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1. A preliminary revision of the genus Muntiacus in the Indo-Australian Archipelago Introduction Sexual differences Sexual cycle Characters of age in the dentitions Age differences in skull measurements Age differences of antlers Age differences in coat Systematic part 2. Revision of the genus Arctogalidia in the Indo-Australian Archipelago. Introduction Key to the greges in the genus Arctogalidia Key to the subspecies of the grex A. t. trivirgata Gregal form A. t. trilineata
The Opisthobranchia comprise highly specialized marine gastropods and have therefore been subject to diverse investigations covering various biological disciplines. However, a robust phylogeny of these gastropods is still lacking and several subclades have only been rarely studied. Furthermore, crucial aspects for the evolution of Opisthobranchia have not been comparatively analysed. Therefore, the aim of the present thesis is to gain new insights into the phylogeny of the Opisthobranchia with special focus on certain critical groups (Pleurobranchomorpha, Acteonoidea) and to assess several crucial features of the evolution of the investigated clades. The combination of four different gene markers (18S rDNA, 28S rDNA, 16S rDNA and CO1) and modern molecular systematic analysis tools were used to construct phylogenetic hypotheses focussing on Opisthobranchia as a whole as well as Pleurobranchomorpha and Acteonoidea in more detail. Intriguing new aspects of phylogeny and evolution of Opisthobranchia were revealed. First of all, monophyly of Opisthobranchia is definitely rejected based on the present data, while monophyly of Euthyneura (comprising Opisthobranchia and Pulmonata) is supported. Monophyly of opisthobranch subclades is confirmed for Nudipleura (as well as its constituting groups Nudibranchia and Pleurobranchomorpha), Umbraculida, Pteropoda (as well as subclades Thecosomata and Gymnosomata) and Acochlidiacea, for Cephalaspidea (if Runcinacea is regarded as a separate clade) and for Sacoglossa (if Cylindrobulla is accepted as an Oxynoacea). Aplysiomorpha are rendered paraphyletic due to the position of Akera bullata, but this result needs further investigation and should be considered with caution. The Nudipleura are found as the first single offshoot of the Euthyneura implying an early evolutionary separation of the last common ancestor of this clade. The remaining taxa form two main clades, one comprising the opisthobranch subgroups Umbraculida, Cephalaspidea, Aplysiomorpha and Pteropoda, while the other contains the pulmonate taxa and the opisthobranch Sacoglossa and Acochlidiacea. The interrelationships within these clades remain largely unresolved due to low statistical support values. However, a possible sister group relationship of Acochlidiacea and Eupulmonata receives statistical support. Opisthobranchia display various highly specific adaptations to diverse food sources. However, evolution of these specialized traits has never been assessed at an analytical level. The current thesis reconstructs the evolution of dietary preferences with novel methodologies based on the newly proposed phylogenetic hypothesis. Reconstruction of dietary evolution revealed herbivory as the ancestral condition in Euthyneura implying that carnivory evolved at least five times independently in the diverse lineages. The first comprehensive molecular phylogenetic hypothesis of the Pleurobranchomorpha could not reveal monophyly of the two main subclades Pleurobranchaeidae and Pleurobranchidae. This is due to the position of a single taxon (Euselenops luniceps) which is assigned to the Pleurobranchaeidae based on morphology but clusters within Pleurobranchidae in the current hypothesis. Furthermore, the tribe Berthellini and the genus Berthella are rendered paraphyletic by the current analyses. The results of molecular systematic analyses were used to reconstruct historical biogeography of Pleurobranchomorpha. Four different methodological approaches were applied yielding ambiguous results for Pleurobranchomorpha. However, the Pleurobranchidae comprising about 80% of the extant Pleurobranchomorpha most probably derived from an Antarctic origin. Dating of the phylogenetic tree via molecular clock methods yielded divergence of Pleurobranchidae into the Antarctic Tomthompsonia antarctica and the remaining species in Early Oligocene. Afterwards the latter underwent rapid radiation during Oligocene and Early Miocene. This divergence event coincides with two major geological events in the Antarctic region. On the one hand, the onset of glaciation and on the other hand the opening of the Drake Passage with concurrent formation of an Antarctic circumpolar current (ACC). I suppose that these sudden and dramatic changes in climate and palaeogeography probably accounted for migration of the last common ancestor of Pleurobranchidae (besides Tomthompsonia) into warmer regions via the Drake Passage to the Western Atlantic and Eastern Pacific and via the South Tasman Rise to the Indo-West Pacific. Furthermore, the ACC may have triggered larval dispersal to the Eastern Atlantic. The phylogenetic position of Acteonoidea has been a matter of debate for decades and they have long been considered as basal opisthobranchs. Results of the present thesis rather support placement in “Lower Heterobranchia” as sister group of Rissoelloidea. The current division of Acteonoidea into three families has never been investigated by means of phylogenetic methods. Thus, this thesis provides the first comprehensive investigation of this clade challenging present division into three families. The results rather support division into two main clades with the monogeneric Bullinidae clustering within Aplustridae doubting its separate status. Additionally, Rictaxis punctocaelatus which has been assigned to Acteonidae clusters basal to Aplustridae rendering Acteonidae paraphyletic. Since information on morphology of R. punctocaelatus was lacking until now, I conducted the first detailed investigation on morphology and histology of this species in order to reassess the unexpected molecular systematic placement. Character tracing analyses revealed similarities with both acteonoidean families implying an intermediate position of this species which might be assigned to a separate family in the future. Furthermore, the common features of Acteonidae and Rictaxis (massive shell, small foot, anterior mantle cavity opening, and absence of oral gland) are possibly plesiomorphic for the whole Acteonoidea. In summary, the results of the present thesis provide valuable novel insights into the phylogeny and evolution of the Opisthobranchia by employing state-of-the-art approaches of molecular systematics and evolutionary reconstruction. Thus, diverse hypotheses on opisthobranch phylogeny and evolution were either supported or rejected as well as novel hypotheses proposed which offer the basis for further research on these extraordinary gastropods.
Delthyridoid spiriferids are characterized by a global abundance and fast evolution during Silurian and Devonian, and, therefore, are used as important biostratigraphical and palaeobiogeographical tools. In this work, delthyridoid brachiopod faunas from different regions of today’s world, resp., of different palaeobiogeographical units, are compared side-by-side to investigate their phylogenetic relationships and to improve, in a second step, the palaeobiogeography from Late Silurian to Early Eifelian time. A new systematics of Delthyridoidae is established which is more complicated than hitherto assumed. The results of this study are mainly based on direct comparison of articulated and isolated brachiopod shells, external and internal moulds, as well as latex casts and serial sections. The computer supported cladistic analyses have turned out not to be useful due to different kinds of preservation resulting in an incomplete matrix which is insufficient for reliable cladograms. A further problem in terms of cladistical analyses are various convergences during the evolution of spiriferids. Many characters evolved independently from each other at different times in each lineage so that autapomorphies are hardly or not at all recognizable. As a result, families and genera are only definable by a combination of characters rather than by a single or a few autapomorphies. As a new method, 3D reconstruction from serial sections is introduced which made it possible for the first time to compare directly mouldic and shelly material. Preliminary results are presented herein. Statistical analyses of measurements taken from new taxa are made but regarded as a descriptive argument rather than a deciding factor for taxonmy due to incomplete preservation and/or tectonic deformation. Brachiopods, especially type material, from collections of different institutions and museums are studied as well as personal material, whenever possible collected from topotype outcrops. Emended diagnoses, if necessary, from family to species level are given. During this work several new taxa have been erected: 7 new families: Australospiriferidae, Murchisonispiriferidae, Orientospiriferidae, Otospiriferidae, Patriaspiriferidae, Rostrospiriferidae, and Trigonospiriferidae; 6 new genera, 1 of these in open nomenclature: Cyclopterospirifer, Hallispirifer, Parlinispirifer, Murchisonispirifer, Shujiapingensispirifer, and gen. nov. B; and 3 new species: Patriaspirifer merriami, Patriaspirifer johnsoni, and Murchisonispirifer feldmani; 1 taxon is defined as nomen novum: Orientospirifer nakaolingensis wani. In the framework of this project, 2 families: Filispiriferidae and Multispiriferidae; 1 subfamily: Multiplicatispiriferinae, 6 genera, 1 of them in open nomenclature: Frequentispirifer, Leonispirifer, Multiplicatispirifer, Ovetensispirifer, Turcispirifer, and Gen. A; and 9 new species, 3 of them in open nomenclature: Filispirifer hamadae, Leonispirifer leonensis, Multiplicatispirifer foumzguidensis, Oventensispirifer novascotianus, Quiringites arensentiae, Turcispirifer turciae, Multiplicatispirifer cf. foumzguidensis, Quiringites cf. arensentiae, and ?Turcispirifer sp. A which have already been established are also described in this work. The brachiopod faunas studied consist of externally very similar spiriferids which have been identified as same genera, species, or even subspecies in earlier times. These forms are considered as 6 distinct morphotypes Howellella-, Arduspirifer-, Acrospirifer-, Euryspirifer-, Paraspirifer-, and Multiplicatispirifer-like morphotypes, which are briefly introduced. The new systematics is characterized by different clades, the European/North African delthyridoid spiriferid clade, the North American delthyridoid spiriferid clade, the Asian delthyridoid spiriferid clade, the Malvinokaffric delthyridoid spiriferid clade, and the delthyridoid multiplicated spiriferid clade. Each of them is described in a cladistic and in a phylogenetic way. Their phylogenetic relationship sheds new light on palaeobiogeographical interpretations for the different stages from Late Silurian to early Middle Devonian time. A tendency for increasing endemicity is seen until the end of the Early Emsian, which is interrupted by short term regional faunal exchange within a province or within a realm, followed by a loss of endemicity resulting in global distribution of brachiopod genera until the end of Givetian time. The Old World Realm is re-defined due to the lack of phylogenetic relationship between its faunas and subdivided into the European Realm, consisting of the Gondwanan and Avalonian provinces, and the Asian Realm, consisting of the Siberian, Sino, and Mongolian provinces. A reconstruction of Lower Devonian palaeobiographical map is introduced.
TeaABC from the halophilic bacterium Halomonas elongata belongs to the family of tripartite ATP-independent periplasmic (TRAP) transporters. It facilitates the uptake of the compatible solutes ectoine and hydroxyectoine which protect the cell from dehydration by accumulating in the cytoplasm during hyperosmotic stress. It is the only known TRAP transporter activated by osmotic stress. Ectoine and hydroxyectoine accumulation in H. elongata is regulated by the cytoplasmic universal stress protein TeaD. The gene encoding TeaD is located in the same operon as the TeaABC gene. TeaD regulates the cellular homeostasis of ectoine possibly by interacting directly or indirectly with TeaABC. All subunits of TeaABC and TeaD were expressed in E. coli and purified. With TeaD and the solute binding protein (SBP) TeaA high levels of expression suitable for crystallization could be obtained and their 3D structures solved. The small transmembrane protein TeaB and the transporter TeaC showed only moderate and low levels of expression respectively. Functional analysis on TeaA was performed using Isothermal Titration Calorimetry. The measurements demonstrate that TeaA is a high affinity ectoine-binding protein (Kd = 0.19 _M) that also has a significant affinity for hydroxyectoine (Kd = 3.8 _M). The structure of TeaA was solved using ab initio phase determination by MAD (multiple anomalous dispersion). TeaA structures were determined in three conformations: TeaA alone, TeaA in complex with ectoine and TeaA in complex with hydroxyectoine. The resolutions of the structures were 2.2, 1.55 and 1.80 Å, respectively. These represent the first structures of an osmolyte SBP associated to a TRAP transporter. The structures reveal similar ligand binding compared to osmolyte SBPs of ABC transporter pointing to coevolution of the ligand binding modes. Moreover, unique features such as the solvent-mediated specific binding of the ligands ectoine and hydroxyectoine could be observed for TeaA. The structure of TeaD in complex with its cofactor ATP was solved by molecular replacement at a resolution of 1.9 Å. Comparison with other structures of universal stress proteins shows striking oligomerization and ATP binding in TeaD. In conclusion, this work presents the first detailed analysis of the molecular mechanisms underlying ligand recognition of an osmoregulated transporter from the TRAP-transporter family.
Mitochondria are dynamic organelles indispensible for viability of eukaryotic cells. Diffusion of proteins in mitochondrial membranes is a prerequisite for the correct functionality of the organelles. However, its study is made complicated due to the nontrivial geometry, small size and positional instability of the organelle, restricting the usability of regular experimental methods and theoretical understanding of acquired data. Therefore, here the molecular transport along the main mitochondrial axis was investigated using highly accurate computational methods combining them with traditional experimental approaches. Using recently reported electron microscopic tomography data concerning the constitution of mitochondria [Fre02], a lattice model of the inner mitochondrial membrane (IM) reproducing its structure in great details was built up. With Monte Carlo (MC) simulations of particle dynamics on this model, it was found that the membrane geometry induces nonlinear effects in the motion of molecules along the mitochondrial axis, which in turn lead to a transient violation of the 2nd Fick?s equation. We show that mere curvature of the IM resulting from the presence of cristae is sufficient for the emergence of transient anomalous diffusion (TAD) in the membrane. The MC calculations have enabled an accurate estimation of regularities in the extent of deviations from the normal regime, therefore allowing us to propose non-homogenous power law as a suitable generalization of the current approach to the analysis of experimental data for the transient dynamics. The general cause of TAD resulting from the membrane curvature alone, without any involvement of specific inter-particle interactions prompted us to predict the similar dynamical effect also for other curved cellular membranes, be it diffusion in endoplasmic reticulum or in plasma membrane of cells possessing dense microvilli. The data indicate that the geometry-induced anomalous diffusion should be easily detectable with current experimental methods, but only in the restricted range of time scales corresponding to high temporal resolution. Until now, experimental measurements of molecular diffusion in biological membranes indiscriminately assumed either pure normal or pure anomalous diffusion schemes for the analysis of data acquired in very wide range of temporal resolutions, which often lead to ambiguities in the interpretation of diffusion parameters. The MC calculations have clearly illustrated the necessity for a more subtle treatment of experimental conditions: the assumption of pure Gaussian diffusion model is justified only if the applied temporal resolution is sufficiently low (as is often the case when using scanning techniques exemplified further); otherwise, the transient regime should be tested for by means of the non-homogenous power function. In the second part of the study the Fluorescence Recovery after Photobleaching (FRAP) with the laser scanning microscope is introduced as a method of choice for studying protein mobility within mitochondrial membranes. The conventional FRAP methodology [Axe76] was extended to enable its application for the determination of confined diffusion with conventional laser scanning microscopes which allowed us to communicate for the first time the direct measurement of protein diffusion in mitochondrial membranes of living cells. This is achieved through adaptation of FRAP data analysis to account for the spatial dimensions of the organelle and the spatiotemporal pattern of light pulses induced by the microscope. The experimental circumstances existing during the particular measurement session are computationally recreated and this way the best suited values of diffusion parameters are found. The method is validated experimentally for four FP-tagged mitochondrial membrane proteins: the IM OxPhos complexes F1F0 ATPase and cytochrome c oxidase and for Tom7 and hFis1 - components of the mitochondrial protein import and fission machineries respectively localized in the outer membrane. We find that for all proteins simple normal diffusion is not a sufficient description. In the inner membrane, diffusion coefficient of F1F0 ATPase expressed in HeLa cell line is found to be 0.2 ?m2/s, with more than 1/3 of the protein molecules being immobilized, while cytochrome c oxidase (in CEF primary cells) demonstrated a similar diffusivity pattern (0.4 ?m2/s, 30% immobile). In the outer membrane, the D (0.7 ?m2/s) and immobile fraction (7-8%) of GFP-Tom7 and GFP-hFis1 (both in HeLa cells) are identical, which designates a substantial difference in comparison to the IM protein mobility. Diffusion coefficients of mitochondrial membrane proteins studied here lay in the intermediate region between those measured in artificial bilayers and in plasma membranes. Protein crowding and intermolecular interactions will be among the major causes responsible for the detected slowdown of diffusion.
5-lipoxygenase (5-LO) is the key enzyme in the formation of inflammatory leukotrienes, which are mediators of inflammation and allergy. The 5-LO catalyses the oxidation of arachidonic acid to 5-HPETE and subsequently to LTA4. The leukotrienes are involved in the development and maintenance of inflammatory diseases, like asthma and allergic rhinitis. Additionally, 5-LO is overexpressed in some cancer types, although its relevance is still not fully understood. 5-LO expressing cells are B- lymphocytes and cells of myeloid origin like monocytes, macrophages and granulocytes. The 5-LO promoter lacks a TATA or CCAT box and covers two CpG islands. These are characteristics of a housekeeping gene, but as the 5-LO is not expressed ubiquitiously, the expression of the 5-LO is tightly regulated. Epigenetic mechanisms were known to be involved in the control of the 5-LO expression. The HDAC inhibitor TsA significantly induced the transcriptional activity of the 5-LO promoter in reporter gene assays as well as on 5-LO mRNA transcript level in MM6 cells. The GC-boxes GC4 and GC5 in the proximal 5-LO promoter were identified to be essential for the TsA effect, as deletion of these element led to an attenuated TsA effect in reporter gene assay. Recruitment of the transcription factors Sp1 and Sp3 and the RNA polymerase II to the 5-LO promoter was detectable after TsA treatment in MM6 cells by chromatin immunoprecipitation assays (ChIP), while the acetylation status of histone H4 remained unchanged. Likewise it is known that DNA methylation leads to silencing of 5-LO expression in-vitro and in-vivo. The 5-LO promoter is densely methylated in the cell line U937, but unmethylated in HL-60 cells and - elucidated in this study - also in MM6 cells. Reporter gene assays with in-vitro methylated 5-LO promoter containing plasmids revealed that the frequency of methylated CpGs is directly proportional to reduction of 5-LO promoter activity. Incubation of U937 cells with 5-AdC, an inhibitor of DNA methyltransferases, was able to reactivate 5-LO transcription and to demethylate CpG dinucleotides. In the first part of this study the mechanism of TsA induced promoter activation was further investigated. I elucidated the mechanism of Sp1 and Sp3 recruitment to the 5-LO promoter after TsA treatment. Immnoprecipitation assay was used to detect a transcription factor complex containing Sp1 or Sp3 interacting with HDAC proteins, which might change its composition after TsA treatment. Besides the posttranslational modifications of the transcription factors Sp1 and Sp3 after TsA treatment were investigated, potentially causing an increased interaction of the proteins with the 5-LO promoter. Both aspects and their response in HDAC inhibition have been described. TsA did not affect the composition of the Sp1/HDAC1/HDAC2 complex. Sp3 was not located in a complex with the HDAC enzymes. Acetylation of Sp1 and Sp3 was detectable, but no change occurred after TsA treatment. Since neither release of the transcription factors off a complex, nor alterations in posttranslational modifications of Sp1 and Sp3 are the reason for the increased Sp1 and Sp3 binding to the 5-LO promoter, I elucidated alterations in the chromatin structure. The acetylation status of the histone proteins H3 and H4, as well as the chromatin marks H3K4me3, representing active chromatin, and H3K9me, representative for repressive state, were investigated. Additionally, the time course of the TsA effect was determined on 5-LO mRNA level using real-time PCR. The acetylation status of the histone proteins on the 5-LO core promoter correlated with the basal 5-LO mRNA transcript expression in MM6, HL-60 and U937 cells. The highest 5-LO mRNA level was detectable in MM6 cells, followed by HL-60 cells. The lowest 5-LO mRNA level was detected in 5-LO promoter methylated U937 cells. The order of the basal 5-LO mRNA expression of the three cell lines correlates with the basal acetylation status of histone proteins H3 and H4. In MM6 cells the highest basal levels in acH3 and acH4 were detected, followed by HL-60 and U937 cells. Moreover, the data obtained in U937 cells revealed that the correlation between DNA methylation and histone hypoacetylation is alike on the 5-LO promoter. TsA treatment induced the 5-LO mRNA level in the three cell lines with different intensity: 5-LO mRNA level in MM6 cells was induced 11-fold, in HL-60 cells 6- fold and in U937 cells 4- fold. The histone acetylation and methylation levels on the 5-LO promoter after TsA incubation were investigated. No increase in acH3 and acH4, but in H3K4me3 was detectable in MM6 cells by ChIP assay. HL-60 cells showed an increase in acH3 and acH4 as well as in H3K4me3. H3K9me was only detectable in untreated U937 cells, but disappeared after TsA treatment, while acH3, acH4 and H3K4me3 increased constantly after TsA treatme nt. A strong correlation between the histone modifications and the time course of the mRNA expression was detectable in all three cell lines. The combination of the posttranslational modifications acH3, acH4 and H3K4me3 led to a fast effect in transcriptional activation and the maxima of acH3 and acH4 were usually associated with the maximum in 5-LO mRNA transcript level. An increase in H3K4me3 alone, as detected in MM6 cells, led to continuous increase in the 5-LO mRNA expression with a late maximum. Additionally, we detected a slight overall decrease in 5-LO promoter methylation in U937 cells after TsA treatment. This fact taken together with the observed histone modifications could explain the 4- fold response in 5-LO mRNA level to TsA treatment of the methylated cell line U937. Another aim of the present study was to identify the specific HDAC enzymes involved in the 5-LO promoter regulation. Reporter gene assays and real-time PCR with selective HDAC inhibitors revealed that HDACs of class I are involved in 5-LO promoter regulation, namely HDAC 1, 2 and 3. The influence of each of the enzymes seemed to depend on the cell type, as inhibition of HDACs 2, 3 strongly induced 5-LO promoter activity in reporter gene assay in HeLa cells, whereas in MM6 cells HDACs 1 and 2, 3 seemed to be responsible for the 5-LO promoter regulation, measured as 5-LO mRNA level. The HDACs of class IIa and class III are not involved in the regulation of 5-LO mRNA expression. The second part of this study investigated the influence of MBD proteins on the methylated 5-LO promoter and the 5-LO mRNA expression. ChIP assays revealed MBD1, 2 and MeCP2 protein binding to the proximal 5-LO promoter in U937 cells. MBD1 was detectable on the 5-LO promoter in unmethylated HL-60 cells, while no MBD protein was located on the 5-LO promoter in MM6 cells. To elucidate the functional role of the MBD proteins, stable knocked down of MBD proteins was established in U937 cells. 5-LO mRNA transcript level was determined in the knock down clones by real-time PCR. The 5-LO transcript level was increased in all knock down samples. MBD2 knock down clones showed the highest effect in activating 5-LO with a 3- and 4.4-fold increase in the 5-LO mRNA level, followed by MBD1 (3.5- fold) and MeCP2 (2.5-fold) knock down clones. A combined participation of these three enzymes in the corepression of the methylated 5-LO promoter is indicated. Taken together, the data reveal that epigenetic mechanisms are strongly involved in the regulation of 5-LO transcription and might function as a crucial control mechanism of 5-LO expression.
Amphibians of Malawi : an analysis of their richness and community diversity in a changing landscape
(2009)
This study summarizes the state of the knowledge of the amphibian diversity in Malawi highlighting the possible threats impending on this fauna correlated with human encroachment and land use change. New data about diversity, distribution and ecology have been gathered, whereas the old ones have been summarised, reviewed and commented. In order to put in context the responses of the amphibian communities to land use change, the main environmental characteristics of the country at a broad space and time scale have been explored. Furthermore, the original habitats and vegetation have been described, and their status in the present day Malawi discussed. In the same way, an overview of the actual state of the knowledge about the Malawian amphibians has been provided, and their ability to act as surrogate of environmental integrity in Sub-Saharan Africa commented on the basis of the available studies. Afterwards, the results of the study of the selected areas and samples have been analysed within this newly generated context. Different field and laboratory methods were applied for the quantitative analysis of the richness and diversity of the communities. Opportunistic search was used to detect species richness, whereas the visual encounter survey was applied to detect the relative abundance of species. Several indices of diversity and similarity, and extrapolations by means of true richness estimators were used for the analysis of the alpha and beta diversities. Additional information were gathered by means of pitfall traps with drift fence, and by the recording of the advertisement calls. Supplementary methods were applied for the analysis of the taxonomic composition of the collected material. In Malawi 84 amphibian species are recorded, two of which still undescribed (Leptopelis sp. and Phrynobatrachus sp.). Three further species need to be confirmed and might be possibly present too: Amietia viridireticulata, Hemisus guineensis, and Hyperolius minutissimus. Additionally, other unrecognised cryptic species — at least one — are present within the Hyperolius nasutus complex. Most of the species belong to the order Anura (82 species; 97.6%), whereas only two species belong to the Gymnophiona (2.4%). Anurans are divided into 12 families and 23 genera, whereas the two caecilians species into one family (Caecilidae) and two genera. The more diverse family is the Hyperoliidae (21 species, 25%) followed by the families Ptychadenidae (13 species, 15%), Arthroleptidae (11 species, 13%), Phrynobatrachidae (10 species, 12%), and Bufonidae and Pyxicephalidae (9 species, 11% respectively). The remaining high family diversity (seven families, Caecilidae included) is contrasted by a low number of species (11 species in total, 14%). Based on the available distribution data, the value of species richness of the anuran communities in Malawi is comprised between 5‒45 species. In average 16.8 ± 9.0 species (N=80) are to be found, 75% of the sites have less than 21 species, and only two sites have more than 25 species. Four hot spots of amphibian diversity were identified: the Nyika Plateau (24 species), Mangochi-Malombe (25 species), Zomba Plateau (32 species) and the Mulanje Massif (45 species). In the studied areas a mean of 14.7 ± 1.6 species was observed and extrapolations by means of the true richness estimators were in good agreement with this result. Among the studied areas the richest was Palm Forest Reserve (17 species), followed by Kaningina Forest Reserve (16 species) and Vinthukutu F. R., and Vwaza W. R (15 species). The poorest area was the Misuku Mountains with 12 species only and a slightly different ranking was generated by the true richness estimators. The mean of the species present in the samples was 4.8 ± 2.1 species, considerably less than the true species richness detected in the respective areas. Basing on the ranking generated by the K-dominance plot the most diverse samples were Palm F. R. and Misuku, whereas the less diverse were Kaningina F. R. and Fort Lister, confirmed by the values of the diversity indices. The main finding of this study was the observation of the lack of a clear match between environmental degradation and amphibian diversity, and the crucial importance of temporary water bodies for the preservation of the amphibian diversity. In fact, despite most of the original habitat formerly present in Malawi have been destroyed and replaced by cultivations, the amphibian communities of different areas showed a comparable diversity at both family and species richness level, and no evident match between environmental degradation and amphibian diversity was recognisable. Differences in species richness could mostly be explained by natural factors such the elevation gradient and the presence of temporary water bodies. However, it was not possible to exclude that the communities have changed during historical time and the shift in species composition already occurred together with the modification of their relative frequencies. Most of the species showed a remarkable ecological plasticity and several species were found in a variety of both natural and altered habitats. The classification of the Malawian amphibians on the basis of ecological guilds based on the available natural history data showed the preponderance (76%) of generalist pond breeders. As a consequence, most of these amphibians possessed a scarce capacity to act as surrogates of habitat integrity. Based on the result of this study the farm bush landscape with traditional agriculture practices bears a great potential to support amphibian diversity in terms of species richness, representing a compromise between local economic development and conservation. Furthermore, the results of this study indicate the outstanding importance of the southern-east region of Malawi for the conservation of the country’s amphibians.
Plastids are complex plant organelles fulfilling essential physiological functions, such as photosynthesis and amino acid metabolism. The majority of proteins required for these functions are encoded in the nuclear genome and synthesized on cytosolic ribosomes as precursors, which are subsequently translocated across the outer and inner membrane of the organelle. Their targeting to the organelle is ensured by a so called transit peptide, which is specifically recognized by GTP-dependent receptors Toc159 and Toc34 at the cytosolic side of outer envelope. They cooperatively regulate the insertion of the precursor protein into the channel protein Toc75, thereby initiating the translocation process. Toc34 is regarded as the primary receptor, while Toc159 probably provides the driving force for the insertion. Precursor transfer is achieved by the physical interaction between both receptors in the GTP loaded state. One translocon unit, also called the Toc core complex, is formed by four molecules Toc34, four molecules Toc75 and one molecule Toc159. In the GDP-loaded state, Toc34 preferably forms homodimers, whose physiological function was investigated in the presented study. It could be shown that the dissociation of GDP and therefore the nucleotide exchange are inhibited by the homodimeric state of Toc34. Dissociation of the homodimer is induced by the recognition of a precursor protein, which renders the binding of GTP and subsequent interaction with Toc159 possible. Thus, the homodimeric conformation could reflect an inactive state of the translocon, preventing GTP consumption in the absence of a precursor protein. Both homodimerization as well as heterodimerization of the receptor are regulated by phosphorylation, which could be demonstrated by in vitro and in vivo approaches using atToc33 from Arabidopsis thaliana as a model system. Since the phosphorylated form of Toc34 cannot be assembled with the Toc core complex, it can be concluded that the interactions between GTPase domains not only regulate the transfer of precursor proteins, but also warrant the integrity of the translocon.
The aim of the study was to investigate the role of the CX3C chemokine FKN in the role of platelet adhesion. The presence of the FKN receptor CX3CR1 in platelets is demonstrated and G-protein dependent activation of platelets with soluble FKN results in the increased adhesion of platelets to collagen and fibrinogen under flow 228 and adhesion of leucocytes to firmly attached platelets 231. Whether membrane-bound FKN is capable to promote the direct adhesion of platelets in flowing blood analogue to leucocytes was completely unknown. The adhesion mechanisms of FKN in mediating the adhesion of leucocytes under flow are well characterised and represent a novel unique mechanism of leucocyte capture and firm adhesion: FKN is responsible for immediate arrest of flowing CX3CR1 expressing leucocytes without the participation of additional adhesion receptors and ligands. This is in contrast to the classical leucocyte adhesion pathways, which are multistep processes involving leucocyte arrest, rolling and subsequent cell activation prior to firm arrest. In leucocytes, the FKN – CX3CR1 axis is sufficient to allow rapid arrest of leucocytes at low shear flow conditions 67, 101, 115, 122, 261. The set of data from this study demonstrates that immobilised FKN was capable to mediate the adhesion of platelets under low shear conditions, whereas there was no interaction in the absence of shear flow. In the presence of vWf in the adhesion matrix, FKN mediated the potent increased adhesion of platelets. This was in parts due to the activation of flowing platelets via CX3CR1 and the augmented translocation of platelets on FKN via the vWf receptor GPIbα. With respect to platelet activation, the function of endothelial FKN was comparable to leucocytes: in both cell types, the FKN dependent activation is mediated by its cognate receptor CX3CR1. This is in contrast to the adhesive capacity: in leucocytes, FKN dependent adhesion is mediated by CX3CR1, whereas in platelets, the adhesive capacity was mostly mediated by the vWf receptor GPIbα with only minor contribution from CX3CR1. In platelets, activation and adhesion by FKN were mediated by two distinct receptors, whereas in leucocytes, CX3CR1 is solely responsible for FKN dependent activation and adhesion. The presented results point out to a role of platelets in early stage of atherosclerosis. The in vivo expression of both, FKN and vWf is regulated by TNF-α, which is released in early stages of inflammation. The presence of vWf and FKN in the endothelial lining of blood vessels during these conditions is sufficient to initiate the capturing and translocation of platelets on the tunica interna. The rolling of platelets on the endothelium can induce endothelial damage and inflammation of the vessel, which might advance to the generation of clinically significant atherosclerotic plaques and fibrous atheroma.