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The following descriptive overview of the German corporate governance system and the current debate is structured as follows. Part II will give some information on the empirical background. Part III will describe the formal legal setting as well as actual practices in some key areas. Part IV will then deal with some issues of the current debate.
In my following remarks I will focus on a differente which we find in German law as well as in other legislations, the differente b e t w e e n entrepreneurial investments among firms and merely financial investments. Whereas OUT law of groups of companies o f Konzernrecht contains quite an elaborated set of rules, the rules governing financial investments, especially Cross-border financial investments, seems to be somewhat underdeveloped.
In early 1991 the United States Treasury Department of the Bush Administration recommended in ib proposal for Modemizing The FinancialSystem l that, in addition to other remarkable breaks with the traditional United States financial Services framework, the current bank holding Company structure be replaced with a new financial Services holding Company that would reward banks with the ability to engage in a broad new range of financial activities through separate afbliates, including full-service securities, insurance, and mutual fund activities. The Treaaury Department pointed out that commercial banking and investment banking are complementary Services and that the Glass-Steagall Separation was unnecessary. The Treasury Department gave many reasons for the need for financial modernization and why such a modemized System would work better. As an example that demonstrates the advantages of the System proposed by the Treasury Department, the proposal pointed to the German banks and called the German model of a universal banking System the most liberal banking System in the world. -What makes the German universal banking System so unique and desirable? The following outline of the history and the current structure of the Getman banking System is intended to give readers a background tc determine whether the German banking System could be a model for the System of the future.
The task of this Paper as originally described in the outline of the current project was to compare the German banking System, as one type of relationship banking , with the Japanese main bank System. This was, of course, not simply meant in the sense of a mere description and comparison of different institutions. A meaningful contribution rather has to look at the functions of a given banking System as a provider of capital or other financial Services to their client firms, has to ask in what respect the one or the other System might be superior or less efficient, and has to analyze the reasons for this. Such a thorough analysis would have to answer questions like, for instance, to what extent investment is financed by (lang or short term-)bank loans, whether German banks have, because of specific institutional arrangements like own equity holdings, seats on Company boards or other links with their borrowers, informational or other advantages that make bank finance eheaper or easier available; how such banks behave with respect to financial distress and bankruptcy of their client firms, and what their exact role in corporate governance is. While preparing this Paper I found that in Order to give reliable answers to these questions there had to be several other conferences comparable to the present one that had to focus exclusively on our domestic System. Hence what this Paper only tan provide for at this moment is a short overview of the German banking System and its special t r a i t s ( Universalbankensystem and Group Banking ; part I), describe and analyse some aspects of bank lending to firms (Part II), and the role of German banks as delegated monitors in widely held firms (Part Ill). A description of the historical development of the specific links between banks and industry and their impact on the economic growth of Germany during the period of the industrialization and later on would be specifically interesting within the framework of a Conference that discusses the lessons and relevante of banking Systems for developing market economies and for transforming socialist economies. However, historical remarks had to be omitted completely, not least because of lack of own knowledge, time and space, but also because this history is already well documented and available in English publications, too.
Other than in Belgium, German banks may hold even controlling equity participations in industrial firms (and such firms may own banks) and do so to a large extent. Vis-a-vis the European development this leads to two questions: From the perspective of the (Belgian and other) competitors of these banks, whether their own domestic System might be disadvantageous to them. And from a public interest perspective, which advantages and drawbacks are connected with the different regulations in Europe. The article first informs about the legal framework and some statistical facts. Then the various and different reasons why banks acquire and hold shares on own account are analyzed. The following Parts deal with the various public policy arguments whether equity links between banks and industrial firms should be prohibited or not (safety and soundness of banking; autonomie de Ia fonction bancaire ; abuse of confidential information and conflicts of interest; antitrust considerations; negative and positive impacts on the respective firm). In its last part the article deals with recent proposals in the German political debate to limit stockholdings of banks. The article argues that a step-by-step approach to the Single Problems and issues (conflict of interests; anticompetitive effects etc.) should be preferred to a general limitation of stock ownership of banks.
The corporate governance Systems in the U.K. and in Germany differ markedly. German large firms have a two-board structure, they are subject to employee codetermination, their managements are not confronted with public hostile takeover bids, and banks play a major role in corporate governance, through equity stakes, through proxies given to them by small investors, and through bankers positions on the supervisory boards of these firms. One of the main issues of corporate governance in large firms, the Problem of shareholders passivity in monitoring management in Berle-Means type corporations, is thus addressed by an institutional Provision, the role of the banks, rather than by a market-oriented Solution as we find it in the U.K. with its market for corporate control through the threat of hostile takeovers. These two different approaches to corporate governance have been compared several times recently, and it was argued that a bank-based or institutional Solution has clear advantages and should be preferred. Cosh, Hughes and Singh, for example, argue at the conclusion of their discussion of takeovers and short-termism in the U.K. that the institutional shareholder [in the UK] should take a much more active and vigorous part in the internal governance of corporations. . . . In Order for such a proposal to be effective both in disciplining inefficient managements and promoting long-term investments, far reaching changes in the internal workings and behaviour of the financial institutions would be required. The financial institutions would need to pool their resources together, set up specialised departments for promoting investment and innovations - in other words behave like German banks. The following remarks seek to continue this discussion from the German perspective. The article will first attempt to evaluate the monitoring potential of our domestic bank or institution-oriented corporate governance System and then, in a further patt, compare it with that of a market-oriented Solution. lt will be argued that both Systems focus on different Problems and have specific advantages and drawbacks, and that there are still quite a few puzzles to be solved until all pros and cons of each of these monitoring devices tan be assessed. The perception that both Systems focus on different Problems suggests combining institutional monitoring with a market for corporate control rather than considering them to be contrasting and incompatible approaches. The article is organized as follows. Section II will describe the legal structure of the large corporation in Germany in more detail. Section Ill explains why a market for corporate control by the threat of public hostile takeover bids does not exist in Germany. Section IV then Shows how corporate governance in publicly held corporations with small investors is organized instead, and deals with the role of banks in corporate governance in these firms. Section V of the atticle then will try to compare the monitoring potential of a marketoriented and our bank or institution-oriented corporate governance System. Concluding remarks follow.
The hypothesis that oxidative stress plays a role in the pathogenesis of Alzheimer’s disease (AD) was tested by studying oxidative damage, acitvities of antioxidant enzymes and levels of reactive oxygen species (ROS) in several models. To this end, mouse models transgenic for mutant presenilin (PS1M146L) as well as mutant amyloid precursor protein (APP) and human post mortem brain tissue from sporadic AD patients and age-matched controls were studied. Aging leads to an upregulation of antioxidant enzyme activities of Cu/Zn-superoxide dismutase (Cu/Zn-SOD), glutathione peroxidase (GPx) and glutathione reductase (GR) in brains from C57BL/6J mice. Simultaneously, levels of lipid peroxidation products malondialdehyde MDA and 4-hydroxynonenal HNE were reduced. Additionally, pronounced gender effects were observed, as female mice display better protection against oxidative damage due to higher activity of GPx. Hence, antioxidant enzymes provide an important contribution to the protection against oxidative damage. In PS1M146L transgenic mice oxidative damage was only detectable in 19-22 months old mice, arguing for an additive effect of aging and the PS1 mutation. Both HNE levels in brain tissue as well as mitochondrial and cytosolic levels of ROS in splenic lymphocytes were increased in PS1M146L mice. Antioxidant defences were unaltered. In PDGF-APP and PDGF-APP/PS1 trangenic mice no changes in any of the parameters studied were observed in any age group. In contrast, Thy1-APP transgenic mice display oxidative damage as assessed by increased HNE levels. Reduced activity of Cu/Zn-SOD may explain this observation. Additionally, gender modified this effect, as female APP transgenic mice display higher b-secretase cleavage of APP and simultaneously increased HNE levels and reduced Cu/Zn-SOD activity earlier than male mice, i.e. from an age of 3 months and before the formation of Ab plaques. Reduced Cu/Zn-SOD activity was also found in another APP transgenic mouse model, in APP23 mice. In post mortem brain tissue from sporadic AD patients activities of Cu/Zn-SOD and GPx were however increased, and changes were most pronounced in temporal cortex. Simultaneously, levels of HNE but not MDA were elevated. Additionally, in vitro stimulation of lipid peroxidation led to increased MDA formation in samples from AD patients, indicating that increased activity of Cu/Zn-SOD and GPx are insufficient to protect against oxidative damage. Furthermore, the observed changes were subject to a gender effect, as samples from female AD patients showed increased activities of Cu/Zn-SOD and GPx as well as increased HNE levels, indicating that brain tissue from females is more sensitive towards oxidative damage. Levels of soluble Ab1-40 were positively correlated with with MDA levels and activities of Cu/Zn-SOD and GPx. Additionally, levels of lipid peroxidation products MDA and HNE are gene-dose-dependently modulated by the Apolipoprotein E4 allele, the most important genetic risk factor for AD known so far. While MDA levels were negatively correlated with MMSE scores, a measure for cognitive function, HNE levels were highest in AD patients with moderate cognitive impairment. Hence, increased HNE levels may play an important role in neurodegenerative events at an early disease stage. In summary, oxidative damage, as assessed by increased HNE levels, could be detected in sporadic AD patients and in different transgenic mouse models. The results of this thesis therefore support the further research of pharmacological targets aiming at augmentation of antioxidant defences for therapy or prophylaxis of Alzheimer’s disease.
The cytochrome bc1 complex is a cornerstone in bioenergetic electron transfer chains, where it carries out tasks as diverse as respiration, photosynthesis, and nitrogen fixation. This homodimeric multisubunit membrane protein has been studied extensively for several decades and the enzyme mechanism is described with the modified protonmotive Q cycle. Still, the molecular and kinetic description of the catalytic cycle is not complete and questions remain regarding the bifurcation of electron transfer at the quinol oxidation (Qo) site, substrate occupancy, pathways of proton conduction, and the nature of the Rieske protein domain movement. We used competitive inhibitors to study the molecular architecture at the Qo site with X-ray crystallography. The structure of the enzyme with the substrate analog 5-n-heptyl-6-hydroxy-4,7-dioxobenzothiazole (HHDBT) bound at the Qo site was determined at 2.5 Å resolution. Spectroscopic studies showed that HHDBT is negatively charged when bound at the active site. Mechanistic interpretations from inhibitor binding are in line with single occupancy model for quinol oxidation and structural analysis supports the proposed proton transfer pathway. For functional insight into the enzyme mechanism, redox-sensitive protonation changes were studied by Fourier transform infrared spectroscopy. The protein purification procedure was optimized for less delipidation and the isolated enzyme was more active. Furthermore, two new phospholipids were identified in the X-ray structures, including a cardiolipin. Strikingly, conserved lipid binding cavities were observed in structural comparison with homologous enzymes. The functional role of tightly bound phospholipids will be discussed. Finally, the Qo site is a target for various compounds of agricultural and pharmaceutical importance. Importantly, the X-ray structures permit detailed analysis of the molecular reasons for acquired resistance to and treatment failure of Qo site inhibitors, such as atovaquone, that is used to treat malaria and pneumonia, as discussed herein.
The cytochrome bc1 complex or ubiquinol:cytochrome c oxidoreductase (QCR) catalyses electron transfer from ubiquinol to cytochrome c in respiration and photosynthesis coupled to a vectorial proton transport across the membrane, in which the enzyme resides. In both bacteria and eukaryotic organisms, QCR participates in supramolecular assembly of membrane proteins that comprise the respiratory or photosynthetic chain. In the present work, proton transfer pathways, substrate binding and the supramolecular assembly of the respiratory chain in yeast were probed by structure-based site-directed mutagenesis and characterization of the variants. Both active sites centre P, the place of quinol oxidation, and centre N, where quinone reduction takes place, lack direct access to the bulk solvent necessary for proton release and uptake. Based on the X-ray structure, proton transfer pathways were postulated. Analysis at centre P showed, that E272 and Y132 of cytochrome b are important for QCR catalysis as indicated by increased superoxide production and lowered Cyc1p reductase activity in these variants. Pre-steady state heme reduction kinetics in combination with stigmatellin resistance indicated that charge and length of the side chain at position 272 are crucial for efficient docking of the ISP to form the enzyme substrate complex and for electron bifurcation at centre P. Variants of Y312 and F129, both residues of cytochrome b, showed an increased Km indicating participation of these residues in coordination of ubiquinol or the possible intermediate semiquinone anion radical. F129 proved to be crucial for a functional Q-cycle as indicated by respiratory negative growth phenotype and a lowered H+/e- stoichiometry of F129 variants. At centre N, the postulated CL/K and E/R proton transfer pathways are located at opposite sites of the bound ubiquinone. Variants in the surface residues R218 (cytochrome b) and E52 (Qcr7) of the E/R pathway and E82 (Qcr7) of the CL/K pathway showed instability upon purification indicating an important role of these residues for QCR integrity. The slowed down centre N reduction kinetics in H85 (CL/K), R218 and N208 (both E/R) variant was attributed to a destabilised semiquinone anion consistent with the observed decreased sensitivity towards the site-specific inhibitor antimycin and an increased Km. Variants of residues of both pathway, E82Q and R218M, exhibited a decreased H+/e- stoichiometry indicating a crucial role of both residue for maintaining a working Q-cycle and supporting the proposed protonation of the substrate via the Cl/K and the E/R pathway. Long-range interaction between centre N and centre P were observed by altered reduction kinetics of the high potential chain and increased superoxide production in the centre N variants. The role of the cation-pi-interaction between F230 of Cyt1p and R19 of cytochrome c in binding of the redox carrier to QCR was analysed. In F230L hydrophobic interaction were partially lost as was deduced from the ionic strength dependence of Cyc1p reductase activity and Cycp1 binding, as detected by ionic strength sensitive Kd and Km for Cyc1p. The decreased enzymatic rate of F230W could be explained by a disturbed binding of Cyc1p to the variant enzyme. F230 may influence the heme mid point potential and thereby the electron transfer rate to Cyc1p. Reduction of Cobp via both centre P and centre N was disturbed suggesting an interaction between high and low potential chain. Supramolecular association between QCR and cytochrome c oxidase (COX) in yeast mitochondria was probed by affinity chromatography of a his-tagged QCR in the presence of the mild detergent digitonin. In comparison to purification with laurylmaltoside, the presence of both QCR and COX subunits was detected in the elution fractions by SDS-PAGE, Cyc1p reductase and TMPD oxidase activity assays and immunoblot analysis. The CL-dependent formation of the supercomplex between QCR and COX was analysed by replacement variants in the CL-binding site of QCR in CL containing and CL free environment. With an increasing number of replacements of the three lysines the CL-binding pocket supercomplex formation was not abolished, when CL is present as shown by BN-PAGE analysis. This was supported by the synergetic decrease in enzyme activity for both enzymes upon increased number of replacements. In the CL-free environment, no supracomplex formation was observed for a wildtype CL binding site. By replacements of two lysines in the CL-binding pocket, supercomplex formation could be recovered as revealed by BN-PAGE. This indicates, that CL may serve as a charge neutralizer for the lysines near the presumed interaction domain between complex III and complex IV. The obtained results for centre P provide new information of residues critical for stabilisation of ubiquinol and controlling electron short circuit reactions. The observations for centre N variants clearly support the proposed two proton transfer pathways and the role of the bound phospholipids in centre N kinetics. Variants in the Cyc1p binding site suggest a role for F230 both in Cyc1p binding and electron transfer. Clear interaction between the high and low potential chain in both Cyt1p and centre N variants strongly support long-range interactions in the complex. Studies on the supramolecular association of complex III and complex IV indicate a new role of Cl in stabilising a supracomplex.
The enzyme quinol:fumarate reductase (QFR) from the anaerobic e-proteobacterium Wolinella succinogenes is part of the anaerobic respiratory system of this organism. It couples the reduction of fumarate to succinate to the oxidation of menaquinol to menaquinone. W. succinogenes uses fumarate as terminal electron acceptor and can use various substrates (e.g., formate or molecular hydrogen) as electron donors. The concerted catalytic substrate turnover of either a hydrogenase or a formate dehydrogenase in conjunction with QFR contributes to the generation of an electrochemical potential gradient across the bacterial plasma membrane, which is used for the phosphorylation of ADP with inorganic phosphate, Pi, to ATP. In addition to an FAD (in subunit A) and three iron-sulfur clusters (in subunit B), QFR binds a low- and a high-potential heme b group in its transmembrane subunit C, as was ultimately shown in the crystal structure at 2.2 Å resolution (Lancaster et al., 1999, Nature 402, 377– 385). Both hemes are part of the electron transport chain between the two catalytic sites of this redox enzyme. The midpoint potentials of the hemes are well established but their assignment to the distal and proximal positions in the structure had not yet been determined. Furthermore, QFR from W. succinogenes has been proposed to exhibit a novel coupling mechanism of transmembrane electron and proton transfer, which has been described in the so-called “E-pathway” hypothesis (Lancaster, 2002, Biochim. Biophys. Acta 1565, 215–231). The aim of this project was to characterize the relationship between structure and function of QFR and to investigate the details of the proposed coupling mechanism (“Epathway”) with the help of computer-based electrostatic calculations on the QFR wild-type (WT) coordinates, and electrochemically induced FTIR and VIS difference spectroscopy on the QFR WT and available variant enzymes (in particular enzyme variant E180Q, in which the glutamic acid at position C180 has been replaced by a glutamine). 1.) It was demonstrated in this study that the diheme-containing QFR exhibits stable and reproducible electrochemically induced FTIR difference bands in the midinfrared range from 1800 cm-1 to 1000 cm-1 that reflect transitions from the reduced to the oxidized state of the enzyme. The spectral features that were observed in the FTIR difference spectra are fully reversible when changing from a reductive to an oxidative reference potential at the working electrode and vice versa. This indicates that the underlying redox reactions of the enzyme at the gold grid working electrode are also fully reversible under the applied experimental conditions. The same reversible spectral redox behavior in the visible range could also be ascertained for the Soret- and a-band of the two heme b groups of QFR. This behavior allowed to reliably determine the heme b midpoint potentials of QFR at various pH values. Analysis of the FTIR difference spectra in the amide I range yields evidence for structural reorganizations of the polypeptide backbone upon the electrochemically induced redox reaction. 2.) The redox titrations of the high- and low-potential heme b of QFR as simulated by multiconformation continuum electrostatics (MCCE) calculations showed a very high level of agreement with respect to the experimentally observed midpoint potentials of the heme b groups at pH 7. As determined with the help of the theoretical calculations, prominent features governing the differences in redox potential between the two hemes are the higher loss of reaction field energy for the proximal heme and the stronger destabilization of the oxidized form of the proximal heme due to several buried and ionized Arg and Lys residues. The explicit incorporation of crystallographically identified water molecules in the calculations had a noticeable effect on the absolute values of the determined midpoint potentials, although the relative difference of the two obtained midpoints did not change significantly. The results of the electrostatic calculations clearly showed that the lowpotential heme corresponds to the distal position bD in the structure, and that the high-potential heme is identical to the proximal heme bP. This assignment could previously not be achieved unequivocally with experimental methods. 3.) In addition, the currently discussed mechanism of coupled electron and proton transfer in the QFR of W. succinogenes (i.e., the “E-pathway” hypothesis) is further supported by the results of this study. The simulations of intermediate states of electron transfer via the heme b groups show that the protonation state of the key amino acid residue Glu C180 depends on the redox states of the heme groups as suggested in the “E-pathway” hypothesis. This result yields a possible mechanism for the coupling of transient transmembrane proton transfer via Glu C180 to the electron transfer via the heme b groups, since Glu C180 could be part of a “proton wire” and its redox-dependent protonation state could serve as the regulatory element of the “E-pathway”. Furthermore, the results of simulated heme reduction indicate that the side chain of Glu C180 also changes its conformation with respect to the redox state of the hemes. Both major results concerning the role of Glu C180, the change of protonation as well as the reorientation of the side chain upon reduction of the heme groups, are consistent with the results from electrochemically induced FTIR difference spectroscopy: Of particular interest was the spectral range above 1710 cm-1, where C=O stretching vibrations of protonated COOH carboxyl groups absorb, because those groups can act as proton donors, respectively acceptors, and can be involved in intra-protein proton transfer reactions. It was possible to observe signals of such protonated carboxyl groups originating from QFR enzyme, which either change their protonation state and/or experience an environmental change in the course of the induced redox reaction. This finding was supported by the fact that the relevant FTIR difference signals are sensitive to an isotopic hydrogen/deuterium (1H/2H) exchange via the buffer solution, since they were shifted towards lower wavenumbers in D2O. Furthermore, it could be shown with the help of site-directed mutagenesis that the acidic residue Glu C180, which is located in the membranespanning, diheme-containing subunit C of QFR, is contributing to the redox dependent signal of protonated carboxyl groups. The observed residual signal in the FTIR double-difference spectrum of QFR wild-type and enzyme variant E180Q (Glu C180 has been replaced with a Gln residue) could be interpreted as a protonation/deprotonation event that is superimposed by an environmental effect on the specific C=O vibration. This result strongly supports the proposed “E-pathway” of coupled transmembrane electron and proton transfer in the QFR enzyme, which states that residue Glu C180 is an essential constituent of a transient redox-controlled transmembrane proton transfer pathway. 4.) As a second possible constituent of the suggested “E-pathway”, the ring C propionate of the distal heme was found to be unusually fully protonated in all simulated redox states, indicating a possible role as a transient proton donor/acceptor in the “E-pathway”. Similarly to Glu C180, experimental evidence from FTIR difference spectroscopy on a modified QFR with 13C-labeled heme propionates was obtained, which indicates an involvement of at least one of the two propionates of heme bD in proton transfer. The observed signals can tentatively be interpreted as a redox-coupled (de)protonation of the ring C propionate of bD, which is possibly xiii superimposed by a conformational or environmental change of the specific propionate. 5.) Also the observation of a strong redox Bohr effect for both heme b groups in QFR is in line with the proposed “E-pathway” hypothesis, as this effect yields a possible and well-established mechanism for the coupling of proton transfer and redox changes of the heme groups. The comparison of the observed effect in QFR WT and E180Q together with the results from FTIR spectroscopy and MCCE calculation indicate that the ring C propionate of the distal heme is dominating the pHdependence of the midpoint potential of bD, and that the corresponding group for bP is Glu C180. The origin of the redox Bohr effect for bP in the enzyme variant E180Q (which is dramatically changed with respect to the WT) could not be identified unequivocally, but the observation of this redox Bohr effect in the variant implies the presence of other protolytic groups, which interact with heme bP and which may be necessary for a functional “E-pathway”.
Die vorliegende Arbeit soll einen Beitrag zur Erforschung der Verarbeitungsmechanismen des Gehirns leisten. Die Erregung des komplexen Systems "Hirn" liefert Antworten, deren Analyse zu einem besseren Verständnis dieser Informationsverarbeitung führt. Zu diesem Zweck wurde das Gehirn mit unterschiedlichen visuellen Stimuli angeregt und die hirnelektrischen Signale gemessen, die von Nervenzellgruppen (Multiunits) im visuellen Kortex der Katze ausgesandt wurden.Die verwendeten Stimuli waren ein Streifenmuster sowie eine Zufallspunktverteilung, deren Kohärenz beliebig geändert werden konnte. Darüber hinaus wurden die Antworten auf eine Vielzahl von Stimuli analysiert, die nur aufgrund des Bewegungskontrastes zwischen punktdefiniertem Objekt und Hintergrund zu erkennen sind (Shape-from-Motion- (SFM-) Stimuli). Die aufgenommenen Daten wurden mit Hilfe einer umfangreichen Signalanalyse untersucht. So wurden in Abhängigkeit von der Stimulusbedingung die Anzahl der Nervenimpulse pro Zeiteinheit (Feuerraten), Synchronisation, Frequenzverteilung sowie Kopplung von Aktionspotenzialen und LFPDaten analysiert. Die Experimente im ersten Teil dieser Arbeit untersuchten den Einfluss von Kohärenz auf die Verarbeitung von Bewegungsinformation im primären visuellen Areal (A17) und im posteromedialen lateralen suprasylvischen Sulcus (Area PMLS) der Katze. Es konnte gezeigt werden, dass Multiunits in A17 und PMLS sowohl auf Streifenmuster als auch auf Zufallspunktverteilungen antworten und dass die Stärke der Antwort als eine Funktion der Stimulusrichtung variiert. Die Vorzugsrichtung ist in beiden Arealen weitgehend unabhängig von der Art des verwendeten Stimulus, was darauf hindeutet, dass die Stimulusrichtung für Streifenmuster und Zufallspunktmuster in diesen Arealen durch einen einheitlichen Mechanismus bestimmt wird. Bei einer Abnahme der Stimuluskohärenz zeigen die Multiunits eine Abnahme der Feuerrate, wobei im Vergleich zu PMLS in A17 eine stärkere Abnahme der Kohärenz nötig ist, um die gleiche Abnahme der Feuerrate zu erreichen. Dieses Ergebnis konnte durch die unterschiedlichen Größen der rezeptiven Felder der beiden Areale erklärt werden und ist ein weiterer Hinweis darauf, dass eine wichtige Funktion von PMLS in der Analyse von Bewegung und räumlich verteilter Information liegt. Da beide Areale keine signifikante Änderungen der Feuerrate bei Inkohärenzniveaus von mehr als 50% zeigten, scheinen sie nicht in der Lage zu sein, die Bewegungsrichtung eines inkohärenten Zufallspunktmusters nahe der psychophysischen Detektionsschwelle von 95% auf der Basis von Feuerraten zu erkennen. Die Korrelation der Aktionspotenziale unterschiedlicher Multiunits zeigte bereits bei einer geringen Abnahme der Stimuluskohärenz eine monotone Verbreiterung des zentralen Maximums in den Korrelogrammen beider Areale. Die Stärke der Synchronisation hingegen war kaum beeinflusst. Darüberhinaus kam es zu einer Verschiebung der Leistung im lokalen Feldpotential (LFP) von hohen hin zu niedrigen Frequenzbereichen. Diese Verschiebung wurde auch für die Kopplung zwischen LFP und Akvi tionspotenzialen nachgewiesen. Diese Resultate unterstützen die Theorie, dass präzise Synchronisation und hochfrequente Oszillationen ein Mechanismus für die Bindung kohärenter Objekte sind. Sie zeigen darüber hinaus, dass Synchronisation auch nicht kohärente Stimuli binden kann und dass die Verschiebung im LFP hin zu niedrigeren Frequenzen wichtig für die Integration verteilter Information über einen größeren visuellen Raum sein kann. Da bei hohen Inkohärenzniveaus keine präzise Synchronisation mehr nachgewiesen werden konnte, kann jedoch auch die Synchronisation nicht als alleiniger Mechanismus zum Erkennen einer Bewegungsrichtung eines inkohärenten Zufallspunktmusters herangezogen werden. In den Experimenten im zweiten Teil dieser Arbeit wurde untersucht, wie das Gehirn SFM-Stimuli verarbeitet. Die Auswertungen der Feuerraten haben gezeigt, dass Multiunits in PMLS sowohl auf helligkeitsdefinierte Kontrastbalken als auch auf SFM-Balken reagieren. Die Stärke der Antwort hängt von der Kombination von Stimulus und Hintergrund und von der relativen Bewegungsrichtung zueinander ab. Während ähnliche Feuerraten für Balken mit hohem Kontrast relativ zum Hintergrund und für punktdefinierte Balken gefunden wurde, die sich über einen dunklen Hintergrund bewegten, führte ein statischer Zufallspunkthintergrund zu einer starken Abnahme der von dem SFM-Balken hervorgerufenen Antwort. Ein in die Gegenrichtung bewegter Hintergrund sowie ein reduziertes Kohärenzniveau des Zufallspunkthintergrundes führten dazu, dass die Multiunits auf den SFM- Balken nicht mehr mit einer Zunahme der Feuerraten reagierten. Um die hemmende Wirkung des Hintergrundes aufzuheben, musste der Hintergrund auf einer Fläche des visuellen Feldes, die der Größe des rezeptiven Feldes entsprach, abgedeckt werden. Dieses Ergebnis zeigt, dass die Feuerraten für diese Art Stimulus nicht wesentlich von Arealen außerhalb des rezeptiven Feldes beeinflusst werden. Zur weiteren Analyse der Fähigkeit von PMLS, SFM-Balken nur aufgrund des Bewegungskontrastes zwischen punktdefiniertem Objekt und Hintergrund zu erkennen, wurde mit Hilfe von zwei Tuningkurven-Stimuli, bei denen sich die Bewegungsrichtung der Punkte innerhalb des Balkens um 90° unterschied, die Vorzugsrichtung der Multiunits bestimmt. Die Auswertung ergab, dass sich die gemessene Vorzugsrichtung der Multiunit um 45° drehte, obwohl sich die Bewegungsrichtung des Balkens selbst nicht änderte. Darüber hinaus wurden verschiedene SFM-Stimuli untersucht, die alle dieselbe Bewegungsrichtung des Balkens, jedoch unterschiedliche Bewegungsrichtungen der Punkte innerhalb des Balkens aufwiesen. Wenn PMLS die Bewegung des SFM-Objekts statt der Bewegung der einzelnen Punkte verarbeitet, sollte die Feuerrate für alle diese Bedingungen identisch sein. Die Ergebnisse zeigen jedoch, dass sich die durch die verschiedenen SFM-Stimuli hervorgerufenen Feuerraten verringerten, je weiter sich die Punkte, die den Balken bildeten, von der Bewegungsrichtung des Balkens – und damit von der Vorzugsrichtung der Multiunit – weg bewegten. Durch dieses Ergebnis konnte gezeigt werden, dass Multiunits in PMLS nicht in der Lage sind, die Richtung von kinetisch definierten Balken zu analysieren und statt dessen nur die Bewegung der einzelnen Komponenten erfassen.
Proton-translocating NADH:ubiquinone oxidoreductase (complex I) transports two electrons from NADH to membranal ubiquinone: in this process protons are translocated across the membrane, producing 40% of the total proton gradient between matrix side and intermembrane space. Mitochondrial complex I contains at least 46 subunits in mammals, and has a molecular weight of around 1000 kDa. Electronic microscopy analysis showed that complex I has an L-form, which consists of two domains: a peripheral “arm” (hydrophilic domain) and a membrane “arm” (hydrophobic domain). The peripheral domain, which protrudes into the matrix, contains one non-covalently bound flavin mononucleotide (FMN) and the iron-sulfur clusters N1a, N1b, N2, N3, N4 and N5 as redox active groups. They transport electrons from NADH to ubiquinone. Cluster N2 is supposed to be the immediate electron donor to ubiquinone by virtue of its highest and pH dependent redox midpoint potential (Em,7 –150 mV). The exact location of the tetra-nuclear cluster N2 is still object of discussion. The TYKY and the PSST subunits contain three binding motifs for tetranuclear clusters which are formed by twelve cysteins. In an effort to investigate the “ubiquinone reduction module” of complex I, in the first part of this work site directed mutagenesis of the TYKY and PSST subunits has been carried out. Mutant strains were characterised in terms of complex I content, catalytic activity and EPR signature of cluster N2. The second part of this work was aimed at developing a substrate inducible version of the internal alternative NADH:ubiquinone oxidoreductase (NDH2i). A substrate inducible NDH2i is expected to offer a “switch” between complex I activity dependent (no NDH2i activity) and independent (NDH2i activity) cell growth, by changing between activating and non-activating substrates. This strategy would allow the screening for two types of complex I mutants, which is a prerequisite for realising a random PCR mutagenesis of single subunits of complex I, that allows the production of a high number of point mutations in relatively short time. Y. lipolytica complex I deficiency mutant strains could be easily identified, by virtue of their inability to survive under complex I dependent growth conditions (no NDH2i activity). By this way, amino acids that have an important role for complex I structure or function could be identified by subsequent sequence analysis. Each of the twelve cysteines that form the above mentioned three binding motifs for iron-sulfur cluster have been mutagenised. In mutant mitochondrial membranes, no assembled complex I could be detected. From these data one may conclude that the mutagenised 6 SUMMARY 92 cysteines play an important role for complex I stability, or that are a prerequisite for complex I assembly in Y. lipolytica, but there is not direct evidence indicating that any of the four mutagenised residues acts as a ligand. Two aspartates in the PSST subunit, Asp-99 and Asp-115, were found to be essential for complex I catalytic activity. EPR spectroscopic analysis indicated that the electron transfer to N2 cluster was not blocked and implied that this was not the reason for the loss of catalytic activity. From these data it can be concluded that D99 and D115 play a vital role for complex I NADH:ubiquinone reductase activity, but are not ligands for cluster N2 and that their position is not close enough to the cluster to influence directly its electromagnetic environment. Three mutations, identified in the PSST and TYKY homologous subunits of patients affected with Leigh syndrome (V119M in PSST, P78L and R101H in TYKY) were reconstructed in the obligate aerobic yeast Y. lipolytica. This approach may help to understand the aetiology of the Leigh syndrome, in terms of the ability of complex I to oxidize NADH and to transport electrons. In fact, all three mutations showed effects on electron transport, reducing the VMax by about 50%. Mutant V119M in the PSST subunit, which had a lethal effect in two patients that were homozygous for this mutation, affects a fully conserved residue. Overall, the results from site directed mutagenesis carried out so far support the theory that the “catalytic core ” (N2 cluster and quinone binding site) of complex I has been evolved from the electron transfer module of the [Ni-Fe] hydrogenases. In fact, mutagenesis of residues that are fully conserved between complex I and [Ni-Fe] hydrogenases, showed dramatic effects on complex I in terms of assembly (cysteine mutants) or catalytic activity (D99-D115). Differently, changing aspartate 174 and glutamic acid 185 (not fully conserved, Fig 4.1A) had little or no effect on the Michaelis-Menten parameters and N2 EPR signal. In recent years Y. lipolytica has been developed as a yeast genetic system to study mitochondrial complex I. The present work introduced the promoter for the isocitrate lyase (pICL1) as a useful tool for the substrate selective expression of the internal version of the alternative NADH:ubiquinone oxidoreductase (pICL1-NDH2i). This allows to rescue complex I deficiencies “in vivo” selectively by growth on acetate (or ethanol) medium. The integration of the pICL1-NDH2i construct into the genome of Y. lipolytica and subsequent deletion of nuclear-coded subunits like PSST, TYKY and 49 kDa, would contribute to further develop this organism as a useful genetic model for studying subunits of mitochondrial complex I by site directed mutagenesis.
Stability, unfolding and refolding of the outer membrane protein porin from Paracoccus denitrificans was investigated using genetic and spectroscopic methods. Structural and functional activity studies on wild type and mutant porins: The site-directed mutants were constructed based on conserved residues and evidences on the role of certain amino acids from previous studies with OmpF. Secondary structure analysis of wild type and mutants E81Q, W74C, E81Q/D148N, E81Q/D148N/W74C by FTIR and CD spectroscopy are in line with the fact that porins are predominantly ß-sheet structure. The functional activity studies by black lipid bilayer techniques showed that the wild type and mutants W74C, E81Q/D148N, E81Q/D148N/W74C have a conductance of 3.25 nS. For mutant E81Q conductance of 1.25nS was more predominant over 3.25 nS. The activity of the mutants was observed to be far less than the wild type. This indicates that structural similarities does not implies similar functional activity. Thermal stability analysis of porin in detergent micelles and reconstituted into liposomes: Thermal stability analysis of wild type and mutants in detergent micelles showed changes in secondary and quaternary structure. It was found that wild type porin unfolds into aggregated structure with a high transition temperature of 86.2 °C. For mutants E81Q, W74C, E81Q/D148N the transition temperature was found to be 84.2 °C, 80.3 °C and 80.2 °C respectively. Functional activity assays at high temperatures revealed that the protein tends to loose its activity on heating up to 50 °C. This shows that structural stability does not imply functionality in the case of porins. Thermal stability analysis of porin reconstituted into liposomes showed that there was no change in the secondary and quaternary structure of the protein up to 100 °C, revealing that the protein becomes more thermostable when it is reconstituted into liposomes. Refolding of aggregated porin: This study shows that disaggregation of ß-sheet membrane protein porin is possible by changing its chemical and thermodynamic parameters. An increase of the solution pH to 12 or above results in opening up of the aggregated protein into unordered structure, as observed by FTIR and CD spectroscopy. This unordered structure could be refolded into native-like structure forming trimers. The secondary structure of the refolded protein deviated slightly from the native one. The thermal stability analysis of the native-like refolded proteins showed that the unfolding pattern is entirely different when compared to the native porins. pH dependent unfolding of porin: Thermal stability of porin at different pH values showed that the protein is stable in a pH range of 1-11. At pH 12 and above the protein unfolds into unordered structure instead of aggregating. The high pH unfolding of porin is a reversible process. The secondary structure of the refolded protein varied slightly from the native-one. Whereas thermal stability was entirely different. This shows that even though the unfolding of porin at high pH is reversible, it results in changes in local interaction between the amino acids resulting in a difference in stability. Unfolding in presence of urea and guanidinium hydrochloride (GuHCl): Denaturation of porin in the presence of chemical denaturants like urea and GuHCl showed that porin unfold into unordered structure. The unfolding is a reversible process. Unfolded protein was refolded into detergent micelles and liposomes. Refolding into detergent micelles was faster compared to refolding into liposomes, as seen by kinetic gel shift assays. The refolding into liposomes showed the presence of intermediates similar to those reported for OmpF. This study shows the difference in thermal stability of the outer membrane protein porin from Paracoccus denitrificans in detergent micelles and native-like liposomes. It suggests various unfolding pathways, which can be further investigated for unfolding and refolding kinetics. This report also suggests that it is possible to refold a heat-aggregated protein.
Dutch nominalised infinitives have been notoriously difficult to analyse, partly because they seem to show mixed verbal and nominal properties interspersed across the structure. In this paper, it is argued that at least two types of such infinitives should be distinguished, one which contains a high level of verbal functional structure, and one that differs at least in not projecting TP. On the basis of this distinction it is possible to show that Dutch nominalised infinitives have much more predictable properties than could previously be identified. They show evidence of conforming to a model of analysing mixed categories in terms of category switch within the constituent. In order to account for the seemingly interspersed nature of nominal and verbal properties in Dutch nominalised infinitives I propose that Dutch of-phrases (van-phrases) may merge inside the VP, provided they have access to nominal functional structure for feature checking. I will show that if D° is filled by a special type of non-deictic demonstratives van-phrases may even occur in SpecDP.