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In Eurotransplant kidney allocation system (ETKAS), candidates can be considered unlimitedly for repeated re‐transplantation. Data on outcome and benefit are indeterminate. We performed a retrospective 15‐year patient and graft outcome data analysis from 1464 recipients of a third or fourth or higher sequential deceased donor renal transplantation (DDRT) from 42 transplant centers. Repeated re‐DDRT recipients were younger (mean 43.0 vs. 50.2 years) compared to first DDRT recipients. They received grafts with more favorable HLA matches (89.0% vs. 84.5%) but thereby no statistically significant improvement of patient and graft outcome was found as comparatively demonstrated in 1st DDRT. In the multivariate modeling accounting for confounding factors, mortality and graft loss after 3rd and ≥4th DDRT (P < 0.001 each) and death with functioning graft (DwFG) after 3rd DDRT (P = 0.001) were higher as compared to 1st DDRT. The incidence of primary nonfunction (PNF) was also significantly higher in re‐DDRT (12.7%) than in 1st DDRT (7.1%; P < 0.001). Facing organ shortage, increasing waiting time, and considerable mortality on dialysis, we question the current policy of repeated re‐DDRT. The data from this survey propose better HLA matching in first DDRT and second DDRT and careful selection of candidates, especially for ≥4th DDRT.
Over the last decade, cryo-EM has developed exponentially due to improvements in both hardware (“machine”-based) and software (“algorithm”-based). These improvements have pushed the best achievable resolutions closer to atomic level, bridging “gaps” not covered by other biophysical techniques, and allowing more difficult biological questions to be addressed. Thus, this PhD project was designed and constructed to apply cryo-EM to answer biological questions, while allowing simultaneous cryo-EM method development.
The biological focus of this research is pentameric ligand-gated ion channels (pLGICs), specifically the serotonin receptor type-3 receptor (5HT3R), which also belongs to the Cys-loop receptor family. 5HT3R plays an important role in fast synaptic signal transduction in response to agonist and antagonist binding. Binding to its native ligand results in opening of the channel at the transmembrane domain, allowing cations to pass through, resulting in membrane depolarization and conversion of the chemical signal into an electrical one.
This work consisted mainly of two specific aims. One was focused on conformational investigation of 5HT3R in its ligand-bound open conformation, using cryo-electron microscopy (cryo-SPA), in order to understand the gating mechanism upon ligand activation. The other one was to combine SPA with cryo-ET and STA to push the resolution limitation of conventional cryo-ET and STA workflows.
In the end, three different cryo-EM conformations of membrane-embedded 5HT3R were resolved using cryo-SPA, two structures in resting closed forms, one C5-symmetric and one C1-asymmetric, and one serotonin-bound open form. These three structures presented a number of novel features related to the transition of the receptor to its ion-conductive state. Specifically, the serotonin-bound receptor shows asymmetric opening, which was speculated to occur via an intermediate asymmetric Apo state. In addition to the cryo-SPA work, application of cryo-ET and STA to the study of 5HT3R in native vesicles is described in this thesis. Additional work on methods development, focused on combining SPA and STA techniques, along with preliminary results on tobacco mosaic virus are also detailed and discussed.
Moreover, previously unreported asymmetric arrangements of the subunits of the homopentameric 5HT3R around the pore axis were revealed. The asymmetric open state is stabilized by phospholipids inserted at the interface between subunits, at a site well-documented for the binding of allosteric pLGIC modulators. These results not only give structural support to a large body of functional data on the effects of lipids on the function of this receptor family, but also provide structural guidance for future studies in this field. Meanwhile, the SPA-STA combined methods developed during the course of this work have the potential to help resolve higher resolution tomography-based structures, which would benefit researchers seeking to do in-situ-based structural studies.
The main goal of this work was to create a network environment for the Unity Engine project StolperwegeVR, developed by the Text Technology Lab of Goethe University, in which you will be able to annotate one to several documents in a group. For this, basic network utils like seeing other users or moving objects had to be implemented which had to be easy to use and work with in the future.
This Dissertation deals with the development of FAIR-relevant X-ray diagnostics based on the interaction of lasers and particle beams with matter. The associated experimental methods are supposed to be employed in the HIHEX-experiments in the HHT-cave of the GSI Helmholtz Center for Heavy-Ion Research GmbH (GSI) in Phase-0 and in the APPA-cave at the Facility for Antiproton and Ion Research in Darmstadt, Germany.
Diagnostic of high aerial density targets that will be used in FAIR experiments demands intense and highly penetrating X-ray sources. Laser generated well-directe relativistic electron beams that interact with high Z materials is an excellent tool for generation of short-pulse high luminous sources of MeV-gammas.
In pilot experiments carried out at the PHELIX laser system, GSI Darmstadt, relativistic electrons were produced in a long scale plasma of near critical electron density (NCD) by the mechanism of the direct laser acceleration (DLA). Low density polymer foam layers preionised by a well-defined nanosecond laser pulse were used as NCD targets. The analysis of the measured electron spectra showed up to 10- fold increase of the electron "temperature" from T_Hot = 1–2 MeV, measured for the case of the interaction of 1–2 ×10^19 Wcm^(−2) ps-laser pulse with a planar foil, up to 14 MeV for the case when the relativistic laser pulse propagates through the by a ns-pulse preionised foam layer. In this case, up to 80–90 MeV electron energy was registered. An increase of the electron energy was accompanied by a strong increase of the number of relativistic electrons and well-defined directionality of the relativistic electron beam measured to be (12 ±1)° (FWHM). This directionality increases the gamma flux on target by far compared to the soft X-ray sources.
Additionally to laser based active diagnostics, passive techniques involving inherent X-ray fluorescence radiation of projectile and target emitted during heavy-ion target interaction can be used to measure the ion beam distribution on shot. This information is of great importance, since the target size is chosen to be smaller than the beam focus in order to ensure homogeneous heating of the HIHEX-target by the ion beam. High amounts of parasitic radiation and activation of experimental equipment is expected for experiments at the APPA-cave. For this reason, all electronic devices must be placed at a safe distance to the target chamber. In order to transport the signal over a large distance, the X-ray image of the target irradiated by heavy-ions has to be converted into an optical one.
For these purposes, the X-ray Conversion to Optical radiation and Transport (XCOT)-system was developed in the frame of a BMBF-project and commissioned in two beamtimes at the UNILAC, GSI during this work.
In experiments, we observed intense radiation of target atoms (K-shell transitions in Cu at 8–8.3 keV and L-shell transition in Ta) ionised in collisions with heavy ions as well as Doppler-shifted L-shell transitions of Au-projectiles passing through targets. This radiation can be used for monochromatic (dispersive elements like bent crystals) or polychromatic (pinhole) 2D X-ray mapping of the ion beam intensity distribution in the interaction region during the beam-target interaction. We measured the efficiency of the X-ray photon production depending on the target thickness and the number of ions passing through the target. The spatial resolution of the XCOT-system based on the multi-pinhole camera was measured to be (91±17) μm for the image magnification factor M = 2. It was considerably improved by application of a toroidally bent quartz crystal and reached 30 μm at M = 6. This resolution is optimal to image the distribution of a 1mm in diameter ion beam. As next step, the XCOT-system will be tested during the SIS18 beam-time at the HHT-experimental area.
Confinement measures during the COVID-19 pandemic have caused substantial reductions in global physical activity (PA) levels. In view of the manifold health benefits of PA, the development of interventions counteracting this trend is paramount. Our survey with 15,261 participants (38 ± 15 years, 58.5% females) examined preferences towards digital home exercise programs in 14 countries affected by COVID-19. More than two-thirds of the sample (68.4%, n = 10,433) indicated being interested in home exercise, and most participants were willing to work out at least three times per week (89.3%, n = 9328). Binary logistic regression revealed that female sex, working part-time, younger age, and being registered in a gym were associated with willingness to exercise. Flexibility (71.1%, n = 7377), resistance (68.6%, n = 7116), and endurance training (62.4%, n = 6478) were the most preferred types of exercise. Our results may guide health providers in developing individually tailored PA interventions during the current and future pandemics.
DnaK3, a highly conserved cyanobacterial chaperone of the Hsp70 family, binds to cyanobacterial thylakoid membranes, and an involvement of DnaK3 in the biogenesis of thylakoid membranes has been suggested. As shown here, light triggers synthesis of DnaK3 in the cyanobacterium Synechocystis sp. PCC 6803, which links DnaK3 to the biogenesis of thylakoid membranes and to photosynthetic processes. In a DnaK3 depleted strain, the photosystem content is reduced and the photosystem II activity is impaired, whereas photosystem I is regular active. An impact of DnaK3 on the activity of other thylakoid membrane complexes involved in electron transfer is indicated. In conclusion, DnaK3 is a versatile chaperone required for biogenesis and/or maintenance of thylakoid membrane-localized protein complexes involved in electron transfer reactions. As mentioned above, Hsp70 proteins are involved in photoprotection and repair of PS II in chloroplasts.
Prior studies indicate the protective role of Ultraviolet-B (UVB) radiation in human health, mediated by vitamin D synthesis. In this observational study, we empirically outline a negative association of UVB radiation as measured by ultraviolet index (UVI) with the number of COVID-19 deaths. We apply a fixed-effect log-linear regression model to a panel dataset of 152 countries over 108 days (n = 6524). We use the cumulative number of COVID-19 deaths and case-fatality rate (CFR) as the main dependent variables and isolate the UVI effect from potential confounding factors. After controlling for time-constant and time-varying factors, we find that a permanent unit increase in UVI is associated with a 1.2 percentage points decline in daily growth rates of cumulative COVID-19 deaths [p < 0.01] and a 1.0 percentage points decline in the CFR daily growth rate [p < 0.05]. These results represent a significant percentage reduction in terms of daily growth rates of cumulative COVID-19 deaths (− 12%) and CFR (− 38%). We find a significant negative association between UVI and COVID-19 deaths, indicating evidence of the protective role of UVB in mitigating COVID-19 deaths. If confirmed via clinical studies, then the possibility of mitigating COVID-19 deaths via sensible sunlight exposure or vitamin D intervention would be very attractive.
A new method of event characterization based on Deep Learning is presented. The PointNet models can be used for fast, online event-by-event impact parameter determination at the CBM experiment. For this study, UrQMD and the CBM detector simulation are used to generate Au+Au collision events at 10 AGeV which are then used to train and evaluate PointNet based architectures. The models can be trained on features like the hit position of particles in the CBM detector planes, tracks reconstructed from the hits or combinations thereof. The Deep Learning models reconstruct impact parameters from 2-14 fm with a mean error varying from -0.33 to 0.22 fm. For impact parameters in the range of 5-14 fm, a model which uses the combination of hit and track information of particles has a relative precision of 4-9% and a mean error of -0.33 to 0.13 fm. In the same range of impact parameters, a model with only track information has a relative precision of 4-10% and a mean error of -0.18 to 0.22 fm. This new method of event-classification is shown to be more accurate and less model dependent than conventional methods and can utilize the performance boost of modern GPU processor units.
Risk stratification for bipolar disorder using polygenic risk scores among young high-risk adults
(2020)
Objective: Identifying high-risk groups with an increased genetic liability for bipolar disorder (BD) will provide insights into the etiology of BD and contribute to early detection of BD. We used the BD polygenic risk score (PRS) derived from BD genome-wide association studies (GWAS) to explore how such genetic risk manifests in young, high-risk adults. We postulated that BD-PRS would be associated with risk factors for BD.
Methods: A final sample of 185 young, high-risk German adults (aged 18–35 years) were grouped into three risk groups and compared to a healthy control group (n = 1,100). The risk groups comprised 117 cases with attention deficit hyperactivity disorder (ADHD), 45 with major depressive disorder (MDD), and 23 help-seeking adults with early recognition symptoms [ER: positive family history for BD, (sub)threshold affective symptomatology and/or mood swings, sleeping disorder]. BD-PRS was computed for each participant. Logistic regression models (controlling for sex, age, and the first five ancestry principal components) were used to assess associations of BD-PRS and the high-risk phenotypes.
Results: We observed an association between BD-PRS and combined risk group status (OR = 1.48, p < 0.001), ADHD diagnosis (OR = 1.32, p = 0.009), MDD diagnosis (OR = 1.96, p < 0.001), and ER group status (OR = 1.7, p = 0.025; not significant after correction for multiple testing) compared to healthy controls.
Conclusions: In the present study, increased genetic risk for BD was a significant predictor for MDD and ADHD status, but not for ER. These findings support an underlying shared risk for both MDD and BD as well as ADHD and BD. Improving our understanding of the underlying genetic architecture of these phenotypes may aid in early identification and risk stratification.
Background & Aims: Acute‐on‐chronic liver failure (ACLF) is characterized by high short‐term mortality and systemic inflammation (SI). Recently, different cardiodynamic states were shown to independently predict outcomes in cirrhosis. The relationship between cardiodynamic states, SI, and portal hypertension and their impact on ACLF development remains unclear. The aim of this study was therefore to evaluate the interplay of cardiodynamic state and SI on fatal ACLF development in cirrhosis.
Results: At inclusion, hemodynamic measures including cardiac index (CI) and hepatic venous pressure gradient of 208 patients were measured. Patients were followed prospectively for fatal ACLF development (primary endpoint). SI was assessed by proinflammatory markers such as interleukins (ILs) 6 and 8 and soluble IL‐33 receptor (sIL‐33R). Patients were divided according to CI (<3.2; 3.2‐4.2; >4.2 L/min/m2) in hypo‐ (n = 84), normo‐ (n = 69) and hyperdynamic group (n = 55). After a median follow‐up of 3 years, the highest risk of fatal ACLF was seen in hyperdynamic (35%) and hypodynamic patients (25%) compared with normodynamic (14%) (P = .011). Hyperdynamic patients showed the highest rate of SI. The detectable level of IL‐6 was an independent predictor of fatal ACLF development.
Conclusions: Cirrhotic patients with hyperdynamic and hypodynamic circulation have a higher risk of fatal ACLF. Therefore, the cardiodynamic state is strongly associated with SI, which is an independent predictor of development of fatal ACLF.
Peronospora salviae‐officinalis, the causal agent of downy mildew on common sage, is an obligate biotrophic pathogen. It grows in the intercellular spaces of the leaf tissue of sage and forms intracellular haustoria to interface with host cells. Although P. salviae‐officinalis was described as a species of its own 10 years ago, the infection process remains obscure. To address this, a histological study of various infection events, from the adhesion of conidia on the leaf surface to de novo sporulation is presented here. As histological studies of oomycetes are challenging due to the lack of chitin in their cell wall, we also present an improved method for staining downy mildews for confocal laser scanning microscopy as well as evaluating the potential of autofluorescence of fixed nonstained samples. For staining, a 1:1 mixture of aniline blue and trypan blue was found most suitable and was used for staining of oomycete and plant structures, allowing discrimination between them as well as the visualization of plant immune responses. The method was also used to examine samples of Peronospora lamii on Lamium purpureum and Peronospora belbahrii on Ocimum basilicum, demonstrating the potential of the presented histological method for studying the infection processes of downy mildews in general.
In dieser Studie haben wir die Modulation von Arachidonsäure (AA)-Stoffwechselwegen während einer Wurminfektionen mit dem Fadenwurm Heligmosomoides polygyrus bakeri (Hpb) als angeborene regulatorische Strategie zur Modulation der Typ-2-Entzündung untersucht. Wir zeigten, dass Hpb in frühen Stadien der Infektion (Tag 7) die Produktion von regulatorischen Prostaglandinen (PGE2 und 6-keto PGF1-α, ein Abbauprodukt von PGI2) und COX-Metaboliten (12-HHT und TXB2) fördert, jedoch die Sekretion von entzündungsfördernden Mediatoren PGD2 und LTs (LTB4, cysLTs) unterdrückt. Die Hpb-gesteuerte Regulierung des AA-Stoffwechsels könnte eine Strategie zur Immunsuppression/ Immunevasion dieses Parasiten darstellen, die darauf abzielt, die vom Wirt ausgelösten Immunantworten des Typs-2 zu unterbinden und sowohl die Infiltration und Rekrutierung von Granulozyten als auch die Schleimproduktion zu begrenzen und auf diese Weise das Abtöten bzw. Ausscheiden der Larven zu verhindern.
Als Schwerpunkt der Arbeit, konnten wir ebenso zeigen, dass ein Larvenextrakt aus Heligmosomoides polygyrus bakeri (HpbE) den AA Stoffwechsel in myeloiden Zellen wie Makrophagen und Granulozyten moduliert, indem die Synthese von 5-LOX in Richtung COX-Metaboliten verschoben wird. Die Behandlung von murinen und humanen Makrophagen mit HpbE induzierte die Synthese von regulatorischen Prostaglandinen (PGE2) und Prostaglandinen, die an der Wundheilung und Blutgerinnung beteiligt sind (12-HHT, TXB2), wohingegen die Produktion von entzündungsfördernden Lipidmediatoren (LTs, PGD2) unterdrückt wurde. Weiter induzierte HpbE in humanen und murinen Makrophagen die Synthese der Typ-2 hemmenden Mediatoren IL-10 und IL-1β und modulierte die Produktion von Zytokinen, die an der Regulierung von M2-Polarisierung und der Typ-2-Entzündung (IL-12, IL-28, IL-27 und TNF-α) in humanen Makrophagen beteiligt sind. Ähnlich zu der HpbE-vermittelten Eicosanoid-Umprogrammierung in Makrophagen, veränderte HpbE den AA-Stoffwechsel humaner Granulozyten und zeigt eine Verschiebung von LOX- in Richtung COX-Metabolismus. Außerdem kann HpbE direkt auf humane Granulozyten wirken und die Chemotaxis von Granulozyten effizienter hemmen als zur Asthmabehandlung verwendete Standardarzneimittel, indem es die Expression von LT synthetisierenden Enzymen (LTA4H und LTC4S) verringert und die Expression von chemotaktischen Rezeptoren (CCR3 und CRTH2) herunterreguliert.
Darüber hinaus, konnten wir die Mechanismen identifizieren, die der HpbE-gesteuerten Eicosanoid-Umprogrammierung in Makrophagen zugrunde liegen. Hpb Produkte induzierten die Aktivierung von p38 MAPK, welche COX und die Transkriptionsfaktoren HIF-1α und NFκβ aktiviert und die Produktion von Prostaglandinen (PGE2 and TXB2) sowie der Typ-2 unterdrückenden Zytokine IL-10 and IL-1β fördert. Der der Induktion des COX-Signalwegs zugrunde liegende Upstream-Mechanismus umfasste mehrere PPRs (TLR2, Dectin-1/2). Diese Rezeptoren waren allerdings nicht an der HpbE-gesteuerten Induktion von IL-10 beteiligt. Die Mechanismen der Modulation des 5-LOX-Signalweges muss noch in zukünftigen Studien weiter erforscht werden.
Das therapeutische Potential von HpbE oder HpbE-behandelten Makrophagen wurde in einem Maus Model mit HDM-induzierter allergischer Atemwegsentzündung in vivo gezeigt. Eine intranasale Behandlung mit HpbE vor HDM-Sensibilisierung und -Provokation führte zu einer Umprogrammierung des AA-Stoffwechsels und verhinderte die Allergie-induzierte Eosinophilie, Zellinfiltration, Atemwegsentzündung und Schleimproduktion. Die Modulation der Typ-2-Entzündung durch HpbE wurde vor allem durch COX-2-Metabolite vermittelt, die von HpbE-stimulierten Makrophagen freigesetzt wurden. Dies zeigte sich insbesondere darin, dass der Transfer von HpbE-stimulierten Wildtyp- aber nicht COX-2-defizienten Makrophagen vor Provokation die Granulozyten Rekrutierung und Typ-2-Entzündung während der HDM-induzierten Allergie in vivo abschwächte.
Mittels eines Maus Models für die allergische Atemwegsentzündung in unterschiedlichen Altersstufen (Neugeboren, Jungtier und Erwachsen) zeigte dieses Forschungsprojekt, dass das Alter der Sensibilisierung eine Schlüsselrolle bei der Produktion von LTs, der Expression von LT-Synthese Enzymen sowie von Faktoren, die zu strukturellen Veränderungen in den Atemwegen führen, spielt. Hier haben wir auch festgestellt, dass der Mechanismus hinter der LT-Produktion und dem Atemwegs-Remodeling im Epithel von ausgewachsenen sensibilisierten Mäusen die Aktivierung der Faktoren sPLA2X, TGM2 und Wnt5a beinhaltet.
Des Weiteren zeigte unsere Studie, dass eine Wechselwirkung zwischen entzündetem Atemwegsepithel und Alveolar-ähnlichen Makrophagen die Synthese von LTs fördern kann. Der vorgeschlagene Mechanismus startet mit der Sekretion von Wnt5a durch das entzündete Atemwegsepithel, welches die Expression von TGM2 in Makrophagen aktiviert und die Produktion von entzündungsfördernden LTs induziert, wodurch die Rolle der Makrophagen in entzündeten Atemwegen bei Erwachsenen weiter unterstützt wird. Die Relevanz der entdeckten Kaskade konnte auch in Geweben von Patienten mit chronischer Rhinosinusitis und Nasenpolypen (CRSwNP) bestätigt werden. Hohe Konzentrationen von LT Enzymen (5-LO, LTC4S LTA4H), sPLA2-X, TGM2 und Wnt5a wurden in humanen Nasenpolyp Geweben beobachtet, und hohe Konzentrationen von CysLTs wurden in Nasenpolyp Sekreten dieser Patienten gemessen. Dies lässt vermuten, dass die Expression von Atemwegs Remodeling-Faktoren, LT-Synthese Enzymen und die LT Synthese steroidresistent sind. Daher könnte diese entzündliche Kaskade ein alternatives therapeutisches Ziel für die Behandlung von Asthma darstellen, speziell bei Patienten mit steroidresistenten Formen von Atemwegsentzündungen.
Basierend auf den möglichen therapeutischen Anwendungen von HpbE haben wir begonnen, an der Charakterisierung der im HpbE vorhandenen immunmodulatorischen Wirkstoffe zu arbeiten. Glutamatdehydrogenase (GDH) und Ferritin wurden als potenzielle immunmodulatorische Komponenten von HpbE identifiziert. Es ist jedoch weitere Arbeit erforderlich, um diese in HpbE vorhandenen Proteine rekombinant herzustellen und den Wirkungsmechanismus im Bezug auf die Typ-2-Entzündung weiter aufzuklären.
Background: Blunt chest (thoracic) trauma (TxT) and haemorrhagic shock with subsequent resuscitation (H/R) induce strong systemic and local inflammatory response, which is closely associated with apoptotic cell loss and subsequently impaired organ function. The underlying mechanisms are not completely understood, therefore, the treatment of patients suffering from TxT+H/R is challenging. In our recent studies, we have demonstrated local anti-inflammatory effects of ethyl pyruvate (EtP) in lung and liver after TxT+H/R. Here, the therapeutic potential of a reperfusion regime with EtP on the early post-traumatic systemic inflammatory response and apoptotic changes after TxT followed by H/R were investigated.
Methods: Female Lewis rats underwent TxT followed by haemorrhagic shock (60 min). Resuscitation was performed with own blood transfusion and either lactated Ringers solution (LR) or LR supplemented with EtP (50 mg/kg). Sham group underwent the surgical procedures. After 2 h blood as well as lung and liver tissues were obtained for analyses. Systemic activation of neutrophils (expression of CD11b and CD62L), leukocyte phagocytosis, apoptosis (caspase-3/7 activation), pyroptosis (caspase-1 activation) and NF-κB p65 activity were assessed. p < 0.05 was considered significant.
Results: TxT+H/R-induced systemic activation of neutrophils (increased CD11b and reduced CD62L expression) was significantly reduced by EtP. Trauma-induced delayed neutrophil apoptosis was further reduced by EtP reperfusion but remained unaltered in monocytes. Reperfusion with EtP significantly increased the phagocytizing capacity of granulocytes. Trauma-induced inflammasome activation, which was observed in monocytes and not in neutrophils, was significantly reduced by EtP in both cell entities. NF-κB p65 activation, which was increased in neutrophils and monocytes was significantly decreased in monocytes.
Conclusion: TxT+H/R-induced systemic activation of both neutrophils and monocytes concomitant with increased systemic inflammation was reduced by a reperfusion with EtP and was associated with a down-regulation of NF-κB p65 activation.
Cet article cherche à rapprocher les pensées de Louis Althusser et de Theodor W. Adorno autour de trois grandes questions : le primat de la théorie, la théorie de la société et de l’histoire, et la critique du sujet. Dans chaque cas, il s’agit de mettre en évidence les points communs entre les deux penseurs tout en soulignant leur désaccord fondamental en ce qui concerne la manière dont chacun se rapporte à la philosophie de Hegel. Là où Althusser vise à repenser le marxisme sur des bases non hégéliennes, Adorno veut au contraire revenir à Hegel pour ressourcer le marxisme en temps de crise.
We present the rapid biophysical characterization of six previously reported putative G‐quadruplex‐forming RNAs from the 5′‐untranslated region (5′‐UTR) of silvestrol‐sensitive transcripts for investigation of their secondary structures. By NMR and CD spectroscopic analysis, we found that only a single sequence—[AGG]2[CGG]2C—folds into a single well‐defined G‐quadruplex structure. Sequences with longer poly‐G strands form unspecific aggregates, whereas CGG‐repeat‐containing sequences exhibit a temperature‐dependent equilibrium between a hairpin and a G‐quadruplex structure. The applied experimental strategy is fast and provides robust readout for G‐quadruplex‐forming capacities of RNA oligomers.
The layer‐by‐layer (LbL) method is a well‐established method for the growth of surface‐attached metal–organic frameworks (SURMOFs). Various experimental parameters, such as surface functionalization or temperature, have been identified as essential in the past. In this study, inspired by these recent insights regarding the LbL SURMOF growth mechanism, the impact of reactant solutions concentration on LbL growth of the Cu2(F4bdc)2(dabco) SURMOF (F4bdc2−=tetrafluorobenzene‐1,4‐dicarboxylate and dabco=1,4‐diazabicyclo‐[2.2.2]octane) in situ by using quartz‐crystal microbalance and ex situ with a combination of spectroscopic, diffraction and microscopy techniques was investigated. It was found that number, size, and morphology of MOF crystallites are strongly influenced by the reagent concentration. By adjusting the interplay of nucleation and growth, we were able to produce densely packed, yet thin films, which are highly desired for a variety of SURMOF applications.
Responsiveness is a core value in democratic politics. Individual legislators are important mechanisms for implementing this concern in real‐world settings and thus facilitating responsive government. This introduction to the special section on this topic starts out by highlighting the special relevance of individual legislators in this regard and by sketching important theoretical considerations that emerge from the political science literature on this issue. In its main part, it summarizes the key findings of the contributions in relation to its main theme, namely the personal sources of responsiveness. We end with a short conclusion that reflects on possible tensions between responsiveness and the personalization of representative systems.
We apply seismic full waveform inversion to SH‐ and Love‐wave data for investigating the near‐surface lithology at an archaeological site. We evaluate the resolution of the applied full waveform inversion algorithm through ground truthing in the form of an excavation and sediment core studies. Thereby, we investigate the benefits of full waveform inversion in comparison with other established methods of near‐surface prospecting in terms of resolution capabilities and interpretation security. The study is performed in a presumed harbour area of the ancient Thracian city of Ainos. The exemplary target is the source of a linear magnetic anomaly oriented perpendicular to the coast, which was found in a previous magnetic gradiometry survey, suggesting a mole. The SH‐wave full waveform inversion recovered a subsurface SH‐wave velocity model with submeter resolution showing lateral and vertical velocity variation between 40 and 150 m/s. To tame the non‐linearity of the full waveform inversion, a sequential inversion of frequency bands has to be combined with time‐windowing in order to separate the Love wave from the reflected SH wavefield. We compare the full waveform inversion results with multichannel analysis of surface waves, standard seismic reflection imaging, electrical resistivity tomography and electromagnetic induction. It turns out that the respective depth sections are correlated to a certain degree with the full waveform inversion results. However, the structural resolution of the other geophysical methods is significantly lower than for the full waveform inversion. An exception is the reflection seismic imaging, which shows the same resolution as full waveform inversion but can only be interpreted together with the full waveform inversion–based velocity model. An archaeological excavation as well as coring data allows ground truthing and a direct understanding of the geophysical structures. The results show that the target was a sort of near‐surface trench of about 3–4 m width and 0.8 m to 1.0 m depth, filled with silty sediment, which differs from the layered surrounding in colour and composition. The ground truthing revealed that only SH‐wave full waveform inversion and seismic reflection imaging could image the trench and sediment structure with satisfying lateral and depth resolution. We emphasize that the velocity distribution from SH‐wave full waveform inversion agrees closely with the excavated subsurface structures, and that the discovered changes in seismic velocity correlate with changes in the sand content in the respective sediment facies sequences. The study demonstrated that SH‐wave full waveform inversion is capable to image structural and lithological changes in the near subsurface at scales as low as 0.5 m, thus providing the high resolution needed for archaeological and geoarchaeological prospection.
Opportunities and challenges for paleoaltimetry in "small" orogens: insights from the European Alps
(2020)
Many stable isotope paleoaltimetry studies have focused on paleoelevation reconstructions of orogenic plateaus such as the Tibetan or Andean Plateaus. We address the opportunities and challenges of applying stable isotope paleoaltimetry to “smaller” orogens. We do this using a high‐resolution isotope tracking general circulation model (ECHAM5‐wiso) and explore the precipitation δ18O (δ18Op) signal of Cenozoic paleoclimate and topographic change in the European Alps. Results predict a maximum δ18Op change of 4–5‰ (relative to present day) during topographic development of the Alps. This signal of topographic change has the same magnitude as changes in δ18Op values resulting from Pliocene and Last Glacial Maximum global climatic change. Despite the similar magnitude of the isotopic signals resulting from topographic and paleoclimate changes, their spatial patterns across central Europe differ. Our results suggest that an integration of paleoclimate modeling, multiproxy approaches, and low‐elevation reference proxy records distal from an orogen improve topographic reconstructions.
Background: Lung disease phenotype varies widely even in the F508del (homozygous) genotype. Leukocyte-driven inflammation is important for pulmonary disease pathogenesis in cystic fibrosis (CF). Blood cytokines correlate negatively with pulmonary function in F508del homozygous patients, and gap junction proteins (GJA) might be related to the influx of blood cells into the lung and influence disease course. We aimed to assess the relationship between GJA1/GJA4 genotypes and the clinical disease phenotype. Methods: One-hundred-and-sixteen homozygous F508del patients (mean age 27 years, m/f 66/50) were recruited from the CF centers of Bonn, Frankfurt, and Amsterdam. Sequence analysis was performed for GJA1 and GJA4. The clinical disease course was assessed over 3 years using pulmonary function tests, body mass index, Pseudomonas aeruginosa colonization, diabetes mellitus, survival to end-stage lung disease, blood and sputum inflammatory markers. Results: Sequence analysis revealed one clinically relevant single nucleotide polymorphism. In this GJA4 variant (rs41266431), homozygous G variant carriers (n = 84/116; 72.4%) had poorer pulmonary function (FVC% pred: mean 78/86, p < 0.040) and survival to end-stage lung disease was lower (p < 0.029). The frequency of P. aeruginosa colonization was not influenced by the genotype, but in those chronically colonized, those with the G/G genotype had reduced pulmonary function (FVC% pred: mean 67/80, p < 0.049). Serum interleukin-8 (median: 12.4/6.7 pg/ml, p < 0.052) and sputum leukocytes (2305/437.5 pg/ml, p < 0.025) were higher for the G/G genotype. Conclusions: In carriers of the A allele (27.6%) the GJA4 variant is associated with significantly better protection against end-stage lung disease and superior pulmonary function test results in F508del homozygous patients. This SNP has the potential of a modifier gene for phenotyping severity of CF lung disease, in addition to the CFTR genotype.
Clinical Trial Registration: The study was registered with ClinicalTrials.gov, number NCT04242420, retrospectively on January 24th, 2020.