The Impact of PPARγ Genetic Variants on IBD Susceptibility and IBD Disease Course

PPARγ is a nuclear receptor that regulates numerous pathways including cytokine expression and immune responses and plays an important role in controlling colon inflammation. We aimed at determining the occurring PPARγ SNPs, at predicting the haplotypes, and at determining the frequency outcome in inflammatory bowel disease (IBD) patients in comparison with healthy controls. We determined genetic variants in the coding exons and flanking intronic sequences of the NR1C3 gene in 284 IBD patients and 194 controls and predicted NR1C3 haplotypes via bioinformatic analysis. We investigated whether certain NR1C3 variants are associated with susceptibility to IBD or its disease course. None of the detected 22 NR1C3 variants were associated with IBD. Two variants with allelic frequencies over 1% were included in haplotype/diplotype analyses. None of the NR3C1 haplotypes showed association with IBD development or disease course. We conclude that NR1C3 haplotypes are not related to IBD susceptibility or IBD disease activity.

Die Unfähigkeit zu schreiben: Eine Verarbeitungsgeschichte des Nationalsozialismus anhand der Briefe von Maria Gleit an Ernst Kreuder

Mit dem 8. Mai 1945 ist das Exil der aus dem nationalsozialistischen Deutschland und Österreich Geflohenen und Vertriebenen nicht beendet. Aber Versuche, Kontakt aufzunehmen und an alte Beziehungen anzuknüpfen, setzen ein, um Lebensumstände, Positionen, Stimmungen und aktuelle Entwicklungen zu klären. In den Beiträgen des Sammelbandes geht es um Briefe von Frauen unterschiedlicher sozialer Herkunft und Lage, politischer Überzeugung und beruflicher Ausbildung und Perspektive: Ella Bergmann- Michel, Ilse Bing, Erna Blencke, Erna Döblin, Maria Gleit, Gabriele Kätzler, Hildegard Kramer, Vera Lachmann, Luise von Leyden, Johanna Marum, Lili Pollatz, Anna Siemsen, Minna Specht, Hilde Spiel, Grete Weil und Alma S. Wittlin schreiben über traumatische Erfahrungen, über die NS-Verbrechen, die Entfremdung und auch über ihre Akkulturation im Exilland sowie über ihre Pläne und die Vorbereitung einer möglichen Rückkehr, sofern diese nicht kategorisch abgelehnt wird, und über ihre Hoffnungen und Enttäuschungen nach der Remigration.

Late Quaternary history of North Eurasian Norway spruce ( Picea abies ) and Siberian spruce ( Picea obovata ) inferred from macrofossils, pollen and cytoplasmic DNA variation

Aim We used combined palaeobotanical and genetic data to assess whether Norway spruce (Picea abies) and Siberian spruce (Picea obovata), two major components of the Eurasian boreal forests, occupied separate glacial refugia, and to test previous hypotheses on their distinction, geographical delimitation and introgression. Location The range of Norway spruce in northern Europe and Siberian spruce in northern Asia. Methods Pollen data and recently compiled macrofossil records were summarized for the Last Glacial Maximum (LGM), late glacial and Holocene. Genetic variation was assessed in 50 populations using one maternally (mitochondrial nad1) and one paternally (chloroplast trnT–trnL) inherited marker and analysed using spatial analyses of molecular variance (SAMOVA). Results Macrofossils showed that spruce was present in both northern Europe and Siberia at the LGM. Congruent macrofossil and pollen data from the late glacial suggested widespread expansions of spruce in the East European Plain, West Siberian Plain, southern Siberian mountains and the Baikal region. Colonization was largely completed during the early Holocene, except in the formerly glaciated area of northern Europe. Both DNA markers distinguished two highly differentiated groups that correspond to Norway spruce and Siberian spruce and coincide spatially with separate LGM spruce occurrences. The division of the mtDNA variation was geographically well defined and occurred to the east of the Ural Mountains along the Ob River, whereas the cpDNA variation showed widespread admixture. Genetic diversity of both DNA markers was higher in western than in eastern populations. Main conclusions North Eurasian Norway spruce and Siberian spruce are genetically distinct and occupied separate LGM refugia, Norway spruce on the East European Plain and Siberian spruce in southern Siberia, where they were already widespread during the late glacial. They came into contact in the basin of the Ob River and probably hybridized. The lower genetic diversity in the eastern populations may indicate that Siberian spruce suffered more from past climatic fluctuations than Norway spruce.