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In großer Regelmäßigkeit beschäftigt das Bundesverfassungsgericht die Kollision zwischen der Meinungsfreiheit und dem Ehrschutz. Nicht zuletzt dieser Umstand hat dazu geführt, dass das Gericht mittlerweile eine ganze Fülle an dogmatischen Strukturen und Abwägungstopoi für diesen Bereich entwickelt hat. Angesichts der fragmentarischen Struktur des Grundgesetzes, wirft dies die Frage auf, welche Überlegungen und Annahmen das Gericht bei diesem Vorgang angeleitet haben. Dieser Frage will der Aufsatz durch eine verfassungs- und grundrechtstheoretische Analyse der Entscheidungsstruktur nachgehen.
Als der oströmische Kaiser Theodosius II. in den Jahren 429 bis 438 nach Christus eine umfassende Rechtssammlung in Auftrag gab, rechnete er sicher damit, dass er eine schwierige Aufgabe in Angriff nahm. Das Recht – einst ein, wenn nicht das effektivste Herrschaftsinstrument des Imperium Romanum – hatte seine Wirkungsmacht weitgehend eingebüßt. Die Rechtsquellen waren unzugänglich oder unbekannt geworden und uneinheitlich in ihrem Geltungsanspruch. Sie hatten mit der administrativen Teilung des Reichs in Ost- und Westrom zumindest die Hälfte ihres Geltungsradius eingebüßt. Die zwei privaten Rechtssammlungen von Kaisergesetzen aus der Zeit Diokletians, der Codex Gregorianus und der Codex Hermogenianus, die aus dem letzten Jahrzehnt des dritten Jahrhunderts datieren, waren veraltet und ergänzungsbedürftig. ...
Peter Oestmann unterscheidet in seiner Intervention drei Arten der Rechtsgeschichtsschreibung, die er Normen-, Wissenschafts- und Praxisgeschichte nennt. Als bekennender Vertreter der letzten Kategorie setzt er sich für deren Emanzipation von der rechtsdogmatischen "Normenkontrolle" ein. Er bezeichnet es als "unfair, wenn Vertreter der Normengeschichte erwarten, diejenigen, die sich mit der Rechtspraxis beschäftigen, müssten im gleichen Maße die Rechtsliteratur und normative Quellen in ihre Untersuchungen einbeziehen wie andere Rechtshistoriker auch" (8). Zugleich bricht er eine Lanze für die "erheblich unjuristischere" Rechtsgeschichte der Praxis (ebd.). Wir pflichten diesem Anliegen vorbehaltlos bei. Zugleich beobachten wir, dass Oestmanns Kritik an Grundlagen des rechtshistorischen Selbstverständnisses rührt, die zur Diskussion zu stellen im deutschsprachigen Raum erfahrungsgemäß schwer fällt. Auch bleibt Oestmann zu oft in den Kategorien des von ihm Kritisierten befangen. Unsere Replik setzt sich mit den historischen Ursachen dieses strukturellen Unbehagens in der Rechtsgeschichte auseinander.
Reconstructing Oligocene–Miocene paleoelevation contributes to our understanding of the evolutionary history of the European Alps and sheds light on geodynamic and Earth surface processes involved in the development of Alpine topography. Despite being one of the most intensively explored mountain ranges worldwide, constraints on the elevation history of the European Alps remain scarce. Here we present stable and clumped isotope measurements to provide a new paleoelevation estimate for the mid-Miocene (∼14.5 Ma) European Central Alps. We apply stable isotope δ–δ paleoaltimetry to near-sea-level pedogenic carbonate oxygen isotope (δ18O) records from the Northern Alpine Foreland Basin (Swiss Molasse Basin) and high-Alpine phyllosilicate hydrogen isotope (δD) records from the Simplon Fault Zone (Swiss Alps). We further explore Miocene paleoclimate and paleoenvironmental conditions in the Swiss Molasse Basin through carbonate stable (δ18O, δ13C) and clumped (Δ47) isotope data from three foreland basin sections in different alluvial megafan settings (proximal, mid-fan, and distal). Combined pedogenic carbonate δ18O values and Δ47 temperatures (30±5 ∘C) yield a near-sea-level precipitation δ18Ow value of ‰ and, in conjunction with the high-Alpine phyllosilicate δD value of ‰, suggest that the region surrounding the Simplon Fault Zone attained surface elevations of >4000 m no later than the mid-Miocene. Our near-sea-level δ18Ow estimate is supported by paleoclimate (iGCM ECHAM5-wiso) modeled δ18O values, which vary between −4.2 ‰ and −7.6 ‰ for the Northern Alpine Foreland Basin.
Reconstructing Oligocene-Miocene paleoelevation contributes to our understanding of the evolutionary history of the European Alps and sheds light on geodynamic and Earth’s surface processes involved in the development of Alpine topography. Despite being one of the most intensively explored mountain ranges worldwide, constraints on the elevation history of the European Alps, however, remain scarce. Here we present stable and clumped isotope geochemistry 15 measurements to provide a new paleoelevation estimate for the mid-Miocene (~14.5 Ma) European Central Alps. We apply stable isotope δ-δ paleoaltimetry on near sea level pedogenic carbonate oxygen isotope (δ18O) records from the Northern Alpine Foreland Basin (Swiss Molasse Basin) and high-Alpine phyllosilicate hydrogen isotope (δD) records from the Simplon Fault Zone (Swiss Alps). We further explore Miocene paleoclimate and paleoenvironmental conditions in the Swiss Molasse Basin through carbonate stable (δ18O, δ13C) and clumped (Δ47) isotope data from three foreland basin sections in different 20 alluvial megafan settings (proximal, mid-fan, and distal). Combined pedogenic carbonate δ18O values and Δ47 temperatures (30 ± 5°C) yield a near sea level precipitation δ18Ow value of -5.8 ± 0.2‰ and in conjunction with the high-Alpine phyllosilicate δD record suggest that the region surrounding the SFZ attained surface elevations of >4000 m no later than the mid-Miocene. Our near sea level δ18Ow estimate is supported by paleoclimate (iGCM Echam5-wiso) modeled δ18O values, which vary between -4.2 and -7.6‰ for the Northern Alpine Foreland Basin.
Pulsed electron-electron double resonance (PELDOR) is a pulsed EPR method that can reliably and precisely provide structural information regarding duplex RNAs and DNAs by measuring long-range distances (1.5-7 nm) utilizing distance-dependent magnetic dipole-dipole interaction between two nitroxide spin labels. In this thesis the application field of PELDOR spectroscopy has been expanded. For the first time the global architecture of tertiary folded RNA has been mapped in vitro. Moreover, the first application of PELDOR for determining structural aspects of RNA and DNA molecules inside cells has been presented. RNA has the central role in cellular processes and gene regulation. It can adopt complex three dimensional structures, which in combination with its conformational dynamics is essential for its function as biological catalyst, structural scaffold and regulator of gene expression. Riboswitches are cis-acting RNA segments that modulate gene expression by direct binding of small molecules with high affinity and specificity. Neomycin-responsive riboswitch is an engineered riboswitch developed by combination of in vitro selection and in vivo screening. Upon insertion into the 5‟ untranslated region of mRNA and binding the cognate ligand it is able to inhibit translational initiation in yeast. Using enzymatic probing the secondary structure had been postulated comprising global stem-loop architecture with a terminal and an internal loop. In the first part of this thesis, the global conformational arrangement of this 27 nucleotides long RNA element has been studied by means of site-directed spin labeling and PELDOR spectroscopy. Spin-labeled neomycin-responsive riboswitch mutants were synthesized via a Sonogashira cross-coupling reaction between 5-membered pyrroline ring based nitroxide radical (TPA) and 5-iodo-uridine. The labeling positions were chosen outside of the binding pocket and UV melting curves revealed that spin-labeling neither disturbs the secondary structure nor interferes with ligand binding. Efficient ligand binding was proven by thermal stabilization of 20.3±3.3 oC upon addition of neomycin, as well as by cw EPR spectra. PELDOR time traces with long observation time windows and with good signal to noise ratio and modulation depth were recorded for all double-labeled samples allowing a reliable data analysis. The fact that there were no shifts in the measured distances upon addition of neomycin implied the existence of a prearranged tertiary structure of the neomycin-sensing riboswitch without a significant global conformational change induced by ligand binding. Measured distances were in very good agreement with the NMR structure of the ligand-bound state of the riboswitch indicating the intrinsic propensity of the global RNA architecture toward its energetically favored ligand-bound form at low temperature. The results harvested in this work represent the first application of PELDOR for mapping the global structure of a tertiary folded RNA. In the second part of this thesis the possibility of applying PELDOR on nucleic acids (NAs) in cellular environment has been investigated. It was shown before that global NA structure depends on matrix conditions, such as concentration of ions and small molecules, molecular crowding, viscosity and interactions with proteins. Therefore, PELDOR spectroscopy on a double-labeled 12-base pair DNA duplex, the 14-mer cUUCGg tetraloop hairpin RNA and the 27-mer neomycin-sensing riboswitch has been used to obtain long-range distance constraints on such systems in Xenopus laevis oocytes and to compare them with in vitro measurements. The reduced lifetime of nitroxide spin labels under cellular conditions has been a major challenge in these measurements. Investigation of nitroxide reduction kinetics in-cell has revealed that the 5-membered pyrrolidine and pyrroline rings are significantly slower reduced compared to 6-membered piperidine ring based nitroxides. Due to prolonged lifetime of the TPA nitroxides covalently attached to NA molecules PELDOR signals could be measured with good signal-to-noise ratios up to 70 minutes of incubation time. The partial loss of coupled spin labels due to nitroxide reduction only led to a decrease in the modulation depth upon increasing the incubation time. No alterations in the measured distances between in vitro and in-cell experiments implies the existence of stable overall conformations of the 14-mer cUUCGg tetraloop hairpin RNA and the 27-mer neomycin-sensing riboswitch, whereas the 12-bp duplex DNA experiences stacking in-cell but retaining the secondary structure. Thus, for the first time nanometer distance measurements were performed inside cells, clearly laying a foundation for the application of PELDOR spectroscopy to study biological processes in cells, such as diffusion, interaction with proteins and other factors or chemical reactions.
n this paper we compute the optimal tax and education policy transition in an economy where progressive taxes provide social insurance against idiosyncratic wage risk, but distort the education decision of households. Optimally chosen tertiary education subsidies mitigate these distortions. We highlight the importance of two different channels through which academic talent is transmitted across generations (persistence of innate ability vs. the impact of parental education) for the optimal design of these policies and model different forms of labor as imperfect substitutes, thereby generating general equilibrium feedback effects from policies to relative wages of skilled and unskilled workers. We show that subsidizing higher education has important redistributive benefits, by shrinking the college wage premium in general equilibrium. We also argue that a full characterization of the transition path is crucial for policy evaluation. We find that optimal education policies are always characterized by generous tuition subsidies, but the optimal degree of income tax progressivity depends crucially on whether transitional costs of policies are explicitly taken into account and how strongly the college premium responds to policy changes in general equilibrium.
We characterize the optimal linear tax on capital in an Overlapping Generations model with two period lived households facing uninsurable idiosyncratic labor income risk. The Ramsey government internalizes the general equilibrium feedback of private precautionary saving. For logarithmic utility our full analytical solution of the Ramsey problem shows that the optimal aggregate saving rate is independent of income risk. The optimal time-invariant tax on capital is increasing in income risk. Its sign depends on the extent of risk and on the Pareto weight of future generations. If the Ramsey tax rate that maximizes steady state utility is positive, then implementing this tax rate permanently generates a Pareto-improving transition even if the initial equilibrium is dynamically efficient. We generalize our results to Epstein-Zin-Weil utility and show that the optimal steady state saving rate is increasing in income risk if and only if the intertemporal elasticity of substitution is smaller than 1.
We characterize the optimal linear tax on capital in an Overlapping Generations model with two period lived households facing uninsurable idiosyncratic labor income risk. The Ramsey government internalizes the general equilibrium effects of private precautionary saving on factor prices and taxes capital unless the weight on future generations in the social welfare function is sufficiently high. For logarithmic utility a complete analytical solution of the Ramsey problem exhibits an optimal aggregate saving rate that is independent of income risk, whereas the optimal time-invariant tax on capital implementing this saving rate is increasing in income risk. The optimal saving rate is constant along the transition and its sign depends on the magnitude of risk and on the Pareto weight of future generations. If the Ramsey tax rate that maximizes steady state utility is positive, then implementing this tax rate permanently induces a Pareto-improving transition even if the initial equilibrium capital stock is below the golden rule.
This paper characterizes the stationary equilibrium of a continuous-time neoclassical production economy with capital accumulation in which households can insure against idiosyncratic income risk through long-term insurance contracts. Insurance companies operating in perfectly competitive markets can commit to future contractual obligations, whereas households cannot. For the case in which household labor productivity takes two values, one of which is zero, and where households have logutility we provide a complete analytical characterization of the optimal consumption insurance contract, the stationary consumption distribution and the equilibrium aggregate capital stock and interest rate. Under parameter restrictions, there is a unique stationary equilibrium with partial consumption insurance and a stationary consumption distribution that takes a truncated Pareto form. The unique equilibrium interest rate (capital stock) is strictly decreasing (increasing) in income risk. The paper provides an analytically tractable alternative to the standard incomplete markets general equilibrium model developed in Aiyagari (1994) by retaining its physical structure, but substituting the assumed incomplete asset markets structure with one in which limits to consumption insurance emerge endogenously, as in Krueger and Uhlig (2006).