Transitkunst. Studien zur Literatur 1890-2010

Die Chiffre „Transit“ vereinigt mit Aspekten wie Mobilität, Flüchtigkeit und Vorläufigkeit zentrale Begriffe des Zeiterlebens zwischen 1890 und 2010. Vor dem Hintergrund mehrerer Krisen und Katastrophen sowie tiefgreifender Umwandlungsprozesse erscheint das Leben als Durchgangsstadium, in dem sich nur noch ein temporäres, fragmentarisches Netz von Orientierungspunkten entwerfen lässt. Das Transitäre durchdringt nahezu alle Facetten des Individuums und seiner Lebensbereiche: vom Wahrnehmen der Inkohärenz in der Folge gesellschaftlicher Umwälzungen, über den Verlust ‚sicherer‘ Orte bis zum Erfahren der eigenen Identität als provisorisch. Die Reaktion auf solche Übergangszustände ist oft eine Intensivierung der Suchbewegungen nach Sicherheit, Nähe und Glück, die jedoch selbst zunehmend transitive Zwischenstellungen markieren. Die Literatur zeichnet sich unter dieser Perspektive durch die Adaptation transittypischer Themen und Inhalte aus, desgleichen durch die autoreflexive Übertragung von Konzepten wie Momenthaftigkeit, Unvollständigkeit und Flexibilität in das eigene narrative Programm. Die Beiträge des Bandes nähern sich verschiedenen Formen eines solchen inhaltlichen und/oder formalen ‚Dazwischen‘ an. Die Idee des Transits erweist sich dabei für diese vielfältigen literatur- und kulturwissenschaftlichen Untersuchungen als ebenso funktionale wie inspirierende Klammer, der es gelingt, im bewussten Einlassen auf das im Durchgang Begriffene die heterogenen Facetten des 20. Jahrhunderts zu verbinden: zu einer Art Zeitbild und Ästhetik des Transits

Zeb2 is essential for Schwann cell differentiation, myelination and nerve repair

Schwann cell development and peripheral nerve myelination require the serial expression of transcriptional activators, such as Sox10, Oct6 (also called Scip or Pou3f1) and Krox20 (also called Egr2). Here we show that transcriptional repression, mediated by the zinc-finger protein Zeb2 (also known as Sip1), is essential for differentiation and myelination. Mice lacking Zeb2 in Schwann cells develop a severe peripheral neuropathy, caused by failure of axonal sorting and virtual absence of myelin membranes. Zeb2-deficient Schwann cells continuously express repressors of lineage progression. Moreover, genes for negative regulators of maturation such as Sox2 and Ednrb emerge as Zeb2 target genes, supporting its function as an inhibitor of inhibitors in myelination control. When Zeb2 is deleted in adult mice, Schwann cells readily dedifferentiate following peripheral nerve injury and become repair cells. However, nerve regeneration and remyelination are both perturbed, demonstrating that Zeb2, although undetectable in adult Schwann cells, has a latent function throughout life

Comparison of Elemental Analysis Techniques for the Characterization of Commercial Alloys

Better quality control for alloy manufacturing and sorting of post-consumer scraps relies heavily on the accurate determination of their chemical composition. In recent decades, analytical techniques, such as X-ray fluorescence spectroscopy (XRF), laser-induced breakdown spectroscopy (LIBS), and spark optical emission spectroscopy (spark-OES), found widespread use in the metal industry, though only a few studies were published about the comparison of these techniques for commercially available alloys. Hence, we conducted a study on the evaluation of four analytical techniques (energy-dispersive XRF, wavelength-dispersive XRF, LIBS, and spark-OES) for the determination of metal sample composition. It focuses on the quantitative analysis of nine commercial alloys, representing the three most important alloy classes: copper, aluminum, and steel. First, spark-OES is proven to serve as a validation technique in the use of certified alloy reference samples. Following an examination of the lateral homogeneity by XRF, the results of the techniques are compared, and reasons for deviations are discussed. Finally, a more general evaluation of each technique with its capabilities and limitations is given, taking operation-relevant parameters, such as measurement speed and calibration effort, into account. This study shall serve as a guide for the routine use of these methods in metal producing and recycling industries

Expression data of sciatic nerves from mice with Schwann-cell specific Sip1 deletion compared to control mice

Schwann cell maturation is tightly controlled by a set of transcriptional regulators. We have deleted the zinc-finger transcription factor Sip1 specifically from immature Schwann cells and observed a dramatic developmental delay. In an attempt to define the developmental stage of Sip1-deficient Schwann cells, we performed microarray analysis of Schwann cell-specific mutants compared to controls at the age of 25 days (P25). Sciatic nerves of 3 mutant mice and 3 corresponding controls were isolated at the age of 25 days

Expression data of sciatic nerves from mice with Schwann-cell specific Sip1 deletion compared to control mice

Schwann cell maturation is tightly controlled by a set of transcriptional regulators. We have deleted the zinc-finger transcription factor Sip1 specifically from immature Schwann cells and observed a dramatic developmental delay. In an attempt to define the developmental stage of Sip1-deficient Schwann cells, we performed microarray analysis of Schwann cell-specific mutants compared to controls at the age of 25 days (P25). Sciatic nerves of 3 mutant mice and 3 corresponding controls were isolated at the age of 25 days