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Ribozymes for Aminoacylation
(2012)
Aminoacyl-tRNA synthetases (aaRS) are at the heart of modern translation, catalyzing the accurate biosynthesis of aminoacyl-tRNAs. According to the RNA world hypothesis, the early translation system should have aminoacylation ribozymes for RNA aminoacylation. For this, an aaRS ribozyme system, consisting of the KK13 ribozyme and the C3a ribozyme was successfully designed, which can perform both amino acid activation and aminoacyl transfer reaction. Generation of such aminoacylation ribozyme system would fill up the gap between the RNA world and the modern biological world. In addition, two types of diversified aminoacylation ribozymes, symmetrical ribozymes and self-assembling ribozymes were successfully developed, which may have great meaning in the origin of life.
Despite a plethora of therapeutic approaches, the injection of local anaesthetics itself remains one of the most painful and dreadful procedures among children. Stimulation of acupoint LI4 is associated with analgesic effects in dentistry. Goal of the study To investigate whether stimulation of LI4, added to standard therapy (ST), reduces pain and distress during injection of local anaesthetic (LA) in comparison with ST alone. Materials and Methods Children, scheduled for dental treatment in local anaesthesia on 2 separate days were enrolled in this trial, approved by local ethics commission. On one day each child received bilateral acupuncture of LI4 point, using indwelling fixed “New Pyonex” needles (0.2 x 1.5 mm; Seirin, Japan). The parents of the children were asked to stimulate the needles by massage. Standardized injection of LA was performed 5 min following acupuncture. The needles were withdrawn at the end of dental treatment. On the other day of treatment children received LA injection without acupuncture. The order of treatment days (acupuncture first or vice versa) was randomised. Primary endpoint was the pain intensity during LA injection reported by children on Visual Rating Scale from 0=no pain to 10=maximal pain imaginable (VRS-11). Secondary endpoints were parent- and dentist-assessed pain intensity (measured on Numeric Rating Scale 1-10), patients’ heart rate before and during dental treatment and satisfaction with received therapy (measured on Numerical Rating Scale 1-5.) Side effects of LI4 stimulation were also recorded. Results and Discussion The data of 49 children (22 females; age 10 ± 4 yrs; mean ± SD), who completed both visits, were analysed. Children reported less pain with than without acupuncture: 2.2 ± 2.5 vs. 3.9 ± 2.7; mean ± SD, p<0.001. Heart rate decreased after LI4 stimulation compared to ST alone throughout the dental treatment (p<0.05). LI4 stimulation was safe and raised better satisfaction with the treatment among children and parents, than ST alone (p<0.05). Other secondary endpoints were comparable between both sessions. Conclusion Stimulation of acupuncture point LI4 reduces pain and autonomous stress during injection of local anaesthetics in paediatric dentistry.
The worldwide distribution and prevalence of melioidosis, an infectious disease caused by the soil-dwelling Gram-negative bacterium Burkholderia pseudomallei, is unknown. In Vietnam, sporadic cases of melioidosis have been reported for decades, but clinical and epidemiological data for the indigenous population are still scarce. In this study, we reviewed clinical and demographic data of patients with culture-proven melioidosis diagnosed at a single large referral hospital in Hanoi between November 1997 and December 2005. The clinical manifestations of melioidosis with fatal septicaemia as the most common presentation, a high rate of underlying diseases and a peak of cases admitted during the wet season were similar to studies from other endemic areas. The geographical origin of melioidosis patients shows that melioidosis exists in at least 18 northern provinces. The characterization of clinical B. pseudomallei strains by multilocus sequence typing identified 17 different sequence types (STs), ten of which have (as yet) not been found outside Vietnam. Several of these STs presumably were generated through recent evolutionary events in this rapidly diversifying bacterial species, and thus restricted geographic distribution may be a consequence of limited time passed since emergence. In order to define the distribution of the bacterium in the environment, our study also aimed to develop a more sensitive culture method for the detection of B. pseudomallei from soil samples in endemic areas compared to the currently used culture method based on soil dispersion in water. Our newly developed protocol involving soil dispersion in a polyethylene glycol and sodium deoxycholate solution increased the yield of viable B. pseudomallei from soil samples. Comparative testing of soil samples from Northeast Thailand covering a wide range of B. pseudomallei concentrations demonstrated a significantly higher recovery (p < 0.0001) of B. pseudomallei colony forming units by the new method compared to the conventional method. Our data indicate that using the detergents polyethylene glycol and sodium deoxycholate not only results in a higher recovery of viable B. pseudomallei, but also results in a shift in the bacterial species recovered from soil samples. Molecular methods based on direct bacterial nucleic acid extraction from environmental samples and subsequent amplification have the potential to overcome many restrictions of traditional microbiological approaches. Moreover, culture-dependent methods require special expertise in recognizing B. pseudomallei colony morphologies. Thus, a highly sensitive culture-independent DNA-based method that allows direct quantification of B. pseudomallei from soil is needed, particularly in diagnostic laboratories outside endemic areas. We therefore aimed to establish a protocol for B. pseudomallei soil DNA isolation, purification and quantification by qPCR targeting a type three secretion system 1 single copy gene. This assay was validated using 40 soil samples from Northeast Thailand that underwent parallel bacteriological culture. All 26 samples that were B. pseudomallei-positive by direct culture were B. pseudomallei qPCR-positive, with a median of 1.84 x 104 genome equivalents (range 3.65 x 102 to 7.85 x 105) per gram of soil. This was 10.6 fold (geometric mean; range 1.1 to 151.3) higher than the bacterial count as defined by culture. Moreover, the qPCR detected B. pseudomallei in seven samples (median 36.9 genome equivalents per g soil; range 9.4 to 47.3), which were negative on direct culture. These seven positives were reproduced using a nested PCR targeting a second, independent B. pseudomallei-specific sequence. Two samples were direct culture and qPCR negative but nested PCR positive. Five samples were negative by both PCR methods and culture. In conclusion, this is the first report on a series of cases describing clinical and epidemiological features of melioidosis and corresponding Burkholderia pseudomallei strains from northern Vietnam. Moreover, our newly developed culture-based and PCR-based methods provide highly specific and sensitive tools for the quantitative environmental surveillance of B. pseudomallei.
I have investigated the role played by reactive oxygen species (ROS) generated by the phagocyte NADPH oxidase system in the innate immune response. I first looked at effector functions by asking whether ROS released from phagocytes might be effective in the killing of extracellular bacteria. Since bacteria can be killed in many other ways – for example by proteases or by cationic peptides – I made use of the recently demonstrated capacity of ROS to remove discontinuities from the surface of gold as the basis of an in vivo assay for extracellular ROS. Unlike bacterial killing, this readout system is not affected by enzymes, cationic peptides or other biological anti-bacterial agents. By this means I was able to use wild type mice and a congenic strain which lacks the gene coding for the gp91 subunit of the phagocyte NADPH oxidase to demonstrate that ROS generated by the NADPH oxidase system are indeed found outside the cells during an inflammation in vivo and that their principle source is neutrophil granulocytes rather than tissue macrophages. Since ROS released by these cells will be non-specific in its action it is to be expected that the releasing cell will itself suffer considerable damage. This fits well to the known short life of activated neutrophils and may explain the established fact that their death is dependent on the NADPH oxidase system. The long lived macrophages, in contrast, restrict their production of extracellular ROS. ROS are increasingly being found to be involved in both intra and intercellular signalling processes I looked for an involvement of NADPH oxidase derived ROS in the recruitment of neutrophils to sites of inflammation in vivo. Since the gene coding for the gp91 subunit of the NADPH oxidase is on the X chromosome I made use of a mosaic expression strategy based on X chromosomal inactivation. The results show that indeed ROS serves as a component of the neutrophil recruitment process in the critical early stages of an infection. Possible mechanisms are explored.
Abstract
We present experiments on the luminescence of excitons confined in a potential trap at milli-Kelvin bath temperatures under continuous-wave (cw) excitation. They reveal several distinct features like a kink in the dependence of the total integrated luminescence intensity on excitation laser power and a bimodal distribution of the spatially resolved luminescence. Furthermore, we discuss the present state of the theoretical description of Bose–Einstein condensation of excitons with respect to signatures of a condensate in the luminescence. The comparison of the experimental data with theoretical results with respect to the spatially resolved as well as the integrated luminescence intensity shows the necessity of taking into account a Bose–Einstein condensed excitonic phase in order to understand the behaviour of the trapped excitons.
A molecular approach to characterize the arbuscular mycorrhizal fungus, Glomus sp. AMykor isolate
(2012)
The arbuscular mycorrhizal fungi (AMF) interaction with plants has a major impact on the soil ecosystem. However, so far, only a few studies on AMF genetics have been performed and molecular information on the genetic diversity of AMF is limited. In this study a fundamental genetic characterization of the industrial isolate, Glomus sp. AMykor (AMykor GmbH, Bitterfeld, Germany) has been undertaken to increase the understanding of AMF genetic diversity. Based on phylogenetic analysis of partial rDNA sequences, Glomus sp. AMykor isolate was proposed to belong to the G. irregulare species together with the reference isolate, DAOM197198. To investigate if both isolates differ in their ploidy level, fluorescence in situ hybridization (FISH) was performed and mainly one or two hybridization signals per nucleus were observed in both isolates. It is suggested that they harbour at least two major rDNA sites and possibly two minor sites. The DNA content was estimated by means of flow cytometry (FC) and confirmed by Feulgen densitometry (FD). The calculated average DNA content per nucleus is 153.0 ± 3.6 Mb for the G. irregulare AMykor isolate and 154.8 ± 6.2 Mb for the DAOM197198 isolate. Since there are plenty criticisms coming recently of using rDNA sequence for fungal barcoding there is necessity of development other system for the identification to species level of Glomeromycotan fungi. The focus of this part of the study was the GiFRD gene encoding fumarate reductase enzyme for use as a potential candidate for AMP species determination. Unfortunately, observed sequence variations do not allow the discrimination of Glomeromycotan species. However, further analysis of enzyme encoded by GiFRD showed a possible role of fumarate reductase in AMF redox balance maintaining under oxygen deficient conditions. Using a yeast expression system, it has been demonstrated that the protein encoded by GiFRD has fumarate reductase activity. The functional expression of GiFRD in the S. cerevisiae fumarate reductase deletion mutant restored the ability of growth under anaerobiosis which indicated that Gifrdp is able to functionally complement the S. cerevisiae missing genes. The fact that GiFRD expression was present only in the asymbiotic stage confirmed existence of at least one metabolic pathway involved in anaerobic metabolism and suggested that AMF behave as a facultative anaerobe in asymbiotic stage.
The autism susceptibility locus on human chromosome 7q32 contains the maternally imprinted MEST and the non-imprinted COPG2 and TSGA14 genes. Autism is a disorder of the ‘social brain’ that has been proposed to be due to an overbalance of paternally expressed genes. To study regulation of the 7q32 locus during anthropoid primate evolution, we analyzed the methylation and expression patterns of MEST, COPG2, and TSGA14 in human, chimpanzee, Old World monkey (baboon and rhesus macaque), and New World monkey (marmoset) cortices. In all human and anthropoid primate cortices, the MEST promoter was hemimethylated, as expected for a differentially methylated imprinting control region, whereas the COPG2 and TSGA14 promoters were completely demethylated, typical for transcriptionally active non-imprinted genes. The MEST gene also showed comparable mRNA expression levels in all analyzed species. In contrast, COPG2 expression was downregulated in the human cortex compared to chimpanzee, Old and New World monkeys. TSGA14 either showed no differential regulation in the human brain compared to chimpanzee and marmoset or a slight upregulation compared to baboon. The human-specific downregulation supports a role for COPG2 in the development of a ‘social brain’. Promoter methylation patterns appear to be more stable during evolution than gene expression patterns, suggesting that other mechanisms may be more important for inter-primate differences in gene expression.
The human brain is distinguished by its remarkable size, high energy consumption, and cognitive abilities compared to all other mammals and non-human primates. However, little is known about what has accelerated brain evolution in the human lineage. One possible explanation is that the appearance of advanced communication skills and language has been a driving force of human brain development. The phenotypic adaptations in brain structure and function which occurred on the way to modern humans may be associated with specific molecular signatures in today’s human genome and/or transcriptome. Genes that have been linked to language, reading, and/or autism spectrum disorders are prime candidates when searching for genes for human-specific communication abilities. The database and genome-wide expression analyses we present here revealed a clustering of such communication-associated genes (COAG) on human chromosomes X and 7, in particular chromosome 7q31-q36. Compared to the rest of the genome, we found a high number of COAG to be differentially expressed in the cortices of humans and non-human primates (chimpanzee, baboon, and/or marmoset). The role of X-linked genes for the development of human-specific cognitive abilities is well known. We now propose that chromosome 7q31-q36 also represents a hot spot for the evolution of human-specific communication abilities. Selective pressure on the T cell receptor beta locus on chromosome 7q34, which plays a pivotal role in the immune system, could have led to rapid dissemination of positive gene variants in hitchhiking COAG.
Hantaviruses (family Bunyaviridae) are enveloped viruses with a segmented RNA genome of negative polarity. They can cause two different diseases in humans, the hemorrhagic fever with renal syndrome in Europe and Asia and the hantavirus cardiopulmonary syndrome in America. The transmission to humans is mainly indirect by inhalation of aerosolized virus-contaminated rodent excreta. In contrast to the initial assumption that hantaviruses are mainly carried by rodents, during the last years many novel hantaviruses were detected in shrews, moles and recently in bats. These findings raise important questions about the evolutionary history of hantaviruses, their host association and adaptation, the role and frequency of spillover infections and host switch events. This study aims to prove the presence, geographical distribution and host association of the rodent-borne Tula virus (TULV) and the shrew-associated Seewis virus (SWSV) in Central Europe. For this purpose, novel laboratory techniques for molecular and serological hantavirus detection were developed. Initially, a broad-spectrum molecular assay to identify small mammal species from Central Europe was developed. This novel assay is based on PCR amplification using degenerated primers targeting the cytochrome b (cyt b) gene, nucleotide sequence analysis of the amplified cyt b gene portion and followed by pairwise sequence comparison to published sequences using the BLAST function of GenBank. Different small mammal species prevalent in Central Europe could be determined by this new approach, including not only representatives of various Rodentia and Soricomorpha, but also representatives of the orders Erinaceomorpha, Lagomorpha, Carnivora and Chiroptera. For characterization of insectivore-borne hantavirus Thottapalayam virus (TPMV), specific monoclonal antibodies were generated that detect native virus in infected mammalian cells. For the detection of TPMV-specific antibodies, Asian house shrew Suncus murinus immunoglobulin G (IgG)-specific antibodies were produced in laboratory mice and rabbit. Using this anti-shrew IgG and recombinant TPMV nucleocapsid (N) protein, an indirect enzyme-linked immunosorbent assay (ELISA) was developed allowing the detection of TPMV N protein-specific antibodies in immunized and experimentally TPMV infected shrews. A Pan-Hantavirus SYBR-Green RT-qPCR was developed for the search to novel hantaviruses. By this novel RT-qPCR and other conventional RT-PCR approaches, TULV infections were identified for the first time in the Eurasian water vole Arvicola amphibius from different regions in Germany and Switzerland. The phylogenetic analyses of the different partial TULV small (S)-, medium (M)- and large (L)-genome segment sequences from A. amphibius, with those of Microtus arvalis- and M. agrestis-derived TULV lineages, revealed a geographical, but host-independent clustering and may suggest multiple TULV spillover or a potential host switch from M. arvalis or M. agrestis to A. amphibius. In a further comprehensive study, different shrew species (Sorex araneus, S. minutus, S. coronatus, and S. alpinus) were collected in Germany, Czech Republic, and Slovakia and screened by another L-segment-targeting Pan-Hantavirus RT-PCR approach. This screening revealed hantavirus L-segment sequences in a large number of S. araneus and a few S. minutus indicating a broad geographical distribution of this hantavirus. For detailed analyses, S-segment sequences were obtained, from S. araneus and S. minutus. The sequences demonstrated their similarity to SWSV sequences from Hungary, Finland, Austria and Germany. A detailed phylogenetic analysis showed low intra-cluster sequence variability, but high inter-cluster divergence suggesting a long-term SWSV evolution in local shrew populations. In conclusion, the investigations demonstrated a broad geographical distribution and multiple spillover infections of rodent-borne TULV and shrew-borne SWSV in Europe. The finding of putative spillover transmissions described here and in other studies underline the current problem of the hantavirus reservoir host definition. In contrast to the hypothesis of a long-standing hantavirus–rodent (small mammal) host coevolution, the investigations support a more dynamic evolutionary history of hantavirus diversification including spillover infections and host-switch events. In future in vitro and in vivo infection studies as well as field studies has to define factors determining the host specificity of these hantaviruses.
Background/Aims: Only rather few data on the validity of screening questionnaires to detect problem drinking in adolescents exist. The aim of this study was to compare the performance of the Alcohol Use Disorders Identification Test (AUDIT), its short form AUDIT-C, the Substance Module of the Problem Oriented Screening Instrument for Teenagers (POSIT), and CRAFFT (acronym for car, relax, alone, forget, family, and friends). Methods: The questionnaires were filled in by 9th and 10th graders from two comprehensive schools. All students received an interview using the alcohol section of the Composite International Diagnostic Interview. Alcohol abuse and alcohol dependence according to DSM-IV as well as episodic heavy drinking served as criteria to validate the screening instruments. Results: All 9th and 10th graders (n = 225) of both schools participated. No significant differences were found for areas under the receiver operating characteristic curves ranging from 0.810 to 0.872. Cronbach’s alpha was satisfactory (0.77–0.80) but poor for CRAFFT (0.64). Different cut-offs are discussed. Conclusions: Considering validity as well as reliability, AUDIT, AUDIT-C and POSIT performed well; however, the POSIT is quite lengthy. AUDIT-C showed good psychometric properties and has clear advantages because of its brevity.
Chaetognaths are a fascinating taxon with unique features and a great impact on marine food webs as primary predators of zooplankton. Their phylogenetic position has been subject to many speculations ever since their discovery and even contemporary phylogenomic methods have not yet been able to suggest a stable hypothesis on their phylogenetic position within the Bilateria. Neuroanatomical studies may contribute new aspects to this discussion. This study aims to provide new insights into the chaetognath nervous system using a fresh set of methods to determine characters for a phylogenetic discussion. The method of choice in this case was immunohistochemistry combined with confocal microscopy. Experiments were conducted with a host of antibodies. The most effective target antigenes were RFamides (a family of neuropeptides), synapsins (synaptic proteins), tyrosinated tubulin (a cytoskeletal element, especially in neurites) and BrdU (bromodeoxyuridin, a proliferation marker). Each of those markers was of great use in highlighting certain aspects of the nervous system. A fresh look at the development of juvenile chaetognaths shortly after hatching revealed that the ventral nerve center (VNC) is developing earlier than the brain and that the production of neurotransmitters has already started at hatching. Specifically, some neurons exhibit RFmide-like immunoreactivity (ir). Neurogenesis continues for about five days after hatching and the mode of division in the neuronal stemcells is asymmetrical. In adult chaetognaths, the brain is divided into a stomatogastric anterior and a sensory posterior neuropil domain. It contains a set of individually identifiable neurons that exhibit RFamide-like ir. The study highlights the interspecific variation of brain architecture between representatives of spadellids and sagittids. The VNC consists of two lateral bands of somata that flank a central neuropil. Within the VNC exists a serial arrangement of neurons with RFamide-like ir. A variety of other neurotransmitters and related substances are also present in both, the brain and the VNC. More interspecific differences and similarities were explored in another part of the study, comparing even more different chaetognath species and focusing on the VNC and its internal structure. The two species of Krohnitta have an unusual distribution of nuclei that is not clearly separated into two lateral bands like in other species. Many of the sagittid species exhibit a striation pattern of the neuropil that is mostly absent in other groups and some of their nerve nets show varying degrees of order as opposed to the rather disorganized nerve net in other groups. In addition, immunohistochemical methods were applied to several specimens of Gnathostomula sp. in order to test one of the many hypotheses about the chaetognaths phylogenetic position, a sister-group relationship to gnathostomulids. A comparison between the two taxa, taking into account also other gnathifera and platyhelminthes, makes a sistergroup relationship between chaetognaths and gnathostomulids very unlikely. In conclusion, chaetognaths remain in an enigmatic phylogenetic position and likely branched off close to the deuterostome/protostome split.
Indoloquinoline derivatives are very interesting compounds for pharmaceutical applications because of their broad spectrum of biological activity. However, phenyl-substituted indoloquinolines suffer from solubility problems in aqueous solution and require the synthesis of better soluble derivatives for their effective application. Therefore, the indoloquinoline derivatives were covalently attached to two different types of cationic aminoalkyl linkers. After having successfully established the synthesis and subsequent purification of the novel derivatives that could be isolated in excellent yields, these ligands were characterized in this thesis with regard to their spectral properties in different environments and their sequence specific binding to different types of nucleic acids with a variety of spectroscopic methods.
Chronic infections, including periodontal infections, may reduce lung function. To date, there are hardly any population-based studies evaluating the association between periodontitis and lung function. However, there are some studies that used variables associated with obstructive pulmonary diseases (FEV1, FEV1/FVC). Thus, we aimed to assess the potential association of periodontal diseases with lung volumes and airflow limitation in the population-based Study of Health in Pomerania (SHIP). Of 3300 participants aged 25-85 years of the 5-year follow-up (SHIP-1), 1809 subjects participated in lung function examinations. 1465 subjects were included in the analyses. Lung function was measured using spirometry, body plethysmography, helium dilution, and diffusing capacity for carbon monoxide. Periodontal status was assessed by clinical attachment loss, probing depth, and number of missing teeth. Linear regression models using fractional polynomials were used to assess linear and non-linear associations between periodontal disease and lung function adjusting for confounders. Adjusting for age, sex, waist circumference, physical activity, diabetes, asthma, and time between core and pulmonary examination, mean attachment loss was significantly associated with variables of dynamic and static lung volumes, airflow limitation and hyperinflation. Total lung capacity and diffusing capacity for carbon monoxide were not associated with mean attachment loss. Adjustment for smoking and height considerably changed coefficients indicating profound confounding. Including fibrinogen and high sensitive CRP into fully adjusted models did not change coefficients of mean attachment loss. Restricted to never smokers, mean attachment loss was significantly associated with FEV1, FVC, and RV/TLC. Relations with lung function were confirmed for mean probing depth, extent measures of attachment loss/probing depth, and number of missing teeth. Periodontal disease was significantly associated with decreased lung function. Systemic inflammation did not provide a mechanism linking both diseases. However, cohort studies evaluating lung function in the current manner are needed to confirm results from this study and to assess a causal relationship. Furthermore, it needs to be investigated with the help of randomized clinical trials whether prevention or treatment of periodontitis might have a beneficial impact on lung function.
The learning theory of panic disorder differs between panic attacks and anxious apprehension as distinct emotional states. Acute panic is accompanied by extreme fear, experience of strong body symptoms reflecting autonomic surge and flight tendencies. In contrast, anxious apprehension is associated with hypervigilance towards bodily sensations and increased distress when subtle somatic symptoms are identified. Following animal models, these clinical entities reflect different stages of defensive reactivity depending upon the imminence of interoceptive or exteroceptive threat cues with lowest distance to threat during panic attacks. We tested this model by investigating the dynamics of defensive reactivity in a large group of patients suffering from panic disorder and agoraphobia (PD/AG) prior to a multicenter controlled clinical trial. Three hundred forty-five patients participated in a standardized behavioral avoidance test (being entrapped in a small, dark chamber for 10 minutes). Defensive reactivity was assessed measuring avoidance and escape behavior, self reports of anxiety and panic symptoms, autonomic arousal (heart rate and skin conductance), and potentiation of the startle reflex before and during the exposure period of the behavioral avoidance test. While 125 patients showed strong anxious apprehension during the task (as indexed by increased reports of anxiety, elevated physiological arousal, and startle potentiation), 72 patients escaped from the test chamber. Active escape was initiated at the peak of the autonomic surge accompanied by an inhibition of the startle response as predicted by the animal model. These physiological responses were observed during 34 reported panic attacks as well. We found evidence that defensive reactivity in PD/AG patients is dynamically organized ranging from anxious apprehension to panic with increasing proximity of interoceptive threat. Importantly, the patients differed quite substantially according defensive reactivity during the behavioral avoidance test despite all patients received the same principal diagnosis. These differences can be explained in part by differences in the disposition according to two genetic variants previously associated with panic disorder. Patients carrying the risk variant of a polymorphism in the neuropeptide S receptor gene showed an overall increased heart rate during the whole behavioral avoidance test reflecting an enhanced sympathomimetic activation and consequently arousal level. During the entrapment situation in which heart rate further increased over an already elevated baseline level, risk variant carriers were prone to experience more panic symptoms. This is in line with the learning perspective of panic disorder, postulating that internal cues of elevated arousal increase the chance of experiencing another panic attack once they have been associated with aversive responses. Furthermore, the risk variant of a polymorphism in the monoamine oxidase A gene was observed to augment the occurrence of panic attacks and escape behavior preparation. In addition, we find evidence that suggest an enhanced resistance to corrective learning experiences as indicated by a lack of a reduction of avoiding and escaping behavior during repeated test chamber exposures in wait-list control patients carrying the risk gene variant. Both effects may strengthen the learning mechanism hypothesized to be involved in the pathogenesis of panic disorder. Exteroceptive and interoceptive cues previously associated with the initial panic attack might trigger subsequent attacks in risk allele carriers more rapidly while simultaneously the opportunity to dissolve once established associations due to contradictory experiences is limited. Now, differential dispositions regarding defensive reactivity in PD/AG patients has to be linked to mechanisms supposed to be involved in exposure based therapy. First outcome evaluations of the clinical trial indicated that a behavioral therapy variant suggested to be linked with higher fear activation during exposure exercises is more effective than another. Further analyses have to proof whether those patients showing a clear specific fear response during the behavioral avoidance test benefit more than others from exposure based therapy.
Background: There is evidence that the borderline symptomatology of the mother longitudinally predicts the number of borderline criteria met by the children. However, possible underlying mechanisms have rarely been examined. In line with transactional models of borderline personality disorder (BPD), we analyzed a broad concept of maladaptive mother-child interactions of mothers with BPD symptoms towards their children, including insensitive parenting and mother-child discrepancies, in reporting the child's psychopathological behavior. Sampling/Methods: The sample was drawn from the population-based Greifswald Family Study and consisted of 295 children and their biological mothers. Both were examined at two points in time, first when the children were about 15 years old (T₀) and again 5 years later (T<sub>1</sub>), using path analyses. Results: Maladaptive mother-child interactions (especially an overprotective and rejecting parenting style and high discrepancies regarding internalizing problems) mediate the longitudinal transmission of borderline symptoms from mother to child. Furthermore, our data revealed that this result is consistent for various youth symptoms which are associated with BPD such as impulsivity or dissociation. Conclusion: The data of the current study imply that the transmission of borderline symptoms from mother to child is mediated by maladaptive mother-child interactions. For this reason early and professional support may be useful to prevent these children from developing severe psychopathology.
The general stress response comprises approximately 200 genes and is driven by the alternative sigma factor SigB. Besides the process of sporulation with approximately 500 involved gene products under initial control of Spo0A are the two most significant and extensive cellular responses that can be observed in B. subtilis. The general stress response provides vegetative growing as well as non-growing and non-sporulating cells with a comprehensive cross-protective and preventive multiple stress resistance to various hostile environmental conditions. In contrast, the endospore is the most resistant but also dormant cell type produced by B. subtilis. The scope of this study was the identification of regulatory cascades driven by the general stress response sigma factor SigB to further elucidate the structure and function of the general stress regulon itself and to uncover potential intersections between the SigB response and other major developmental programs in the regulatory network of B. subtilis. It could be shown that the general stress regulon member yqgZ encodes a functional paralogue of Spx, the global regulator of the diamide stress regulon in B. subtilis. Global transcriptome and proteome studies led to the characterization of an YqgZ sub-regulon consisting of 53 positively and 18 negatively regulated genes. Due to its stringent SigB-dependent expression as well as its concerted action with SigB in regulation of its target genes YqgZ was renamed to MgsR which stands for “modulator of the general stress response”. Activity control of MgsR is stringently controlled at multiple levels. In addition to induction by SigB these mechanisms include (i) a positive autoregulatory loop of MgsR on the transcription level of its own structural gene, (ii) a post-translational redox-sensitive activation step by the formation of an intramolecular disulfide-bond within a conserved -CXXC-motif and (iii) rapid proteolytic degradation of MgsR by the ClpCP and ClpXP proteases, resul ting in extremely short in vivo half-lifes below 6 minutes. It was demonstrated that the activation of SigB is a prerequisite but not sufficient for a full expression of all general stress genes and that the SigB-dependent expression of MgsR provides the opportunity for additional redox-sensitive signal-reception, -processing and -integration beyond the primary decision of SigB activation. Our results describe a regulatory cascade integrating secondary oxidative stress signals into a SigB mediated regulatory cascade that is aimed at a precise fine tuning of target gene expression whose products are necessary for proper management of oxidative stress. Although primary oxidative stress stimuli do not typically induce SigB, our observation of redox-sensitive control by MgsR and several other reports that pointed at the implication of the general stress proteins in oxidative stress management led to the proposal that secondary oxidative stress may be a common component of multip le severe physical stress stimuli. This assumption could be supported by the results of a comprehensive phenotype screening of 94 mutants in single general stress genes upon treatment with hydrogen peroxide and the superoxide generating agent paraquat. A substantial amount of 62 mutants (66%) displayed significantly decreased survival rates in response to oxidative stress. The information gained by this phenotypic screening analysis provides a valuable basis for more directed assays to elucidate the biochemical functions of many so far uncharacterized general stress proteins and demonstrates that the SigB response and the regulatory fine tuning by MgsR plays a pivotal role in protection from secondary oxidative stress. Furthermore, it has been intensively discussed throughout the literature of the last years that the general stress response and the process of sporulation may represent mutually exclusive survival strategies of a non-growing B. subtilis cell, but the molecular basis for this assumption was missing until recently. By the identification of a functional SigB-type promoter (PsigB) adjacent to the spo0E, this gene was newly assigned to the general stress regulon. The spo0E gene encodes a phosphatase that specifically inactivates the master regulator of sporulation Spo0A~P by dephosphorylation. The SigB dependent induction of spo0E causes a block of sporulation specific transcription and produces a sporulation deficient phenotype. This effect was overcome by a deletion of the spo0E-SigB promoter, thus clearly addresses SigB activity. This regulatory mechanism is the first example for an integration of SigB inducing stimuli into the decision making process of sporulation initiation that provides a link to interconnect these two dominant and very likely mutually exclusive responses in the regulatory network of B. subtilis. The data presented here provide deeper insights into the structure and function of the general stress regulon in stress management.
Beams of ions and electrons are a source of free energy which can be transferred to waves via an instability. Beams exist in almost all plasma environments, but their instabilities are particularly important for the dynamics of space plasmas. In the absence of collisions, the instability drives waves to large amplitudes and forms nonlinear structures such as solitary waves. The electric fields in these waves can scatter particles in the background plasma, or disrupt currents. Both of these effects are important for the overall dynamics of the plasma. In this thesis, both electron and ion beam plasma instabilities have been investigated in the linear plasma device VINETA and using a Particle-in-Cell simulation. The electron beam instability has been demonstrated by previous authors to be a useful diagnostic for the plasma density. The spatial resolution of previous results was confirmed at a few millimetres, and a temporal resolution of 1ms was shown for the first time. An ion beam was generated with a double plasma discharge. Compared to space, this environment and indeed most laboratory plasmas have considerably higher collisionality and a limited spatial extent which introduces gradients in the plasma. Gradients perpendicular to the beam propagation direction are linked to a decrease of both the wavelength and amplitude of the instability. It was observed in both experiment and simulation that gradients in sheaths at the boundaries of the plasma not only affect the time averaged plasma parameters, but also excite instabilities. Fluctuations within the sheath spread the beam in velocity space, effectively increasing its temperature. Warmer beams require a higher drift velocity to excite an instability. This was also confirmed by experimental and numerical results. Collisions are shown to be the dominant damping force for the electron beam instability. For ions, collisions play an important role in the simulation, but appear to be overshadowed by Landau damping from impurities in the experiment. When boundary conditions are removed from the simulation, wave amplitudes increase and nonlinear effects become important. Saturation by particle trapping and coalescence of phase space holes is observed, which could eventually lead to the solitary waves as they are observed in space plasmas.
Thiol or sulfhydryl groups are highly reactive functional groups in cellular systems. Molecules carrying thiol groups are mostly derivatives of the amino acid cysteine and are grouped as low molecular weight (LMW)-thiols: coenzyme A (CoA), glutathione (GSH) or bacillithiol (BSH). LMW-thiols can help in the maintenance of the reduced cellular environment as so called redox-buffers. Additionally, they act as co-factors in enzyme reactions or help in the detoxification of reactive oxygen or nitrogen species, electrophilic compounds or thiophilic metalloids (arsenite, tellurite). In proteins from different organisms cysteine is underrepresented compared to other amino acids, but still overtakes diverse roles. It is an important determinant in the tertiary and quaternary structure of proteins. The nucleophilic character of the thiol or thiolate group, respectively, makes cysteine the catalytically active amino acids of different enzymes. As a precursor cysteine participates in the formation of Fe-S clusters and coordinates different co-factors like heme, iron or zinc. The main goal of this study was the investigation of the different cellular thiol pools, now defined as the thiolome. The thiolome is the entity of the cellular thiol pools, i.e. LMW-thiols and protein thiols, and the dynamics between these pools. In Bacillus subtilis and Staphylococcus aureus mixed disulfides between protein thiols and free LMW-thiols, so called S-thiolations, were identified in different proteins in response to the thiol specific reagent diamide. Some of these S-thiolations were located at catalytically active cysteine residues. Subsequent analysis of metabolites supports this: the S-thiolation of the cobalamine-independent methionine-synthase MetE led to a decrease of the cellular methionine content. Additionally, the conversion of threonine to different branched-chain amino acids (BCAAs) was disrupted by the S-thiolation of the branched-chain amino acid aminotransferase YwaA, thereby probably inducing the synthesis of ppGpp, the alarmon of the stringent response. In addition to the identification of S-thiolations a technique was established which allowed the discrimination between intra- and intermolecular disulfides. The non-reducing/ reducing diagonal gel electrophoresis was applied to B. subtilis and S. aureus and confirmed known existing disulfide bonds, e.g. in alkyl hydroperoxide reductase AhpC or the thiol peroxidase Tpx. In response to diamide an increase of specific disulfide bonds in different proteins was observed. The analysis of the LMW-thiol content by an HPLC-approach allowed the observation of the dynamics of the thiolome. In response to diamide the reduced LMW-thiol content decreased by 75%, reduced protein thiols by 60%. Collaborations with other working groups allowed the identification of BSH in this approach. Additionally, an unknown thiol was found that is likely a derivative of BSH. Screening of the LMW-thiol content of different S. aureus-strains under various growth conditions revealed that strains 8325-4 and SH1000 lack BSH. The lack of BSH was attributed to an 8 bp-duplication in the bshC-gene that encodes the last enzyme of the BSH-synthesis. BSH-production was restored by transducing plasmid-borne functional BshC from strain Newman into strains 8325-4 and SH1000. The reconstitution of the BSH-synthesis aided in the resistance to the antibiotic fosfomycin but did not increase the resistance to different oxidants (diamide, sodium hypochlorite, hydrogen peroxide). The production of BSH had also positive effects on the survival of S. aureus inside human bronchial epithelial cells and murine macrophages in phagocytosis assays. Additionally, a GSH-uptake was observed into S. aureus which has before been known as a GSH-free bacterium. Taken together, this thesis provides the first insights into both, the LMW-thiol- and protein thiol pool of low GC, Gram-positive bacteria under different conditions. A plethora of different methodologies was used to describe the thiolome. The bacterial thiolome is a sophisticated system which is tightly regulated, but also flexible enough to not rely on determined molecules like BSH. The influences of the thiolome are not restricted to its own system and regulation, but also affect different branches of cellular physiology like the metabolism of BCAAs.
ZusammenfassungDer Aufsatz bietet den ersten konsistenten Überblick über den Wandel der politischen Positionen der protestantischen Theologie in der DDR. Mit Hilfe von Anregungen aus der Cambridge School der Ideengeschichte geht der Text der Frage nach, inwieweit die ostdeutsche evangelische Theologie Resistenzpotential gegenüber dem politischen Anpassungsdruck des SED-Regimes aufzubringen vermochte. Dabei widersprechen die Autoren der in der Forschung verbreiteten Auffassung, die Protestanten hätten die Theologie in obrigkeitstreuer Tradition einmal mehr den neuen Verhältnissen angepasst. Vielmehr lässt sich ein deutlicher Bruch nach 1945 erkennen, eine jahrelang anhaltende Kritik an der atheistischen Regierung und ein theologisches Ringen um ein angemessenes Obrigkeitsverständnis. Erst äußere Anlässe brachten die Kirchen dazu, ihre fundamentalkritische Theologie Zug um Zug aufzugeben. Dazu gehört die Zementierung der deutschen Teilung, die den Rückhalt der ostdeutschen Kirchen in der gesamtdeutschen EKD schwächte, oder auch die Ungleichheit in der Verteilung der Machtmittel, die die Kirchen an den Staat auslieferten. Neben diesen strukturellen Gründen benennen die Autoren ideelle Motive wie die Kritik an der Institution EKD, durch die sich die jüngeren Theologen von der älteren Generation ablösen wollten. Einflussreich waren auch internationale ökumenische Diskurse, die seit den siebziger Jahren den Kapitalismus zunehmend kritisch und den Sozialismus entsprechend positiv einordneten. Obwohl die wenigen verbliebenen Christen sich immer wieder unangepasst verhielten, ließ sich die Theologie insgesamt mehr und mehr zur Rechtfertigung des Anpassungsweges einspannen. Nicht sie bestimmte die politische Haltung. Vielmehr gaben äußere Faktoren die theologischen Positionsbestimmungen der Kirche vor.
Background: Alveolar soft-part sarcoma (ASPS) is a rare sarcoma often occurring in young patients that is characterized by the unbalanced translocation der(17)t(X;17) (p11;q25). Although itusuallyshowsan indolent clinical course, the prognosis is usually poor in advanced disease. Since standard chemotherapy regimens used in soft-tissue sarcomas lack efficacy in ASPS, new therapeutic options are needed. We investigated the efficacy of trabectedin, which has demonstrated activity in a variety of cancer types including some of the most prevalent translocation-related sarcomas. Patients and Methods: 7 patients with metastatic or advanced ASPS treated with trabectedin in the Sarcoma Center Berlin-Brandenburg and the University Hospital of Greifswald were analyzed for median progression-free survival (mPFS), overall survival (OS), and therapy-related toxicity. Results: In 6 patients with documented disease progression, disease stabilization was reached with trabectedin; only 1 patient experienced progressive disease. The mPFS and OS were 7 months and 21 months, respectively, since the start of trabectedin treatment. Overall, no severe Common Toxicity Criteria (CTC) grade 3 or 4 toxicity was observed. Conclusions: The poor prognosis of patients with ASPS has so far been due to the unavailability of effective systemic treatments. Trabectedin can be considered the only currently registered drug with clinical activity in this disease.