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A systematic revision of the genus Dichaeu (Orchidaceae) in Costa Rica is presented. The taxonomic history of the genus and its phylogenetic position are discussed, with emphasis on infragenenc grouping. Characters of vegetative and floral morphology are treated, and their taxonoiilic significance is discussed. Twenty-nine Dichnea taxa are recognized for the flora of Costa Rica, and a key to species is provided. Each taxon is described on the basis of Costa Rican material, illustrated in a composite plate, and its distribution in the country is assessed. Distribution maps for all the taxa are given. Overall distribution, derivation of name, notes on species ecology, and diagnostic features are presented for each taxon. Lectotypes are selectcd for D. acostae Schltr., D. acroblephara Schltr., D. amparoana Schltr., D. costaricensis Schltr., D. dammeriana Kraenzl., D. lycopodioides Rchb. f. ex Kraenzl., D. poicillantha Schltr., D. selaginella Schltr., D. tuercklheimii Schltr., Epidendrum echinocarpon Sw., and E. trichocarpon Sw. A new species, D. gomez-lauritoi, is described and illustrated from the wet Caribbean plains of central Costa Rica.
The present paper introduces a new dataset, the Rand American Life Panel (ALP), which offers several appealing features for an analysis of financial literacy and retirement planning. It allows us to evaluate financial knowledge during workers’ prime earning years when they are making key financial decisions, and it offers detailed financial literacy and retirement planning questions, permitting a finer assessment of respondents’ financial literacy than heretofore feasible. We can also compare respondents’ self-assessed financial knowledge levels with objective measures of financial literacy, and most valuably, we can investigate prior financial training which permits us to identify key causal links. By every measure, and in every sample we examine, financial literacy proves to be a key determinant of retirement planning. We also find that respondent literacy is higher when they were exposed to economics in school and to company-based financial education programs. JEL Classification: D91
Background: Chronic congestive heart failure (CHF) is a complex disease with rising prevalence, compromised quality of life (QoL), unplanned hospital admissions, high mortality and therefore high burden of illness. The delivery of care for these patients has been criticized and new strategies addressing crucial domains of care have been shown to be effective on patients' health outcomes, although these trials were conducted in secondary care or in highly organised Health Maintenance Organisations. It remains unclear whether a comprehensive primary care-based case management for the treating general practitioner (GP) can improve patients' QoL. Methods/Design: HICMan is a randomised controlled trial with patients as the unit of randomisation. Aim is to evaluate a structured, standardized and comprehensive complex intervention for patients with CHF in a 12-months follow-up trial. Patients from intervention group receive specific patient leaflets and documentation booklets as well as regular monitoring and screening by a prior trained practice nurse, who gives feedback to the GP upon urgency. Monitoring and screening address aspects of disease-specific selfmanagement, (non)pharmacological adherence and psychosomatic and geriatric comorbidity. GPs are invited to provide a tailored structured counselling 4 times during the trial and receive an additional feedback on pharmacotherapy relevant to prognosis (data of baseline documentation). Patients from control group receive usual care by their GPs, who were introduced to guidelineoriented management and a tailored health counselling concept. Main outcome measurement for patients' QoL is the scale physical functioning of the SF-36 health questionnaire in a 12-month follow-up. Secondary outcomes are the disease specific QoL measured by the Kansas City Cardiomyopathy questionnaire (KCCQ), depression and anxiety disorders (PHQ-9, GAD-7), adherence (EHFScBS and SANA), quality of care measured by an adapted version of the Patient Chronic Illness Assessment of Care questionnaire (PACIC) and NTproBNP. In addition, comprehensive clinical data are collected about health status, comorbidity, medication and health care utilisation. Discussion: As the targeted patient group is mostly cared for and treated by GPs, a comprehensive primary care-based guideline implementation including somatic, psychosomatic and organisational aspects of the delivery of care (HICMAn) is a promising intervention applying proven strategies for optimal care. Trial registration: Current Controlled Trials ISRCTN30822978.
Background Objects in our environment are often partly occluded, yet we effortlessly perceive them as whole and complete. This phenomenon is called visual amodal completion. Psychophysical investigations suggest that the process of completion starts from a representation of the (visible) physical features of the stimulus and ends with a completed representation of the stimulus. The goal of our study was to investigate both stages of the completion process by localizing both brain regions involved in processing the physical features of the stimulus as well as brain regions representing the completed stimulus. Results Using fMRI adaptation we reveal clearly distinct regions in the visual cortex of humans involved in processing of amodal completion: early visual cortex - presumably V1 - processes the local contour information of the stimulus whereas regions in the inferior temporal cortex represent the completed shape. Furthermore, our data suggest that at the level of inferior temporal cortex information regarding the original local contour information is not preserved but replaced by the representation of the amodally completed percept. Conclusion These findings provide neuroimaging evidence for a multiple step theory of amodal completion and further insights into the neuronal correlates of visual perception.
The retinoic acid related orphan receptor alpha (RORalpha) regulates the expression of various target genes by binding to specific response elements in their promoter region. RORalpha is an interesting pharmaceutical target since it positively affects several pathophysiological processes of clinical relevance. RORalpha enhances the expression of Apo-AI protein, the major constituent of HDL, which is responsible for the cholesterol transportation. RORalpha notably contributes to the bone mineralization and generation of the extracellular bone matrix, demonstrating its involvement in osteoporosis, and by up-regulating the gene for IKBalpha, RORalpha has anti-inflammatory effects. Moreover, RORalpha is necessary for cerebellar development and the maintenance of the mammalian day-night periodicity governed by the core-clock within the suprachiasmatic nuclei. RORalpha receptors have been reported to bind cholesterol, melatonin, or to function ligand-independent. By monomeric binding to the recognition motif AGGTCA preceded by an A/T-rich sequence (ROR response element, RORE), RORalpha constitutively activates gene transcription. However, RORalpha activity is passively suppressed by its opponents RevErbalpha and RevErbbeta, which both bind to the same target sequence. ...
Many environmental chemicals are suspected of disturbing the human and animal endocrine system. These so-called endocrine disruptors can operate in many ways. The interaction of endocrine disruptive effects that eventually endanger human health is still unclear. However, one of the basic mecha-nisms of endocrine disruption is the inhibition of key enzymes in the hormone metabolism. In this study, we focused on the inhibitory potency of suspected endocrine disrupting compounds on aromatase (P450arom) and 5alpha-reductase (5alpha-Re) activities in human tissue and human cancer cells. Both enzymes are essential for the human sex steroid hormone metabolism. We were able to demonstrate that the organotin compounds tributyltin (TBT) and triphenyltin (TPT) are potent unspecific inhibitors of P450arom and 5alpha-Re activity. Prochloraz and fenarimol inhibited P450arom activity at low concentrations (IC50<2 µM), while 5alpha-Re activity was only impaired at higher concentrations (IC50>10 µM). While the human tissue assay proved to be more practical and sensitive as a screening tool for putative endocrine disruptors, the cell assay reflected partly the situation in vivo. In another experimental series, we investigated the inhibitory effect of TPT on P450arom, 5alpha-Re, 3beta-HSD type 2, 17beta-HSD type 1 and type 3 alone and in combination with the strong antioxidant dithioerythrithol (DTE). TPT inhibited unspecifically all enzymes that were tested. The experiments also showed that DTE is able to compensate the adverse effects of TPT, and that the effectiveness of the compensatory activity of DTE differs among the enzymes investigated. The suppressed 5alpha-Re activity could not be reactivated with DTE. Conceivably, cysteine residues that are responsible for the tertiary and quarternary structure of the enzyme are critical targets for TPT. A human sampling study was undertaken with the COMPRENDO partner in Gdansk. 60 Polish and 15 German blood samples were investigated for chemical residues and sex hormone concentrations. In addition, 15 placenta samples from Poland and Germany, respectively, were tested for chemical residues, P450arom activities and CYP19 mRNA contents. The chemical analysis was performed by the COMPRENDO partners in Milan (p,p´DDE), Orleans (TBT and TPT) and Ioannina (diuron, fenarimol, linuron und vinclozolin). The results showed that individual sex hormone concentrations in blood were not correlated with chemical body burden. The detected differences in sex hormone concentrations, specific aromatase activity and relative CYP19 mRNA content of Polish and German donors were presumably the result of other factors than the ones determined in this study. Another task of the EU-project was the investigation of the effects of chemical exposure of the aquatic model organisms Pimephales promelas, Rutilus rutilus and Xenopus laevis. We investigated the specific P450arom and 5alpha-Re activities in brain and gonads of the animals. During the qualitative investigation of the androgen metabolism in Xenopus laevis brain, 5alpha-reductase activity was discovered for the first time. In contrast to the inhibitory potency of TPT discovered in our enzyme assays, TPT exposure of aquatic model organisms had no observed effect on enzyme activity in the organs investigated, except for P450arom activities in female gonads of Pimephales promelas at 320 ng TPT/L. In this group, mean P450arom activities were elevated, possibly as a result of an overshooting upregulation due to the inhibition of P450arom by TPT. The exposure of Rutilus rutilus and Xenopus laevis to the effector substances methyltestosterone and letrozole resulted in slightly different mean enzyme activities compared to the control group. In conclusion, many of the tested pesticides are able to inhibit P450arom and 5alpha-Re, and thus might be of clinical relevance. However, results are not always coherent, and possible risks for human and wildlife health are therefore difficult to predict. Risk assessment will require large studies with an additional number of short and long term in vitro and in vivo assays. Any extrapolation to humans should be very meticulously performed.
The following thesis is concerned with the elucidation of structural changes of RNA molecules during the time course of dynamic processes that are commonly denoted as folding reactions. In contrast to the field of protein folding, the concept of RNA folding comprises not only folding reactions itself but also refolding- or conformational switching- and assembly processes (see chapter III). The method in this thesis to monitor these diverse processes is high resolution liquid-state NMR spectroscopy. To understand the reactions is of considerable interest, because most biological active RNA molecules function by changing their conformation. This can be either an intrinsic property of their respective sequence or may happen in response to a cellular signal such as small molecular ligand binding (like in the aptamer and riboswitch case), protein or metal binding. The first part of the thesis (chapters II & III) provides a general overview over the field of RNA structure and RNA folding. The two chapters aim at introducing the reader into the current status of research in the field. Chapters II is structured such that primary structure is first described then secondary and tertiary structure elements of RNA structure. A special emphasis is given to bistable RNA systems that are functionally important and represent models to understand fundamental questions of RNA conformational switching. RNA folding in vitro as well as in vivo situations is discussed in Chapter III. The following chapters IV and V also belong to the introduction part and review critically the NMR methods that were used to understand the nature and the dynamics of the conformational/structural transitions in RNA. A general overview of NMR methods quantifying dynamics of biomolecules is provided in chapter IV. A detailed discussion of solvent exchange rates and time-resolved NMR, as the two major techniques used, follows. In the final chapter V of the first part the NMR parameters used in structure calculation and structure calculation itself are conferred. The second part of the thesis, which is the cumulative part, encompasses the conducted original work. Chapter VI reviews the general NMR techniques applied and explains their applicability in the field of RNA structural and biochemical studies in several model cases. Chapter VII describes the achievement of a complete resonance assignment of an RNA model molecule (14mer cUUCGg tetral-loop RNA) and introduces a new technique to assign quaternary carbon resonances of the nucleobases. Furthermore, it reports on a conformational analysis of the sugar backbone in this RNA hairpin molecule in conjunction with a parameterization of 1J scalar couplings. Achievements: • Establishment of two new NMR pulse-sequences facilitating the assignment of quaternary carbons in RNA nucleobases • First complete (99.5%) NMR resonance assignment of an RNA molecule (14mer) including 1H, 13C, 15N, 31P resonances • Description of RNA backbone conformation by a complete set of NMR parameters • Description of the backbone conformational dependence in RNA of new NMR parameters (1J scalar couplings) Chapters VII & VIII summarize the real-NMR studies that were conducted to elucidate the conformational switching events of several RNA systems. Chapter VIII gives an overview on the experiments that were accomplished on three different bistable RNAs. These molecules where chosen to be good model systems for RNA refolding reactions and so consequently served as reporters of conformational switching events of RNA secondary structure elements. Achievements: • First kinetic studies of RNA refolding reactions with atomic resolution by NMR • Application of [new] RT-NMR techniques either regarding the photolytic initiation of the reaction or regarding the readout of the reaction • Discovery of different RNA refolding mechanisms for different RNA molecules Deciphering of a general rule for RNA refolding methodology to conformational switching processes of RNA tertiary structure elements. The models for these processes were a) the guanine-dependent riboswitch RNA and b) the minimal hammerhead ribozyme. Achievements: • NMR spectroscopic assignment of imino-resonances of the hypoxanthine bound guanine-dependent riboswitch RNA • Application of RT-NMR techniques to monitor the ligand induced conformational switch of the aptamer domain of the guanine-dependent riboswitch RNA at atomic resolution • Translation of kinetic information into structural information • Deciphering a folding mechanism for the guanine riboswitch aptamer domain • Application of RT-NMR techniques to monitor the reaction of the catalytically active mHHR RNA at atomic resolution In the appendices the new NMR pulse-sequences and the experimental parameters are described, which are not explicitly treated in the respective manuscripts.
All living organisms exhibit daily fluctuations in biochemical, physiological and behavioural parameters driven by endogenous oscillators, residing in the organism itself. In mammals, the core circadian oscillator is located in the paired suprachiasmatic nuclei (SCN) of the hypothalamus. Circadian rhythm generation in the SCN depends upon the expression of clock genes interacting in positive and negative transcriptional/translational feedback loops. The SCN governs the timing of peripheral circadian oscillators by neuronal pathways and by neuroendocrine mechanisms. An important neuroendocrine hand of the core circadian oscillator is melatonin, which is produced in and secreted from the pineal gland night by night. The adenohypophysis represents a peripheral circadian oscillator and the secretion of one of its hormones, prolactin, is known to be regulated by melatonin. The aim of the present study was to analyze a putative influence of melatonin on the activity state and diurnal variations of identified cell types in the hypophysis. Particular attention was paid to lactotroph, gonadotroph and pars intermedia cells. Experiments were performed with young male mice of different strains: melatonin-proficient C3H, melatonin-deficient C57BL, melatonin-proficient C3H with targeted deletions of the Mel1a receptor (MelaaBB), Mel1b receptor (MelAAbb) or both receptors (Melaabb). Cells producing prolactin (PRL), follicle stimulating hormone (FSH) were immunocytochemically identified and the presence of phosphorylated CREB protein (pCREB) and clock gene protein PER1 was demonstrated by double immunolabeling at different time points during the light/dark cycle in melatonin deficient, melatonin proficient and melatonin receptor knockout mice. Melatonin influence on Prl mRNA levels was investigated by means of in situ hybridization. At night the percentage of lactotroph cells showing a positive nuclear pCREB- and PER1-immunoreaction is significantly smaller in C57BL than in C3H mice. In both mouse strains, the percentage of pCREB –immunoreactive cells is minimal in the early morning and gradually increases to reach a maximum in the late night. PER1 levels show a parallel temporal variation in C3H, but in C57BL, they are drastically reduced in the early afternoon. The percentage of FSH-immunoreactive cells showing pCREB immunoreaction was significantly lower in the melatonin-deficient C57Bl mice than in the melatonin-proficient C3H mice during the second part of the day and during the night. In each strain, the percentage of FSH-immunoreactive cells was lowest at the early morning and gradually increases until the maximum at late night. In wild type (MelAABB) and MelAAbb mice the percentage of lactotroph cells with nuclear pCREB immunoreactions varied significantly over 24 h period, whereas in MelaaBB and Melaabb mice no significant differences were found between the five time points analyzed. The number of Prl mRNA expressing cells was significantly higher in MelaaBB and MelAAbb than in their wild type (MelAABB) littermates. pCREB levels in the pars intermedia did not show rhythmic variation in wild type or Melaabb animals, but wild type mice had higher pCREB levels than Melaabb. The observation that, during darkness, the percentage of lactotroph cells with nuclear pCREB immunoreaction is significantly higher in C3H than in C57BL mice suggests the existence of a distinct cell population that is under the control of melatonin-dependent intrapituitary signaling. Results with melatonin receptor knockout mice indicate that Mel1a and Mel1b melatonin receptors are involved in the control of the activity state of lactotroph cells, but to a differing degree. Analysis of cells expressing Prl mRNA showed that inhibitory action on the Prl expression is mostly mediated through the Mel1a receptor. The significant difference between pCREB immunoreaction in gonadotroph cells of C3H and C57BL mice might suggest that, like lactotrophes, FSH cells represent a heterogeneous population and only a subpopulation is under control of melatonin signaling. The present study is first to show that melatonin signaling also affects pCREB levels in pars intermedia of mice.
To determine the effects of inhaled IL-10 at different doses and different time points on the pulmonary and systemic inflammatory response during endotoxemia, 48 ventilated, anaesthetized rats (mean body weight ± standard deviation, 500 ± 33g) were randomly assigned to six groups (n = 8, each). Interleukin-10 was nebulised either prior to or following the intravenous injection of LPS (5mg/kg) at two doses (5.0 mycro-g or 0.5 mycro-g) in our groups. Eight rats received the same insult with no further treatment (LPS-only group). Another eight rats served as controls without endotoxemia but with aerosolized phosphate-buffered saline, the solvent of IL-10 (Sham group). Concentrations of TNF-alpha, IL-1beta, IL-6, and IFN-gamma were analyzed in plasma and bronchoalveolar lavage fluid (BALF). In addition, the nitrite release from ex-vivo cultured alveolar macrophages was determined. As compared to the LPS-only group, the concentrations of the proinflammatory cytokines TNF-alpha, IL-1beta, IL-6, and IFN-gamma in plasma were significantly reduced in the group, which inhaled 5 mycro-g IL-10 before LPS injection (p< 0.0125). Spontaneous nitrite release from exvivo cultured alveolar macrophages was suppressed in this group (p< 0.0125). Inhalation of 0.5 mycro-g IL-10 before LPS injection and both dosages of IL-10 inhalation (5 mycro-g or 0.5 mycro-g) after LPS injection did not significantly influence either inflammatory cytokine concentrations in BALF, in plasma or the nitrite release from ex-vivo cultured alveolar macrophages. In this study, inhaled IL-10 only demonstrated anti-inflammatory effects when it was administered at 5 mycro-g prior to the induction of experimental endotoxemia. Interleukin-10 aerosol had no effect when it was given either following induction of endotoxemia or given at a lower dosage (which here was 0.5 mycro-g) either before or following injection of lipopolysaccharide.
In several academic fields (most notably: physics, mathematics, economics, astronomy, and computer science), most current research papers are freely accessible on the Internet in both pre- and post-publication formats. For these disciplines, open-access dissemination of publications and data has created a robust and useful information environment that is highly valued by researchers. While the acceptance of open-access dissemination has been disruptive to traditional scholarly publishing, the status and economic value of the elite journals has remained largely intact. Indeed, publication in the most prestigious journals (e.g., Science, Nature, Cell, BMJ, etc.) may have more influence than ever in determining the advancement of academic careers. Traditional publishing and open access will continue to coexist uncomfortably for years to come, but the next wave of digital publishing systems (empowered social networking applications) will establish open access repositories as indispensable infrastructure for the sciences and social sciences.