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About 30 % of epileptic patients are non-responsive to multidrug antiepileptic therapy. One of non-responsiveness in epilepsy hypothesis claims that non-responsiveness occurs because of reduced access of antiepileptic drugs to their targets, as a result of increased efflux of antiepileptic drugs away from these targets. Transporters believed to be involved in non-responsiveness in epilepsy are mainly but not exclusively the members of the ABC superfamily including P-gp (MDR1, ABCB1), MRP1 (ABCC1), MRP2 (ABCC2) and others. These proteins are normally found in the blood-brain barrier and the blood-cerebrospinal fluid barrier where they function as protectors. There is emerging evidence that P-gp, MRP1 and MRP2 are up-regulated in epileptogenic brain tissue. The risk of non-responsiveness could be related also to the MDR1 or MRP2 gene polymorphisms. We hypothesised that changes in expression and function of multidrug transporters involved in non-responsiveness of epilepsy might be detectable not only in the brain but also in other tissues such as lymphocytes. Therefore we evaluated the expression of MDR1, MRP1 and MRP2 and function of P-gp in lymphocytes in patients with epilepsy and healthy subjects. Three groups of epileptic patients and 15 healthy subjects as a control group were included in the study. The patients’ group was defined as follows: Monotherapy – patients treated with carbamazepine monotherapy, without seizures - corresponded to group responders. Combined therapy – patients after monotherapy (two different medicines have been tried) and combined therapy (two trials of combined therapy), not free of seizures. Monotherapy and combined therapy groups each embraced 15 patients. Neurosurgery – patients who had undergone neurosurgery, afterwards were or were not additionally treated with carbamazepine, with or without seizures. This group comprised 24 patients. Combined therapy and neurosurgery groups composed the group of non-responders. The mRNA expression of MRP1, MRP2 and MDR1 by means of quantitative real-time PCR as well as MRP2 and P-gp protein content by Western blot in lymphocytes was measured. For P-gp functional analysis rhodamine efflux from lymphocytes and natural killer (NK) cells was performed. The influence of the polymorphisms C3435T, G2677T/A in the MDR1 gene and C24T, G1249A, C3972T in the MRP2 gene for the transporters expression, function and their association with non-responsive epilepsy phenotype was investigated. Our results showed that MRP1 expression in lymphocytes was significantly lower in epileptics than in healthy subjects. Non-responders had lower MRP1 mRNA content in lymphocytes than responders. We did not find any difference in MRP2 expression between epileptics and healthy volunteers. MRP2 mRNA levels in lymphocytes were higher in non-responders than in responders. However, at protein level epileptic patients had significantly lower MRP2 content in lymphocytes than controls. MRP2 protein content did not differ in responders and non-responders. There was no reliable correlation between MRP2 mRNA expression and MRP2 protein content in lymphocytes. Epileptics had significantly lower MDR1 expression in lymphocytes than healthy individuals. MDR1 expression was decreasing according to the consumption of antiepileptic drugs and seizures frequency: patients after neurosurgery had significantly lower MDR1 expression than patients after combined therapy and monotherapy. MDR1 expression was significantly lower in non-responders than in responders. At protein level epileptics had lower P-gp content than controls. Detected P-gp amount in lymphocytes did not differ between responders and non-responders. Rhodamine efflux from lymphocytes and NK cells did not differ significantly between epileptics and healthy subjects, but it was higher in patients after neurosurgery than in patients after monotherapy. Rhodamine efflux from NK cells, which are known to express the highest levels of P-gp, was significantly higher in non-responders than in responders. In this study, we showed that MRP1 mRNA expression in lymphocytes was significantly correlated to its expression in the brain. We detected also a significant co-correlation between MRP1 expression in the hippocampus and MDR1 expression in lymphocytes. We found no evidence regarding the impact of the MDR1 polymorphisms on mRNA expression, P-gp content and rhodamine efflux from lymphocytes. Our data showed lack of evidence regarding the impact of the MRP2 polymorphisms on mRNA expression and protein content. We did not detect any association between MDR1 or MRP2 polymorphisms and non-responsiveness in epilepsy or epilepsy in the main. In conclusion, our results suggest that lymphocytes are an appropriate surrogate for studies on changes of multidrug transporters expression in epilepsy. Lymphocytes as an easily accessible tissue might serve as a marker for responsiveness to antiepileptic drug therapy in epilepsy studies.
The biodiversity of marine microorganisms opens a promising potential for the discovery of new technical enzymes. During this study a characterization of marine microorganisms, isolated from Arctic or Antarctic ice, sea water or sediment from the ocean was performed based on a comprehensive strain collection at the Alfred-Wegener-Institut für Polar- und Meeresforschung. These marine psychrophilic bacteria indicated a wide spectrum of extracellular cold-active enzymes. 16S rRNA sequencing revealed that many of these psychrophilic bacteria represent new species. Characterization of selected isolates by means of transmission electron or raster electron microscopy showed remarkably pleomorphic cellular structures throughout their growth. The major part of this thesis focuses on a marine Antarctic, psychrophilic bacterium (strain ANT/505) isolated from sea ice covered surface water from the Southern Ocean, which was identified to express a very uncommon enzymatic activity for the marine environment, namely a pectinolytic activity. The sequencing of the 16S rRNA of isolate ANT/505 and biochemical tests indicated a taxonomical affiliation to the specie Pseudoalteromonas haloplanktis. The supernatant of this bacterial isolate showed after growth on citrus pectin three different pectinolytic activities. By activity screening of a genomic DNA library of isolate ANT/505 in Escherichia coli, two different pectinolytic clones could be isolated. Subcloning and sequencing revealed two open reading frames of 1671 and 1968 nt corresponding to proteins of 68 and 75 kDa. The deduced amino acid sequence of the two orfs showed homology to pectate lyases from Erwinia chrysanthemi and Aspergillus nidulans. The pectate lyases contain signal peptides of 17 and 26 amino acids length that were correctly processed after overexpression in E. coli BL21. Both enzymes were purified by anionic exchange chromatography. Maximal enzymatic activities for both pectate lyases were observed at a temperature of 30°C and a pH range of 9-10. The Km values of both lyases for pectate and citrus pectin were 1 g⋅l-1 and 5 g⋅l-1, respectively. Calcium was required for activity on pectic substrates, while the addition of 1 mM ethylenediaminetetraacetic acid (EDTA) resulted in complete inhibition of the enzymes. These two cold-adapted enzymes represent the first pectate lyases isolated and characterized from a marine bacterium. Further cloning and sequence analyses revealed that PelA from P. haloplanktis is an exceptionally big bifunctional enzyme featuring pectate lyase and pectin methylesterase activity. The deduced amino acid sequence of the pectin methylesterase domain showed homology to group I pectin methylesterases from Erwinia chrysanthemi and Erwinia carotovora. The pectin methylesterase domain of PelA was found to show highest homology to a potential pectin methylesterase from Saccharophagus degradans strain MD2-40. Maximum pectin methylesterase activity of PelA was detected at a pH of 7.5 and a maximum temperature of 30°C. This cold-adapted enzyme revealed high remaining pectin methylesterase activity at low temperatures around 5°C and was quickly unstabilized at temperatures above 45°C. The analysis of the localization of the two pectinolytic genes on the genome of P. haloplanktis ANT/505 revelaed that these pectinase genes are expressed from independent cistrons, which are not clustered but located at distant positions on chromosome I of the P. haloplanktis genome. It was found that the transcription of both pectinase genes is induced by the presence of pectin. By means of primer extension the promoter regions of both cistrons were detected.
Recent geochemical and mineralogical alteration processes in tropical coastal sediments of Vietnam
(2006)
The dissertation contains two main parts: (i) Syn-sedimentary hydrodynamic processes & relationship with elemental distribution, clay matter, (ii) Short-term mineral alteration during early diagenes. Samples were taken from the uppermost one metre (<50 year old in RRD, < 300 y old in south central VN). In part one, three principal hydrodynamic factors can be revealed based on End-Member Modelling Algorithm (EMMA), for the polymodal grain-size distribution patterns in coastline of VN (i) Accumulation factor: accumulation of terrigenous sediments linked with a grain size separation (distance dependence), (ii) Erosion factor: synsedimentary erosion by wave activities, (iii) Aeolian factor: deposition from neighbour sand bar by wind (typically only for low sedimentation rate, like in South Central Coast but not to detect in RRD). Distributions of clay matter and chemical elements in the coastal sediments in Vietnam are strongly influenced by hydrodynamic forces (distance from the coastline). In part two, particle-wise analysis by TEM allowed to determined four main mixed layer series: di-Vermiculite/Smectite-ml, Kaolinite/ Expandable-ml, Illite/Smectite-ml, Chlorite/Saponite-ml. Three principal mineral alteration processes can be detected in coastal sediments during early diagenesis: Dissolution, Smectitization, Kaolinitization, based on XRD (CSD, peak area) & TEM-EDX (particle morphology, chemical formula, polytype, particle frequency). Dissolution process of clay matter is typically in the coastal alkaline condition. It is a function of diagenetic time. Dissolution begins with a higher degree of dislocation and is followed by step-wise delamination & dissolution of the first stacks Smectitization (mirrored in diVS-ml series) alters mica-like structures (illite, dioctahedral vermiculite) to smectitic structures (Beidellite, Montmorillonite). Smectitization process occurs in group-wise layer by layer transforming mechanism (mica-like layer to smectitic layer). Each step is indicated by a gauss-like distribution of the octahedral layer charge with K as trigger. Kaolinitization of KE series alters smectitic structure (beidellite, smectitic KE-ml) to kaolinitic structure (kaolinitic KE-ml, kaolinite) "interlayer by interlayer" transformation of KE-ml series is comparable to kaolinitization mechanism discussed by Dudek et al. (2006).OH- groups in ambient could be the trigger. Mangroves biota influences the sediments in two main pathways: Nutrients supply & trapping function (clay matter, heavy metals)Interaction of active root-layer: intensification of dissolution, smectitization & kaolinitization: uptake of K, Na by mangrove root is possible trigger Human activities like shrimp cultivation have stopped the influences of the former active roots.Besides, erosion process related to water discharge gives rise to dispersion of clay species & heavy metals => more toxic for ecosystem.
The non-natural substances in commonly used UV protection creams such as TiO2, are known to have a photocatalytic side effect, which is very harmful to human skin. This study presents some properties of clays and clays minerals concerning UV protection potential, which can be very helpful for the development of new UV protection cream generation. Clays and clay minerals are demonstrated that they have potential to absorb UV-radiation. The structures of clay particles in cream were shown to be dependent on the layer charge of clay minerals. The total amount of Fe2C>3 in chemical composition of clay plays a key role in determining the UV-absorption ability of the clay matter. Moreover, the UV-absorption ability also depends on the expandable or non- expandable property of the clay. The studies were also performed on the mixtures of wool-wax-alcohol cream and nanosuspension obtained by the extraction of fungi mass Ganoderma pfeifferi by using plantacare together with clay. The combination of clays and nanosuspension increased its UV-absorption ability. The skin model test was performed in vivo in mouse ears with skin flora Escherichia coli and infectious bacteria Staphylococcus aureus in order to determine the effects of cream samples on skin under UV irradiation and skin infection. From the results of characterization of clays and clay minerals properties in UV protection cream, this study also brings some ideas about products designing.
Although the benefit of expedient antibiotic therapy remains unquestioned, little is known about the effects that are unrelated to their antimicrobial property but which the antibiotics may exert upon the septic microcirculation. Impairment of intestinal microcirculation has been recognized as an important factor in the pathogenesis of the septic syndrome (intestine = ¡°motor¡± of multiple organ failure). To examine the effects of various antibiotics on microcirculation is justified by the fact that one of major features of sepsis is disturbance of microcirculation. However, monitoring of pharmacological effects on intestinal blood flow is nearly impossible during acute therapy in humans and requires sophisticated equipment when applied to experimental animals. Therefore, the aim of this study was to evaluate the effects of common antibiotics on intestinal microcirculation using intravital microscopy (IVM) and on the release of the cytokines in septic and endotoxemic rats. In a first series of experiments we induced sepsis by using colon ascendens stent peritonitis (CASP) model in the rat (16 hours prior microscopy). We evaluated the effects of common antibiotics on intestinal microcirculation using intravital microscopy (functional capillary density (FCD) and leukocyte-endothelial interactions) and on the release of the cytokines TNF-¥á, IL-1©¬, IL-6 and IL-10. Metronidazole (MET) (10 mg/kg); imipenem (IMI) (20 mg/kg); tobramycin (TOB) (25 mg/kg); vancomycin (VAN) (70 mg/kg); and erythromycin (ERY) (5 mg/kg) were given intravenously 16 hours following sepsis induction. To differentiate antimicrobial from anti-inflammatory effects we performed a second series of experiments using endotoxin (LPS, i. v.) and intravital microscopic examination was performed 2 hours later. Cytokine release was estimated at the end of the experiments. In the CASP model, acute administration of metronidazole was associated with an improvement of markers of the intestinal microcirculation in septic rats (CASP). Our study showed that vancomycin stimulated leukocyte rolling, while erythromycin prevented the activation of leukocyte-endothelial interaction in postcapillary intestinal venules (V1) that occurred within 16 hours after CASP. TNF-¥á release in untreated CASP rats was twice as high in comparison to all antibiotic-treated CASP rats, except in CASP rats treated with tobramycin. Key findings of the present study are that MET and ERY were more potent than other antibiotics in improving the intestinal microcirculation in the CASP model. Protective effects of metronidazole, erythromycin and vancomycin upon the microcirculation were found in LPS model. The administration of MET or VAN or ERY led to significantly higher FCD values within the longitudinal muscular layers. Metronidazole and erythromycin significantly reduced the n umber of sticking leukocytes within the V1-venules of LPS-challenged animals. Leukocyte rolling flux was significant increased within the V1- and V3-venules of the endotoxemic rats treated with VAN. Some antibiotics showed immuno-modulatory effects: MET or IMI or VAN treated LPS rats showed increased IL-10 levels; while ERY treated LPS rats showed decreased IL-1©¬ and increased IL-6 concentrations. In conclusion, metronidazole and erythromycin exerted a positive influence upon the intestinal perfusion not only within septic microcirculation (anti-bacterial effect) but also in a pathogenically independent manner (anti-inflammatory effect); vancomycin had only anti-inflammatory actions in the endotoxin model without bacterial infection. Imipenem and tobramycin had no effect on intestinal microcirculation in septic and endotoxemic rats. The clinical usefulness of studies such as this is that they could provide important information about possible side effects or indicate some potential beneficial effects of the antibiotics. They can influence not only microcirculation but also inflammatory processes by some mechanisms that are probably unrelated to their antibiotic effect. However, these effects may be particularly relevant to the intestinal microcirculation which plays an essential role in the development of multi-organ failure in the instance of sepsis.
The toluene-degrading and solvent-tolerant strain Pseudomonas putida DOT-T1E was investigated with respect to its suitability and economic efficiency as biocatalyst in aqueous-organic two-phase systems with aliphatic solvents as organic phase (Rojas et al. 2004, chapter 4 and 5) and to its adaptive responses to the solvent decanol. The adaptive changes on the level of cell morphology (chapter 2), membrane fatty acids and permeability (chapter 3), as well as energetics and surface properties (chapter 5) of P. putida DOT-T1E have been investigated in order to ascertain information about the strain's suitability for two-phase biotransformation systems (chapter 4). The morphological adaptation to the presence of solvents was observable in changes of the cell size of P. putida DOT-T1E. Those changes were dependent on the cellular activity and occurred only after addition of non-lethal solvent concentrations. The cells reacted to the presence of organic solvents by decreasing the ratio between surface and volume of the cells and therefore reducing their relative surfaces (chapter 2). The cell surface and especially the cytoplasmic membrane are the major targets for toxic effects of membrane-active compounds like solvents. The mechanism of the cis-trans isomerisation of unsaturated fatty acids counteracts the fluidizing effect of solvents by increase the ordering of the membrane and therefore its rigidity. By comparing the responses of the cells to a series of stress factors (like solvents), a direct correlation between the activation of this mechanism and the well investigated K+-uptake pumps was observed (chapter 3). Huertas et al. (1998) reported that this strain tolerated concentrations of heptane, propylbenzene, octanol, and toluene of at least 10 % (vol/vol). 1-decanol is, in comparison to toluene, less hazardous and volatile, and it possesses good extraction properties for the desired fine chemical products. In further investigations of possible biotechnological processes, it was discovered that decanol is also a more suitable solvent as organic phase (chapter 4). Although the cells of P. putida DOT-T1E needed additional energy for their adaptation to the presence of the solvent decanol, they were able to maintain or activate their electron transport phosphorylation allowing homeostasis of ATP level and energy charge in the presence of the solvent, at the price of a reduced growth yield. On the other hand, significantly enhanced cell hydrophobicities converging with more negative cell surface charges were observed in cells grown in the presence of 1-decanol (chapter 5). It is however important to note that all the cell’s properties observed are closely linked to each other since they are all part of the adaptive response of the cells. It can be concluded that the easy adaptability and good growth properties of Pseudomonas putida DOT-T1E in the presence of the organic solvent 1-decanol make this system an excellent candidate for two-phase fermentation processes. Moreover, the absence of differences in the energetics of the bacteria during exposure to 1-decanol as compared to bacteria that grew in the absence of 1-decanol, support that this organism can be used for the industrial production of fine chemicals in an economically sound manner.
Expression of the T cell regulatory molecule ICOS (CD278) and LICOS (CD275) on human blood cells
(2006)
Expression of the T cell regulatory molecule ICOS (CD278) and LICOS (CD275) on human blood cells Summary General bacterial infections, which can lead to the clinical picture of sepsis, are a major concern in intensive care units (ICU) and mortality remains high. Recent data have shown that, besides an overreaction of the immune system, also immunosuppression also plays a role in the pathogenesis of sepsis. Immunosuppression has been documented in patients with polytrauma, stroke and burn wounds, which all confer a high risk of severe bacterial infection. Moreover, it has been shown that T cells have an important role in sepsis. A shift of a Th1 dominated T cell response towards a Th2 response has been described as a potential mechanism of immune suppression in patients with sepsis. One of the molecules on the surface of T cells that is involved in the Th2-mediated immune response is the Inducible Costimulator of T cells (ICOS). Its ligand, LICOS, is expressed on the surface of B cells and monocytes. ICOS ligation induces the production of anti-inflammatory cytokines, especially of IL-10. However, nothing is known about the expression of ICOS on T cells and that of LICOS on APCs in patients with severe trauma and stroke. Therefore, in the present study, in a first step, a recombinant human LICOS-Ig fusion protein was generated, which was then used as an antigen for the generation of anti-LICOS monoclonal antibodies. In three fusion experiments, 5,000 primay clones were screened and a single hybridoma was obtained, which produced monoclonal antibodies that specifically reacted with recombinant LICOS, both in form of the LICOS-Ig fusion protein and on the surface of a cell line transfected with a full-length LICOS transgene. Since, it turned out that the antibodies did not bind with high affinity to wild type LICOS, as it is expressed on primary human blood cells, phenotypic analyses were carried out with another anti-LICOS monoclonal antibody, which had become commercially available. Next, the expression of HLA-DR, CD86, LICOS, and ICOS, on the surface of monocytes (CD14+), B cells (CD19+) and T cells (CD3+, CD4+) in whole blood was measured by flow cytometry. Six patients with severe trauma and nine stroke patients were compared with 32 healthy donors. On CD14+ monocytes from healthy donors, the expression levels of HLA-DR and CD86 were over 90%, while the expression of LICOS was much lower (7,5%). In critically ill patients, HLA-DR, CD86 and LICOS expression were strongly reduced. CD86 and HLA-DR were co-regulated, while HLA-DR and LICOS were not. In healthy donors, virtually all B cells expressed HLA-DR and the majority of them co-expressed LICOS (72%), while only a small fraction were CD86+ (14%). After trauma and stroke, HLA-DR, as well as LICOS expression on these cells remained normal; CD86 had a tendency towards being downregulated in most of the trauma patients, while most of the stroke patients exhibited normal CD86+ levels. The levels of HLA-DR and LICOS on T cells in trauma and stroke patients were low and very similar to those of healthy donors. The fraction of CD3+ T lymphocytes or their CD4+ subpopulation, which expressed measurable levels of ICOS (64% and 48%, respectively), did not change after stoke or trauma. However, within the ICOS+ T cell population two subpopulations could be distinguished: ICOSbright and ICOSdim T cells. Interestingly, the ICOSbright subpopulation, but not the ICOSdim and ICOSnegative subpopulations, was markedly increased in all trauma patients and in most of the stroke patients. Given that CD86 was co-regulated with HLA-DR on monocytes it appears that, similar to HLA-DR, CD86 expression could discriminate between patients with a low and high risk of sepsis. In contrast, because of its low basal expression on monocytes and its low signal-noise ratio, LICOS expression levels are not informative. Since ICOS expression on T cells is tightly connected to IL-10 secretion, the high proportion of ICOS bright cells in critically ill patients might contribute to the high IL-10 serum concentrations, which have been reported to be linked to immunosuppression in these patients.
For many years, rangeland ecologists have debated about whether the state of semi-arid and arid rangelands is the expression of an ecological equilibrium or non-equilibrium dynamics reached in response to grazing livestock. Since the problem has been considered at different spatial scales, it is recognised that the competing concepts of equilibrium and non-equilibrium dynamics need to be integrated. Furthermore, the role of environmental variables as vegetation driving factors has long been ignored in the discussion on grazing effects on ecosystems. Present thesis, examines the dependence of plant communities on environmental in particular site-ecological conditions in three ecosystems of Western Mongolia established along a precipitation gradient to detect the vegetation-driving ecological factors involved. Furthermore, grazing impact is exemplary assessed in a desert steppe at additional spatial scales of plant communities and population. At the landscape level, a classification of plant communities in dependence on environmental conditions is carried out. Additionally, the investigations focused on the impact of grazing on soil and on the occurrence of grazing-mediated plant communities. Data were sampled along an altitudinal gradient between 1150 m to 3050 m a.s.l. from arid lowland with desert steppe via semi-arid mountain steppe to humid alpine belt. Within each altitudinal belt, data sampling was carried out along grazing gradients, established from grazing hot spots to areas distant from them. By means of an environmentally based vegetation classification, factors with highest explanation values for largest variation in vegetation were identified and considered as most responsible for vegetation patterns. To validate and affirm the classification, three different statistical methods are applied: environmentally adjusted table work of vegetation relevés supported by cluster analysis of species distribution, detrended correspondence analysis of vegetation data separately from environmental data, and the principle component analysis of only environmental data. Vegetation-driving factors change along the altitudinal gradient from abiotic forces in the desert steppe, as e.g. altitude and soil texture, to abiotic and biotic forces in the alpine belt represented by soil texture, soil nutrients and grazing. Vegetation and soil of all ecosystems respond to grazing but with different patterns and to a different extent. While desert steppe does not indicate grazing communities, mountain steppe demonstrates grazing communities at fertilised sites and alpine belt at nutrients depleted sites. Thus, the grazing sensitiveness of the ecosystems is assumed to be linked with plant productivity and the role of vegetation as site-determining factor (Chapter 2). To examine grazing impact at lower spatial scales on desert steppe as the ecosystem with lowest grazing sensitiveness at the landscape scale, at community scale the total number of species, the total vegetation cover, the percentage of annual species, the cover of annual species, and properties of soil nutrient along gradients of grazing intensity within three different communities were assessed. Vegetation parameters respond to grazing in different ways, and the responses of the same parameters vary between plant communities. Correlations with grazing intensity indicate only partly statistical significance. Significant correlations of grazing intensity with concentrations of soil nutrient point to eutrophication in two communities. A comparison of vegetation and soil properties refers to a greater indirect influence of grazing via increased soil nutrients than the direct effect on vegetation (Chapter 4). At the population level, data about stand density, aboveground biomass, individual plant weight, and the proportion of flowering plants of the dominant dwarf semi-shrub Artemisia xerophytica were collected along a grazing gradient. Soil data were used to distinguish between grazing and edaphic influences. All parameters of Artemisia xerophytica reflect the assumed gradient of grazing intensity up to 800 m distance from the grazing hot spot. As grazing pressure decreases, plant density and total biomass per plot increase. The average shrub weight, an indicator of plant vitality, is related to both: distance from the grazing hot spot and stand density, which may be explained by additional intraspecific competition at higher densities. At a longer distance, these effects are masked by variations in soil parameters determining water availability, leading to quite similar degradation forms. These results are in contrast to other studies carried out at the scale of plant communities which did not detect significant changes along a grazing gradient. One explanation is the different map scale: the study took place only within a single plant community comparing populations of one species (Chapter 3). The comparative study demonstrates that even arid desert steppes of western Mongolia display equilibrial and non-equilibrial properties, depending on the observational scale: while no grazing mediated plant communities could be identified at the landscape scale as predicted by the non-equlilibrium model, at the community level vegetation parameters imply an intermediate position between equilibrium and non-equilibrium system. At the population level, the results clearly reflect the grazing gradient as predicted by the equilibrium model (Chapter 4). As a consequence, the assessment of vegetation dynamics and grazing impact in rangelands requires a multiple-scale approach that duly considers different vegetation properties responding differently to grazing, climatic and edaphic variability at different spatial scales. It is further suggested, that future research should draw comparisons between landscapes that co-evolved with herbivory, and those that did without (Chapter 4).
The thesis contains 6 chapter and mentions about the influences of sea level change, climate, tectonic into the sedimentary process. The results show that late Pleistocene facies mostly are weathered facies which content gibbsite-kaolinite, limonite. In transgression, facies assemblage includes lagoon, tidal and estuary. The composition are in-situ reworked minerals like illite, gypsum. In regression, facies are shallow marine, prodelta, delta front, distributary lobe, swamp, tidal and beach, channel infill, flood plain, lake. Abundant minerals are named like smectite, illite, chlorite, quartz, feldspar, rock fragments, gypsum.Gypsum is the evaporited mineral easily to be formed in coastal environment of Red River Delta. It is a good indicative mineral for distinguishing the deposits formed in dry season of monsoon regions. Smectite is good indicative mineral for sea environment which mostly related with the transference and low accumulation and new formed in climate with wet and dry periods. Kaolinite-gibbsite is an indicator of strong chemical weathering with high precipitation. The stratigraphy can be divide into trangressive systems tract (10-8.5 cal. kyr BP) and highstand systems tract with aggradational-progradational parasequence set (8.5-6.5 cal. kyr BP) and progradational parasequence set (6.5 cal. kyr BP-today, with subsets 6.5-4.0; 4.0-1.5; and 1.5-0.0 cal. kyr BP). The subsidence process which reflex in accumulation rate regarded to not only sea level change, tectonics but also human impact - dyke build plays the main role to increased sedimentary thickness. The influence of source variation and climate change are recorded on mineral composition. In late Pleistocene, materials are chemical weathering authigenic components during warm/wet climate. In transgression, dominated materials are reworked terrigenous and chemical weathering components during warm/dry and cool/wet climate. In regression, materials are low maturity, suffered by physical weathering transported from surrounding mountains during 3 warm/dry or wet - cool/dry or wet big climate cycles.
Proteomic signatures select the physiology state of the cell. By using 2-D technique, proteome signature of Bacillus subtilis under different stresses and starvations are analyzed. Consequently, a proteomic map of Bacillus subtilis in non-growing phase was created. The ammonium and tryptophan as well as phenol and catechol stress are analyzed using both of proteomics and transcriptomics. And the proteomic map represents a good application in the prediction of the mode of action of phenol and catechol stress.