at 3 weeks of age. A cartilage specific knock-out was generated to determine whether these skeletal abnormalities were attributed to a systemic or a direct effect on cartilage development. [Creld2Flox/Flox Col2Cre (+)] demonstrated a severe chondrodysplasia with significantly reduced body weight and long bone growth compared to control littermates. Morphological and histochemical analysis of mutant growth plates revealed gross disorganisation of the chondrocyte columns with extensive regions of hypocellularity. These pathological features were confirmed to be the result of reduced chondrocyte proliferation and increased/spatially dysregulated apoptosis throughout all zones of differentiation. Taken together, these data provide evidence that Creld2 possesses isomerase activity and exhibits distinct substrate specificity. Furthermore, Creld2 has a fundamental role in post-natal cartilage development and chondrocyte differentiation in the growth plate.

Structural and functional studies of mitochondrial small Tim proteins

Guo, Liang

January 2013

Most mitochondrial proteins are encoded by nuclear DNA, and synthesised in the cytosol, then imported into the different mitochondrial subcompartments. To reach their destination, mitochondrial inner membrane proteins require import across the outer mitochondrial membrane, and through the intermembrane space. This passage through the IMS is assisted by the small Tim proteins. This family is characterised by conserved cysteine residues arranged in a twin CX3C motif. They can form Tim9-Tim10 and Tim8-Tim13 complexes, while Tim12 appears to form part of a Tim9-Tim10-Tim12 complex that is associated with the inner membrane translocase TIM22 complex. Current models suggest that the biogenesis of small Tim proteins and their assembly into complexes is dependent on the redox states of the proteins. However, the role of the conserved cysteine residues, and the disulphide bonds formed by them, in small Tim biogenesis and complex formation is not clear. As there is no research about the structural characterisation of Tim12 and double cysteine mutants of Tim9, purification of these proteins was attempted using different methods. To investigate how cysteine mutants affect complex formation, the purified double cysteine mutants of Tim9 were studied using in vitro methods. It showed that the double cysteine mutants were partially folded, and they can form complexes with Tim10 with low affinities, suggesting disulphide bonds are important for the structures and complex formation of small Tim proteins. The effect of cysteine mutants on mitochondrial function was addressed using in vivo methods. It showed that cysteines of small Tim proteins were not equally essential for cell viability, and growth defect of the lethal cysteine mutant was caused by low level of protein. Thus, the conclusion of this study is that disulphide bond formation is highly important for correct Tim9- Tim10 complex formation, and yeast can survive with low levels of complex, but it results in instability of the individual proteins.

572.8

Strukturní determinanty regulace povrchového transportu NMDA receptorů v savčích buňkách / Structural determinants of regulation of surface delivery of NMDA receptors in mammalian cells

Danačíková, Šárka

January 2018

N-methyl-D-aspartate (NMDA) receptors are ligand-gated ion channels activated by agonist glutamate and co-agonist glycine. They play a key role in mediating the fast excitatory synaptic neurotransmission in the mammalian central nervous system. To create a functional heterotetrameric receptor, the presence of two GluN1 subunits combined with GluN2 or GluN3 subunits is necessary. Previous studies confirmed the importance of M3 transmembrane helix and extracellularly localized cysteines in regulation of surface expression of functional NMDA receptors. The aim of my thesis is to elucidate an influence of clinically relevant mutations in M3 transmembrane helix and the role of all known cysteines that form disulphide bonds on surface delivery of NMDA receptor expressed in heterologous monkey kidney fibroblasts cell culture (COS-7). Using molecular biology methods, immunocytochemistry and microscopy I found that the clinically relevant mutations M641I and Y647S in GluN1 subunit and also the mutations of particular cysteines forming disulphide bonds caused substantial decrease of surface expression of NMDA receptors. Furthermore, I discovered that the effect of mutated GluN1 subunits on decrease of surface expression depends on the subunit composition. The contribution of my results lies in elucidating the...

Optimierung von Schizosaccharomyces pombe für die heterologe Genexpression

Kettner, Karina

06 May 2005

Die vorliegende Arbeit beschäftigt sich mit der genetischen Optimierung der Spalthefe S. pombe für die biotechnologische Produktion von Fremdproteinen. Hierbei werden vor allem zwei Aspekte näher untersucht, zum einen die Stabilität des zu produzierenden Proteins und zum anderen die Bildung von Disulfidbrücken. Von anderen Organismen ist bekannt, dass die N-terminale AS im Verbund mit einem Lysinrest ein Protein destabilisieren kann. Das Modellprotein vVEGF besitzt an Position 2 einen Lysinrest (K2) und damit ein Hauptmerkmal eines derartigen Destabilisierungselementes. Falls das Protein dem Ubiquitin-vermittelten Abbau unterliegt, ist es wahrscheinlich, dass K2 eine essenzielle Rolle für die Stabilität dieses Proteins spielt. Im Rahmen dieser Arbeit konnte gezeigt werden, dass K2 in S. cerevisiae destabilisierend wirkt, während es in S. pombe keinen destabilisierenden Effekt hat. Dieses Ergebnis spricht dafür, dass es Unterschiede im Ubiquitin-vermittelten Abbau von Proteinen in diesen beiden Hefen gibt. Der Schwerpunkt dieser Arbeit lag auf der Analyse und Optimierung der Bildung von Disulfidbrücken in S. pombe. Disulfidbrücken stellen eines der wichtigsten Elemente der korrekten Proteinfaltung dar und werden in Eukaryonten vorwiegend im oxidierenden Milieu des ER in das naszierende Protein eingeführt. Aus diesem Grunde wurden Proteindisulfid-isomerasen (PDIs) und ER-oxidoreduktin (Ero)-ähnliche Proteine, die die Schlüssel-komponenten der Bildung von Disulfidbrücken in Eukaryonten darstellen, näher untersucht. In S. pombe finden sich insgesamt drei PDI-Homologe (SpPdi1p, SpPdi2p und SpPdi3p) sowie zwei Ero-Homologe (SpEro1a p und SpEro1b p). Mit Ausnahme des nicht glycosylierten SpPdi2p, sind alle Proteine Membran-assoziierte glycosylierte Komponenten des ER. SpPdi2p und SpPdi3p sowie SpEro1a p und SpEro1b p liegen in vivo teilweise in oxidiertem Zustand vor. Des Weiteren konnte gezeigt werden, dass SpEro1b p, nicht jedoch SpEro1a p in der Lage ist, die temperatursensitive S. cerevisiae ero1-1-Mutante funktionell zu komplementieren. Interessanterweise ergab die Untersuchung konservierter Cysteine mittels gerichteter Mutagenese einerseits Unterschiede zwischen SpEro1a p und SpEro1b p sowie andererseits zwischen den S. pombe Ero-Proteinen und den Ero-Proteinen anderer Spezies. Im Gegensatz zu Ero1b p wird Ero1a p durch reduzierenden Stress und Hitzestress induziert. Dies deutet darauf hin, dass SpEro1b p für die Bildung von Disulfidbrücken unter normalen Wachstumsbedingungen nötig ist, während SpEro1a p vornehmlich bei der Adaption der Zellen an Stressbedingungen erforderlich ist. Abschließend konnte gezeigt werden, dass die gesteigerte Expression von SpEro1a p und SpEro1b p zu einer deutlich erhöhten Ausbeute des disulfidhaltigen heterologen Proteins Orf19p-HA führt. Dieser Befund impliziert, dass in S. pombe die Oxidation der Disulfidbrücken für die Faltung von Proteinen vermutlich limitierend ist.

Disulfidbrücken

ER oxidoreduktin

Schizosaccharomyces pombe

heterologe Genexpression

Disulphide bonds

ER oxidoreductin

Schizosaccharomyces pombe

heterologous genexpression

ddc:570

rvk:WG 1940

rvk:WG 3450

Disulfidbrücke

Heterologe Genexpression

Proteinfaltung

Schizosaccharomyces pombe

Modulation of Protein Stability and Function by Cysteine Mutations and Signal Peptides

Sharma, Likhesh

January 2016

Chapter 1gives a general introduction to the CXXC motif found in natural proteins. It then reviews the studies where disulphides were engineered in various proteins. The various strategies developed to engineer metal binding activity and redox activity are described. The objectives behind engineering the CXXC motif into a protein, such as imparting it novel metal-binding and redox activities, are discussed next. Alternative strategies which achieve the same objectives are described as well. This chapter then introduces the model proteins used in the course of this thesis: maltose-binding protein (MBP) and E. coli. Thioredoxin (Trx). This chapter also briefly discusses the role of signal peptide in protein export. Chapter 2describes the experimental studies and their results in which we introduced the widely occurring cysteine motif CXXC into the maltose binding protein (one-at-a-time, in five alpha-helices, at the N-termini) to test three hypotheses: 1) Does a disulphide bond form at the N-terminus? 2) Does the protein acquire any oxido-reductase activity? 3) Does it acquire new metal-binding properties? The results confirmed: 1) Each cysteine pair forms a stable intrahelical disulphide bond under non-reducing conditions. 2) The five mutant proteins acquire considerable oxidoreductase activity, tested by the insulin aggregation assay. 3) The mutants acquire novel metal-binding properties for Ni2+, Cd2+, and Zn2+ upon reduction. Further, introducing the CXXC motif neither destabilizes the protein nor affects its global structure. Our results demonstrated that introduction of CXXC motifs can be used to probe alpha-helix start sites and to introduce oxidoreductase and metal binding functionality into proteins. Chapter 3describes further experimentson a few of the metal ion binding mutants discussed in the previous chapter. We explore the effect and usefulness of reducing agents (DTT and TCEP) on the binding of metal salts to the CXXC mutants. We also studied the explore of metal salts on the thermal stability of the mutants and show that metal ions bind to the CXXC motif even when the protein is in the unfolded state. The chapter describes the use of an immobilized metal affinity chromatography (IMAC) based method for the purification of MBP mutants.Yields ranging from 60-85% were obtained for thethree MBP mutants. The cysteines were located at different positions in thesethree MBP mutants (MBP 42-45 Cys, MBP 128-131 Cys, and MBP 359-359 Cys mutants). The yields for wild-type MBP, a single cysteine mutant (MBP S211C), a double cysteine mutant (MBP 230, 30) were all below 15%. Chapter 3 also reports a new crystal structure of the MBP356-359 mutant in ligand bound form:it crystallizes as an intermolecular dimer, bonded by two disulfides formed by the cysteines of the CXXC motif. Chapter 4describes the effects of inserting signal peptide sequences on protein folding and expression. We fused the malE and pelB signal sequences at the N-terminus of the model protein thioredoxin and observed that the wild-type and pelB fusion constructs are soluble when expressed, but the malE construct was targeted to inclusion bodies. Nonetheless, it could be refolded in vitro to yield a monomeric product with a secondary structure identical to the wild-type thioredoxin. This chapter also details the thermodynamic stability, aggregation propensity and activity of the purified recombinant proteins in comparison with the wild-type thioredoxin. The presence of the signal sequences reduces the thermodynamic stability and activity of the recombinants and increases their aggregation propensity, with malE having much larger effects than pelB. These studies show that besides acting as address labels, different signal sequences affect protein stability and aggregation differently. Chapter 5describes three different strategies to label a protein at different sites with cysteine-specific fluorophores using MBP as the model. The first strategy exploits the differential accessibility of residues within MBP in its maltose-bound and maltose-free states. The second strategy involves insertion of a 14-amino-acid loop called V3 from the HIV gp120 protein into MBP; anti-V3 antibodies shield the cysteine residue present inside the inserted loop, while we label another cysteine present outside the loop. In the third strategy, we introduce a third cysteine residue onto the background of the MBP mutant already containing a disulphide bridge at the N-terminus of one of its helices (discussed in Chapter 2). We label the third, free cysteine while the cysteines involved in the disulphide bridge remain protected. We observed successful differential labelling using the first strategy and also observed FRET between the fluorophore labels. Similarly, after trying the second strategy we could individually label all the mutants except one. The third strategy based on the triple-cysteine mutant was not successful because the fluorophore we chose (DBM) did not show site specificity and instead labelled all three cysteines. In addition, the triple-cysteine mutant did not even show disulphide-bridge formation.We showed that indeed the V3 loop inserted in MBP binds anti-V3 antibodies and we could individually label all the mutants expect D41C. The third strategy was not successful because unfortunately in the triple cysteine mutant, the fluorophore we chose (DBM) did not show site specificity and labeled all three cysteines. In addition, the disulfide bridge was not found to be present in the triple cysteine mutant. Chapter 6discusses the synthesis, characterization and binding of various maltolipids, (and their corresponding maltose-free controls) to MBP. The maltolipids were synthesised with varying linker lengths and anchor- & head-groups and then used to prepare liposomes and micelles. Although both liposomal and micellar forms could bind to MBP, only the micelles were screened subsequently for their ability to bind to MBP. The binding was assessed using various techniques such as fluorescence spectroscopy, gel filtration and thermal stability assay. We screened the maltolipids and determined how their anchor group, linker length and charge on the head group influences the binding of MBP to micelles formed by these maltolipids.

Engineering Disulphide Bonds

Signal Peptides

Maltose Binding Protein

Protein Stability

Protein Export

E.coli Thioredoxin

Maltose-binding Protein (MBP)

Cysteine Mutation

Molecular Biophysics

Neuropsychological toxicology : a theoretical overview of neuropsychological assessment

Eiselen, Sue Catherine

16 October 2007

Neuropsychological toxicology investigates the impact of chemical exposure on the structure and functioning of the nervous system and by implication the neuropsychological performance of affected individuals. As in mainstream neuropsychology, brain damage is assessed by measuring changes in the cognitive, psychomotor and emotional domains using diagnostic neuropsychological tests. The field of neuropsychological toxicology has undergone significant growth in the last 20 years, amongst growing concerns over people’s potential everyday exposure to approximately 70 000 chemicals. Growing awareness of the possible dangers associated with neurotoxic exposure has lead to the increased regulation of exposure levels especially in industrial settings. This in turn has lead to a gradual shift in neuropsychological toxicology from the assessment of severe neurotoxic damage to the evaluation of subclinical signs, which may develop into disabling damage over many years of exposure. The assessment of these subclinical signs has proven to be tricky as they cannot always be measured through diagnostic tests and may be mimicked or hidden by numerous confounding variables. The need for the effective assessment of these subclinical signs has created a need for more sensitive tests and improved research methodology. This paper uses evidence from cellular pathology and anatomical pathology (dynamic brain localisation theory) as a guide for the selection of neuropsychological tests. The purpose of the paper is to review the neuropsychological outcomes of toxic exposure, with an emphasis on test sensitivity (screening) and specificity (diagnostic) to carbon disulphide (solvent), manganese (metal) and organophosphate (pesticide) exposure. Findings from this review point to the possible advantages of the continued use of standardised neuropsychological batteries that enable the assessment of global functions in addition to tests that measure deficits associated with the toxicodynamics of the neurotoxin under investigation. Methodological recommendations include the use of simultaneous cross-sectional and longitudinal designs to control for numerous confounding variables and correlation designs to determine dose-response relationships. Future studies need to address the sensitivity and specificity criteria of various neuropsychological measures utilising the principle of neurotoxicodynamics. / Dissertation (MA (Research Psychology))--University of Pretoria, 2007. / Psychology / MA / unrestricted

Dynamic brain localisation theory

Methodology

Behavioural toxicology

Carbon disulphide

Subclinical assessment

Theoretical review

Organophosphate

Psychological toxicology

Neurotoxicodynamics

Neurotoxicology

Neuropsychological toxicology

Neurobehavioural toxicology

Manganese

UCTD

Electrical Transport in the Hybrid Structures of 2D Van Der Waals Materials and Perovskite Oxide

Sahoo, Anindita

January 2016

Perovskite oxides have provided a wide variety of exotic functionalities based on their unique physical and chemical properties. By combining different perovskite oxides, interesting physical phenomena have been observed at the interfaces of perovskite heterostructures. The most interesting among these phenomena is the formation of two dimensional electron gas at the interface of two perovskite materials SrTiO3 and LaAlO3 which led to a number of fascinating physical properties such as metal-insulator transition, super-conductivity, large negative magnetoresistance and so on. This has raised the interest in exploiting the interface of various hybrids structures built on the perovskite oxide backbone. On the other hand, the two dimensional (2D) van der Waals materials such as graphene, MoS2, boron nitride etc. represent a new paradigm in the 2D electron-ics. The functionalities of these individual materials have been combined to obtain new enriched functionalities by stacking different materials together forming van der Waals heterostructures. In this work, we present a detailed study of the interface in hybrid structures made of vander Waals materials (graphene and MoS2) and their hybrids with a perovskite material namely, SrTiO3 which is known as the building block of complex oxide heterostructures. In graphene-MoS2 vertical heterostructure, we have carried out a detailed set of investigations on the modulation of the Schottky barrier at the graphene-MoS2 interface with varying external electric field. By using different stacking sequences and device structures, we obtained high mobility at large current on-off ratio at room temperature along with a tunable Schottky barrier which can be varied as high as ∼ 0.4 eV by applying electric field. We also explored the interface of graphene and SrTiO3 as well as MoS2 and SrTiO3 by electrical transport and low frequency 1/f noise measurements. We observed a hysteretic feature in the transfer characteristics of dual gated graphene and MoS2 field effect transistors on SrTiO3. The dual gated geometry enabled us to measure the effective capacitance of SrTiO3 interface which showed an enhancement indicating the possible existence of negative capacitance developed by the surface dipoles at the interface of SrTiO3 and the graphene or MoS2 channel. Our 1/f noise study and the analysis of higher order statistics of noise also support the possibility of electric field-driven reorient able surface dipoles at the interface.

Perovskite Oxides

Superconductivity

Ferroelectricity

Crystal Structure

Strontium Titanate

SrTiO3

Van der Waals Materials

Molybdenum Disulphide

MoS2

Van der Waals Heterostructures

Graphene

Graphene-MoS2

Physics

Optimierung von Schizosaccharomyces pombe für die heterologe Genexpression

Kettner, Karina

24 May 2005

Die vorliegende Arbeit beschäftigt sich mit der genetischen Optimierung der Spalthefe S. pombe für die biotechnologische Produktion von Fremdproteinen. Hierbei werden vor allem zwei Aspekte näher untersucht, zum einen die Stabilität des zu produzierenden Proteins und zum anderen die Bildung von Disulfidbrücken. Von anderen Organismen ist bekannt, dass die N-terminale AS im Verbund mit einem Lysinrest ein Protein destabilisieren kann. Das Modellprotein vVEGF besitzt an Position 2 einen Lysinrest (K2) und damit ein Hauptmerkmal eines derartigen Destabilisierungselementes. Falls das Protein dem Ubiquitin-vermittelten Abbau unterliegt, ist es wahrscheinlich, dass K2 eine essenzielle Rolle für die Stabilität dieses Proteins spielt. Im Rahmen dieser Arbeit konnte gezeigt werden, dass K2 in S. cerevisiae destabilisierend wirkt, während es in S. pombe keinen destabilisierenden Effekt hat. Dieses Ergebnis spricht dafür, dass es Unterschiede im Ubiquitin-vermittelten Abbau von Proteinen in diesen beiden Hefen gibt. Der Schwerpunkt dieser Arbeit lag auf der Analyse und Optimierung der Bildung von Disulfidbrücken in S. pombe. Disulfidbrücken stellen eines der wichtigsten Elemente der korrekten Proteinfaltung dar und werden in Eukaryonten vorwiegend im oxidierenden Milieu des ER in das naszierende Protein eingeführt. Aus diesem Grunde wurden Proteindisulfid-isomerasen (PDIs) und ER-oxidoreduktin (Ero)-ähnliche Proteine, die die Schlüssel-komponenten der Bildung von Disulfidbrücken in Eukaryonten darstellen, näher untersucht. In S. pombe finden sich insgesamt drei PDI-Homologe (SpPdi1p, SpPdi2p und SpPdi3p) sowie zwei Ero-Homologe (SpEro1a p und SpEro1b p). Mit Ausnahme des nicht glycosylierten SpPdi2p, sind alle Proteine Membran-assoziierte glycosylierte Komponenten des ER. SpPdi2p und SpPdi3p sowie SpEro1a p und SpEro1b p liegen in vivo teilweise in oxidiertem Zustand vor. Des Weiteren konnte gezeigt werden, dass SpEro1b p, nicht jedoch SpEro1a p in der Lage ist, die temperatursensitive S. cerevisiae ero1-1-Mutante funktionell zu komplementieren. Interessanterweise ergab die Untersuchung konservierter Cysteine mittels gerichteter Mutagenese einerseits Unterschiede zwischen SpEro1a p und SpEro1b p sowie andererseits zwischen den S. pombe Ero-Proteinen und den Ero-Proteinen anderer Spezies. Im Gegensatz zu Ero1b p wird Ero1a p durch reduzierenden Stress und Hitzestress induziert. Dies deutet darauf hin, dass SpEro1b p für die Bildung von Disulfidbrücken unter normalen Wachstumsbedingungen nötig ist, während SpEro1a p vornehmlich bei der Adaption der Zellen an Stressbedingungen erforderlich ist. Abschließend konnte gezeigt werden, dass die gesteigerte Expression von SpEro1a p und SpEro1b p zu einer deutlich erhöhten Ausbeute des disulfidhaltigen heterologen Proteins Orf19p-HA führt. Dieser Befund impliziert, dass in S. pombe die Oxidation der Disulfidbrücken für die Faltung von Proteinen vermutlich limitierend ist.

info:eu-repo/classification/ddc/570

ddc:570

Synthesis of Thin Films by Chemical Vapor Deposition: Synthesis of thin MoS films with Chemical Vapor Deposition

Nordheim, Gregor

24 June 2024

The thesis describes the construction of a CVD system, the deposition of thin molybdenum disulphide layers using this system and the analysis of the samples produced. The deposition of thin molybdenum disulphide layers and an intercalation of the silicon carbide substrate used were demonstrated and the measurement results obtained by atomic force microscopy, Raman spectroscopy and photoelectron spectroscopy were further discussed.:1. Introduction: Two-Dimensional Materials 2. Experimental Methods 2.1. Atomic Force Microscopy 2.2. Photoelectron Spectroscopy 2.2.1. Layer Thickness Determination 2.2.2. Quantitative Surface Analysis 3. Structure, Properties and Synthesis of the Used Materials 3.1. Transition Metal Dichalcogenides 3.1.1. Molybdenum Disulfide 3.1.2. Synthesis of Thin MoS Films-State of the Art 3.2. Substrate-Graphene on SiC 3.2.1. Graphene 3.2.2. Epitaxial Graphene on Silicon Carbide 4. Development of a CVD System for the Growth of MoS2 films 4.1. Basic Principles of Chemical Vapor Deposition 4.2. Construction of the CVD System 4.3. Temperature Measurements 4.4. Preliminary Considerations for the CVD Process 5. Growth Characteristics 5.1. Chemical Composition of the Substrate 5.2. Chemical Composition of the Grown MoS Films 5.3. Layer Thickness of the Grown MoS Films 5.3.1. Determination with XPS 5.3.2. Determination with Raman 5.4. AFM Measurements 6. Conclusion

info:eu-repo/classification/ddc/660.295

ddc:660.295

info:eu-repo/classification/ddc/620.1

ddc:620.1