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Endangered species of hosts are coupled with endangered species of parasites, which share the risk of co-extinction. Conservation efforts sometimes include breeding of rare species in captivity. Data on parasites of captive populations of endangered species is scarce and the ability of small numbers of captive host individuals to support the biodiversity of native parasites is limited. Examination of ectosymbionts of the critically endangered Philippine eagles and the endangered Mindanao Hawk-Eagle kept at the Philippine Eagle Center, Philippines, revealed three feather mite species despite regular treatment with insecticide powder. No other ectosymbiont taxa were detected. Studies in morphology and molecular phylogeny of these feather mites based on mitochondrial and nuclear DNA markers indicate that species found were typical for Accipitridae. Three new pterolichoid feather mite species (Acari: Pterolichoidea) were described from two species of eagles (Accipitriformes: Accipitridae) endemic to the Philippines: Hieracolichus philippinensis sp. n. (Gabuciniidae) and Pseudalloptinus pithecophagae sp. n. (Pterolichidae) from the Great Philippine Eagle Pithecophaga jefferyi Ogilvie-Grant, 1896, and Pseudogabucinia nisaeti sp. n. (Kramerellidae) from the Mindanao Hawk-Eagle Nisaetus pinskeri Gould, 1863. The presence of H. philippinensis on P. jefferyi supports the recent finding that the Great Philippine Eagle belongs to the lineage of serpent eagles (Circaetinae) rather than to the Harpy and other eagles.
Background: Molecular hydrogen (H2) is an attractive future energy carrier to replace fossil fuels. Biologically and sustainably produced H2 could contribute significantly to the future energy mix. However, biological H2 production methods are faced with multiple barriers including substrate cost, low production rates, and low yields. The C1 compound formate is a promising substrate for biological H2 production, as it can be produced itself from various sources including electrochemical reduction of CO2 or from synthesis gas. Many microbes that can produce H2 from formate have been isolated; however, in most cases H2 production rates cannot compete with other H2 production methods.
Results: We established a formate-based H2 production method utilizing the acetogenic bacterium Acetobacterium woodii. This organism can use formate as sole energy and carbon source and possesses a novel enzyme complex, the hydrogen-dependent CO2 reductase that catalyzes oxidation of formate to H2 and CO2. Cell suspensions reached specific formate-dependent H2 production rates of 71 mmol g protein −1 h−1 (30.5 mmol g CDW −1 h−1) and maximum volumetric H2 evolution rates of 79 mmol L−1 h−1. Using growing cells in a two-step closed batch fermentation, specific H2 production rates reached 66 mmol g CDW −1 h−1 with a volumetric H2 evolution rate of 7.9 mmol L−1 h−1. Acetate was the major side product that decreased the H2 yield. We demonstrate that inhibition of the energy metabolism by addition of a sodium ionophore is suitable to completely abolish acetate formation. Under these conditions, yields up to 1 mol H2 per mol formate were achieved. The same ionophore can be used in cultures utilizing formate as specific switch from a growing phase to a H2 production phase.
Conclusions: Acetobacterium woodii reached one of the highest formate-dependent specific H2 productivity rates at ambient temperatures reported so far for an organism without genetic modification and converted the substrate exclusively to H2. This makes this organism a very promising candidate for sustainable H2 production and, because of the reversibility of the A. woodii enzyme, also a candidate for reversible H2 storage.
Mannitol is the major compatible solute, next to glutamate, synthesized by the opportunistic human pathogen Acinetobacter baumannii under low water activities. The key enzyme for mannitol biosynthesis, MtlD, was identified. MtlD is highly similar to the bifunctional mannitol‐1‐phosphate dehydrogenase/phosphatase from Acinetobacter baylyi. After deletion of the mtlD gene from A. baumannii ATCC 19606T cells no longer accumulated mannitol and growth was completely impaired at high salt. Addition of glycine betaine restored growth, demonstrating that mannitol is an important compatible solute in the human pathogen. MtlD was heterologously produced and purified. Enzyme activity was strictly salt dependent. Highest stimulation was reached at 600 mmol/L NaCl. Addition of different sodium as well as potassium salts restored activity, with highest stimulations up to 41 U/mg protein by sodium glutamate. In contrast, an increase in osmolarity by addition of sugars did not restore activity. Regulation of mannitol synthesis was also assayed at the transcriptional level. Reporter gene assays revealed that expression of mtlD is strongly dependent on high osmolarity, not discriminating between different salts or sugars. The presence of glycine betaine or its precursor choline repressed promoter activation. These data indicate a dual regulation of mannitol production in A. baumannii, at the transcriptional and the enzymatic level, depending on high osmolarity.
Hematopoietic differentiation is driven by transcription factors, which orchestrate a finely tuned transcriptional network. At bipotential branching points lineage decisions are made, where key transcription factors initiate cell type-specific gene expression programs. These programs are stabilized by the epigenetic activity of recruited chromatin-modifying cofactors. An example is the association of the transcription factor RUNX1 with protein arginine methyltransferase 6 (PRMT6) at the megakaryocytic/erythroid bifurcation. However, little is known about the specific influence of PRMT6 on this important branching point. Here, we show that PRMT6 inhibits erythroid gene expression during megakaryopoiesis of primary human CD34+ progenitor cells. PRMT6 is recruited to erythroid genes, such as glycophorin A. Consequently, a repressive histone modification pattern with high H3R2me2a and low H3K4me3 is established. Importantly, inhibition of PRMT6 by shRNA or small molecule inhibitors leads to upregulation of erythroid genes and promotes erythropoiesis. Our data reveal that PRMT6 plays a role in the control of erythroid/megakaryocytic differentiation and open up the possibility that manipulation of PRMT6 activity could facilitate enhanced erythropoiesis for therapeutic use.
Diploid transgenic organisms are either hemi- or homozygous. Genetic assays are, therefore, required to identify the genotype. Our AGameOfClones vector concept uses two clearly distinguishable transformation markers embedded in interweaved, but incompatible Lox site pairs. Cre-mediated recombination leads to hemizygous individuals that carry only one marker. In the following generation, heterozygous descendants are identified by the presence of both markers and produce homozygous progeny that are selected by the lack of one marker. We prove our concept in Tribolium castaneum by systematically creating multiple functional homozygous transgenic lines suitable for long-term fluorescence live imaging. Our approach saves resources and simplifies transgenic organism handling. Since the concept relies on the universal Cre-Lox system, it is expected to work in all diploid model organisms, for example, insects, zebrafish, rodents and plants. With appropriate adaptions, it can be used in knock-out assays to preselect homozygous individuals and thus minimize the number of wasted animals.
The mammalian thalamocortical system generates intrinsic activity reflecting different states of excitability, arising from changes in the membrane potentials of underlying neuronal networks. Fluctuations between these states occur spontaneously, regularly, and frequently throughout awake periods and influence stimulus encoding, information processing, and neuronal and behavioral responses. Changes of pupil size have recently been identified as a reliable marker of underlying neuronal membrane potential and thus can encode associated network state changes in rodent cortex. This suggests that pupillometry, a ubiquitous measure of pupil dilation in cognitive neuroscience, could be used as an index for network state fluctuations also for human brain signals. Considering this variable may explain task-independent variance in neuronal and behavioral signals that were previously disregarded as noise.
Cytokine regulation of high-output nitric oxide (NO) derived from inducible NO synthase (iNOS) is critically involved in inflammation biology and host defense. Herein, we set out to characterize the role of type I interferon (IFN) as potential regulator of hepatic iNOS in vitro and in vivo. In this regard, we identified in murine Hepa1-6 hepatoma cells a potent synergism between pro-inflammatory interleukin-β/tumor necrosis factor-α and immunoregulatory IFNβ as detected by analysis of iNOS expression and nitrite release. Upregulation of iNOS by IFNβ coincided with enhanced binding of signal transducer and activator of transcription-1 to a regulatory region at the murine iNOS promoter known to support target gene expression in response to this signaling pathway. Synergistic iNOS induction under the influence of IFNβ was confirmed in alternate murine Hepa56.1D hepatoma cells and primary hepatocytes. To assess iNOS regulation by type I IFN in vivo, murine acetaminophen (APAP)-induced sterile liver inflammation was investigated. In this model of acute liver injury, excessive necroinflammation drives iNOS expression in diverse liver cell types, among others hepatocytes. Herein, we demonstrate impaired iNOS expression in type I IFN receptor-deficient mice which associated with diminished APAP-induced liver damage. Data presented indicate a vital role of type I IFN within the inflamed liver for fine-tuning pathological processes such as overt iNOS expression.
Motivation: Arabidopsis thaliana is a well-established model system for the analysis of the basic physiological and metabolic pathways of plants. Nevertheless, the system is not yet fully understood, although many mechanisms are described, and information for many processes exists. However, the combination and interpretation of the large amount of biological data remain a big challenge, not only because data sets for metabolic paths are still incomplete. Moreover, they are often inconsistent, because they are coming from different experiments of various scales, regarding, for example, accuracy and/or significance. Here, theoretical modeling is powerful to formulate hypotheses for pathways and the dynamics of the metabolism, even if the biological data are incomplete. To develop reliable mathematical models they have to be proven for consistency. This is still a challenging task because many verification techniques fail already for middle-sized models. Consequently, new methods, like decomposition methods or reduction approaches, are developed to circumvent this problem.
Methods: We present a new semi-quantitative mathematical model of the metabolism of Arabidopsis thaliana. We used the Petri net formalism to express the complex reaction system in a mathematically unique manner. To verify the model for correctness and consistency we applied concepts of network decomposition and network reduction such as transition invariants, common transition pairs, and invariant transition pairs.
Results: We formulated the core metabolism of Arabidopsis thaliana based on recent knowledge from literature, including the Calvin cycle, glycolysis and citric acid cycle, glyoxylate cycle, urea cycle, sucrose synthesis, and the starch metabolism. By applying network decomposition and reduction techniques at steady-state conditions, we suggest a straightforward mathematical modeling process. We demonstrate that potential steady-state pathways exist, which provide the fixed carbon to nearly all parts of the network, especially to the citric acid cycle. There is a close cooperation of important metabolic pathways, e.g., the de novo synthesis of uridine-5-monophosphate, the γ-aminobutyric acid shunt, and the urea cycle. The presented approach extends the established methods for a feasible interpretation of biological network models, in particular of large and complex models.
The continuous conversion of natural wildlife habitats into agricultural areas, as well as the fragmentation of the last wildlife refuges, is increasing the interface between people and wildlife. When wildlife negatively impacts on people and vice versa, we speak about human-wildlife conflicts (HWCs). This definition includes losses on both sides and takes into consideration the rooting of most of these conflicts between different groups of interest, such as advocates for nature conservation and economic groups. The centres of highest biodiversity are located in developing countries, which are also characterized by poverty. In African and Asian countries, people living in the vicinity of national parks and other conservation areas mostly receive only little support through the government or conservation organisations. Especially for those people who are dependent on agriculture, damage to fields and harvests can have catastrophic consequences. If the species causing damage is protected by national or even international law, the farmer is not allowed to use lethal methods, but has to approach the authority in charge. If this agency, however, cannot offer appropriate support, resentment, anger or even hate develops, and the support for wildlife conservation activities declines. For this reason, HWCs were declared as one of the most important conservation topics today, being particularly relevant for large and threatened species such as the African and Asian elephant, hippopotamus and the greater one-horned rhino, as well as for large predators. Up to today, no general assessment scheme has been recommended for damage caused by protected wildlife species.
In my study, HWCs in Asia and Africa are compared, focussing on all herbivorous species identified which damaged crops. For the French NGO Awely, des animaux et des hommes, I developed a detailed assessment scheme suitable for all terrestrial ecosystems, and any type of HWCs and any species (Chapter 2). This HWC assessment scheme was used in four different study areas located in two African countries (South Luangwa/Zambia (SL), Tarangire/Tanzania (TA)) and two Asian countries (Bardia/Nepal (BA) and Manas/India (MA)). This scheme ran for six consecutive years (2009 to 2014) for Zambia, Nepal and India and two years (2010 to 2011) for Tanzania. To carry out the assessments, I trained local HWC officers (Awely Red Caps) to assess HWCs by field observations (measurement of damage, identification of species through signs of presence, landscape attributes etc.) and interviews with aggrieved parties (socio economic data). Results of this assessment are presented in Chapters 2-4.
To determine whether elephants prefer or avoid specific crop species, two field experiments were carried out, one in SL and one in BA (Chapter 5 and 6). For this, two test plots were set up and damage by elephants (and other herbivores) were quantified.
Within this doctoral thesis, 3306 damage events of 7408 aggrieved parties were analysed. In three out of the four study areas (SL, BA, MA), elephants caused the highest number of damage events compared to all other wildlife species, however, in TA, most fields were damaged by zebra. Furthermore, the greater one-horned rhino, hippopotamus, wild boar, bushpig, deer and antelope, as well as primates, caused damage to fields and harvests. Damage to houses and other property were nearly exclusively caused by elephants.
With this doctoral thesis I was able to show that season, crop availability, type and the phenological stage of the crop played an important role for crop damaging behavior of herbivores (Chapter 2). Elephants especially damaged rice, maize and wheat and preferred all crop types in a mature stage of growth. In contrast, rhinos preferred wheat to rice and similar to antelope and deer, they preferred crops at earlier stages of growth, before ripening. Crop damage by wildlife species varied strongly in size; most damages fell below 40% of the total harvest per farmer, but in several cases (3 to 8% depending on the study area), harvests were completely destroyed. Interestingly, during times of low nutritional availability in the natural habitat (dry season), crop damages in all four study areas were significantly less than during other seasons.
In all four study areas, crop protection strategies, such as active guarding in the fields, chasing wildlife with noise or fire torches or erecting barriers, were used. In some cases protection strategies were combined. Analysis of data revealed that traditional protection strategies did not reduce the costs of damage (Chapter 3). In some cases, costs of damage, on protected fields were even higher than for unprotected fields. Only in MA did strategic and cohesive guarding significantly reduce crop damage by wildlife species.
Besides damage in the fields, elephants also caused damage to properties in the villages. In search for stored staple crops, they damaged houses, grain stores and kitchens. Such damage was analysed in three study areas (SL, BA, MA) (Chapter 4). Although property damage occurred less frequently compared to crop damage in the fields, the mean cost of this damage was found to be double in BA/MA and four times higher in SL, compared to the costs of crop damage in the fields. It is further remarkable that property damage significantly increased towards the dry season, when the harvest was brought into the villages.
The findings of this study underpin the assumption that wildlife herbivores, especially elephants, are lured to fields and crops because the highly nutritional food (crop) being readily available. Traditional crop protection is cost and labour intensive and does not reduce the costs of damage. For this reason, crop types, which are thought to be not consumed by elephants were systematically tested on their attractiveness in field experiments in SL and BA (Chapter 5 and 6). In SL, lemon grass, ginger and garlic were proven to be less attractive to African elephants than maize and in BA, basil, turmeric, chamomile, coriander, mint, citronella and lemon grass were found to be less attractive to Asian elephants than rice.
The results of this doctoral thesis are relevant for the management of wildlife conservation as they can lead to new approaches to the mitigation of HWCs in African and Asian countries. Finally, specific needs for more scientific research in this field have been identified.
Endogenous AJAP1 associates with the cytoskeleton and attenuates angiogenesis in endothelial cells
(2017)
The adherens junction associated protein 1 (AJAP1, aka shrew-1) is presumably a type-I transmembrane protein localizing and interacting with the E-cadherin-catenin complex. In various tumors, AJAP1 expression is reduced or lost, including hepatocellular and esophageal squamous cell carcinoma, and glial-derived tumors. The aberrant expression of AJAP1 is associated with alterations in cell migration, invasion, increased tumor growth, and tumor vascularization, suggesting AJAP1 as a putative tumor suppressor. We show that AJAP1 attenuates sprouting angiogenesis by reducing endothelial migration and invasion capacities. Further, we show for the first time that endogenous AJAP1 is associated with the microtubule cytoskeleton. This linkage is independent from cell confluency and stable during angiogenic sprouting in vitro. Our work suggests that AJAP1 is a putative negative regulator of angiogenesis, reducing cell migration and invasion by interfering with the microtubule network. Based on our results and those of other authors, we suggest AJAP1 as a novel tumor suppressor and diagnostic marker.