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Abstract: Inbreeding avoidance and asymmetric competition over resources have both been identified as factors favoring the evolution of sex-biased dispersal. It has also been recognized that sex-specific costs of dispersal would select for sex-biased dispersal, but there is little quantitative information on this aspect. In this paper we explore (i) the quantitative relationship between cost-asymmetry and a bias in dispersal, (ii) the influence of demographic stochasticity on this effect, and (iii) how inbreeding and cost-asymmetry interact in their effect on sex-specific dispersal. We adjust an existing analytical model to account for sex-specific costs of dispersal. Based on numerical calculations we predict a severe bias in dispersal already for small differences in dispersal costs. We corroborate these predictions in individual-based simulations, but show that demographic stochasticity generally leads to more balanced dispersal. In combination with inbreeding, cost asymmetries will usually determine which of the two sexes becomes the more dispersive.
Abstract: Understanding the causes and consequences of dispersal is a prerequisite for the effective management of natural populations. Rather than treating dispersal as a fixed trait, it should be considered a plastic process that responds to both genetic and environmental conditions. Here, we consider how the ambient temperature experienced by juvenile Erigone atra, a spider inhabiting crop habitat, influences adult dispersal. This species exhibits 2 distinct forms of dispersal, ballooning (long distance) and rappelling (short distance). Using a half-sib design we raised individuals under 4 different temperature regimes and quantified the spiders' propensity to balloon and to rappel. Additionally, as an indicator of investment in settlement, we determined the size of the webs build by the spiders following dispersal. The optimal temperature regimes for reproduction and overall dispersal investment were 20 °C and 25 °C. Propensity to perform short-distance movements was lowest at 15 °C, whereas for long-distance dispersal it was lowest at 30 °C. Plasticity in dispersal was in the direction predicted on the basis of the risks associated with seasonal changes in habitat availability; long-distance ballooning occurred more frequently under cooler, spring-like conditions and short-distance rappelling under warmer, summer-like conditions. Based on these findings, we conclude that thermal conditions during development provide juvenile spiders with information about the environmental conditions they are likely to encounter as adults and that this information influences the spider's dispersal strategy. Climate change may result in suboptimal adult dispersal behavior, with potentially deleterious population level consequences.
Abstract: From a conservation point of view, species- tolerances towards disturbance are often generalised and lack reference to spatial scales and underlying processes. In order to investigate how average typical species react to habitat fragmentation and disturbance, we adopted a multi-species approach to address occupancy patterns of five specialised dune arthropods (butterflies Hipparchia semele, Issoria lathonia; grasshopper Oedipoda caerulescens; spiders Alopecosa fabrilis, Xysticus sabulosus) in recently fragmented coastal dune habitats which are subjected to varying levels and modes of local disturbance, i.e. trampling by cattle or people. Occupancy patterns were assessed during two successive years in 133 grey dune fragments of the Flemish coastal dunes (Belgium, France). By treating species as a random factor in our models, emphasis was placed on generalisations rather than documenting species-specific patterns. Our study demonstrates that deteriorating effects of local disturbance on arthropod incidence cannot be interpreted independent of its landscape context, and appear to be more severe when patch area and connectivity decrease. When controlled for patch area and trampling intensity, the probability of species occupancy in poorly connected patches is higher under cattle trampling than under recreation. Incidences additionally decrease with increasing intensity of cattle trampling, but increases with trampling by tourists. This study provides evidence of mode- and landscape-dependent effects of local disturbance on species occupancy patterns. Most importantly, it demonstrates that trampling of sensitive dune fragments will lead to local and metapopulation extinction in landscapes where trampling occurs in a spatially autocorrelated way, but that the outcome (spatial patterns) varies in relation to disturbance mode, indicating that effects of disturbance cannot be generalised.
Abstract: Intensification of land-use in agricultural landscapes is responsible for a decline of biodiversity which provide important ecosystem services like pest-control. Changes in landscape composition may also induce behavioural changes of predators in response to variation in the biotic or abiotic environment. By controlling for environmentally confounding factors, we here demonstrate that the orb web spider Araneus diadematus alters its web building behaviour in response to changes in the composition of agricultural landscapes. Thereby, the species increases its foraging efficiency (i.e. investments in silk and web asymmetry) with an increase of agricultural land-use at intermediate spatial scales. This intensification is also related to a decrease in the abundance of larger prey. A negative effect of landscape properties at similar spatial scales on spider fitness was recorded when controlling for relative investments in capture thread length. This study consequently documents the web building flexibility in response to changes in landscape composition, possibly due to changes in prey availability.
1. Species assemblages of naturally disturbed habitats are governed by the prevailing disturbance regime. Consequently, stochastic flood events affect river banks and the inhabiting biota. Predatory arthropods occupy predominantly river banks in relation to specific habitat conditions. Therefore, species sorting and stochastic processes as induced by flooding are supposed to play important roles in structuring riparian arthropod assemblages in relation to their habitat preference and dispersal ability. 2. To ascertain whether assemblages of spiders and carabid beetles from disturbed river banks are structured by stochastic or sorting mechanisms, diversity patterns and assemblage-wide trait-displacements were assessed based on pitfall sampling data. We tested if flooding disturbance within a lowland river reach affects diversity patterns and trait distribution in both groups. 3. Whereas the number of riparian spider species decreased considerably with increased flooding, carabid beetle diversity benefited from intermediate degrees of flooding. Moreover, regression analyses revealed trait-displacements, reflecting sorting mechanisms particularly for spiders. Increased flooding disturbance was associated with assemblage-wide increases of niche breadth, shading and hygrophilic preference and ballooning propensity for spider (sub)families. Trait patterns were comparable for Bembidiini carabids, but were less univocal for Pterostichini species. Body size decreased for lycosid spiders and Bembidiini carabids with increased flooding, but increased in linyphiid spiders and Pterostichini carabids. 4. Our results indicate that mainly riparian species are disfavoured by either too high or too low degrees of disturbance, whereas eurytopic species benefit from increased flooding. Anthropogenic alterations of flooding disturbance constrain the distribution of common hygrophilous species and/or species with high dispersal ability, inducing shifts towards less specialized arthropod assemblages. River banks with divergent degrees of flooding impact should be maintained throughout dynamic lowland river reaches in order to preserve typical riparian arthropod assemblages.
The Guinea savanna-forest mosaic of West Africa is particularly rich in animal-dispersed plants. African savannas harbour the richest dung beetle community worldwide. The role of primates and dung beetles in natural plant regeneration and biodiversity maintenance in this ecosystem, however, is still poorly understood. The present study on olive baboons (Papio anubis Lesson 1827, Cercopithecinae) at Comoé National Park (CNP), north-eastern Ivory Coast, revealed that western olive baboon populations differ in several ways from their eastern conspecifics. Baboons are commonly regarded as predators of the seeds of their food plants. In the savanna-forest mosaic of West Africa, however, they are highly frugivorous and are important seed dispersers of a high number of woody plant species that differ in fruit type and seed size. They disperse intact seeds of at least 22% of the woody plant species of the regional plant pool. Their "seed dispersal potential", regarding seed number and seed sizes, is comparable to that of the much larger great apes. Relative to the availability in the regional pool of woody plant species, baboons preferred trees to shrubs and lianas as fruit sources and especially included larger fruit into their diet. Among several morphological fruit traits investigated, fruit type and fruit colour best described whether baboons included a species into their diet, whereas fruit type and seed size best predicted whether baboons predated upon the seeds of a food plant species. Seed size is an important plant fitness trait that can influence several steps between fruiting and the establishment of a plant´s offspring. Seed size can vary considerably within and among individuals of the same species. Primates may select for certain seed sizes within a species for a number of reasons, e.g. to decrease indigestible seed load or to increase pulp intake per fruit. Within eight out of ten plant species investigated, which differed in fruit type, seed number and seed size, olive baboons were selective in fruit choice regarding seed size. Seed size selection by olive baboons seems to be influenced, among other traits, by the amount of pulp rewarded per fruit relative to seed load, which varies with fruit and seed shape. Being a habitat generalist (with a preference for forest habitats) and able to move comparatively long distances, the olive baboon might be especially important for the biodiversity maintenance of distant forest islands. Because most woody plant species at the study site had medium-sized to large fruits and seeds, olive baboons may be crucial for seed dispersal and plant recruitment in this ecosystem. Their importance for seed dispersal of plants with small fruits should not, however, be underrated. Observation of frugivores at a typical "bird-dispersed" tree species showed that classification of seed dispersers on the basis of fruit syndromes alone can be misleading. Olive baboons disperse seeds in their faeces in a clumped manner, which generally is regarded disadvantageous for plants. Yet, seeds from all plant species being naturally present in baboon dung during seasonal peaks of dung beetle activity apparently can be scattered locally by dung beetles. Dung beetle activity at baboon faeces deposited in the two habitats was high, totalling 99 species from 26 genera. The probability and pattern of secondary seed dispersal by dung beetles depend on the structure and composition of the dung beetle community, which, in turn, seems to be strongly determined by vegetation type. I thus expected pronounced differences in secondary seed dispersal by dung beetles between seeds deposited by baboons in the savanna and in the forest. Experiments indicated that compared to seeds dispersed by baboons into the forest, seeds that end up in the savanna generally have a higher probability of (a) being removed by dung beetles, (b) being horizontally scattered by telecoprids, (c) being rapidly removed from the place of primary deposition and (d) being secondarily dispersed over larger distances. In general, savanna plants and plant habitat generalists the seeds of which baboons disperse into the savanna should profit most from secondary seed dispersal by dung beetles.
Vertebrate and invertebrate visual systems exhibit similarities in early stages of visual processing. For instance, in the human brain, the modalities of color, form and motion are separately processed in parallel neuronal pathways. This basic property is also found in the fly Drosophila melanogaster which has a similar division in color- sensitive and (color blind) motion-sensitive pathways that are determined by two distinct subsets of photoreceptors (the R1-6 and the R7/8 system, respectively). Flies have a highly organized visual system that is characterized by its repetitive, retinotopic organization of four neuropils: the lamina, the medulla, the lobula and the lobula plate. Each of these consists of columns which contain the same set of neurons. In the lamina, axon bundles of six photoreceptors R1-6 that are directed towards the same point in space form columnar structures called cartridges. These are the visual sampling units and are associated with four types of first-order interneuron that receive common input from R1-6: L1, L2, L3 and the amacrine cells (amc, together with their postsynaptic partner T1). They constitute parallel pathways that have been studied in detail at the anatomical level. Little is known, however, about their functional role in processing behaviorally relevant information, e.g. for gaze stabilization, visual course control or the fixation of objects. The availability of a variety of neurogenetic tools for structure-function analysis in Drosophila allowed first steps into the genetic dissection of the neuronal circuitry mediating motion and position detection. In this respect, the choice of the effector turned out to be crucial. Surprisingly, it was found that the clostridial tetanus neurotoxin failed to block mature Drosophila photoreceptor synapses, but caused irreversible damage when expressed during their development. Therefore, the dominant-negative shibire allele shits1 which turned out to be better suited was used for blocking lamina interneurons and thereby analyzing the necessity of the respective pathways. To determine whether the latter were also sufficient for the same behavioral task, the inverse strategy was developed, based on the fact that lamina interneurons express histamine receptors encoded by the ort gene. The specific rescue of ort function in defined channels in an otherwise mutant background allowed studying their sufficiency in a given task. Combining these neurogenetic methods with the optomotor response and object induced orientation behavior as behavioral measures, the aim of the present thesis was to answer the following questions: (a) Which pathways feed into elementary motion detectors and which ones are necessary and/or sufficient for the detection of directional motion? (b) Do pathways exist which specifically mediate responses to unidirectional motion? (c) Which pathways are necessary and/or sufficient for object induced orientation behavior? Some basic properties of the visual circuitry were revealed: The two central cartridge pathways, represented by the large monopolar cells L1 and L2, are key players in motion detection. Under a broad range of stimulatory conditions, the two subsystems are redundant and are able to process motion independently of each other. To detect an impairment when only one of the pathways is intact, one has to drive the system to its operational limits. At low signal to noise ratios, i.e. at low pattern contrast or low background illumination, the L2 pathway has a higher sensitivity. At intermediate pattern contrast, both pathways are specialized in mediating responses to unidirectional motion of opposite stimulus direction. In contrast, neither the L3, nor the amc/T1 pathway is necessary or sufficient for motion detection. While the former may provide position information for orientation, the latter has a modulatory role at intermediate pattern contrast. Orientation behavior turned out to be even more robust than motion vision and may utilize a less sophisticated mechanism, as it does not require a nonlinear comparison of signals from neighboring visual sampling units. The position of objects is processed in several redundant pathways, involving both receptor subsystems. The fixation of objects does not generally require motion vision. However, motion detection improves the fixation of landmarks, especially when these are narrow or have a reduced contrast.
LINC, the human homologue of an evolutionary conserved complex, regulates the transcription of a set of genes essential during the G2/M transition (Osterloh et al., 2007; Schmit et al., 2007). One component of the LINC core module is LIN-9. LIN-9 is essential for the transcriptional activation of LINC target genes and also promotes differentiation in association with pRB (Gagrica et al., 2004). However, nothing is known about its function in vivo. Histological and molecular analysis revealed that Lin9 is ubiquitously expressed throughout embryonic development and in all examined adult organs. Additionally, Lin9 mRNA is expressed in ES cells and blastocysts. Moreover the analogous distribution of the other LINC components suggested that they all function in the same cells and most likely in the same pathway. To deeper investigate the role of LIN9 in cell cycle and differentiation in vivo, a Lin9 gene trap mouse model (GT) was successfully generated and examined. Heterozygouse Lin9GT/+ mice were inconspicuous and develop normally. However, homozygouse knockout embryos were never obtained. The Lin9GT/GT embryos die at peri-implantation, probably due to a defect in the development of the epiblast, which could be shown with in situ hybridization with specific lineage markers. In vitro, the ICM of Lin9-deficient blastocysts did not develop properly. These data suggest that the loss of Lin9 leads to embryonic lethality at peri-implantation, and indicates that LIN9 is required for proper formation of the epiblast. In parallel, the first conditional Lin9 mouse model based on the Cre-loxP technology was generated. The Lin9fl/fl allele can be deleted by Cre-recombinase, in vivo and in vitro. Therefore an inducible system with Lin9fl/fl mice harboring Cre-ERT2 was established. The MEFs generated from these transgenic mice carried a nearly complete knockout upon induction with tamoxifen. Deletion of LIN9 in MEFs had a major impact upon the cell cycle and growth rates. Specifically, they arrested in G2/M phase and stopped to proliferate. Taken together, I was able to generate a lin9 gene trap and a lin9 conditional knockout mouse model. All results obtained so far demonstrate, that Lin9 is an essential gene for embryonic development and cell cycle control. It will be of great interest to further investigate Lin9-deficiency to gain insights into the mechanism of cell cycle control in early embryonic development and cell differentiation.
The human genome has been sequenced since 2001. Most proteins have been characterized now and with everyday more bioinformatical predictions are experimentally verified. A project is underway to sequence thousand humans. But still, little is known about the evolution of the human proteome itself. Domains and their combinations are analysed in detail but not all of the human domain architectures at once. Like no one before, we have large datasets of high quality human protein-protein-protein interactions and complexes available which allow us to characterize the human proteome with unmatched accuracy. Advanced clustering algorithms and computing power enable us to gain new information about protein interactions without touching a pipette. In this work, the human proteome is analysed at three different levels. First, the origin of the different types of proteins was analysed based on their domain architectures. The second part focuses on the protein-protein interactions. Finally, in the third part, proteins are clustered based on their interactions and non-interactions. Most proteins are built of domains and their function is the sum of their domain functions. Proteins that share the same domain architecture, the linear order of domains are homologues and should have originated from one common ancestral protein. This ancestor was calculated for roughly 750 000 proteins from 1313 species. The relations between the species are based on the NCBI Taxonomy and additional molecular data. The resulting data set of 5817 domains and 32868 domain architectures was used to estimate the origin of these proteins based on their architectures. It could be observed, that new domain architectures are only in a small fraction composed of domains arisen at the same taxon. It was also found that domain architectures increase in length and complexity in the course of evolution and that different organisms like worm, and human share nearly the same amount of proteins but differ in their number of distinct domain architectures. The second part of this thesis focuses on protein-protein interactions. This chapter addresses the question how new evolved proteins form connections within the existing network. The network built of protein-protein interactions was shown to be scale free. Scale free networks, like the internet, consist of few hubs with many connections and many nodes with few connections. They are thought to arise by two mechanisms. First, newly emerged proteins interact with proteins of the network. Second, according to the theory of preferential attachment, new proteins have a higher chance to interact with already interaction rich proteins. The Human Protein Reference Database provides an on in-vivo interaction data based network for human. With the data obtained from chapter one, proteins were marked with their taxon of origin based on their domain architectures. The interaction ratio of proteins of the same taxa compared to all interactions was calculated and higher values than the random model showed for nearly every taxa. On the other hand, there was no enrichment of proteins originated at the taxon of cellular organisms for the node degree found. The node degree is the number of links for this node. According to the theorie of preferential attachment the oldest nodes should have the most interactions and newly arisen proteins should be preferably attached to them not together. Both could not be shown in this analysis, preferential attachment could therefore not be the only explanation for the forming of the human protein interaction network. Finally in part three, proteins and all their interactions in the network are analysed. Protein networks can be divided into smaller highly interacting parts carrying out specific functions. This can be done with high statistical significance but still, it does not reflect the biological significance. Proteins were clustered based on their interactions and non-interactions with other proteins. A version with eleven clusters showed high gene ontology based ratings and clusters related to specific cell parts. One cluster consists of proteins having very few interactions together but many to proteins of two other clusters. This first cluster is significantly enriched with transport proteins and the two others are enriched with extracellular and cytoplasm/membrane located proteins. The algorithm seems therefore well suited to reflect the biological importance behind functional modules. Although we are still far from understanding the origin of species, this work has significantly contributed to a better understanding of evolution at the protein level and has, in particular, shown the relation of protein domains and protein architectures and their preferences for binding partners within interaction networks.
VACV GLV-1h68 was reported as a diagnostic/therapeutic vector which enters, replicates in, and reveals the locations of tumors in mice. Furthermore, the effect on tumor colonization, on tumor growth, regression and eradication by VACV GLV-1h68 without the need of any known genes with anti-tumoral activities was determined. To investigate differential protein expression between infected tumor cells and corresponding tumors, as well as between infected tumor cells, between infected tumors, proteomics is particularly used, possibly contributing to the understanding oncolytic ability on the protein level of VACV GLV-1h68. The given effects of VACV GLV-1h68 infection on cellular protein expression support tumor cell killing. In this study, differential protein expression was analyzed at different time points with two-dimensional gel electrophoresis (2DE) followed by MALDI-TOF/TOF identification. Comparative analysis of multiple 2-DE gels revealed that the majority of protein expression changes appeared at 48 hours post infection in cell cultivation and at 42 days post infection in tumors. Mass spectrometry identified 68, 75, 159 altered cellular proteins in the GI-101A, HT-29, PC-3 infected cells, respectively, including 30, 23, 49 up-regulated proteins and 38, 52, 110 down-regulated proteins 12 to 48 hours after infection. For xenografts, mass spectrometry identified 270, 101, 91 altered cellular proteins in the infected GI-101A, HT-29, PC-3 tumors, respectively, including 89, 70, 40 up-regulated proteins and 181, 31, 51 down-regulated proteins 7 to 42 days after infection. In general, in the cell lines, the proteins found to be differentially regulated are most often associated with metabolic processes, in particular with primary energy metabolism (glucose catabolism, TCA and lactate production). VAVC GLV 1h68 infection results in hijacking of the host translation apparatus, alteration of cytoskeleton networks, induce ubiqitin proteasome pathway (UPP) disorders. Particularly in tumors, the responses cover a much broader panel of cellular processes, including signalling (e.g., cell death), transport (in particular of iron ions) and migration. A common pathway to be up-regulated in both tumors and cell lines is the "unfolded protein response". Notably, VACV GLV-1h68 affected the anti-apoptosis pathways in GI-101A and PC-3 cancer cells but not in HT-29 xenografts. For example, GI-101A xenografts in mice appear 12 proteins associated with anti-apoptosis function. They were found down-regulated, including tumor protein-translationally-controlled (H-TPT1), rho-GDP-dissociation inhibitor alpha (H-GDIa), ywhaq protein (M-1433T), H-PRDX4, serine/threonine-protein phosphatase-2A-catalytic subunit beta isoform PP2A (M-Ppp2cb), eukaryotic translation initiation factor 2-subunit 1 alpha-35kDa (H-eIF2), H-actinin-α1 (ACTN1 ), Annexin A1 (H-A1), annexin A5 (H-A5), Mouse albumin 1 (M-Alb1), dimethylarginine dimethylaminohydrolase 2 (H-DDAH2). In PC-3 xenografts, anti-apoptosis expression is lesser than those in GI-101A cells, however 3 anti-apoptosis associated proteins were down-regulated such as ARP3 actin-related protein-3-homolog (H-ARP3), Human FLNA protein, Rho GDP dissociation inhibitor (GDI) alpha (H-GDIa). In contrast, in HT-29 xenografts, there are several anti-apoptosis-associated proteins that show even to be up-regulated; they mostly belong to peroxiredoxin proteins. Lesson from HT-29 had been given what various means the HT-29 cells use to escape their apoptosis fate. This suggests that VAVC GLV1h68 infection may induce unbalance of unfolded protein response (UPR) but tending to anti-apoptosis-mediated proteins and promote the destructive elements of UPR, including caspase-12 cleavage and apoptosis. Taken together in this thesis research I have tried to compare protein profiles obtained from responder cell line and from regressing solid tumors colonized by VAVC GLV-1h68 with that of non-responding tumors. I also compared these data with PC-3 prostate cell line and tumor data on intermediate responder which alter mouse protein profiling in tumors similarly to the highly efficacious GI-101A breast tumor cell line. From these comparisons I have deduced exciting protein pattern signature characteristic for a responder or distinctly different from non-responder system. Combining these few crucial genes involved with the transcriptional test data obtained by fellow graduate student at NIH a novel national designed VACV GLV-1h68 strains with enhanced efficacy in many today non-responder cancer cell lines will be available to be tested into ongoing clinical trials.