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Sökning: WFRF:(Immler Simone)

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41.
  • Silva, Willian T. A. F., 1987-, et al. (författare)
  • Evolution of plasticity in production and transgenerational inheritance of small RNAs under dynamic environmental conditions
  • 2021
  • Ingår i: PLOS Genetics. - : Public Library of Science (PLoS). - 1553-7390 .- 1553-7404. ; 17:5
  • Tidskriftsartikel (refereegranskat)abstract
    • In a changing environment, small RNAs (sRNAs) play an important role in the post-transcriptional regulation of gene expression and can vary in abundance depending on the conditions experienced by an individual (phenotypic plasticity) and its parents (non-genetic inheritance). Many sRNAs are unusual in that they can be produced in two ways, either using genomic DNA as the template (primary sRNAs) or existing sRNAs as the template (secondary sRNAs). Thus, organisms can evolve rapid plastic responses to their current environment by adjusting the amplification rate of sRNA templates. sRNA levels can also be transmitted transgenerationally by the direct transfer of either sRNAs or the proteins involved in amplification. Theory is needed to describe the selective forces acting on sRNA levels, accounting for the dual nature of sRNAs as regulatory elements and templates for amplification and for the potential to transmit sRNAs and their amplification agents to offspring. Here, we develop a model to study the dynamics of sRNA production and inheritance in a fluctuating environment. We tested the selective advantage of mutants capable of sRNA-mediated phenotypic plasticity within resident populations with fixed levels of sRNA transcription. Even when the resident was allowed to evolve an optimal constant rate of sRNA production, plastic amplification rates capable of responding to environmental conditions were favored. Mechanisms allowing sRNA transcripts or amplification agents to be inherited were favored primarily when parents and offspring face similar environments and when selection acts before the optimal level of sRNA can be reached within the organism. Our study provides a clear set of testable predictions for the evolution of sRNA-related mechanisms of phenotypic plasticity and transgenerational inheritance.Author summarySmall RNAs (sRNA) are produced by a wide range of organisms, from bacteria to plants and animals. These molecules are involved in the response to environmental stress (e.g., temperature, pathogens) and can be transmitted across generations. We developed a model to explore the dynamics of sRNA production (phenotypic plasticity) and inheritance in a fluctuating environment. We tested whether different sRNA mutants can invade a population where individuals produce sRNA at a constant optimal transcription rate. In our simulations, plastic amplification rates capable of responding to environmental conditions were favored and the transmission of sRNA transcripts or amplification agents across generations was particularly advantageous when parents and offspring faced similar environments. sRNA amplification alone is not favored except when optimal sRNA levels are not reached within a generation. Our model provides novel predictions for the molecular mechanisms of sRNA production and guidance for future empirical studies on mutations that impair the mechanisms of sRNA production and their fitness consequences.
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42.
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43.
  • Silva, Willian T. A. F., 1987- (författare)
  • Non-genetic processes in development and heredity
  • 2018
  • Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
    • There is a swiftly increasing amount of empirical evidence that non-genetic factors, such as DNA methylation and small RNAs, play an important role not only in development but also in heredity and, therefore, evolutionary dynamics. One of the most interesting aspects of non-genetic processes is their responsiveness to environmental conditions, which has been shown to affect not only the phenotype and fitness of the individuals directly exposed to the stimulus, but also their offspring even when the stimulus is no longer present, indicating that the transmission of non-genetic factors across generations might work analogously to immunization against recurring conditions. In this thesis, I explored the effects and consequences of non-genetic processes in development and heredity, from both theoretical and experimental perspectives. In Article I, I created a mathematical model of DNA methylation dynamics during the maternal-to-zygotic transition, leading to the zygotic genome activation. I found that there is a developmental constraint on the transition between different cell lineages, with an increasing flexibility of active methylation and decreasing flexibility of maintenance (de-)methylation. In Article II, we explored the dynamics of small RNA production throughout development, including their amplification, transgenerational transmission and responsiveness to environmental conditions. Responsiveness of small RNA production resulted in greater benefits when soma and germline are both responsive, especially in highly correlated environmental conditions. In Article III, I carried out experiments on zebrafish to explore the effects of the male social environment on sperm production in terms of sperm morphology and DNA quality. Males exposed to different social treatments produced sperm with different morphologies and DNA integrity levels. In Article IV, we used the same experimental design to look at the effects of the male social environment on offspring development in terms of differential gene expression patterns. Males exposed to different social treatments sired offspring that showed different expression patterns of genes involved in post-transcriptional processes of gene expression regulation.  Our findings shed light on the importance of non-genetic processes in development and heredity and contributes to the current knowledge about which and how non-genetic mechanisms can potentially affect evolutionary dynamics.
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44.
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45.
  • Silva, Willian T. A. F., 1987-, et al. (författare)
  • The effects of male social environment on sperm phenotype and genome integrity
  • 2019
  • Ingår i: Journal of Evolutionary Biology. - : John Wiley & Sons. - 1010-061X .- 1420-9101. ; 32:6, s. 535-544
  • Tidskriftsartikel (refereegranskat)abstract
    • Sperm function and quality are primary determinants of male reproductive performance and hence fitness. The presence of rival males has been shown to affect ejaculate and sperm traits in a wide range of taxa. However, male physiological conditions may not only affect sperm phenotypic traits but also their genetic and epigenetic signatures, affecting the fitness of the resulting offspring. We investigated the effects of male-male competition on sperm quality using TUNEL assays and geometric morphometrics in the zebrafish, Danio rerio. We found that the sperm produced by males exposed to high male-male competition had smaller heads but larger midpiece and flagellum than sperm produced by males under low competition. Head and flagella also appeared less sensitive to the osmotic stress induced by activation with water. In addition, more sperm showed signals of DNA damage in ejaculates of males under high competition. These findings suggest that the presence of a rival male may have positive effects on sperm phenotypic traits but negative effects on sperm DNA integrity. Overall, males facing the presence of rival males may produce faster swimming and more competitive sperm but this may come at a cost for the next generation.
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46.
  • Tusso Gomez, Sergio Ivan (författare)
  • Adaptive divergence in fission yeast : From experimental evolution to evolutionary genomics
  • 2019
  • Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
    • How adaptation and population differentiation occur is fundamental to understand the origin of biodiversity. Work in speciation alongside the increased ease of generating genomic data have allowed the exploration of genomic changes relevant to adaptation. However, it remains challenging to infer the underlying mechanisms from genomic patterns of divergence governed by both genomic properties and external selective pressures. The chronological order of genomic changes, evolutionary history and selective forces can rarely be inferred from natural populations.Currently, I see two promising ways to tackle the problem of the genomic underpinnings of divergence: (1) evolution experiments simulating adaptation and population divergence and measuring genomic changes as they occur through time; (2) empirical studies of closely related populations in which the extent of divergence varies, allowing us to infer the chronology of the genomic changes. In my Ph.D. research I applied these two approaches, using the fungus Schizosaccharomyces pombe. First, I experimentally tested the potential for ecological divergence with gene flow, and investigated genomic and phenotypic changes associated with this process. Next, I studied genomic data obtained from natural populations sampled worldwide.  In both cases, the genetic inference relied on different sequencing technologies including the Illumina, Pacific Biosciences and Oxford Nanopore platforms.The experiment explored the effect of gene flow on phenotype and fitness, and uncovered potential molecular mechanisms underlying adaptive divergence. In paper I we demonstrate the emergence of specialisation under low gene flow, but generalist strategies when gene flow was high. Evolved phenotypes were largely influenced by standing genetic variation subject to opposite antagonistic pleiotropy complemented by new mutations enriched in a subset of genes. In paper II, we show that the experimental selective regime also had an effect on mating strategies, result of temporal ecological heterogeneity and selection for mating efficiency. We found that the evolution of mating strategies was explained by a trade-off between mating efficiency and asexual growth rate dependent on environmental stability. Papers III and IV consider the role of gene flow in natural populations. In paper III, we provide evidence that gene flow also played a predominant role in adaptive divergence in nature. All strains resulted from recent hybridization between two ancestral groups manifested in large phenotypic variation and reproductive isolation.This demographic history of hybridization was confirmed in paper IV focusing on patterns of mitochondrial diversity, adding evidence for the geographic distribution of the ancestral populations and potential for horizontal gene transfer from a distant yeast clade. 
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47.
  • Tusso, Sergio, et al. (författare)
  • Experimental evolution of adaptive divergence under varying degrees of gene flow
  • 2021
  • Ingår i: Nature Ecology & Evolution. - : Springer Nature. - 2397-334X. ; 5:3
  • Tidskriftsartikel (refereegranskat)abstract
    • Adaptive divergence is the key evolutionary process generating biodiversity by means of natural selection. Yet, the conditions under which it can arise in the presence of gene flow remain contentious. To address this question, we subjected 132 sexually reproducing fission yeast populations, sourced from two independent genetic backgrounds, to disruptive ecological selection and manipulated the level of migration between environments. Contrary to theoretical expectations, adaptive divergence was most pronounced when migration was either absent (allopatry) or maximal (sympatry), but was much reduced at intermediate rates (parapatry and local mating). This effect was apparent across central life-history components (survival, asexual growth and mating) but differed in magnitude between ancestral genetic backgrounds. The evolution of some fitness components was constrained by pervasive negative correlations (trade-off between asexual growth and mating), while others changed direction under the influence of migration (for example, survival and mating). In allopatry, adaptive divergence was mainly conferred by standing genetic variation and resulted in ecological specialization. In sympatry, divergence was mainly mediated by novel mutations enriched in a subset of genes and was characterized by the repeated emergence of two strategies: an ecological generalist and an asexual growth specialist. Multiple loci showed consistent evidence for antagonistic pleiotropy across migration treatments providing a conceptual link between adaptation and divergence. This evolve-and-resequence experiment shows that rapid ecological differentiation can arise even under high rates of gene flow. It further highlights that adaptive trajectories are governed by complex interactions of gene flow, ancestral variation and genetic correlations. This study uses evolve-and-resequence experiments with fission yeast populations subjected to disruptive ecological selection under different levels of migration to ask how gene flow, ancestral variation and genetic correlations affect the evolution of adaptive divergence.
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48.
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49.
  • Zajitschek, Susanne, et al. (författare)
  • Paternal personality and social status influence offspring activity in zebrafish
  • 2017
  • Ingår i: BMC Evolutionary Biology. - : Springer Science and Business Media LLC. - 1471-2148. ; 17
  • Tidskriftsartikel (refereegranskat)abstract
    • Background: Evidence for the transmission of non-genetic information from father to offspring is rapidly accumulating. While the impact of chemical and physical factors such as toxins or diet on the fitness of the parents and their offspring have been studied extensively, the importance of behavioural and social circumstances has only recently been recognised. Behavioural traits such as personality characteristics can be relatively stable, and partly comprise a genetic component but we know little about the non-genetic transmission of plastic behavioural traits from parents to offspring. We investigated the relative effect of personality and of social dominance as indicators at the opposite ends of the plasticity range on offspring behaviour in the zebrafish (Danio rerio). We assessed male boldness, a behavioural trait that has previously been shown previously to possess genetic underpinnings, and experimentally manipulated male social status to assess the association between the two types of behaviour and their correlation with offspring activity. Results: We found a clear interaction between the relatively stable and putative genetic effects based on inherited differences in personality and the experimentally induced epigenetic effects from changes in the social status of the father on offspring activity. Conclusions: Our study shows that offspring behaviour is determined by a combination of paternal personality traits and on-genetic effects derived from the social status of the father.
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50.
  • Zajitschek, Susanne, et al. (författare)
  • Short-term variation in sperm competition causes sperm-mediated epigenetic effects on early offspring performance in the zebrafish
  • 2014
  • Ingår i: Proceedings of the Royal Society of London. Biological Sciences. - : The Royal Society. - 0962-8452 .- 1471-2954. ; 281:1785, s. 20140422-
  • Tidskriftsartikel (refereegranskat)abstract
    • The inheritance of non-genetic factors is increasingly seen to play a major role in ecology and evolution. While the causes and consequences of epigenetic effects transmitted from the mother to the offspring have received ample attention, much less is known about how variation in the condition of the father affects the offspring. Here, we manipulated the intensity of sperm competition experienced by male zebrafish Danio rerio to investigate the potential for sperm-mediated epigenetic effects over a relatively short period of time. We found that the rapid responses of males to varying intensity of sperm competition not only affected sperm traits as shown previously, but also the performance of the resulting offspring. We observed that males exposed to high intensity of sperm competition produced faster swimming and more motile sperm, and sired offspring that hatched over a narrower time frame but exhibited a lower survival rate than males exposed to low intensity of sperm competition. Our results provide striking evidence for short-term paternal effects and the possible fitness consequences of such sperm-mediated non-genetic factors not only for the resulting offspring but also for the female.
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