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Intermolekulare Koordination bei zyklischen Esternder stibonigen und der thiostibonigen Säure
(1978)
Die Struktur von EinkristalIen des 2-Methoxi-l,3, 2-benzodioxastibols und des 2-Methylthio-l, 3, 2-benzodithiastibols konnte über Röntgendiffraktometermessungen ermittelt werden. Die Verbindungen kristallisieren beide monoklin mit Elementarzellen, die jeweils 4 Formeleinheiten enthalten, sie sind jedoch nicht isomorph. Als Raumgruppe ergibt sich P21/n bzw. P21/c. Ungewöhnlich kurze intermolekulare Antimon-Chalkogen-Abstände lassen in der Struktur des Oxastibols koordinative Bindungen erkennen, die in dieser Stärke beim Thiastibol nicht auftreten.
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Fünf Jahre nach der programmatischen Aufforderung von ISRAEL & TAJFEL (1972), mit dem Datensammeln aufzuhören und die theoretische Konfrontation zu suchen, stellt sich die Frage, ob der "Wind der Veränderung" (GRAUMANN, 1975) in der "Europäischen Sozialpsychologie" inzwischen kräftig geblasen hat. Uns interessierte speziell, wie sich heute das Verhältnis von Theorie zu Empirie und von Grundlagen zu Anwendungen einem wohl an Sozialpsychologie interessierten, nicht aber auf Sozialpsychologie spezialisierten deutschen Psychologen darstellt: Ändert sich dieses Verhältnis von "Ost nach West", d.h. von deutschsprachigen über nicht deutschsprachige "europäische" zu "amerikanischen" Veröffentlichungen? Ausserdem fragten wir, ob sich unterschiedliche thematische Sch werpunkte ausfindig machen lassen.
No abstract available
The morphology of two forms of transcription ally active chromatin, the nucleoli and the loops of lampbrush chromosomes, has been examined after fixation in situ or after isolation and dispersion of the material in media of low ionic strengths, using a variety of electron microscopic preparation techniques (e.g. spread preparations with positive or negative staining or without any staining at all, with bright and dark field illumination, with autoradiography, after pretreatment of the chromatin with specific detergents such as Sarkosyl NL-30; transmission and scanning transmission electron microscopy of ultrathin sections). Nucleolar chromatin and chromosomes from oocytes of various amphibia and insects as well as from green algae of the family of the Dasycladaceae were studied in particular detail. The morphology of transcriptional units that are densely packed with lateral ribonucleoprotein fibrils, indicative of great transcriptional activity, was compared with that of chromatin of reduced lateral fibril density, including stages of drug-induced inhibition. The micrographs showed that under conditions which preserve the nucleosomal organization in condensed chromatin studied in parallel, nucleosomes are not recognized in transcriptionally active chromatin. This holds for the transcribed regions as well as for apparently untranscribed (i.e. fibril-free) regions interspersed between ('spacer') and/or adjacent to transcribed genes and for the fibril-free regions within transcriptional units of reduced fibril density. In addition, comparison oflengths of repeating units of isolated rDNA with those observed in spread nucleolar chromatin indicated that this DNA is not foreshortened and packed into nucleosomal structures. Granular particles which were observed, at irregular frequencies and in variable patterns, in some spacer regions, did not result in a proportional shortening of the spacer axis, and were found to be resistant to detergent treatment effective in removing most of the chromatin associated proteins including histones. Thus, these particles behave like RNA polymerases rather than nucleosomes. It is suggested that structural changes from nucleosomal packing to an extended form of DNA are involved in the transcriptional activation of chromatin.
Some decades ago it was noted by cytologists that within the interphase nucleus large portions of the transcriptionally ("genetically," in their terms) inactive chromosomal material are contained in aggregates of condensed chromatin, the "chromocenters," whereas transcriptionally active regions of chromosomes appear in a more dispersed form and are less intensely stained with DNA-directed staining procedures (Heitz 1929, 1932, 1956; Bauer 1933). The hypothesis that condensed chromatin is usually characterized by very low or no transcriptional activity, and that transcription occurs in loosely packed forms of chromatin (including, in most cells, the nucleolar chromatin) has received support from studies of ultrathin sections in the electron microscope and from the numerous attempts to separate transcriptionally active from inactive chromatin biochemically (for references, see Anderson et al. 1975; Berkowitz and Doty 1975; Krieg and Wells 1976; Rickwood and Birnie 1976; Gottesfeld 1977). Electron microscopic autoradiography has revealed that sites of RNA synthesis are enriched in dispersed chromatin regions located at the margins of condensed chromatin (Fakan and Bernhard 1971, 1973; Bouteille et al. 1974; Bachellerie et al. 1975) and are characterized by the occurrence of distinct granular and fibrillar ribonucleoprotein (RNP) structures, such as perichromatin granules and fibrils. The discovery that, in most eukaryotic nuclei, major parts of the chromatin are organized in the form of nucleosomes (Olins and Olins 1974; Kornberg 1974; Baldwin et al. 1975) has raised the question whether the same nucleosomal packing of DNA is also present in transcriptionally active chromatin strands. Recent detailed examination of the morphology of active and inactive chromatin involving a diversity of electron microscopic methods, particularly the spreading technique by Miller and coworkers (Miller and Beatty 1969; Miller and Bakken 1972), has indicated that the DNA of some actively transcribed regions is not packed into nucleosomal particles but is present in a rather extended form within a relatively thin (4-7 nm) chromatin fiber.