Caecilians, or Gymnophiona, constitute one of the three extant orders of the Recent Amphibia and are the least known, major living tetrapod clade. Compared to frogs and salamanders, caecilians have... Show moreCaecilians, or Gymnophiona, constitute one of the three extant orders of the Recent Amphibia and are the least known, major living tetrapod clade. Compared to frogs and salamanders, caecilians have an unusual skull morphology. Earlier reports of an unusually high number of individual skull ossifications in Hypogeophis rostratus are addressed and found to be erroneous. Changes in skull morphology and myology at metamorphoses are investigated in representatives of all taxa possessing free-living larvae. It is argued that caecilians are derived from gymno- or zygokrotaphic ancestors and that stegokrotaphy evolved within Recent caecilians. The influence of different life-histories on postembryonic skull development was studied in two direct-developing species. The direct-developing Boulengerula taitanus is characterized by very immature hatchlings, which is correlated with an extended period of post-hatching parental care in this species, during which juveniles feed on the modified skin of their mothers. Direct development in caecilians is characterized by ontogenetic repatterning and heterochronic shifts in certain developmental events. The ontogeny of Scolecomorphus kirkii was studied as a representative of a viviparous form. The emerging picture of available published information, together with observations presented here, suggest a previously unsuspected degree of developmental diversity among caecilians. It is further argued that caecilians are lissamphibians with temnospondyl affinities rather than closely related to lepospondyl microsaurs. Show less
Through evolution the social amoebas have developed mechanisms to adapt to environmental changes and ensure survival. This thesis explores the evolutionary origins of cAMP signalling and regulation... Show moreThrough evolution the social amoebas have developed mechanisms to adapt to environmental changes and ensure survival. This thesis explores the evolutionary origins of cAMP signalling and regulation of developmental decisions in the model organism Dictyostelium discoideum. It also shows the first molecular-based phylogeny of the Dictyostelids. Development in Dictyostelium is characterized by the formation of a multicellular structure, the fruiting body, with a well-defined temporal and spatial pattern. cAMP, normally used as intracellular second messenger, in Dictyostelium is used also as an extracellular signal (chemoattractant) to mediate cell movement and cell differentiation. The study of the different components that control the formation of a multicellular fruiting body at a molecular level and from an evolutionary perspective shows that extracellular cAMP signalling was originally developed to control fruiting body morphogenesis. Furthermore it reinforces the idea that Dictyostelium is a simple but yet robust model to study the origins of multicellularity. Do to cAMP being so prevalent in Dictyostelium development I have studied the regulation of cAMP production during particular developmental stages showing in this thesis novel roles for the adenylyl cyclases that produce cAMP and their specific patters of expression during development. A thorough pharmacological analysis of these enzymes is also present in this work. Show less
An adverse early life event is considered a risk factor for stress-related psychiatric disorders in genetically predisposed individuals, probably because of its lasting effect on susceptibility to... Show moreAn adverse early life event is considered a risk factor for stress-related psychiatric disorders in genetically predisposed individuals, probably because of its lasting effect on susceptibility to stress. The objective of this thesis research was to examine in the mouse CD1 strain the immediate and permanent effects of an adverse early experience on the neuroendocrine stress system. For this purpose the hypothalamic-pituitary-adrenal (HPA) axis was examined of mouse pups that were refrained from maternal care, a laboratory model for neglect mimicking aspects of abuse. The data show that the infants__ stress response system readily adapts to daily repeated 8 hours of maternal separation, but that it continues to respond to a novelty stressor. The rapid adaptation to repeated maternal absence seems rather due to the ability to predict return of the mother than to adjust metabolism to episodic food deprivation. If maternal separation was extended to a single episode of 24 hours the immediate outcome was more profound but transient, although subtle effects on stress reactions and cognitive performance did persist. The findings demonstrate the amazing plasticity of the newborn brain and provide a basis to study the mechanistic underpinning of vulnerability or resilience to psychopathology. Show less
Multiple processes are influenced by a protein family named the function of Mitogen Activated Protein Kinases (MAPK), where among tissue morphogenesis, cell-proliferation, cell-differentiation,... Show moreMultiple processes are influenced by a protein family named the function of Mitogen Activated Protein Kinases (MAPK), where among tissue morphogenesis, cell-proliferation, cell-differentiation, cell-survival and immune reactions. A consequence of this broad role of these proteins is that disturbed MAPK signaling possibly leads to severe affects, and could even lead to the development of a disease or disturb embryogenesis. The human genome encodes for 14 mapk genes. One of the best characterized MAPK signaling transductions pathways is the Extracellular signal Regulated Kinase 1 and 2 (ERK1/ERK2). The zebrafish is a relatively new, genetic accessible model organism, which is because of their transparency of the embryos, very suitable to study the role of the MAPKs in embryonic development. The study described in this thesis shows that the zebrafish genome encodes for the same mapk genes, which makes it possible to study the functions of these proteins, using the zebrafish. Further investigations to the roles of ERK1 and ERK2 during embryonic development led to the new insight that ERK1 and ERK2 have distinct roles during crucial developmental cell migration processes and the differentiation of tissues and cell types. In addition, it was found that ERK1 and ERK2 affect the expression of common as well as distinct target genes. Show less
Family businesses are experiencing a revival in the German economy. In the face of the challenges of globalization and the ongoing relocation of production facilities, home base oriented... Show moreFamily businesses are experiencing a revival in the German economy. In the face of the challenges of globalization and the ongoing relocation of production facilities, home base oriented enterprises meet with increasing attention and gain in importance. Family-owned enterprises have indeed been neglected in the past, a fact which shows clearly also in business economics research. But this was also due to the family businesses, or the owner families, respectively, failing to open up. In the present paper, the author succeeded in winning high-ranking representatives of producing family businesses as interview partners. The discussions and the subsequent analyses both of the topics discussed and of the theoretical context serve to provide a new and intriguing picture of family-owned enterprises on their international growth path to world market leaders. Show less
Until recently, the trend in development policy circles has been to focus on the question of poverty, and to suggest that inequality is interesting, but that perhaps it really does not matter. In... Show moreUntil recently, the trend in development policy circles has been to focus on the question of poverty, and to suggest that inequality is interesting, but that perhaps it really does not matter. In the 2007 Wertheim Lecture, Jomo K.S. re-examined the role inequality plays in development and human welfare. Show less