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Respiration is one of the key processes of energy transduction used by the cell. It consists of two components: electron transfer and ATP production. The electron transfer chain converts the energy released from several biochemical redox reactions into an electrochemical proton gradient across membranes. This stored energy is used as the driving force for the production of ATP by the ATP synthase. The mitochondrial electron transfer chain contains four major protein complexes called complexes I-IV, with counting starting at the lower side of the redox potentials. It has been discussed for a long time how these protein complexes are organized in the membranes. Do they diffuse freely in the membrane? Alternatively, do they form a supercomplex built up of several neighboring complexes? The evidence supporting the free diffusion mode is that both electron transfer intermediates (cytochrome c and quinone) behave as “pool”. However, respiratory supercomplexes have been detected in membranes from bacteria, fungi, yeast, plant and animal during the last decade, and sometimes the respiratory complexes are only stable inside a supercomplex. Therefore, the idea of supercomplex formation has become more popular. The argument that the supercomplex arises from solubilization and is a detergent artifact could be rejected because: 1) supercomplexes can be isolated from many organisms in an active form; 2) supercomplexes have been proven to stabilize the individual complexes in some cases; 3) supercomplexes can be very stable after chromatographic isolation in some cases....
Cyclic GMP-dependent protein kinase 1 (PKG1) mediates presynaptic nociceptive long-term potentiation (LTP) in the spinal cord and contributes to inflammatory pain in rodents but the present study revealed opposite effects in the context of neuropathic pain. We used a set of loss-of-function models for in vivo and in vitro studies to address this controversy: peripheral neuron specific deletion (SNS-PKG1-/-), inducible deletion in subsets of neurons (SLICK-PKG1-/-) and redox-dead PKG1 mutants. In contrast to inflammatory pain, SNS-PKG1-/- mice developed stronger neuropathic hyperalgesia associated with an impairment of nerve regeneration, suggesting specific repair functions of PKG1. Although PKG1 accumulated at the site of injury, its activity was lost in the proximal nerve due to a reduction of oxidation-dependent dimerization, which was a consequence of mitochondrial damage in injured axons. In vitro, PKG1 deficiency or its redox-insensitivity resulted in enhanced outgrowth and reduction of growth cone collapse in response to redox signals, which presented as oxidative hotspots in growing cones. At the molecular level, PKG1 deficiency caused a depletion of phosphorylated cofilin, which is essential for growth cone collapse and guidance. Hence, redox-mediated guidance required PKG1 and consequently, its deficiency in vivo resulted in defective repair and enhanced neuropathic pain after nerve injury. PKG1-dependent repair functions will outweigh its signaling functions in spinal nociceptive LTP, so that inhibition of PKG1 is no option for neuropathic pain.
Drug product performance testing is an important part of quality-by-design approaches, but this process often lacks the underlying mechanistic understanding of the complex interactions between the disintegration and dissolution processes involved. Whereas a recent draft guideline by the US Food and Drug Administration (FDA) has allowed the replacement of dissolution testing with disintegration testing, the mentioned criteria are not globally accepted. This study provides scientific justification for using disintegration testing rather than dissolution testing as a quality control method for certain immediate release (IR) formulations. A mechanistic approach, which is beyond the current FDA criteria, is presented. Dissolution testing via United States Pharmacopeial Convention Apparatus II at various paddle speeds was performed for immediate and extended release formulations of metronidazole. Dissolution profile fitting via DDSolver and dissolution profile predictions via DDDPlus™ were performed. The results showed that Fickian diffusion and drug particle properties (DPP) were responsible for the dissolution of the IR tablets, and that formulation factors (eg, coning) impacted dissolution only at lower rotation speeds. Dissolution was completely formulation controlled if extended release tablets were tested and DPP were not important. To demonstrate that disintegration is the most important dosage form attribute when dissolution is DPP controlled, disintegration, intrinsic dissolution and dissolution testing were performed in conventional and disintegration impacting media (DIM). Tablet disintegration was affected by DIM and model fitting to the Korsmeyer–Peppas equation showed a growing effect of the formulation in DIM. DDDPlus was able to predict tablet dissolution and the intrinsic dissolution profiles in conventional media and DIM. The study showed that disintegration has to occur before DPP-dependent dissolution can happen. The study suggests that disintegration can be used as performance test of rapidly disintegrating tablets beyond the FDA criteria. The scientific criteria and justification is that dissolution has to be DPP dependent, originated from active pharmaceutical ingredient characteristics and formulations factors have to be negligible.
Background: Archaeal membranes have phytanyl ether lipids instead of common fatty acid-glycerol esters in bacterial and eukaryotic cells. Sulfolobus and Thermoplasma species have unique membrane-spanning tetraether lipids (TEL), which form stable liposomes. Recently, we cultured Thermoplasma species from the Indonesian volcano Tangkuban Perahu and isolated TEL. The purpose of this in vitro study is to investigate the transfer of fluorescent dye from stable TEL liposomes to cultured colon carcinoma cells.
Methods: TEL was extracted from cultured cells with chloroform-methanol (1:1), then it was fractionated and purified via diethylaminoethyl-cellulose-acetate columns and activated charcoal for the formation of stable liposomes. For the fluorescence exchange assay, TEL liposomes were loaded with water-soluble carboxyfluorescein (CF). Staining experiments were conducted with various cell cultures, and T84 colon carcinoma cells were chosen for the main experiments. Liposome stability was tested by light scattering and electron microscopic size determinations as well as by unspecific CF release at low pH (6.0–7.4) and increased temperature (4–50°C/70°C).
Results: TEL liposomes exhibit high stability and extremely low proton permeability at low pH. CF staining of cultured T84 colon carcinoma cells appeares more intensive from TEL liposomes than from dipalmitoylphosphatidylcholine liposomes.
Conclusion: The results of this in vitro study demonstrate CF staining of colon carcinoma cells and high stability of TEL liposomes at low pH, matching the condition in the gastro-intestinal (GI) route and in the urogentital (UG) tract. For this reason, in vivo studies on liposomal fluorescent photosensitizers for topical application of photodynamic cancer therapy in the GI and UG tracts should be carried out.
Biophysical studies of the translation-regulating add adenine riboswitch from Vibrio vulnificus
(2017)
Bacterial gene expression can be regulated at mRNA level by cis-acting mRNA elements termed riboswitches. Riboswitches operate by conformational switching between a ligand-free and a ligand-bound state with different structures that either activate or inhibit gene expression. This PhD thesis contributes to the molecular level understanding of full-length purine riboswitches. It presents biophysical investigations on the ligand-dependent folding of the full-length translation-regulating add adenine riboswitch from the gram-negative human pathogenic marine bacterium Vibrio vulnificus (Asw). Asw has the typical bipartite riboswitch architecture with a 5’ ligand-sensing aptamer domain and a 3’ regulatory domain termed expression platform. According to the working hypothesis, Asw employs a unique thermodynamically-controlled 3-state conformational switching mechanism between an apoB, an apoA and a holo conformation to regulate translation initiation in a temperature-compensated manner. The two apo conformations are the putative translation-OFF states and the holo conformation is the putative translation-ON state of Asw. In the main project of this PhD thesis, an integrated nuclear magnetic resonance (NMR) and smFRET spectroscopic study of the full-length 112-nucleotide Asw (112Asw) was performed. The adenine-dependent folding of 112Asw was monitored at the level of base pairing interactions by NMR of the RNA imino protons, and at the level of three long-range intramolecular distances by smFRET of immobilized molecules. The integrated NMR and smFRET spectroscopic study of 112Asw yielded two major findings. First, NMR and smFRET both revealed that adenine binding to 112Asw impedes apoB formation by stabilizing the apoA secondary structure in the holo conformation without modulating tertiary structural interactions between the two riboswitch domains. This highlights the central role of competitive P1 and P4 helix formation at the interface of the aptamer and the expression platform for switching the accessibility of the ribosome binding site of 112Asw. Moreover, it strongly corroborates the hypothesis that purine riboswitches in general operate according to the key principle of a spatially decoupled secondary structural allosteric switch that proceeds without ligand-induced tertiary structural interactions between the aptamer domain and the expression platform. Second, it was uncovered by smFRET that the apoA and the holo conformation of 112Asw do not adopt a single folding state at near-physiological Mg2+ concentration. Instead, apoA and holo exhibit a persistent dynamic equilibrium between substates with an undocked (U), a short-lived docked (D1; ~s) and a Mg2+-bound long-lived docked (D2; ~10 s) aptamer kissing loop motif. In the holo conformation, the fractional population of the long-lived docked substate is ~2-fold increased compared to the apoA conformation, but undocked and docked substates are still comparably stable. The here described multiple folding states of the apoA and the holo conformation might have regulatory properties that are in between the apoB translation-OFF state and the holo-D2 translation-ON state. Additonally, an integrated NMR and smFRET analysis of 127-nucleotide Asw (127Asw) is presented. Compared to 112Asw, 127Asw is 3’-elongated by 15 nucleotides of the adenosine deaminase encoding sequence of the add gene from Vibrio vulnificus. 127Asw was chosen as mRNA template for future investigations of the interaction between Asw and the 30S ribosomal subunit. The NMR spectra of 127Asw demonstrated that 127Asw has the same overall secondary structure as 112Asw. Like for 112Asw, the combined NMR and smFRET analysis of 127Asw showed that adenine binding impedes apoB formation and stabilizes a long-lived docked aptamer kissing loop fold. However, compared to 112Asw, 127Asw has a destabilized aptamer kissing loop motif and a stabilized P4 helix in the expression platform. Finally, ligand-observed studies of the transient encounter complex between Asw and the near-cognate ligand hypoxanthine are described. By competition binding WaterLOGSY NMR experiments with hypoxanthine and the adenine analogue 2,6-diaminopurine, it could be shown that hypoxanthine binds to the same binding site of 112Asw as the cognate ligand adenine. The hypoxanthine binding constant measured with the WaterLOGSY method is in the low mM range (1.8 mM) and substantially exceeds the physiological hypoxanthine concentration in E. coli (~0.3 mM), thus ruling out that hypoxanthine binding can significantly impact the translational regulation of Asw in vivo. Also, preliminary FTIR difference spectra of 13C,15N-labelled and unlabelled hypoxanthine in complex with the pbuE adenine riboswitch aptamer and the xpt guanine riboswitch aptamer are discussed. These spectra showed a pattern of multiple IR bands that appeared to be characteristic for the respective complex.
Wir erleben eine enorme Beschleunigung, besonders im Berufsleben. Unser Alltag ist überfrachtet von Dringlichem und Deadlines. Und dann mit über 60 folgt der Ausstieg aus dem ausgefüllten, für manche erfüllten Berufsleben: Welche Risiken birgt dieser Übergang? Dazu der Sozialpsychologe Prof. Rolf Haubl (65) im Gespräch mit Ulrike Jaspers (60).
Verschlafen? Ausgeschlafen!
(2017)
Robert Anton ist zuständig für die Pflege und Entwicklung der Außenanlagen aller Campi der Universität und Technischer Leiter des Wissenschaftsgartens am Riedberg. Mit seinem Team sorgt er nicht nur dafür, dass die Grünanlagen schön aussehen, sondern er stellt auch Pflanzen für Vorlesungen und Praktika bereit, unterstützt die Wissenschaftler bei Freilandversuchen und bildet Gärtner aus. Diese Aufgaben füllen seine Zeit aus. Sein oberster Taktgeber ist dabei der Rhythmus der Natur. An diesem Wintertag hat er deswegen auch Zeit, sich mit mir zu unterhalten. "Im Winter geht alles etwas geruhsamer. Da räumen wir auf, spülen Blumentöpfe und bereiten die Aussaat im Frühling vor." ...
Lässt sich eine dominierende Zeitvorstellung für unsere Epoche ausmachen? Ist die moderne Unruhe eine neue Unruhe? Solche Fragen gehören zu den zentralen Themen von Christoph Cornelißen, Professor für Neueste Geschichte an der Goethe-Universität, dessen Forschungsschwerpunkte Historiografie-Geschichte und die Geschichte der Erinnerungskulturen einschließen.
Kernarbeitszeit oder Überstunden – solche Begriffe tauchen heute in Arbeitsverträgen kaum noch auf. Ist ein Problem zu lösen, dann geschieht das eben auch nachts oder am Wochenende. 84 Prozent der Arbeitnehmer sind mit ihrem Smartphone auch außerhalb der Arbeitszeit im Standby-Modus. Flexible Arbeitszeiten und individualisierte Arbeitsmodelle bringen zwar dem Einzelnen mehr Freiheiten, um den Alltag seinen Lebensumständen anzupassen, führen aber auch zur Entgrenzung der Arbeit, nicht selten mit gravierenden sozialen und besonders gesundheitlichen Folgen.
Leuchtend Licht und liebliches Leben : über Zeit und Glück bei Walter Benjamin und Marcel Proust
(2017)
Wenn das menschliche Leben der Vergänglichkeit unterworfen ist, wie kann der Mensch dann Glück erfahren? Für Walter Benjamin offenbart sich Glück nur in kurzen Momenten als eine Erlösung von der linear fortschreitenden Zeit, und das geschieht in der Begegnung mit der Kunst. Marcel Proust sucht das Glück in der wiedergefundenen Zeit der Erinnerung – auch dies bleiben Erfahrungen des Augenblicks.
Die Blockchain hält nicht nur Banken, Börsen und ihre Aufseher in Atem. Auch Wissenschaftler der Goethe-Universität sind ganz vorne dabei, wenn es um diese neue Technologie und andere Varianten der Distributed-Ledger-Technologie geht. Zu deren vielfältigen Verheißungen zählt die Abwicklung von Geld- und Handelsgeschäften nahezu in Echtzeit.
Was Du heute kannst besorgen, das verschiebe nicht auf morgen: Dieser sprichwörtliche Rat kommt nicht von ungefähr. Viele von uns schieben oft wochenlang eine Aufgabe vor sich her – häufig mit schlechtem Gewissen. Doch woher kommt das ewige Aufschieben eigentlich? Wer ist davon betroffen? Und was kann man dagegen tun?
Dringlichkeiten geben häufig den Takt im Alltag vor. Denn Wettbewerbsdruck und damit verbundene Beschleunigung verändern nicht nur die Arbeitswelt, sondern auch den Familienalltag und die individuelle Lebensführung. Doch weshalb gewinnen im Umgang mit der Zeit Kriterien der Effizienz und "Rendite" so leicht an Bedeutung? Offenbar wird es keineswegs nur als leidvoll erlebt, sich daran anzupassen.
Also, ich bleibe gern an roten Fußgängerampeln stehen – auch wenn kein Auto kommt. Das kurze Innehalten tut mir gut. Seit ich meiner Tochter vor einiger Zeit aus meinem zerfledderten Momo-Band vorgelesen habe, muss ich dabei zuweilen an Momos Weg zu Meister Hora denken: Zusammen mit der Schildkröte Kassiopeia bringt sie sich langsam, Schritt für Schritt, in Sicherheit vor den "grauen Herren"...
Jede Zeitnische will ausgefüllt sein mit Chatten, Spielen oder E-Mails-Abrufen. Zeit, die für das Innehalten und Durchatmen fehlt. Bestimmen die digitalen Medien unser Leben, begeben wir uns wie Geiseln in ihre Abhängigkeit? Oder ist es umgekehrt: Können wir überhaupt erst mit ihrer Hilfe ein selbstbestimmteres Leben führen?
Sie rast, sie schleicht, sie fließt, sie tröpfelt: Obwohl der Tag immer 24 Stunden hat, nehmen wir die Zeit sehr unterschiedlich wahr. In der Kindheit tickt die innere Uhr anders als in der Rushhour des Lebens oder kurz vor dem Tod. Aber nicht nur das Alter spielt eine Rolle, sondern viele weitere Faktoren beeinflussen unser Zeitempfinden.