TY  - JOUR
A1  - Fedders, Ronja
A1  - Muenzner, Matthias
A1  - Weber, Pamela
A1  - Sommerfeld, Manuela
A1  - Knauer, Miriam
A1  - Kedziora, Sarah
A1  - Kast, Naomi
A1  - Heidenreich, Steffi
A1  - Raila, Jens
A1  - Weger, Stefan
A1  - Henze, Andrea
A1  - Schupp, Michael
T1  - Liver-secreted RBP4 does not impair glucose homeostasis in mice
JF  - The journal of biological chemistry
N2  - Retinol-binding protein 4 (RBP4) is the major transport protein for retinol in blood. Recent evidence from genetic mouse models shows that circulating RBP4 derives exclusively from hepatocytes. Because RBP4 is elevated in obesity and associates with the development of glucose intolerance and insulin resistance, we tested whether a liver-specific overexpression of RBP4 in mice impairs glucose homeostasis. We used adeno-associated viruses (AAV) that contain a highly liver-specific promoter to drive expression of murine RBP4 in livers of adult mice. The resulting increase in serum RBP4 levels in these mice was comparable with elevated levels that were reported in obesity. Surprisingly, we found that increasing circulating RBP4 had no effect on glucose homeostasis. Also during a high-fat diet challenge, elevated levels of RBP4 in the circulation failed to aggravate the worsening of systemic parameters of glucose and energy homeostasis. These findings show that liver-secreted RBP4 does not impair glucose homeostasis. We conclude that a modest increase of its circulating levels in mice, as observed in the obese, insulin-resistant state, is unlikely to be a causative factor for impaired glucose homeostasis.
KW  - liver
KW  - retinoid-binding protein
KW  - glucose metabolism
KW  - insulin resistance
KW  - mouse
KW  - TTR
Y1  - 2018
U6  - https://doi.org/10.1074/jbc.RA118.004294
SN  - 1083-351X
VL  - 293
IS  - 39
SP  - 15269
EP  - 15276
PB  - American Society for Biochemistry and Molecular Biology
CY  - Bethesda
ER  - 
TY  - JOUR
A1  - Wojcik, Laurie Anne
A1  - Ceulemans, Ruben
A1  - Gaedke, Ursula
T1  - Functional diversity buffers the effects of a pulse perturbation on the dynamics of tritrophic food webs
JF  - Ecology and Evolution
N2  - Biodiversity decline causes a loss of functional diversity, which threatens ecosystems through a dangerous feedback loop: This loss may hamper ecosystems’ ability to buffer environmental changes, leading to further biodiversity losses. In this context, the increasing frequency of human-induced excessive loading of nutrients causes major problems in aquatic systems. Previous studies investigating how functional diversity influences the response of food webs to disturbances have mainly considered systems with at most two functionally diverse trophic levels. We investigated the effects of functional diversity on the robustness, that is, resistance, resilience, and elasticity, using a tritrophic—and thus more realistic—plankton food web model. We compared a non-adaptive food chain with no diversity within the individual trophic levels to a more diverse food web with three adaptive trophic levels. The species fitness differences were balanced through trade-offs between defense/growth rate for prey and selectivity/half-saturation constant for predators. We showed that the resistance, resilience, and elasticity of tritrophic food webs decreased with larger perturbation sizes and depended on the state of the system when the perturbation occurred. Importantly, we found that a more diverse food web was generally more resistant and resilient but its elasticity was context-dependent. Particularly, functional diversity reduced the probability of a regime shift toward a non-desirable alternative state. The basal-intermediate interaction consistently determined the robustness against a nutrient pulse despite the complex influence of the shape and type of the dynamical attractors. This relationship was strongly influenced by the diversity present and the third trophic level. Overall, using a food web model of realistic complexity, this study confirms the destructive potential of the positive feedback loop between biodiversity loss and robustness, by uncovering mechanisms leading to a decrease in resistance, resilience, and potentially elasticity as functional diversity declines.
KW  - functional diversity
KW  - nutrient spike
KW  - pulse perturbation
KW  - regime shift
KW  - robustness
KW  - tritrophic food web
Y1  - 2021
U6  - https://doi.org/10.1002/ece3.8214
SN  - 2045-7758
N1  - Wojcik and Ceulemans shared first authorship.
VL  - 11
IS  - 22
SP  - 15639
EP  - 15663
PB  - John Wiley & Sons, Inc.
CY  - Hoboken (New Jersey)
ER  - 
TY  - THES
A1  - Ting, Michael Kien Yin
T1  - Circadian-regulated dynamics of translation in Arabidopsis thaliana
Y1  - 2021
ER  - 
TY  - THES
A1  - Brunacci, Nadia
T1  - Oligodepsipeptides as matrix for drug delivery systems and submicron particulate carriers
Y1  - 2021
ER  - 
TY  - JOUR
A1  - Garrido, Claudia
A1  - Leimkühler, Silke
T1  - The inactivation of human aldehyde oxidase 1 by hydrogen peroxide and superoxide
JF  - Drug metabolism and disposition / American Society for Pharmacology and Experimental Therapeutics
N2  - Mammalian aldehyde oxidases (AOX) are molybdo-flavoenzymes of pharmacological and pathophysiologic relevance that are involved in phase I drug metabolism and, as a product of their enzymatic activity, are also involved in the generation of reactive oxygen species. So far, the physiologic role of aldehyde oxidase 1 in the human body remains unknown. The human enzyme hAOX1 is characterized by a broad substrate specificity, oxidizing aromatic/aliphatic aldehydes into their corresponding carboxylic acids, and hydroxylating various heteroaromatic rings. The enzyme uses oxygen as terminal electron acceptor to produce hydrogen peroxide and superoxide during turnover. Since hAOX1 and, in particular, some natural variants produce not only H2O2 but also high amounts of superoxide, we investigated the effect of both ROS molecules on the enzymatic activity of hAOX1 in more detail. We compared hAOX1 to the high-O-2(.-)-producing natural variant L438V for their time-dependent inactivation with H2O2/O-2(.-) during substrate turnover. We show that the inactivation of the hAOX1 wild-type enzyme is mainly based on the production of hydrogen peroxide, whereas for the variant L438V, both hydrogen peroxide and superoxide contribute to the time-dependent inactivation of the enzyme during turnover. Further, the level of inactivation was revealed to be substrate-dependent: using substrates with higher turnover numbers resulted in a faster inactivation of the enzymes. Analysis of the inactivation site of the enzyme identified a loss of the terminal sulfido ligand at the molybdenum active site by the produced ROS during turnover.
Y1  - 2021
U6  - https://doi.org/10.1124/dmd.121.000549
SN  - 1521-009X
SN  - 0090-9556
VL  - 49
IS  - 9
SP  - 729
EP  - 735
PB  - American Society for Pharmacology and Experimental Therapeutics
CY  - Bethesda
ER  - 
TY  - JOUR
A1  - Ceulemans, Ruben
A1  - Guill, Christian
A1  - Gaedke, Ursula
T1  - Top predators govern multitrophic diversity effects in tritrophic food webs
JF  - Ecology : a publication of the Ecological Society of America
N2  - It is well known that functional diversity strongly affects ecosystem functioning. However, even in rather simple model communities consisting of only two or, at best, three trophic levels, the relationship between multitrophic functional diversity and ecosystem functioning appears difficult to generalize, because of its high contextuality. In this study, we considered several differently structured tritrophic food webs, in which the amount of functional diversity was varied independently on each trophic level. To achieve generalizable results, largely independent of parametrization, we examined the outcomes of 128,000 parameter combinations sampled from ecologically plausible intervals, with each tested for 200 randomly sampled initial conditions. Analysis of our data was done by training a random forest model. This method enables the identification of complex patterns in the data through partial dependence graphs, and the comparison of the relative influence of model parameters, including the degree of diversity, on food-web properties. We found that bottom-up and top-down effects cascade simultaneously throughout the food web, intimately linking the effects of functional diversity of any trophic level to the amount of diversity of other trophic levels, which may explain the difficulty in unifying results from previous studies. Strikingly, only with high diversity throughout the whole food web, different interactions synergize to ensure efficient exploitation of the available nutrients and efficient biomass transfer to higher trophic levels, ultimately leading to a high biomass and production on the top level. The temporal variation of biomass showed a more complex pattern with increasing multitrophic diversity: while the system initially became less variable, eventually the temporal variation rose again because of the increasingly complex dynamical patterns. Importantly, top predator diversity and food-web parameters affecting the top trophic level were of highest importance to determine the biomass and temporal variability of any trophic level. Overall, our study reveals that the mechanisms by which diversity influences ecosystem functioning are affected by every part of the food web, hampering the extrapolation of insights from simple monotrophic or bitrophic systems to complex natural food webs.
KW  - food-web efficiency
KW  - functional diversity
KW  - machine learning
KW  - nutrient
KW  - exploitation
KW  - production
KW  - random forest
KW  - temporal variability
KW  - top
KW  - predator
KW  - trait diversity
Y1  - 2021
U6  - https://doi.org/10.1002/ecy.3379
SN  - 0012-9658
SN  - 1939-9170
VL  - 102
IS  - 7
PB  - Wiley
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Sauer, Michael
A1  - Grebe, Markus
T1  - Plant cell biology
BT  - PIN polarity maintained
JF  - Current biology : CB
N2  - PIN-FORMED (PIN) polar protein localization directs transport of the growth and developmental regulator auxin in plants. Once established after cytokinesis, PIN polarity requires maintenance. Now, direct interactions between PIN, MAB4/MEL and PID proteins suggest self-reinforced maintenance of PIN polarity through limiting lateral diffusion.
Y1  - 2021
U6  - https://doi.org/10.1016/j.cub.2021.03.070
SN  - 0960-9822
SN  - 1879-0445
VL  - 31
IS  - 9
SP  - R449
EP  - R451
PB  - Cell Press
CY  - Cambridge
ER  - 
TY  - THES
A1  - Tung, Wing Tai
T1  - Polymeric fibrous scaffold on macro/microscale towards tissue regeneration
Y1  - 2021
ER  - 
TY  - JOUR
A1  - Stark, Markus
A1  - Bach, Moritz
A1  - Guill, Christian
T1  - Patch isolation and periodic environmental disturbances have idiosyncratic effects on local and regional population variabilities in meta-food chains
JF  - Theoretical ecology
N2  - While habitat loss is a known key driver of biodiversity decline, the impact of other landscape properties, such as patch isolation, is far less clear. When patch isolation is low, species may benefit from a broader range of foraging opportunities, but are at the same time adversely affected by higher predation pressure from mobile predators. Although previous approaches have successfully linked such effects to biodiversity, their impact on local and metapopulation dynamics has largely been ignored. Since population dynamics may also be affected by environmental disturbances that temporally change the degree of patch isolation, such as periodic changes in habitat availability, accurate assessment of its link with isolation is highly challenging. To analyze the effect of patch isolation on the population dynamics on different spatial scales, we simulate a three-species meta-food chain on complex networks of habitat patches and assess the average variability of local populations and metapopulations, as well as the level of synchronization among patches. To evaluate the impact of periodic environmental disturbances, we contrast simulations of static landscapes with simulations of dynamic landscapes in which 30 percent of the patches periodically become unavailable as habitat. We find that increasing mean patch isolation often leads to more asynchronous population dynamics, depending on the parameterization of the food chain. However, local population variability also increases due to indirect effects of increased dispersal mortality at high mean patch isolation, consequently destabilizing metapopulation dynamics and increasing extinction risk. In dynamic landscapes, periodic changes of patch availability on a timescale much slower than ecological interactions often fully synchronize the dynamics. Further, these changes not only increase the variability of local populations and metapopulations, but also mostly overrule the effects of mean patch isolation. This may explain the often small and inconclusive impact of mean patch isolation in natural ecosystems.
KW  - Metacommunity dynamics
KW  - Dispersal
KW  - Patch isolation
KW  - Stability
KW  - Synchronization
KW  - Disturbance
Y1  - 2021
U6  - https://doi.org/10.1007/s12080-021-00510-0
SN  - 1874-1738
SN  - 1874-1746
VL  - 14
IS  - 3
SP  - 489
EP  - 500
PB  - Springer
CY  - Dordrecht
ER  - 
TY  - JOUR
A1  - Guill, Christian
A1  - Hülsemann, Janne
A1  - Klauschies, Toni
T1  - Self-organised pattern formation increases local diversity in metacommunities
JF  - Ecology letters
N2  - Self-organised formation of spatial patterns is known from a variety of different ecosystems, yet little is known about how these patterns affect the diversity of communities. Here, we use a food chain model in which autotroph diversity is described by a continuous distribution of a trait that affects both growth and defence against heterotrophs. On isolated patches, diversity is always lost over time due to stabilising selection, and the local communities settle on one of two alternative stable community states that are characterised by a dominance of either defended or undefended species. In a metacommunity context, dispersal can destabilise these states and complex spatio-temporal patterns in the species' abundances emerge. The resulting biomass-trait feedback increases local diversity by an order of magnitude compared to scenarios without self-organised pattern formation, thereby maintaining the ability of communities to adapt to potential future changes in biotic or abiotic environmental conditions.
KW  - biomass-trait feedback
KW  - fitness gradient
KW  - food chain
KW  - functional
KW  - diversity
KW  - metacommunity
KW  - self-organisation
KW  - source-sink dynamics
KW  - spatio-temporal pattern
KW  - trait-based aggregate model
KW  - Turing instability
Y1  - 2021
U6  - https://doi.org/10.1111/ele.13880
SN  - 1461-023X
SN  - 1461-0248
VL  - 24
IS  - 12
SP  - 2624
EP  - 2634
PB  - Wiley-Blackwell
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Romero-Mujalli, Daniel
A1  - Rochow, Markus
A1  - Kahl, Sandra M.
A1  - Paraskevopoulou, Sofia
A1  - Folkertsma, Remco
A1  - Jeltsch, Florian
A1  - Tiedemann, Ralph
T1  - Adaptive and nonadaptive plasticity in changing environments: Implications for sexual species with different life history strategies
JF  - Ecology and Evolution
N2  - Populations adapt to novel environmental conditions by genetic changes or phenotypic plasticity. Plastic responses are generally faster and can buffer fitness losses  under variable conditions. Plasticity is typically modeled as random noise and linear reaction norms that assume simple one-to- one  genotype–phenotype maps and no limits to the phenotypic response. Most studies on plasticity have focused on its effect on population viability. However, it is not clear, whether the advantage of plasticity depends solely on environmental fluctuations or also on the genetic and demographic properties (life histories) of populations. Here we present an individual-based model and study the relative importance of adaptive and nonadaptive plasticity for populations of sexual species with different life histories experiencing directional stochastic climate change. Environmental fluctuations were simulated using differentially autocorrelated climatic stochasticity or noise color, and scenarios of directiona
climate change. Nonadaptive plasticity was simulated as a random environmental effect on trait development, while adaptive plasticity as a linear, saturating, or sinusoidal reaction norm. The last two imposed limits to the plastic response and emphasized flexible interactions of the genotype with the environment. Interestingly, this assumption led to (a) smaller phenotypic than genotypic variance in the population (many-to- one genotype–phenotype map) and the coexistence of polymorphisms, and (b) the maintenance of higher genetic variation—compared to linear reaction norms and genetic determinism—even when the population was exposed to a constant environment for several generations. Limits to plasticity led to genetic accommodation, when costs were negligible, and to the appearance of cryptic variation when limits were exceeded. We found that adaptive plasticity promoted population persistence under red environmental noise and was particularly important for life histories with low fecundity. Populations produing more offspring could cope with environmental fluctuations solely by genetic changes or random plasticity, unless environmental change was too fast.
KW  - developmental canalization
KW  - environmental change
KW  - genetic accommodation
KW  - Individual-based models
KW  - limits
KW  - many-to-one genotype–phenotype map
KW  - noise color
KW  - phenotypic plasticity
KW  - reaction norms
KW  - stochastic fluctuations
Y1  - 2020
SN  - 2045-7758
VL  - 11
IS  - 11
PB  - John Wiley & Sons, Inc.
CY  - New Jersey
ER  - 
TY  - JOUR
A1  - Cahsan, Binia De
A1  - Westbury, Michael V.
A1  - Paraskevopoulou, Sofia
A1  - Drews, Hauke
A1  - Ott, Moritz
A1  - Gollmann, Günter
A1  - Tiedemann, Ralph
T1  - Genomic consequences of human-mediated translocations in margin populations of an endangered amphibian
JF  - Evolutionary Applications
N2  - Due to their isolated and often fragmented nature, range margin populations are especially vulnerable to rapid environmental change. To maintain genetic diversity and adaptive potential, gene flow from disjunct populations might therefore be crucial to their survival. Translocations are often proposed as a mitigation strategy to increase genetic diversity in threatened populations. However, this also includes the risk of losing locally adapted alleles through genetic swamping. Human-mediated translocations of southern lineage specimens into northern German populations of the endangered European fire-bellied toad (Bombina bombina) provide an unexpected experimental set-up to test the genetic consequences of an intraspecific introgression from central population individuals into populations at the species range margin. Here, we utilize complete mitochondrial genomes and transcriptome nuclear data to reveal the full genetic extent of this translocation and the consequences it may have for these populations. We uncover signs of introgression in four out of the five northern populations investigated, including a number of introgressed alleles ubiquitous in all recipient populations, suggesting a possible adaptive advantage. Introgressed alleles dominate at the MTCH2 locus, associated with obesity/fat tissue in humans, and the DSP locus, essential for the proper development of epidermal skin in amphibians. Furthermore, we found loci where local alleles were retained in the introgressed populations, suggesting their relevance for local adaptation. Finally, comparisons of genetic diversity between introgressed and nonintrogressed northern German populations revealed an increase in genetic diversity in all German individuals belonging to introgressed populations, supporting the idea of a beneficial transfer of genetic variation from Austria into North Germany.
KW  - adaptive introgression
KW  - admixture
KW  - Bombina bombina
KW  - genetic rescue
KW  - mitogenomes
KW  - transcriptomics
Y1  - 2020
SN  - 1752-4563
VL  - 14
IS  - 6
PB  - John Wiley & Sons, Inc.
CY  - New Jersey
ER  - 
TY  - JOUR
A1  - Spikes, Montrai
A1  - Rodríguez-Silva, Rodet
A1  - Bennett, Kerri-Ann
A1  - Bräger, Stefan
A1  - Josaphat, James
A1  - Torres-Pineda, Patricia
A1  - Ernst, Anja
A1  - Havenstein, Katja
A1  - Schlupp, Ingo
A1  - Tiedemann, Ralph
T1  - A phylogeny of the genus Limia (Teleostei: Poeciliidae) suggests a single-lake radiation nested in a Caribbean-wide allopatric speciation scenario
JF  - BMC Research Notes
N2  - Objective
The Caribbean is an important global biodiversity hotspot. Adaptive radiations there lead to many speciation events within a limited period and hence are particularly prominent biodiversity generators. A prime example are freshwater fish of the genus Limia, endemic to the Greater Antilles. Within Hispaniola, nine species have been described from a single isolated site, Lake Miragoâne, pointing towards extraordinary sympatric speciation. This study examines the evolutionary history of the Limia species in Lake Miragoâne, relative to their congeners throughout the Caribbean.

Results
For 12 Limia species, we obtained almost complete sequences of the mitochondrial cytochrome b gene, a well-established marker for lower-level taxonomic relationships. We included sequences of six further Limia species from GenBank (total N  = 18 species). Our phylogenies are in concordance with other published phylogenies of Limia. There is strong support that the species found in Lake Miragoâne in Haiti are monophyletic, confirming a recent local radiation. Within Lake Miragoâne, speciation is likely extremely recent, leading to incomplete lineage sorting in the mtDNA. Future studies using multiple unlinked genetic markers are needed to disentangle the relationships within the Lake Miragoâne clade.
KW  - Cytochrome b
KW  - Island biogeography
KW  - Fresh water fish
KW  - Phylogeny
Y1  - 2021
U6  - https://doi.org/10.1186/s13104-021-05843-x
SN  - 1756-0500
VL  - 14
SP  - 1
EP  - 8
PB  - BMC Research Notes / Biomed Central
CY  - London
ER  - 
TY  - JOUR
A1  - Krüger, Johanna
A1  - Foerster, Verena Elisabeth
A1  - Trauth, Martin H.
A1  - Hofreiter, Michael
A1  - Tiedemann, Ralph
T1  - Exploring the Past Biosphere of Chew Bahir/Southern Ethiopia: Cross-Species Hybridization Capture of Ancient Sedimentary DNA from a Deep Drill Core
JF  - Frontiers in Earth Science
N2  - Eastern Africa has been a prime target for scientific drilling because it is rich in key paleoanthropological sites as well as in paleolakes, containing valuable paleoclimatic information on evolutionary time scales. The Hominin Sites and Paleolakes Drilling Project (HSPDP) explores these paleolakes with the aim of reconstructing environmental conditions around critical episodes of hominin evolution. Identification of biological taxa based on their sedimentary ancient DNA (sedaDNA) traces can contribute to understand past ecological and climatological conditions of the living environment of our ancestors. However, sedaDNA recovery from tropical environments is challenging because high temperatures, UV irradiation, and desiccation result in highly degraded DNA. Consequently, most of the DNA fragments in tropical sediments are too short for PCR amplification. We analyzed sedaDNA in the upper 70 m of the composite sediment core of the HSPDP drill site at Chew Bahir for eukaryotic remnants. We first tested shotgun high throughput sequencing which leads to metagenomes dominated by bacterial DNA of the deep biosphere, while only a small fraction was derived from eukaryotic, and thus probably ancient, DNA. Subsequently, we performed cross-species hybridization capture of sedaDNA to enrich ancient DNA (aDNA) from eukaryotic remnants for paleoenvironmental analysis, using established barcoding genes (cox1 and rbcL for animals and plants, respectively) from 199 species that may have had relatives in the past biosphere at Chew Bahir. Metagenomes yielded after hybridization capture are richer in reads with similarity to cox1 and rbcL in comparison to metagenomes without prior hybridization capture. Taxonomic assignments of the reads from these hybridization capture metagenomes also yielded larger fractions of the eukaryotic domain. For reads assigned to cox1, inferred wet periods were associated with high inferred relative abundances of putative limnic organisms (gastropods, green algae), while inferred dry periods showed increased relative abundances for insects. These findings indicate that cross-species hybridization capture can be an effective approach to enhance the information content of sedaDNA in order to explore biosphere changes associated with past environmental conditions, enabling such analyses even under tropical conditions.
KW  - Chew Bahir
KW  - hybridization capture
KW  - ICDP
KW  - paleoclimate
KW  - past biosphere
KW  - sedaDNA
KW  - sediment core
Y1  - 2021
U6  - https://doi.org/10.3389/feart.2021.683010
SN  - 2296-6463
SP  - 1
EP  - 20
PB  - Frontiers in Earth Science
CY  - Lausanne, Schweiz
ER  - 
TY  - JOUR
A1  - Trindade, Inês
T1  - License to flower
BT  - LEAFY has pioneer activity
JF  - Molecular plant
Y1  - 2021
U6  - https://doi.org/10.1016/j.molp.2021.04.007
SN  - 1674-2052
SN  - 1752-9867
VL  - 14
IS  - 5
SP  - 719
EP  - 720
PB  - Oxford Univ. Press
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Gräf, Ralph
A1  - Grafe, Marianne
A1  - Meyer, Irene
A1  - Mitic, Kristina
A1  - Pitzen, Valentin
T1  - The dictyostelium centrosome
JF  - Cells : open access journal
N2  - The centrosome of Dictyostelium amoebae contains no centrioles and consists of a cylindrical layered core structure surrounded by a corona harboring microtubule-nucleating gamma-tubulin complexes. It is the major centrosomal model beyond animals and yeasts. Proteomics, protein interaction studies by BioID and superresolution microscopy methods led to considerable progress in our understanding of the composition, structure and function of this centrosome type. We discuss all currently known components of the Dictyostelium centrosome in comparison to other centrosomes of animals and yeasts.
KW  - microtubule-organizing center
KW  - microtubule-organization
KW  - centrosome
KW  - Dictyostelium
KW  - mitosis
Y1  - 2021
U6  - https://doi.org/10.3390/cells10102657
SN  - 2073-4409
VL  - 10
IS  - 10
PB  - MDPI
CY  - Basel
ER  - 
TY  - THES
A1  - Cadek, Chris
T1  - Charakterisierung der Funktion von TusA-homologen Proteinen im Schwefelmetabolismus von Escherichia coli
Y1  - 2021
ER  - 
TY  - JOUR
A1  - Raatz, Larissa
A1  - Pirhofer-Walzl, Karin
A1  - Müller, Marina E.H.
A1  - Scherber, Christoph
A1  - Joshi, Jasmin Radha
T1  - Who is the culprit: Is pest infestation responsible for crop yield losses close to semi-natural habitats?
JF  - Ecology and Evolution
N2  - Semi-natural habitats (SNHs) are becoming increasingly scarce in modern agricultural landscapes. This may reduce natural ecosystem services such as pest control with its putatively positive effect on crop production. In agreement with other studies, we recently reported wheat yield reductions at field borders which were linked to the type of SNH and the distance to the border. In this experimental landscape-wide study, we asked whether these yield losses have a biotic origin while analyzing fungal seed and fungal leaf pathogens, herbivory of cereal leaf beetles, and weed cover as hypothesized mediators between SNHs and yield. We established experimental winter wheat plots of a single variety within conventionally managed wheat fields at fixed distances either to a hedgerow or to an in-field kettle hole. For each plot, we recorded the fungal infection rate on seeds, fungal infection and herbivory rates on leaves, and weed cover. Using several generalized linear mixed-effects models as well as a structural equation model, we tested the effects of SNHs at a field scale (SNH type and distance to SNH) and at a landscape scale (percentage and diversity of SNHs within a 1000-m radius). In the dry year of 2016, we detected one putative biotic culprit: Weed cover was negatively associated with yield values at a 1-m and 5-m distance from the field border with a SNH. None of the fungal and insect pests, however, significantly affected yield, neither solely nor depending on type of or distance to a SNH. However, the pest groups themselves responded differently to SNH at the field scale and at the landscape scale. Our findings highlight that crop losses at field borders may be caused by biotic culprits; however, their negative impact seems weak and is putatively reduced by conventional farming practices.
KW  - arable weeds
KW  - cereal leaf beetle
KW  - fungal pathogens
KW  - herbivory
KW  - structural equation model
KW  - wheat
Y1  - 2021
U6  - https://doi.org/10.1002/ece3.8046
SN  - 1467-6435
VL  - 11
SP  - 13232
EP  - 13246
PB  - Wiley-Blackwell
CY  - Oxford
ET  - 19
ER  - 
TY  - JOUR
A1  - Trindade, Inês
T1  - A drop of immunity
JF  - Molecular plant
Y1  - 2021
U6  - https://doi.org/10.1016/j.molp.2021.07.022
SN  - 1674-2052
SN  - 1752-9867
VL  - 14
IS  - 9
SP  - 1437
EP  - 1438
PB  - Oxford Univ. Press
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Petrović, Saša
A1  - Wendler, Petra
T1  - A RADD approach to probing AAA plus protein function
JF  - Nature structural & molecular biology
N2  - AAA+ proteins (ATPases associated with various cellular activities) catalyze the energy-dependent movement or rearrangement of macromolecules. A new study addresses the important question of how to design a selective chemical inhibitor for specific proteins in this diverse superfamily. The powerful chemical genetics approach adds to a growing toolbox of applications that allow dissection of the functions of distinct AAA+ proteins in vivo, facilitating the first steps toward effective drug development.
Y1  - 2021
U6  - https://doi.org/10.1038/s41594-021-00579-5
SN  - 1545-9993
SN  - 1545-9985
VL  - 28
IS  - 4
SP  - 329
EP  - 330
PB  - Nature Publishing Group
CY  - Berlin
ER  - 
TY  - JOUR
A1  - Leimkühler, Silke
T1  - Transition metals in catalysis
BT  - the functional relationship of Fe-S clusters and molybdenum or tungsten cofactor-containing enzyme systems
JF  - Inorganics : open access journal
Y1  - 2021
U6  - https://doi.org/10.3390/inorganics9010006
SN  - 2304-6740
VL  - 9
IS  - 1
PB  - MDPI
CY  - Basel
ER  - 
TY  - THES
A1  - Gibert, Arthur
T1  - Influence of Amyloid Aggregates on the Trafficking and Signaling of GPCRs
T1  - Einfluss von Amyloidaggregaten auf den Transport und die Signalübertragung von G-Protein-gekoppelten Rezeptoren
N2  - The prevalence of diseases associated with misfolded proteins increases with age. When cellular defense mechanisms become limited, misfolded proteins form aggregates and may also develop more stable cross-β structures ultimately forming amyloid aggregates. Amyloid aggregates are associated with neurodegenerative diseases such as Alzheimer’s disease and Huntington’s disease. The formation of amyloid deposits, their toxicity and cellular defense mechanisms have been intensively studied. However, surprisingly little is known about the effects of protein aggregates on cellular signal transduction. It is also not understood whether the presence of aggregation-prone, but still soluble proteins affect signal transduction. 
In this study, the still soluble aggregation-prone HttExon1Q74 and its amyloid aggregates were used to analyze the effect of amyloid aggregates on internalization and receptor activation of G protein-coupled receptors (GPCRs), the largest protein family of mammalian cell surface receptors involved in signal transduction. The aggregated HttExon1Q74, but not its soluble form, could inhibit ligand-induced clathrin-mediated endocytosis (CME) of various GPCRs. Most likely this inhibitory effect is based on a terminal sequestration of the HSC70 chaperone to the aggregates which is necessary for CME. Using the vasopressinV1a receptor (V1aR) and the corticotropin-releasing factor receptor 1 (CRF1R) as a model, it could be shown that the presence of HttExon1Q74 aggregates and the inhibition of ligand-induced CME leads to an accumulation of desensitized receptors at the plasma membrane. In turn, this disrupts Gq-mediated Ca2+ signaling and Gs-mediated cAMP signaling of the V1aR and the CRF1R respectively. In contrast to HttExon1Q74 amyloid aggregates, soluble HttExon1Q74 as well as amorphous aggregates did not inhibit GPCR internalization and signaling demonstrating that cellular signal transduction mechanisms are specifically impaired in response to the formation of amyloid aggregates.
In addition, preliminary experiments could show that HttExon1Q74 aggregates provoke an increase in membrane expression of a protein from a structurally and functionally unrelated membrane protein family, namely the serotonin transporter SERT. As SERT is the main pharmacological target to treat depression this could shed light on this commonly occurring comorbidity in neurodegenerative diseases, in particular in early disease states.
N2  - Die Prävalenz von Krankheiten, die mit fehlgefalteten Proteinen assoziiert sind, nimmt mit dem Alter zu. Wenn die zellulären Abwehrmechanismen weniger effizient werden, können fehlgefaltete Proteine nicht nur einfache Aggregate bilden, sondern auch stabilere Cross-β-Strukturen, die am Ende zu sogenannten Amyloidaggregaten führen können. Amyloidaggregate sind mit neurodegenerativen Erkrankungen wie z. B. der Alzheimer Erkrankung und dem Huntington-Syndrom assoziiert. Die Bildung von Amyloidablagerungen, ihre Toxizität und die zellulären Abwehrmechanismen wurden in den letzten Jahren intensiv untersucht. Über die Auswirkungen von Proteinaggregaten auf die zelluläre Signaltransduktion ist jedoch überraschend wenig bekannt. Es ist auch nicht bekannt, ob bereits das Vorhandensein von löslichen Vorstadien dieser zur Aggregation neigenden Protein, die Signaltransduktion von Zellen beeinflusst.
In dieser Studie wurden Amyloidaggregate des auf dem Huntingtin-Protein basierenden Konstrukts HttExon1Q74 und seine noch löslichen Formen verwendet, um deren Wirkung auf die Internalisierung und Rezeptoraktivierung von G-Protein-gekoppelten Rezeptoren (GPCRs) zu analysieren. GPCR bilden die größte Proteinfamilie von Oberflächenrezeptoren in Säugerzellen und spielen eine entscheidende Rolle in der zellulären Signaltransduktion. Es konnte gezeigt werden, dass aggregiertes HttExon1Q74, aber nicht seine noch lösliche Form, die ligandeninduzierte Clathrin-vermittelte Endozytose (CME) verschiedener GPCRs hemmt. Höchstwahrscheinlich beruht dieser inhibitorische Effekt auf einer Sequestrierung des HSC70-Chaperons zu den HttExon1Q74-Aggregaten. In früheren Studien konnte bereits gezeigt werden, dass HSC70 die für CME notwendig ist. Unter Verwendung des VasopressinV1a-Rezeptors (V1aR) und des Corticotropin-Releasing-Faktor-Rezeptors 1 (CRF1R) als Modellproteine, konnte in dieser Arbeit ferner gezeigt werden, dass das Vorhandensein von HttExon1Q74-Aggregaten und die Hemmung der ligandeninduzierten CME zu einer Akkumulation desensibilisierter Rezeptoren in der Plasmamembran führt. Dies stört wiederum die Gq-vermittelte Ca2+-Signalisierung und die Gs-vermittelte cAMP-Signalisierung des V1aR bzw. des CRF1R. Im Gegensatz zu HttExon1Q74-Amyloidaggregaten hemmten lösliches HttExon1Q74 sowie amorphe Proteinaggregate die GPCR-Internalisierung und –Signalisierung nicht. Dies zeigt, dass Amyloidaggregate zelluläre Signaltransduktionsmechanismen spezifisch beeinträchtigen können.
Darüber hinaus konnten vorläufige Experimente zeigen, dass HttExon1Q74-Aggregate eine Erhöhung der Membranexpression des Serotonintranporters SERT verursachen, eines Membranproteins das strukturell und funktionell nicht mit GPCR verwandt ist. Da SERT das wichtigste pharmakologische Zielmolekül bei der Behandlung von depressiven Syndromen ist, könnten diese Daten dazu beitragen, besser zu verstehen, warum Depressionen in sehr frühen Stadien von neurodegenerativen Erkrankungen gehäuft auftreten.
KW  - GPCR
KW  - neurodegenerative
KW  - disease
KW  - protein trafficking
KW  - cell signaling
KW  - Huntington
KW  - GPCR
KW  - Huntington
KW  - Zellsignalisierung
KW  - neurodegenerative Erkrankung
KW  - Proteinhandel
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-506659
ER  - 
TY  - THES
A1  - Schaarschmidt, Stephanie
T1  - Evaluation and application of omics approaches  to characterize molecular responses to abiotic stresses in plants
T1  - Evaluierung und Anwendung von Omics-Methoden zur Charakterisierung von abiotischem Stress in Pflanzen auf molekularer Ebene
N2  - Aufgrund des globalen Klimawandels ist die Gewährleistung der Ernährungssicherheit für eine wachsende Weltbevölkerung eine große Herausforderung. Insbesondere abiotische Stressoren wirken sich negativ auf Ernteerträge aus. Um klimaangepasste Nutzpflanzen zu entwickeln, ist ein umfassendes Verständnis molekularer Veränderungen in der Reaktion auf unterschiedlich starke Umweltbelastungen erforderlich. Hochdurchsatz- oder "Omics"-Technologien können dazu beitragen, Schlüsselregulatoren und Wege abiotischer Stressreaktionen zu identifizieren. Zusätzlich zur Gewinnung von Omics-Daten müssen auch Programme und statistische Analysen entwickelt und evaluiert werden, um zuverlässige biologische Ergebnisse zu erhalten. 
Ich habe diese Problemstellung in drei verschiedenen Studien behandelt und dafür zwei Omics-Technologien benutzt. In der ersten Studie wurden Transkript-Daten von den beiden polymorphen Arabidopsis thaliana Akzessionen Col-0 und N14 verwendet, um sieben Programme hinsichtlich ihrer Fähigkeit zur Positionierung und Quantifizierung von Illumina RNA Sequenz-Fragmenten („Reads“) zu evaluieren. Zwischen 92% und 99% der Reads konnten an die Referenzsequenz positioniert werden und die ermittelten Verteilungen waren hoch korreliert für alle Programme. Bei der Durchführung einer differentiellen Genexpressionsanalyse zwischen Pflanzen, die bei 20 °C oder 4 °C (Kälteakklimatisierung) exponiert wurden, ergab sich eine große paarweise Überlappung zwischen den Programmen. In der zweiten Studie habe ich die Transkriptome von zehn verschiedenen Oryza sativa (Reis) Kultivaren sequenziert. Dafür wurde die PacBio Isoform Sequenzierungstechnologie benutzt. Die de novo Referenztranskriptome hatten zwischen 38.900 bis 54.500 hoch qualitative Isoformen pro Sorte. Die Isoformen wurden kollabiert, um die Sequenzredundanz zu verringern und danach evaluiert z.B. hinsichtlich des Vollständigkeitsgrades (BUSCO), der Transkriptlänge und der Anzahl einzigartiger Transkripte pro Genloci. Für die hitze- und trockenheitstolerante Sorte N22 wurden ca. 650 einzigartige und neue Transkripte identifiziert, von denen 56 signifikant unterschiedlich in sich entwickelnden Samen unter kombiniertem Trocken- und Hitzestress exprimiert wurden. In der letzten Studie habe ich die Veränderungen in Metabolitprofilen von acht Reissorten gemessen und analysiert, die dem Stress hoher Nachttemperaturen (HNT) ausgesetzt waren und während der Trocken- und Regenzeit im Feld auf den Philippinen angebaut wurden. Es wurden jahreszeitlich bedingte Veränderungen im Metabolitspiegel sowie für agronomische Parameter identifiziert und mögliche Stoffwechselwege, die einen Ertragsrückgang unter HNT-Bedingungen verursachen, vorgeschlagen.
Zusammenfassend konnte ich zeigen, dass der Vergleich der RNA-seq Programme den Pflanzenwissenschaftler*innen helfen kann, sich für das richtige Werkzeug für ihre Daten zu entscheiden. Die de novo Transkriptom-Rekonstruktion von Reissorten ohne Genomsequenz bietet einen gezielten, kosteneffizienten Ansatz zur Identifizierung neuer Gene, die durch verschiedene Stressbedingungen reguliert werden unabhängig vom Organismus. Mit dem Metabolomik-Ansatz für HNT-Stress in Reis habe ich stress- und jahreszeitenspezifische Metabolite identifiziert, die in Zukunft als molekulare Marker für die Verbesserung von Nutzpflanzen verwendet werden könnten.
N2  - Due to global climate change providing food security for an increasing world population is a big challenge. Especially abiotic stressors have a strong negative effect on crop yield. To develop climate-adapted crops a comprehensive understanding of molecular alterations in the response of varying levels of environmental stresses is required. High throughput or ‘omics’ technologies can help to identify key-regulators and pathways of abiotic stress responses. In addition to obtain omics data also tools and statistical analyses need to be designed and evaluated to get reliable biological results.
To address these issues, I have conducted three different studies covering two omics technologies. In the first study, I used transcriptomic data from the two polymorphic Arabidopsis thaliana accessions, namely Col-0 and N14, to evaluate seven computational tools for their ability to map and quantify Illumina single-end reads. Between 92% and 99% of the reads were mapped against the reference sequence. The raw count distributions obtained from the different tools were highly correlated. Performing a differential gene expression analysis between plants exposed to 20 °C or 4°C (cold acclimation), a large pairwise overlap between the mappers was obtained. In the second study, I obtained transcript data from ten different Oryza sativa (rice) cultivars by PacBio Isoform sequencing that can capture full-length transcripts. De novo reference transcriptomes were reconstructed resulting in 38,900 to 54,500 high-quality isoforms per cultivar. Isoforms were collapsed to reduce sequence redundancy and evaluated, e.g. for protein completeness level (BUSCO), transcript length, and number of unique transcripts per gene loci. For the heat and drought tolerant aus cultivar N22,  I identified around 650 unique and novel transcripts of which 56 were significantly differentially expressed in developing seeds during combined drought and heat stress. In the last study, I measured and analyzed the changes in metabolite profiles of eight rice cultivars exposed to high night temperature (HNT) stress and grown during the dry and wet season on the field in the Philippines. Season-specific changes in metabolite levels, as well as for agronomic parameters, were identified and metabolic pathways causing a yield decline at HNT conditions suggested.
In conclusion, the comparison of mapper performances can help plant scientists to decide on the right tool for their data. The de novo reconstruction of rice cultivars without a genome sequence provides a targeted, cost-efficient approach to identify novel genes responding to stress conditions for any organism. With the metabolomics approach for HNT stress in rice, I identified stress and season-specific metabolites which might be used as molecular markers for crop improvement in the future.
KW  - Arabidopsis thaliana
KW  - Oryza sativa
KW  - RNA-seq
KW  - PacBio IsoSeq
KW  - metabolomics
KW  - high night temperature
KW  - combined heat and drought stress
KW  - natural genetic variation
KW  - differential gene expression
KW  - Arabidopsis thaliana
KW  - Oryza sativa
KW  - PacBio IsoSeq
KW  - RNA-seq
KW  - kombinierter Hitze- und Trockenstress
KW  - erhöhte Nachttemperaturen
KW  - Differenzielle Genexpression
KW  - Metabolomik
KW  - natürliche genetische Variation
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-509630
ER  - 
TY  - THES
A1  - Moga, Akanksha
T1  - Reconstitution of molybdenum cofactor biosynthesis in giant vesicles
N2  - Bottom-up synthetic biology is used for the understanding of how a cell works. It is achieved through developing techniques to produce lipid-based vesicular structures as cellular mimics. The most common techniques used to produce cellular mimics or synthetic cells is through electroformation and swelling method. However, the abovementioned techniques cannot efficiently encapsulate macromolecules such as proteins, enzymes, DNA and even liposomes as synthetic organelles. This urges the need to develop new techniques that can circumvent this issue and make the artificial cell a reality where it is possible to imitate a eukaryotic cell through encapsulating macromolecules. In this thesis, the aim to construct a cell system using giant unilamellar vesicles (GUVs) to reconstitute the mitochondrial molybdenum cofactor biosynthetic pathway. This pathway is highly conserved among all life forms, and therefore is known for its biological significance in disorders induced through its malfunctioning. Furthermore, the pathway itself is a multi-step enzymatic reaction that takes place in different compartments. Initially, GTP in the mitochondrial matrix is converted to cPMP in the presence of cPMP synthase. Further, produced cPMP is transported across the membrane to the cytosol, to be converted by MPT synthase into MPT. This pathway provides a possibility to address the general challenges faced in the development of a synthetic cell, to encapsulate large biomolecules with good efficiency and greater control and to evaluate the enzymatic reactions involved in the process.

For this purpose, the emulsion-based technique was developed and optimised to allow rapid production of GUVs (~18 min) with high encapsulation efficiency (80%). This was made possible by optimizing various parameters such as density, type of oil, the impact of centrifugation speed/time, lipid concentration, pH, temperature, and emulsion droplet volume. Furthermore, the method was optimised in microtiter plates for direct experimentation and visualization after the GUV formation. Using this technique, the two steps - formation of cPMP from GTP and the formation of MPT from cPMP were encapsulated in different sets of GUVs to mimic the two compartments. Two independent fluorescence-based detection systems were established to confirm the successful encapsulation and conversion of the reactants. Alternatively, the enzymes produced using bacterial expression and measured. Following the successful encapsulation and evaluation of enzymatic reactions, cPMP transport across mitochondrial membrane has been mimicked using GUVs using a complex mitochondrial lipid composition. It was found that the cPMP interaction with the lipid bilayer results in transient pore-formation and leakage of internal contents.

Overall, it can be concluded that in this thesis a novel technique has been optimised for fast production of functional synthetic cells. The individual enzymatic steps of the Moco biosynthetic pathway have successfully implemented and quantified within these cellular mimics.
N2  - Die synthetische Biologie wird in der von unten-nach-oben-Methode eingesetzt, um zu verstehen, wie eine Zelle funktioniert. Dafür werden Techniken zur Herstellung lipidbasierter vesikul rer Strukturen als zellul re Nachahmungen entwickelt. Die gebräuchlichste Technik zur Herstellung von Zellnachahmungen oder synthetischen Zellen ist die Elektroformations- und Schwellmethode. Diese Techniken können jedoch Makromoleküle wie Proteine, Enzyme, DNA und sogar Liposomen nicht effizient als synthetische Organellen einkapseln. Daher ist es dringend erforderlich, neue Techniken zu entwickeln, die dieses Problem umgehen und die künstliche Zelle zu einer Realität machen, in der es möglich ist, eine eukaryotische Zelle durch Einkapselung von Makromolekülen zu imitieren. Das Ziel dieser Arbeit war es, ein komplexes Zellensystemmodel zu konstruieren, bei dem riesige unilamellare Vesikel (GUVs) zur Rekonstruktion des mitochondrialen Molybd n-Kofaktor-Biosynthesewegs verwendet werden. Dieser Stoffwechselweg ist bei allen Lebensformen hoch konserviert und daher aufgrund von St rungen, die durch Fehlfunktionen hervorgerufen werden, für seine biologische Bedeutung relevant. Darüber hinaus ist die Biosynthese selbst eine mehrstufige enzymatische Reaktion, die in verschiedenen Kompartimenten abläuft. Zunächst wird GTP in der mitochondrialen Matrix in Gegenwart von cPMP-Synthase zu cPMP umgewandelt. Anschlie end wird das produzierte cPMP über die Membran zum Zytosol transportiert, wo es von der MPT-Synthase in MPT umgewandelt wird. Dieser Biosyntheseweg bietet eine M glichkeit, den allgemeinen Herausforderungen bei der Entwicklung einer synthetischen Zelle zu begegnen, um große Biomoleküle mit guter Effizienz und Kontrolle zu verkapseln und die am Prozess beteiligten enzymatischen Reaktionen zu bewerten.

Zu diesem Zweck wurde die emulsionsbasierte Technik entwickelt und optimiert, die eine schnelle Produktion von GUVs (~18 min) mit hoher Verkapselungseffizienz (80%) ermöglicht. M glich wurde dies durch die Optimierung verschiedener Parameter wie Dichte,  ltyp, Einfluss von Zentrifugationsgeschwindigkeit/-zeit, Lipidkonzentration, pH-Wert, Temperatur und Emulsionstropfenvolumen. Darüber hinaus wurde die Methode in Mikrotiterplatten für das direkte Experimentieren und die Visualisierung nach der GUV-Bildung optimiert. Mit dieser Technik wurden die beiden Schritte, die Bildung von cPMP aus GTP und die Bildung von MPT aus cPMP, in verschiedenen GUVs eingekapselt, um die beiden Kompartimente nachzuahmen. Zwei unabhängige fluoreszenzbasierte Detektionssysteme wurden eingerichtet, um die erfolgreiche Einkapselung und Umwandlung der Reaktanten zu best tigen. Alternativ wurden die Enzyme mittels bakterieller Expression produziert und gemessen. Nach der erfolgreichen Einkapselung und Auswertung der enzymatischen Reaktionen wurde der cPMP-Transport durch die mitochondriale Membran mit Hilfe von GUVs unter Verwendung einer komplexen mitochondrialen Lipidzusammensetzung nachgeahmt. Es wurde festgestellt, dass die cPMP-Wechselwirkung mit der Lipiddoppelschicht zu einer transienten Porenbildung und zum Auslaufen des inneren Inhalts führt.

Insgesamt kann der Schluss gezogen werden, dass in dieser Arbeit eine neuartige Technik für die schnelle Herstellung funktioneller synthetischer Zellen optimiert wurde. Einzelne enzymatische Schritte des Moco-Biosynthesewegs wurden in diesen zellul ren Mimiken erfolgreich implementiert und quantifiziert.
KW  - GUVs
KW  - Molybdenum cofactor biosynthetic
KW  - Microscopy
KW  - Inverted emulsion-based method
KW  - Mikroskop
KW  - Biochemie
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-510167
ER  - 
TY  - THES
A1  - Ceulemans, Ruben
T1  - Diversity effects on ecosystem functions of tritrophic food webs
T1  - Diversität beeinflusst Ökosystemfunktionen tritrophischer Nahrungsnetze
N2  - There is a general consensus that diverse ecological communities are better equipped to adapt to changes in their environment, but our understanding of the mechanisms by which they do so remains incomplete. Accurately predicting how the global biodiversity crisis affects the functioning of ecosystems, and the services they provide, requires extensive knowledge about these mechanisms.
Mathematical models of food webs have been successful in uncovering many aspects of the link between diversity and ecosystem functioning in small food web modules, containing at most two adaptive trophic levels. Meaningful extrapolation of this understanding to the functioning of natural food webs remains difficult, due to the presence of complex interactions that are not always accurately captured by bitrophic descriptions of food webs. In this dissertation, we expand this approach to tritrophic food web models by including the third trophic level. Using a functional trait approach, coexistence of all species is ensured using fitness-balancing trade-offs. For example, the defense-growth trade-off implies that species may be defended against predation, but this defense comes at the cost of a lower maximal growth rate. In these food webs, the functional diversity on a given trophic level can be varied by modifying the trait differences between the species on that level.
In the first project, we find that functional diversity promotes high biomass on the top level, which, in turn, leads to a reduction in the temporal variability due to compensatory dynamical patterns governed by the top level. Next, these results are generalized by investigating the average behavior of tritrophic food webs, for wide intervals of all parameters describing species interactions in the food web. We find that the diversity on the top level is most important for determining the biomass and temporal variability of all other trophic levels, and show how biomass is only transferred efficiently to the top level when diversity is high everywhere in the food web. In the third project, we compare the response of a simple food chain against a nutrient pulse perturbation, to that of a food web with diversity on every trophic level. By joint consideration of the resistance, resilience, and elasticity, we uncover that the response is efficiently buffered when biomass on the top level is high, which is facilitated by functional diversity on every trophic level in the food web. Finally, in the fourth project, we show that even in a simple consumer-resource model without any diversity, top-down control on the intermediate level frequently causes the phase difference between the intermediate and basal level to deviate from the quarter-cycle lag rule. By adding a top predator, we show that these deviations become even more likely, and anti-phase cycles are often observed.
The combined results of these projects show how the properties of the top trophic level, including its functional diversity, have a decisive influence on the functioning of tritrophic food webs from a mechanistic perspective. Because top species are often among the most vulnerable to extinction, our results emphasize the importance of their conservation in ecosystem management and restoration strategies.
N2  - Wissenschaftliche Erkenntnisse über die in natürlichen Ökoystemen beobachtete Artenvielfalt hat gezeigt, dass die Artenvielfalt fast überall auf der Erde rapide abnimmt. Dieser Rückgang ist hauptsächlich auf den zunehmenden menschlichen Einfluss auf die Umwelt zurückzuführen. Insbesondere die zunehmende Landnutzung z. B. für die Landwirtschaft, die Verschmutzung und die überfischung wirken sich negativ auf die Biodiversität aus. Den Einfluss von Biodiversität auf die Funktion von natürlichen Ökosystemen ist ein sehr aktives Forschungsgebiet der Ökologie. Insbesondere hat sich herausgestellt, dass die Biodiversität einen entscheidenden Einfluss auf wichtige Eigenschaften von Ökosystemen hat, wie z.B. die Menge an Biomasse, die sich etablieren kann, wie groß die Schwankungen der Biomasse im Laufe der Zeit sind, wie effizient Energie durch das gesamte Ökosystem übertragen wird und wie es auf Umweltstörungen reagiert.
In dieser Dissertation wird  der Zusammenhang zwischen Biodiversität und Ökosystemfunktionen mit Hilfe mathematischer Modelle von Nahrungsnetzen untersucht um mit Hilfe dieses Ansatz wichtige Eigenschaften und deren Relevanz zu ermitteln. Ein Nahrungsnetz beschreibt einen zentralen Teil dessen, wie Arten in einem Ökosystem miteinander interagieren, nämlich wer wen frisst. Unsere Modelle enthalten drei trophische Ebenen: eine basale Ebene (z.B. Pflanzen), die einer mittleren Ebene (Pflanzenfresser) als Nahrungsquelle dient, die wiederum von einer oberen Ebene (Fleischfresser) gefressen werden. Die Koexistenz mehrerer Arten auf einer trophischen Ebene ist über Trade-offs zwischen wichtigen Merkmalen der Arten sichergestellt. Ein Trade-off zwischen Fraßschutz und Wachstum bedeutet zum Beispiel, dass jeder Mechanismus, mit dem sich eine Art vor Fressfeinden schützen kann (z. B. die Bildung von Stacheln), mit einer geringeren Wachstumsrate erkauft wird (die Pflanze muss Energie für die Bildung der Stacheln aufgewendet werden). Auf diese Weise ist die Koexistenz mehrerer Arten möglich: kein Fraßschutz und eine hohe Wachstumsrate, gegenüber hohem Fraßschutz und einer niedrigen Wachstumsrate. 
Wir zeigen, dass die Eigenschaften der obersten trophischen Ebene, wie z. B. ihr Biomasseanteil und ihre Diversität, einen sehr großen Einfluss auf die Eigenschaften aller anderen trophischen Ebenen im Nahrungsnetz ausüben. Insbesondere beobachten wir, dass eine hohe Biomasse und Diversität auf der obersten trophischen Ebene zu einem Nahrungsnetz führt, das zeitlich stabiler ist, die verfügbaren anorganischen Nährstoffe besser ausnutzt und die erhöhte Produktivität der basalen trophischen Ebene effizienter an die Spitze des Nahrungsnetzes weitergibt. Darüber hinaus stellen wir fest, dass die oberste trophische Ebene eine Schlüsselrolle bei der Abschwächung von Auswirkungen auf ein  Nahrungsnetz durch externe Störungen spielt. Zudem verstärkt sich dieser Effekt  der obersten trophischen Ebene, wenn die anderen trophischen Ebenen ebenfalls eine hohe Diversität aufzeigen. 
Unsere Ergebnisse unterstreichen somit die Bedeutung von Diversität in allen Nahrungsnetzen, um einen Fortbestand von Ökosystemdienstleistungen zu gewährleisten, auf die wir angewiesen sind.
KW  - food webs
KW  - trait variation
KW  - trait diversity
KW  - Nahrungsnetze
KW  - Merkmalsvielfalt
KW  - Merkmalsvariation
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-503259
ER  - 
TY  - THES
A1  - Liu, Yue
T1  - Polymeric objects switchable between two shapes
N2  - As the ongoing trend of developing smart materials that can reversibly switch geometry stimulated by environmental control addressed increasing attention in many research fields, especially for biomedical or soft robotic applications. Shape-memory polymers (SMPs), which can change shape, stiffness, size, and structure when exposed to an external stimulus, are intensively explored as encouraging material candidates for achieving multifunctionality, and for miniaturizing into micro-components to expand the applications. Besides, the geometrical design has gained growing attention for creating engineering applications, such as bi-stable mechanisms, and has the potential to be explored by implementing SMP for new functions. In this context, this thesis aimed to develop smart micro-/nano-objects based on SMP and explore new functions by geometrical design using SMP. Here, two types of stimuli-responsive objects capable of one-way temperature-memory effect (TME) or free-standing reversible actuation e.g., micro/nanofibers (i) and microcuboids (ii) at different aspects were explored. At first, it was hypothesized that the advanced atomic force microscopy (AFM) platform can be established to study individual polymeric micro-/nanofibers (i) in terms of incorporation and characterization of a reversible shape-memory actuation capability. Crystallizable material was chosen for preparing the fibers and the molecular alignment within the fibers among different diameters will influence the crystallization-induced elongation during cooling that determined the reversible effect. For the second type, microcuboids (ii), it was hypothesized that a programming and quantification approach can be developed to enable the realization and characterization of a one-way micro-TME and micro-shape-memory polymer actuation (SMPA) in microcuboids. The responsive temperature of one-way shape transformation can be tuned by programming temperature (Tp) and the separation temperature (Tsep) for post-programming can influence the actuation. Finally, a geometrical design with bi-stability was combined with SME to create new functions of shape actuation. It was hypothesized that the predicted bi-stable or mono-stable structures can be achieved with the aid of digital fabrication methods. Using shape-memory effect (SME), the alteration of bi-stable and mono-stable can initiate shape transformation with a larger magnitude and higher energy output.
In the first part, the method to quantify the reversible SMPA of a single micro/nano crystallizable fiber with geometry change during the actuation was explored. Electrospinning was used to prepare poly (ε-caprolactone) (PCL) micro/nanofiber with different diameters, which were fixed by UV glue and crosslinked on the structured silicon wafer. Using AFM, the programming, as well as the observation of recovery and reversible displacement of the fiber, were performed by vertical three-point bending at the free suspended part. A plateau tip was chosen to achieve stable contact and longer working distance for performing larger deformation, enabling intensified reversible SMPA of single fibers. In this way, programming strains of 39 ± 1% or 46 ± 1% were realized for fiber with a diameter of 1 ± 0.2 µm and 300 ± 50 nm, which were bent at 80 °C and fixed at 10 °C. Values for the reversible elongation of εrev = 3.4 ± 0.1% and 10.5 ± 0.1% were obtained for a single micro and nanofiber respectively between 10 and 60 °C. The higher actuation effect observed for nanofiber demonstrated that the highly compact and oriented crystallites in nanofibers, which determined the pronounced εrev compared to the thick microfibers. Besides, a stable reversible actuation of a nanofiber can be tracked by AFM tip up to 10 cycles, indicating a sustainable application can be achieved on the fiber actuators. The findings obtained for cPCL micro-/nano-fibers will help design and evaluate the next generation polymeric microactuators or micromanipulators.
The second part of the thesis studies the shape-memory effect (SME) of a single individual SMP micro-object by controlling deformation temperatures during programming and actuation temperatures during reversible change. In this work, microcuboids of crosslinked poly[ethylene-co-(vinyl acetate)] (cPEVA) elastomers with 18 wt% vinyl acetate (VA) contents were successfully prepared by template-based replication from polydimethylsiloxane (PDMS) mold. The micro-TME and micro-SMPA were observed and studied based on micro-geometry change using optical microscopy (OM) and AFM. Different switching temperatures of shape recovery were achieved from 55 °C to 86 °C by tuning Tp from 55 °C to 100 °C, indicating a successful implementation of micro-TME on individual microcuboid. For micro-SMPA functionalization, microcuboids were deformed by compression at 100 °C and the change in single particle height was monitored during cyclic heating and cooling between various Tseps from 60 °C to 85 °C and 20 °C. The micro-SMPA on a single microcuboid was achieved with a reversible strain in the range of 2 to 7%, whereby higher compression ratio CR and Tsep induced prominent reversible strain. The results achieved in this work demonstrated the successful functionalization of microcuboids with different SMEs by controlling temperatures during programming and actuation processes.  Based on these achievements, such micro-objects can be further designed as on demand switchable microactuators or release systems with adjustable working temperatures.
In the last part of the work, a new function of shape-memory polymeric bi-stable 3D structured film was designed and fabricated. The SME and geometrical design of compliant mechanics were merged to enable switching between bi-stable and mono-stable states, which generate snap movement that mimics the Venus flytrap. A truncated tetrahedron structure with a slope angle as a tunable parameter to alter the bi-stability was chosen for the study to combine with 
SME. It was anticipated that the structured film designed with a slope angle of 30° exhibited mono-stable behavior, and such a structure with a slope angle of 45° exhibited bi-stable behavior. Then the structured SMP film of designed mono-stable shape was successfully fabricated using soft lithography based on 3D printed master molds supported from digital manufacturing. The structured mold was also used in programming the SMP film into the structure with a higher slope angle to attain bi-stability.  Finally, the switching between bi-stable and mono-stable states was successfully realized using SME, which introduces snapping movement triggered by heat. The implementation of compliant mechanisms by the SME increased the magnitude of thermally induced reconfiguration without additional external force.
To sum up, the results of the thesis support the development of smart objects capable of one-way micro-TME, free-standing reversible actuation, or bi-stability mediated shape-memory reconfiguration. Electrospinning and template-based method were used for fabrication with good control of geometry and low size dispersity. Microscopy methods especially the AFM platform with decent sensitivity was developed for implementation as well as characterization of SME on individual micro-/nanoobjects. Implementation of bi-stability improves the shape transformation amplitude of thermally triggered SMP. These findings can give novel insights for designing polymer-based actuators or soft robotics.
KW  - shape-memory polymer
KW  - compliant mechanism
KW  - atomic force microscopy
Y1  - 2021
ER  - 
TY  - JOUR
A1  - Steppert, Isabel
A1  - Schönfelder, Jessy
A1  - Schultz, Carolyn
A1  - Kuhlmeier, Dirk
T1  - Rapid in vitro differentiation of bacteria by ion mobility spectrometry
JF  - Applied Microbiology and Biotechnology
N2  - Rapid screening of infected people plays a crucial role in interrupting infection chains. However, the current methods for identification of bacteria are very tedious and labor intense. Fast on-site screening for pathogens based on volatile organic compounds (VOCs) by ion mobility spectrometry (IMS) could help to differentiate between healthy and potentially infected subjects. As a first step towards this, the feasibility of differentiating between seven different bacteria including resistant strains was assessed using IMS coupled to multicapillary columns (MCC-IMS). The headspace above bacterial cultures was directly drawn and analyzed by MCC-IMS after 90 min of incubation. A cluster analysis software and statistical methods were applied to select discriminative VOC clusters. As a result, 63 VOC clusters were identified, enabling the differentiation between all investigated bacterial strains using canonical discriminant analysis. These 63 clusters were reduced to 7 discriminative VOC clusters by constructing a hierarchical classification tree. Using this tree, all bacteria including resistant strains could be classified with an AUC of 1.0 by receiver-operating characteristic analysis. In conclusion, MCC-IMS is able to differentiate the tested bacterial species, even the non-resistant and their corresponding resistant strains, based on VOC patterns after 90 min of cultivation. Although this result is very promising, in vivo studies need to be performed to investigate if this technology is able to also classify clinical samples. With a short analysis time of 5 min, MCC-IMS is quite attractive for a rapid screening for possible infections in various locations from hospitals to airports. Key Points center dot Differentiation of bacteria by MCC-IMS is shown after 90-min cultivation. center dot Non-resistant and resistant strains can be distinguished. center dot Classification of bacteria is possible based on metabolic features.
KW  - Bacteria identification
KW  - Volatile organic compounds (VOC)
KW  - Ion mobility
KW  - spectrometry (IMS)
KW  - Antibiotic resistance
KW  - Infection
KW  - Diagnostic
Y1  - 2021
U6  - https://doi.org/10.1007/s00253-021-11315-w
SN  - 0175-7598
SN  - 1432-0614
VL  - 105
IS  - 10
SP  - 4297
EP  - 4307
PB  - Springer
CY  - New York
ER  - 
TY  - JOUR
A1  - Strong, Catherine R. C.
A1  - Scherz, Mark D.
A1  - Caldwell, Michael Wayne
T1  - Deconstructing the Gestalt
BT  - new concepts and tests of homology, as exemplified by a re-conceptualization of "microstomy" in squamates
JF  - The anatomical record : AR ; advances in integrative anatomy and evolutionary biology ; an official publication of the American Association of Anatomists, AAA
N2  - Snakes-a subset of lizards-have traditionally been divided into two major groups based on feeding mechanics: "macrostomy," involving the ingestion of proportionally large prey items; and "microstomy," the lack of this ability. "Microstomy"-considered present in scolecophidian and early-diverging alethinophidian snakes-is generally viewed as a symplesiomorphy shared with non-snake lizards. However, this perspective of "microstomy" as plesiomorphic and morphologically homogenous fails to recognize the complexity of this condition and its evolution across "microstomatan" squamates. To challenge this problematic paradigm, we formalize a new framework for conceptualizing and testing the homology of overall character complexes, or "morphotypes," which underlies our re-assessment of "microstomy." Using micro-computed tomography (micro-CT) scans, we analyze the morphology of the jaws and suspensorium across purported "microstomatan" squamates (scolecophidians, early-diverging alethinophidians, and non-snake lizards) and demonstrate that key components of the jaw complex are not homologous at the level of primary character state identity across these taxa. Therefore, rather than treating "microstomy" as a uniform condition, we instead propose that non-snake lizards, early-diverging alethinophidians, anomalepidids, leptotyphlopids, and typhlopoids each exhibit a unique and nonhomologous jaw morphotype: "minimal-kinesis microstomy," "snout-shifting," "axle-brace maxillary raking," "mandibular raking," and "single-axle maxillary raking," respectively. The lack of synapomorphy among scolecophidians is inconsistent with the notion of scolecophidians representing an ancestral snake condition, and instead reflects a hypothesis of the independent evolution of fossoriality, miniaturization, and "microstomy" in each scolecophidian lineage. We ultimately emphasize that a rigorous approach to comparative anatomy is necessary in constructing evolutionary hypotheses that accurately reflect biological reality.
KW  - ancestral state reconstruction
KW  - functional morphology
KW  - homology
KW  - skull
KW  - anatomy
KW  - snake evolution
Y1  - 2021
U6  - https://doi.org/10.1002/ar.24630
SN  - 1932-8486
SN  - 1932-8494
VL  - 304
IS  - 10
SP  - 2303
EP  - 2351
PB  - Wiley
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Guljamow, Arthur
A1  - Barchewitz, Tino
A1  - Große, Rebecca
A1  - Timm, Stefan
A1  - Hagemann, Martin
A1  - Dittmann, Elke
T1  - Diel Variations of Extracellular Microcystin Influence the
Subcellular Dynamics of RubisCO in Microcystis aeruginosa
PCC 7806
JF  - Microorganisms : open access journal
N2  - The ubiquitous freshwater cyanobacterium Microcystis is remarkably successful, showing a high tolerance against fluctuations in environmental conditions. It frequently forms dense blooms which can accumulate significant amounts of the hepatotoxin microcystin, which plays an extracellular role as an infochemical but also acts intracellularly by interacting with proteins of the carbon metabolism, notably with the CO2 fixing enzyme RubisCO. Here we demonstrate a direct link between external microcystin and its intracellular targets. Monitoring liquid cultures of Microcystis in a diel experiment revealed fluctuations in the extracellular microcystin content that correlate with an increase in the binding of microcystin to intracellular proteins. Concomitantly, reversible relocation of RubisCO from the cytoplasm to the cell’s periphery was observed. These variations in RubisCO localization were especially pronounced with cultures grown at higher cell densities. We replicated these effects by adding microcystin externally to cultures grown under continuous light. Thus, we propose that microcystin may be part of a fast response to conditions of high light and low carbon that contribute to the metabolic flexibility and the success of Microcystis in the field.
KW  - cyanobacterial bloom
KW  - Microcystis
KW  - microcystin
KW  - RubisCO
KW  - extracellular signaling
Y1  - 2021
U6  - https://doi.org/10.3390/microorganisms9061265
SN  - 2076-2607
VL  - 9
IS  - 6
PB  - MDPI
CY  - Basel
ER  - 
TY  - GEN
A1  - Wojcik, Laurie Anne
A1  - Ceulemans, Ruben
A1  - Gaedke, Ursula
T1  - Functional diversity buffers the effects of a pulse perturbation on the dynamics of tritrophic food webs
T2  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Biodiversity decline causes a loss of functional diversity, which threatens ecosystems through a dangerous feedback loop: This loss may hamper ecosystems’ ability to buffer environmental changes, leading to further biodiversity losses. In this context, the increasing frequency of human-induced excessive loading of nutrients causes major problems in aquatic systems. Previous studies investigating how functional diversity influences the response of food webs to disturbances have mainly considered systems with at most two functionally diverse trophic levels. We investigated the effects of functional diversity on the robustness, that is, resistance, resilience, and elasticity, using a tritrophic—and thus more realistic—plankton food web model. We compared a non-adaptive food chain with no diversity within the individual trophic levels to a more diverse food web with three adaptive trophic levels. The species fitness differences were balanced through trade-offs between defense/growth rate for prey and selectivity/half-saturation constant for predators. We showed that the resistance, resilience, and elasticity of tritrophic food webs decreased with larger perturbation sizes and depended on the state of the system when the perturbation occurred. Importantly, we found that a more diverse food web was generally more resistant and resilient but its elasticity was context-dependent. Particularly, functional diversity reduced the probability of a regime shift toward a non-desirable alternative state. The basal-intermediate interaction consistently determined the robustness against a nutrient pulse despite the complex influence of the shape and type of the dynamical attractors. This relationship was strongly influenced by the diversity present and the third trophic level. Overall, using a food web model of realistic complexity, this study confirms the destructive potential of the positive feedback loop between biodiversity loss and robustness, by uncovering mechanisms leading to a decrease in resistance, resilience, and potentially elasticity as functional diversity declines.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1251 
KW  - functional diversity
KW  - nutrient spike
KW  - pulse perturbation
KW  - regime shift
KW  - robustness
KW  - tritrophic food web
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-553730
SN  - 1866-8372
N1  - Wojcik and Ceulemans shared first authorship.
IS  - 1251
ER  - 
TY  - GEN
A1  - Bornhorst, Dorothee
A1  - Abdelilah-Seyfried, Salim
T1  - Strong as a Hippo’s Heart: Biomechanical Hippo Signaling During Zebrafish Cardiac Development
T2  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - The heart is comprised of multiple tissues that contribute to its physiological functions. During development, the growth of myocardium and endocardium is coupled and morphogenetic processes within these separate tissue layers are integrated. Here, we discuss the roles of mechanosensitive Hippo signaling in growth and morphogenesis of the zebrafish heart. Hippo signaling is involved in defining numbers of cardiac progenitor cells derived from the secondary heart field, in restricting the growth of the epicardium, and in guiding trabeculation and outflow tract formation. Recent work also shows that myocardial chamber dimensions serve as a blueprint for Hippo signaling-dependent growth of the endocardium. Evidently, Hippo pathway components act at the crossroads of various signaling pathways involved in embryonic zebrafish heart development. Elucidating how biomechanical Hippo signaling guides heart morphogenesis has direct implications for our understanding of cardiac physiology and pathophysiology.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1236 
KW  - Hippo signaling
KW  - Yap1/Wwtr1 (Taz)
KW  - cardiac development
KW  - mechanobiology
KW  - endocardium
KW  - myocardium
KW  - zebrafish
KW  - intra-organ-communication
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-548731
SN  - 1866-8372
SP  - 1
EP  - 10
PB  - Universitätsverlag Potsdam
CY  - Potsdam
ER  - 
TY  - GEN
A1  - Spikes, Montrai
A1  - Rodríguez-Silva, Rodet
A1  - Bennett, Kerri-Ann
A1  - Bräger, Stefan
A1  - Josaphat, James
A1  - Torres-Pineda, Patricia
A1  - Ernst, Anja
A1  - Havenstein, Katja
A1  - Schlupp, Ingo
A1  - Tiedemann, Ralph
T1  - A phylogeny of the genus Limia (Teleostei: Poeciliidae) suggests a single-lake radiation nested in a Caribbean-wide allopatric speciation scenario
T2  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Objective
The Caribbean is an important global biodiversity hotspot. Adaptive radiations there lead to many speciation events within a limited period and hence are particularly prominent biodiversity generators. A prime example are freshwater fish of the genus Limia, endemic to the Greater Antilles. Within Hispaniola, nine species have been described from a single isolated site, Lake Miragoâne, pointing towards extraordinary sympatric speciation. This study examines the evolutionary history of the Limia species in Lake Miragoâne, relative to their congeners throughout the Caribbean.

Results
For 12 Limia species, we obtained almost complete sequences of the mitochondrial cytochrome b gene, a well-established marker for lower-level taxonomic relationships. We included sequences of six further Limia species from GenBank (total N  = 18 species). Our phylogenies are in concordance with other published phylogenies of Limia. There is strong support that the species found in Lake Miragoâne in Haiti are monophyletic, confirming a recent local radiation. Within Lake Miragoâne, speciation is likely extremely recent, leading to incomplete lineage sorting in the mtDNA. Future studies using multiple unlinked genetic markers are needed to disentangle the relationships within the Lake Miragoâne clade.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1238 
KW  - Cytochrome b
KW  - Island biogeography
KW  - Fresh water fish
KW  - Phylogeny
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-548882
SN  - 1866-8372
SP  - 1
EP  - 8
PB  - Universitätsverlag Potsdam
CY  - Potsdam
ER  - 
TY  - GEN
A1  - Krüger, Johanna
A1  - Foerster, Verena Elisabeth
A1  - Trauth, Martin H.
A1  - Hofreiter, Michael
A1  - Tiedemann, Ralph
T1  - Exploring the Past Biosphere of Chew Bahir/Southern Ethiopia: Cross-Species Hybridization Capture of Ancient Sedimentary DNA from a Deep Drill Core
T2  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Eastern Africa has been a prime target for scientific drilling because it is rich in key paleoanthropological sites as well as in paleolakes, containing valuable paleoclimatic information on evolutionary time scales. The Hominin Sites and Paleolakes Drilling Project (HSPDP) explores these paleolakes with the aim of reconstructing environmental conditions around critical episodes of hominin evolution. Identification of biological taxa based on their sedimentary ancient DNA (sedaDNA) traces can contribute to understand past ecological and climatological conditions of the living environment of our ancestors. However, sedaDNA recovery from tropical environments is challenging because high temperatures, UV irradiation, and desiccation result in highly degraded DNA. Consequently, most of the DNA fragments in tropical sediments are too short for PCR amplification. We analyzed sedaDNA in the upper 70 m of the composite sediment core of the HSPDP drill site at Chew Bahir for eukaryotic remnants. We first tested shotgun high throughput sequencing which leads to metagenomes dominated by bacterial DNA of the deep biosphere, while only a small fraction was derived from eukaryotic, and thus probably ancient, DNA. Subsequently, we performed cross-species hybridization capture of sedaDNA to enrich ancient DNA (aDNA) from eukaryotic remnants for paleoenvironmental analysis, using established barcoding genes (cox1 and rbcL for animals and plants, respectively) from 199 species that may have had relatives in the past biosphere at Chew Bahir. Metagenomes yielded after hybridization capture are richer in reads with similarity to cox1 and rbcL in comparison to metagenomes without prior hybridization capture. Taxonomic assignments of the reads from these hybridization capture metagenomes also yielded larger fractions of the eukaryotic domain. For reads assigned to cox1, inferred wet periods were associated with high inferred relative abundances of putative limnic organisms (gastropods, green algae), while inferred dry periods showed increased relative abundances for insects. These findings indicate that cross-species hybridization capture can be an effective approach to enhance the information content of sedaDNA in order to explore biosphere changes associated with past environmental conditions, enabling such analyses even under tropical conditions.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1244 
KW  - Chew Bahir
KW  - hybridization capture
KW  - ICDP
KW  - paleoclimate
KW  - past biosphere
KW  - sedaDNA
KW  - sediment core
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-550071
SN  - 1866-8372
SP  - 1
EP  - 20
PB  - Universitätsverlag Potsdam
CY  - Potsdam
ER  - 
TY  - JOUR
A1  - Raatz, Larissa
A1  - Pirhofer-Walzl, Karin
A1  - Müller, Marina E.H.
A1  - Scherber, Christoph
A1  - Joshi, Jasmin Radha
T1  - Who is the culprit: Is pest infestation responsible for crop yield losses close to semi-natural habitats?
JF  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Semi-natural habitats (SNHs) are becoming increasingly scarce in modern agricultural landscapes. This may reduce natural ecosystem services such as pest control with its putatively positive effect on crop production. In agreement with other studies, we recently reported wheat yield reductions at field borders which were linked to the type of SNH and the distance to the border. In this experimental landscape-wide study, we asked whether these yield losses have a biotic origin while analyzing fungal seed and fungal leaf pathogens, herbivory of cereal leaf beetles, and weed cover as hypothesized mediators between SNHs and yield. We established experimental winter wheat plots of a single variety within conventionally managed wheat fields at fixed distances either to a hedgerow or to an in-field kettle hole. For each plot, we recorded the fungal infection rate on seeds, fungal infection and herbivory rates on leaves, and weed cover. Using several generalized linear mixed-effects models as well as a structural equation model, we tested the effects of SNHs at a field scale (SNH type and distance to SNH) and at a landscape scale (percentage and diversity of SNHs within a 1000-m radius). In the dry year of 2016, we detected one putative biotic culprit: Weed cover was negatively associated with yield values at a 1-m and 5-m distance from the field border with a SNH. None of the fungal and insect pests, however, significantly affected yield, neither solely nor depending on type of or distance to a SNH. However, the pest groups themselves responded differently to SNH at the field scale and at the landscape scale. Our findings highlight that crop losses at field borders may be caused by biotic culprits; however, their negative impact seems weak and is putatively reduced by conventional farming practices.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1240 
KW  - arable weeds
KW  - cereal leaf beetle
KW  - fungal pathogens
KW  - herbivory
KW  - structural equation model
KW  - wheat
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-549622
SN  - 1866-8372
SP  - 13232
EP  - 13246
PB  - Universitätsverlag Potsdam
CY  - Potsdam
ER  - 
TY  - GEN
A1  - Guljamow, Arthur
A1  - Barchewitz, Tino
A1  - Große, Rebecca
A1  - Timm, Stefan
A1  - Hagemann, Martin
A1  - Dittmann, Elke
T1  - Diel Variations of Extracellular Microcystin Influence the
Subcellular Dynamics of RubisCO in Microcystis aeruginosa
PCC 7806
T2  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - The ubiquitous freshwater cyanobacterium Microcystis is remarkably successful, showing a high tolerance against fluctuations in environmental conditions. It frequently forms dense blooms which can accumulate significant amounts of the hepatotoxin microcystin, which plays an extracellular role as an infochemical but also acts intracellularly by interacting with proteins of the carbon metabolism, notably with the CO2 fixing enzyme RubisCO. Here we demonstrate a direct link between external microcystin and its intracellular targets. Monitoring liquid cultures of Microcystis in a diel experiment revealed fluctuations in the extracellular microcystin content that correlate with an increase in the binding of microcystin to intracellular proteins. Concomitantly, reversible relocation of RubisCO from the cytoplasm to the cell’s periphery was observed. These variations in RubisCO localization were especially pronounced with cultures grown at higher cell densities. We replicated these effects by adding microcystin externally to cultures grown under continuous light. Thus, we propose that microcystin may be part of a fast response to conditions of high light and low carbon that contribute to the metabolic flexibility and the success of Microcystis in the field.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1154 
KW  - cyanobacterial bloom
KW  - Microcystis
KW  - microcystin
KW  - RubisCO
KW  - extracellular signaling
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-521287
SN  - 1866-8372
IS  - 1154
ER  - 
TY  - GEN
A1  - Romero-Mujalli, Daniel
A1  - Rochow, Markus
A1  - Kahl, Sandra M.
A1  - Paraskevopoulou, Sofia
A1  - Folkertsma, Remco
A1  - Jeltsch, Florian
A1  - Tiedemann, Ralph
T1  - Adaptive and nonadaptive plasticity in changing environments: Implications for sexual species with different life history strategies
T2  - Postprints der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Populations adapt to novel environmental conditions by genetic changes or phenotypic plasticity. Plastic responses are generally faster and can buffer fitness losses  under variable conditions. Plasticity is typically modeled as random noise and linear reaction norms that assume simple one-to- one  genotype–phenotype maps and no limits to the phenotypic response. Most studies on plasticity have focused on its effect on population viability. However, it is not clear, whether the advantage of plasticity depends solely on environmental fluctuations or also on the genetic and demographic properties (life histories) of populations. Here we present an individual-based model and study the relative importance of adaptive and nonadaptive plasticity for populations of sexual species with different life histories experiencing directional stochastic climate change. Environmental fluctuations were simulated using differentially autocorrelated climatic stochasticity or noise color, and scenarios of directiona
climate change. Nonadaptive plasticity was simulated as a random environmental effect on trait development, while adaptive plasticity as a linear, saturating, or sinusoidal reaction norm. The last two imposed limits to the plastic response and emphasized flexible interactions of the genotype with the environment. Interestingly, this assumption led to (a) smaller phenotypic than genotypic variance in the population (many-to- one genotype–phenotype map) and the coexistence of polymorphisms, and (b) the maintenance of higher genetic variation—compared to linear reaction norms and genetic determinism—even when the population was exposed to a constant environment for several generations. Limits to plasticity led to genetic accommodation, when costs were negligible, and to the appearance of cryptic variation when limits were exceeded. We found that adaptive plasticity promoted population persistence under red environmental noise and was particularly important for life histories with low fecundity. Populations produing more offspring could cope with environmental fluctuations solely by genetic changes or random plasticity, unless environmental change was too fast.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1170 
KW  - developmental canalization
KW  - environmental change
KW  - genetic accommodation
KW  - Individual-based models
KW  - limits
KW  - many-to-one genotype–phenotype map
KW  - noise color
KW  - phenotypic plasticity
KW  - reaction norms
KW  - stochastic fluctuations
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-523201
SN  - 1866-8372
IS  - 1170
ER  - 
TY  - GEN
A1  - Cahsan, Binia De
A1  - Westbury, Michael V.
A1  - Paraskevopoulou, Sofia
A1  - Drews, Hauke
A1  - Ott, Moritz
A1  - Gollmann, Günter
A1  - Tiedemann, Ralph
T1  - Genomic consequences of human-mediated translocations in margin populations of an endangered amphibian
T2  - Postprints der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Due to their isolated and often fragmented nature, range margin populations are especially vulnerable to rapid environmental change. To maintain genetic diversity and adaptive potential, gene flow from disjunct populations might therefore be crucial to their survival. Translocations are often proposed as a mitigation strategy to increase genetic diversity in threatened populations. However, this also includes the risk of losing locally adapted alleles through genetic swamping. Human-mediated translocations of southern lineage specimens into northern German populations of the endangered European fire-bellied toad (Bombina bombina) provide an unexpected experimental set-up to test the genetic consequences of an intraspecific introgression from central population individuals into populations at the species range margin. Here, we utilize complete mitochondrial genomes and transcriptome nuclear data to reveal the full genetic extent of this translocation and the consequences it may have for these populations. We uncover signs of introgression in four out of the five northern populations investigated, including a number of introgressed alleles ubiquitous in all recipient populations, suggesting a possible adaptive advantage. Introgressed alleles dominate at the MTCH2 locus, associated with obesity/fat tissue in humans, and the DSP locus, essential for the proper development of epidermal skin in amphibians. Furthermore, we found loci where local alleles were retained in the introgressed populations, suggesting their relevance for local adaptation. Finally, comparisons of genetic diversity between introgressed and nonintrogressed northern German populations revealed an increase in genetic diversity in all German individuals belonging to introgressed populations, supporting the idea of a beneficial transfer of genetic variation from Austria into North Germany.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1168 
KW  - adaptive introgression
KW  - admixture
KW  - Bombina bombina
KW  - genetic rescue
KW  - mitogenomes
KW  - transcriptomics
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-523140
SN  - 1866-8372
IS  - 6
ER  - 
TY  - THES
A1  - Borghi, Gian Luca
T1  - Evolution and diversity of photosynthetic metabolism in C3, C3-C4 intermediate and C4 plants
T1  - Evolution und Diversität des photosynthetischen Stoffwechsels in C3-, C3-C4-Intermediär- und C4-Pflanzen
N2  - In C3 plants, CO2 diffuses into the leaf and is assimilated by the Calvin-Benson cycle in the mesophyll cells. It leaves Rubisco open to its side reaction with O2, resulting in a wasteful cycle known as photorespiration. A sharp fall in atmospheric CO2 levels about 30 million years ago have further increased the side reaction with O2. The pressure to reduce photorespiration led, in over 60 plant genera, to the evolution of a CO2-concentrating mechanism called C4 photosynthesis; in this mode, CO2 is initially incorporated into 4-carbon organic acids, which diffuse to the bundle sheath and are decarboxylated to provide CO2 to Rubisco. Some genera, like Flaveria, contain several species that represent different steps in this complex evolutionary process. However, the majority of terrestrial plant species did not evolve a CO2-concentrating mechanism and perform C3 photosynthesis.
This thesis compares photosynthetic metabolism in several species with C3, C4 and intermediate modes of photosynthesis. Metabolite profiling and stable isotope labelling were performed to detect inter-specific differences changes in metabolite profile and, hence, how a pathway operates. The results obtained were subjected to integrative data analyses like hierarchical clustering and principal component analysis, and were deepened by correlation analyses to uncover specific metabolic features and reaction steps that were conserved or differed between species.
The main findings are that Calvin-Benson cycle metabolite profiles differ between C3 and C4 species and between different C3 species, including a very different response to rising irradiance in Arabidopsis and rice. These findings confirm Calvin-Benson cycle operation diverged between C3 and C4 species and, most unexpectedly, even between different C3 species. Moreover, primary metabolic profiles supported the current C4 evolutionary model in the genus Flaveria and also provided new insights and opened up new questions. Metabolite profiles also point toward a progressive adjustment of the Calvin-Benson cycle during the evolution of C4 photosynthesis. Overall, this thesis point out the importance of a metabolite-centric approach to uncover underlying differences in species apparently sharing the same photosynthetic routes and as a valid method to investigate evolutionary transition between C3 and C4 photosynthesis.
N2  - Bei C3-Pflanzen diffundiert CO2 in das Blatt und wird durch den Calvin-Benson-Zyklus in den Mesophyllzellen assimiliert. Dies lässt Rubisco für seine Nebenreaktion mit O2 offen, was zu einem verschwenderischen Kreislauf führt, der als Photorespiration bekannt ist. Ein starker Rückgang der atmosphärischen CO2-Konzentration vor etwa 30 Millionen Jahren hat die Nebenreaktion mit O2 weiter verstärkt. Der Druck, die Photorespiration zu reduzieren, hat in über 60 Pflanzengattungen zur Entwicklung eines CO2-Konzentrationsmechanismus namens C4-Photosynthese geführt. In diesem Mechanismus wird CO2 zunächst in organische C4-Kohlenstoffsäuren eingebaut, die zur Bündelscheide diffundieren und dort decarboxyliert werden, um CO2 für Rubisco bereitzustellen. Einige Gattungen, wie z.B. Flaveria, enthalten mehrere Arten, die verschiedene Schritte dieses komplexen Evolutionsprozesses darstellen. Die Mehrheit der terrestrischen Pflanzenarten hat jedoch keinen CO2-Konzentrationsmechanismus entwickelt und betreibt C3-Photosynthese.
Diese Arbeit vergleicht den Photosynthese-Metabolismus in mehreren Spezies mit C3-, C4- und intermediären Arten der Photosynthese. Metaboliten-Profiling und stabile Isotopenmarkierung wurden durchgeführt, um interspezifische Unterschiede im Metabolitenprofil und damit die Funktionsweise der Stoffwechselwege zu erkennen. Die Ergebnisse wurden integrativen Datenanalysen wie hierarchischem Clustering und Hauptkomponentenanalyse unterzogen und durch Korrelationsanalysen vertieft, um spezifische metabolische Merkmale und Reaktionsschritte aufzudecken, die konserviert oder zwischen Spezies verschieden sind.
Die wichtigsten Ergebnisse sind, dass sich die Metabolitenprofile des Calvin-Benson-Zyklus zwischen C3- und C4-Spezies und zwischen verschiedenen C3-Spezies unterscheiden, einschließlich einer sehr unterschiedlichen Reaktion auf steigende Strahlungsintensität bei Arabidopsis und Reis. Diese Ergebnisse bestätigen, dass der Calvin-Benson-Zyklus zwischen C3- und C4-Spezies und, höchst unerwartet, sogar zwischen verschiedenen C3-Spezies divergiert. Darüber hinaus unterstützen die primären Stoffwechselprofile das aktuelle C4-Evolutionsmodell in der Gattung Flaveria, liefern auch neue Erkenntnisse und eröffnen neue Fragen. Die Metabolitenprofile weisen auch auf eine fortschreitende Anpassung des Calvin-Benson-Zyklus während der Evolution der C4-Photosynthese hin. Insgesamt unterstreicht diese Dissertation die Bedeutung eines metabolitenzentrierten Ansatzes, um Unterschiede in Arten aufzudecken, die anscheinend dieselben Photosynthesewege teilen, und als valide Methode zur Untersuchung des evolutionären Übergangs zwischen C3- und C4-Photosynthese.
KW  - Photosynthesis
KW  - C4
KW  - Evolution
KW  - Photosynthese
KW  - C4
KW  - Evolution
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-522200
ER  - 
TY  - THES
A1  - Krumbholz, Julia
T1  - Identification of chemical mediators that regulate the specialized metabolism in Nostoc punctiforme
T1  - Identifizierung chemischer Mediatoren, die den spezialisierten Metabolismus in Nostoc punctiforme regulieren
N2  - Specialized metabolites, so-called natural products, are produced by a variety of different organisms, including bacteria and fungi. Due to their wide range of different biological activities, including pharmaceutical relevant properties, microbial natural products are an important source for drug development. They are encoded by biosynthetic gene clusters (BGCs), which are a group of locally clustered genes. By screening genomic data for genes encoding typical core biosynthetic enzymes, modern bioinformatical approaches are able to predict a wide range of BGCs. To date, only a small fraction of the predicted BGCs have their associated products identified.

The phylum of the cyanobacteria has been shown to be a prolific, but largely untapped source for natural products. Especially multicellular cyanobacterial genera, like Nostoc, harbor a high amount of BGCs in their genomes.
A main goal of this study was to develop new concepts for the discovery of natural products in cyanobacteria. Due to its diverse setup of orphan BGCs and its amenability to genetic manipulation, Nostoc punctiforme PCC 73102 (N. punctiforme) appeared to be a promising candidate to be established as a model organism for natural product discovery in cyanobacteria. By utilizing a combination of genome-mining, bioactivity-screening, variations of culture conditions, as well as metabolic engineering, not only two new polyketides were discovered, but also first-time insights into the regulation of the specialized metabolism in N. punctiforme were gained during this study.

The cultivation of N. punctiforme to very high densities by utilizing increasing light intensities and CO2 levels, led to an enhanced metabolite production, causing rather complex metabolite extracts. By utilizing a library of CFP reporter mutant strains, each strain reporting for one of the predicted BGCs, it was shown that eight out of 15 BGCs were upregulated under high density (HD) cultivation conditions. Furthermore, it could be demonstrated that the supernatant of an HD culture can increase the expression of four of the influenced BGCs, even under conventional cultivation conditions. This led to the hypothesis that a chemical mediator encoded by one of the affected BGCs is accumulating in the HD supernatant and is able to increase the expression of other BGCs as part of a cell-density dependent regulatory circuit. To identify which of the BGCs could be a main trigger of the presumed regulatory circuit, it was tried to activate four BGCs (pks1, pks2, ripp3, ripp4) selectively by overexpression of putative pathway-specific regulatory genes that were found inside the gene clusters. Transcriptional analysis of the mutants revealed that only the mutant strain targeting the pks1 BGC, called AraC_PKS1, was able to upregulate the expression of its associated BGC. From an RNA sequencing study of the AraC_PKS1 mutant strain, it was discovered that beside pks1, the orphan BGCs ripp3 and ripp4 were also upregulated in the mutant strain. Furthermore, it was observed that secondary metabolite production in the AraC_PKS1 mutant strain is further enhanced under high-light and high-CO2 cultivation conditions. The increased production of the pks1 regulator NvlA also had an impact on other regulatory factors, including sigma factors and the RNA chaperone Hfq. Analysis of the AraC_PKS1 cell and supernatant extracts led to the discovery of two novel polyketides, nostoclide and nostovalerolactone, both encoded by the pks1 BGC. Addition of the polyketides to N. punctiforme WT demonstrated that the pks1-derived compounds are able to partly reproduce the effects on secondary metabolite production found in the AraC_PKS1 mutant strain. This indicates that both compounds are acting as extracellular signaling factors as part of a regulatory network. Since not all transcriptional effects that were found in the AraC_PKS1 mutant strain could be reproduced by the pks1 products, it can be assumed that the regulator NvlA has a global effect and is not exclusively specific to the pks1 pathway.

This study was the first to use a putative pathway specific regulator for the specific activation of BGC expression in cyanobacteria. This strategy did not only lead to the detection of two novel polyketides, it also gave first-time insights into the regulatory mechanism of the specialized metabolism in N. punctiforme. This study illustrates that understanding regulatory pathways can aid in the discovery of novel natural products. The findings of this study can guide the design of new screening strategies for bioactive compounds in cyanobacteria and help to develop high-titer production platforms for cyanobacterial natural products.
N2  - Sekundärmetabolite, auch Naturstoffe genannt, werden von einer Vielzahl an Organismen, darunter Bakterien und Pilzen, hergestellt. Aufgrund ihrer Vielzahl an verschiedenen Bioaktivitäten, einschließlich pharmakologisch relevanter Wirkungen, sind mikrobielle Naturstoffe eine wichtige Grundlage für die Arzneimittelentwicklung. Naturstoffe werden durch eine Ansammlung lokal gruppierter Gene, sogenannten Biosynthese-Genclustern (BGC), im Genom kodiert. Moderne bioinformatische Methoden durchsuchen Genom-Daten nach Genen, die typische biosynthetische Enzyme kodieren. Auf Grundlage dessen können verschiedenste BGCs vorhergesagt werden. Bislang konnte allerdings nur für einen kleinen Teil der vorhergesagten BGCs das dazugehörige Produkt identifiziert und charakterisiert werden.

Cyanobakterien sind nachweislich eine reichhaltige, aber weitestgehend unerschlossene Quelle für Naturstoffe. Insbesondere mehrzellige Gattungen, wie Nostoc, tragen eine Vielzahl an BGCs in ihren Genomen.
Ein Hauptziel dieser Studie war es, neue Konzepte für die Entdeckungen von Naturstoffen in Cyanobakterien zu entwickeln. Nostoc punctiforme PCC 73102 (N. punctiforme) erwies sich als besonders geeigneter Stamm für diese Aufgabe, da er eine Vielzahl weitestgehend ununtersuchter Gencluster besitzt und zugänglich für genetische Modifikationen ist. Eine Kombination aus Genome Mining, Bioaktivitäts-Screening, verschiedenen Kultivierungsbedingungen und Metabolic Engineering führte zur Entdeckung zweier neuer Polyketide und gewährte im Verlauf der Studie erstmals Einblicke in den spezialisierten Metabolismus von N. punctiforme.

Die Kultivierung von N. punctiforme in sehr hohen Zelldichten, ermöglicht durch sehr hohe Lichtintensitäten und erhöhte CO2-Verfügbarkeit, führte zu einer verstärkten Metabolitproduktion und komplexen Metabolitextrakten. Unter Verwendung einer Bibliothek von CFP-Reportermutanten, bei der jede Mutante eines der vorhergesagten BGCs repräsentiert, konnte gezeigt werden, dass 8 von 15 BGCs unter Hochzelldichte-Kultivierungsbedingungen hochreguliert wurden. Zudem zeigte sich, dass der Überstand einer dichten Kultur, auch unter konventionellen Kultivierungsbedingungen, vier der regulierten BGCs beeinflussen kann. Dies lässt vermuten, dass sich unter Hochzelldichte-Kultivierungsbedingungen ein chemischer Mediator, welcher von einem der beeinflussten BGCs produziert wird, im Überstand anhäuft und die Expression anderer BGCs als Teil eines zelldichte-abhängigen Regelkreises kontrollieren kann. Um herauszufinden, welches der BGCs ein Hauptauslöser des vermuteten Regelkreises sein könnte, wurde versucht die Expression von vier BGCs (pks1, pks2, ripp3, ripp4) mittels Überexpression von potentiell biosynthese-spezifischen regulatorischen Genen zu aktivieren. Eine transkriptionelle Analyse der Mutanten ergab, dass nur der Stamm, welcher das pks1 BGC aktivieren sollte (AraC_PKS1), einen positiven Effekt auf die Expression des zu erwartenden BGCs hatte. Eine RNA-Sequenzierungsstudie ergab, dass in der AraC_PKS1 Mutante neben dem pks1 BGC auch die kryptischen BGCs ripp3 und ripp4 eine erhöhte Transkription aufwiesen. Zudem wurde beobachtet, dass sich die Sekundärmetabolitproduktion in der Mutante durch Kultivierung unter erhöhten Licht-Intensitäten und CO2-Leveln erweitern lässt. Unabhängig von den Kultivierungsbedingungen, hat die erhöhte Produktion des pks1 Regulators NvlA in der Mutante einen Einfluss auf andere regulatorische Faktoren, wie Sigma-Faktoren und das RNA-Chaperon Hfq. Die Analyse des Zell- und Überstandsextrakts der AraC_PKS1 Mutante führte zur Entdeckung zweier neuer Polyketide, Nostoclid und Nostovalerolacton, welche beide vom pks1 BGC codiert werden. Die Zugabe dieser Polyketide zum N. punctiforme Wildtyp zeigte, dass diese in der Lage sind einen Teil der Sekundärmetabolit-Effekte der AraC_PKS1 Mutante zu reproduzieren. Dies lässt darauf schließen, dass beide Polyketide als Signalstoffe innerhalb eines regulatorischen Netzwerks agieren. Da nicht alle transkriptionellen Effekte der AraC_PKS1 Mutante durch die Zugabe der pks1 Produkte reproduziert werden konnten, ist anzunehmen, dass der Regulator NvlA einen globalen Effekt hat und nicht ausschließlich die pks1 Biosynthese reguliert.

Diese Studie war die erste, welche einen potentiell biosynthese-spezifischen Regulator für die gezielte Aktivierung von BGC-Expression in Cyanobakterien verwendet hat. Diese Strategie führte neben der Entdeckung zweier neuer Polyketide, zu ersten Einblicken in den regulatorischen Mechanismus, der den spezialisierten Metabolismus in N. punctiforme kontrolliert. Diese Studie veranschaulicht, dass das Verstehen regulatorischer Mechanismen für die Entdeckung neuer Naturstoffe hilfreich sein kann. Die Studien-Ergebnisse können die Entwicklung neuer Screening-Strategien für bioaktive Metabolite in Cyanobakterien anregen und können dabei helfen Hochtiter-Produktionsplattformen für cyanobakterielle Naturstoffe zu entwickeln.
KW  - cyanobacteria
KW  - natural products
KW  - specialized metabolites
KW  - gene cluster activation
KW  - Nostoc punctiforme
KW  - Cyanobakterien
KW  - Sekundärmetabolite
KW  - Naturstoffe
KW  - Gencluster-Aktivierung
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-540240
ER  - 
TY  - THES
A1  - Hasnat, Muhammad Abrar
T1  - A-Type Carrier Proteins are involved in [4Fe-4S] Cluster insertion into the Radical S-adenosylmethionine (SAM) Protein MoaA and other molybdoenzymes
N2  - Iron-sulfur clusters are essential enzyme cofactors. The most common and stable clusters are [2Fe-2S] and [4Fe-4S] that are found in nature. They are involved in crucial biological processes like respiration, gene regulation, protein translation, replication and DNA repair in prokaryotes and eukaryotes. In Escherichia coli, Fe-S clusters are essential for molybdenum cofactor (Moco) biosynthesis, which is a ubiquitous and highly conserved pathway. The first step of Moco biosynthesis is catalyzed by the MoaA protein to produce cyclic pyranopterin monophosphate (cPMP) from 5’GTP. MoaA is a [4Fe-4S] cluster containing radical S-adenosyl-L-methionine (SAM) enzyme. The focus of this study was to investigate Fe-S cluster insertion into MoaA under nitrate and TMAO respiratory conditions using E. coli as a model organism. Nitrate and TMAO respiration usually occur under anaerobic conditions, where oxygen is depleted. Under these conditions, E. coli uses nitrate and TMAO as terminal electron. Previous studies revealed that Fe-S cluster insertion is performed by Fe-S cluster carrier proteins. In E. coli, these proteins are known as A-type carrier proteins (ATC) by phylogenomic and genetic studies. So far, three of them have been characterized in detail in E. coli, namely IscA, SufA, and ErpA. This study shows that ErpA and IscA are involved in Fe-S cluster insertion into MoaA under nitrate and TMAO respiratory conditions. ErpA and IscA can partially replace each other in their role to provide [4Fe-4S] clusters for MoaA. SufA is not able to replace the functions of IscA or ErpA under nitrate respiratory conditions.
Nitrate reductase is a molybdoenzyme that coordinates Moco and Fe-S clusters. Under nitrate respiratory conditions, the expression of nitrate reductase is significantly increased in E. coli. Nitrate reductase is encoded in narGHJI genes, the expression of which is regulated by the transcriptional regulator, fumarate and nitrate reduction (FNR). The activation of FNR under conditions of nitrate respiration requires one [4Fe-4S] cluster. In this part of the study, we analyzed the insertion of Fe-S cluster into FNR for the expression of narGHJI genes in E. coli. The results indicate that ErpA is essential for the FNR-dependent expression of the narGHJI genes, a role that can be replaced partially by IscA and SufA when they are produced sufficiently under the conditions tested. This observation suggests that ErpA is indirectly regulating nitrate reductase expression via inserting Fe-S clusters into FNR.
Most molybdoenzymes are complex multi-subunit and multi-cofactor-containing enzymes that coordinate Fe-S clusters, which are functioning as electron transfer chains for catalysis. In E. coli, periplasmic aldehyde oxidoreductase (PaoAC) is a heterotrimeric molybdoenzyme that
consists of flavin, two [2Fe-2S], one [4Fe-4S] cluster and Moco. In the last part of this study, we investigated the insertion of Fe-S clusters into E. coli periplasmic aldehyde oxidoreductase (PaoAC). The results show that SufA and ErpA are involved in inserting [4Fe-4S] and [2Fe-2S] clusters into PaoABC, respectively under aerobic respiratory conditions.
KW  - enzyme
KW  - gene
KW  - iron sulfur clusters
KW  - Enzyme
KW  - Gen
KW  - Eisen-Schwefel-Cluster
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-530791
ER  - 
TY  - THES
A1  - Dahmani, Ismail
T1  - Influenza A virus matrix protein M1
T1  - Influenza-A-Virus-Matrixprotein M1
BT  - structural determinants of membrane binding and protein- induced deformation
BT  - strukturelle Determinanten der Membranbindung und protein-induzierte Deformation
N2  - Influenza A virus (IAV) is a pathogen responsible for severe seasonal epidemics threatening human and animal populations every year. During the viral assembly process in the infected cells, the plasma membrane (PM) has to bend in localized regions into a vesicle towards the extracellular side. Studies in cellular models have proposed that different viral proteins might be responsible for inducing membrane curvature in this context (including M1), but a clear consensus has not been reached. M1 is the most abundant protein in IAV particles. It plays an important role in virus assembly and budding at the PM. M1 is recruited to the host cell membrane where it associates with lipids and other viral proteins. However, the details of M1 interactions with the cellular PM, as well as M1-mediated membrane bending at the budozone, have not been clarified.
In this work, we used several experimental approaches to analyze M1-lipids and M1-M1 interactions. By performing SPR analysis, we quantified membrane association for full-length M1 and different genetically engineered M1 constructs (i.e., N- and C-terminally truncated constructs and a mutant of the polybasic region). This allowed us to obtain novel information on the protein regions mediating M1 binding to membranes. By using fluorescence microscopy, cryogenic transmission electron microscopy (cryo-TEM), and three-dimensional (3D) tomography (cryo-ET), we showed that M1 is indeed able to cause membrane deformation on vesicles containing negatively-charged lipids, in the absence of other viral components. Further, sFCS analysis proved that simple protein binding is not sufficient to induce membrane restructuring. Rather, it appears that stable M1-M1 interactions and multimer formation are required to alter the bilayer three-dimensional structure through the formation of a protein scaffold.
Finally, to mimic the budding mechanism in cells that arise by the lateral organization of the virus membrane components on lipid raft domains, we created vesicles with lipid domains. Our results showed that local binding of M1 to spatial confined acidic lipids within membrane domains of vesicles led to local M1 inward curvature.
N2  - Das Influenza-A-Virus (IAV) ist ein Erreger, der für schwere saisonale Epidemien verantwortlich ist, die jedes Jahr Menschen und Tiere bedrohen. Während des viralen Assemblierungsprozesses in den infizierten Zellen muss sich die Plasmamembran (PM) an bestimmten Stellen zu einem Vesikel zur extrazellulären Seite biegen. Studien an zellulären Modellen haben ergeben, dass verschiedene virale Proteine (einschließlich M1) für die Induktion der Membrankrümmung in diesem Zusammenhang verantwortlich sein könnten, ein eindeutiger Konsens wurde jedoch nicht erreicht.

M1 ist das am häufigsten vorkommende Protein in IAV-Partikeln. Es spielt eine wichtige Rolle bei der Virusassemblierung und Knospung. M1 wird zur Wirtszellmembran rekrutiert, wo es sich mit Lipiden und anderen viralen Proteinen assoziiert. Die Einzelheiten der Interaktionen von M1 mit der zellulären PM sowie die M1-vermittelte Membranverbiegung am Ort der Virusfreisetzung sind jedoch noch nicht geklärt.

In dieser Arbeit wurden mehrere experimentelle Ansätze zur Analyse von M1-Lipiden und M1-M1 Wechselwirkungen untersucht. Mittels SPR-Analyse wurde die Membranassoziation für M1 in voller Länge und verschiedene gentechnisch veränderte M1-Konstrukte (d. h. N- und C-terminal verkürzte Konstrukte und eine Mutante der polybasischen Region) quantifiziert; so konnten neue Erkenntnisse über die Proteinregionen, die die Bindung von M1 an Membranen steuern, gewonnen werden. Mit Hilfe der Fluoreszenzmikroskopie, kryogener Transmissionselektronenmikroskopie (cryo-TEM) und dreidimensionaler (3D) Tomographie (cryo-ET) konnten wir zeigen, dass M1 tatsächlich in der Lage ist, die Membran von Vesikeln, die negativ geladene Lipide enthalten, zu deformieren (und zwar ohne andere virale Komponenten). Außerdem bewies die sFCS-Analyse, dass eine einfache Proteinbindung nicht ausreicht, um eine Umstrukturierung der Membran zu bewirken. Vielmehr scheint es, dass stabile M1-M1-Wechselwirkungen und die Bildung von Multimeren erforderlich sind, um die dreidimensionale Struktur der Doppelschicht Struktur durch die Bildung eines Proteingerüsts zu verändern.

Um schließlich den Knospungsmechanismus zu imitieren, der durch die laterale Organisation der Virusmembrankomponenten auf Lipid-Raft-Domänen entsteht, haben wir Vesikel mit Lipiddomänen erzeugt. Unsere Ergebnisse zeigten, dass die lokale Bindung von M1 an räumlich begrenzte saure Lipide innerhalb der Membrandomänen der Vesikel zu einer lokalen Krümmung von M1 nach innen führt.
KW  - Influenza A virus
KW  - Influenza
KW  - Pathogen
KW  - Lipids
KW  - Epidemic
KW  - Epidemics
KW  - Plasma membrane
KW  - Viral assembly
KW  - Virus
KW  - Vesicle
KW  - Giant Vesicles
KW  - Budozone
KW  - M1-M1 interaction
KW  - Virion
KW  - Membrane deformation
KW  - IAV particles
KW  - membrane binding
KW  - M1-lipids
KW  - protein binding
KW  - GUV
KW  - Giant unilamellar vesicles
KW  - Budozone
KW  - Epidemie
KW  - Epidemien
KW  - GUV
KW  - Riesenvesikel
KW  - riesige unilamellare Vesikel
KW  - IAV-Partikel
KW  - Influenza
KW  - Influenza-A-Virus
KW  - Lipide
KW  - M1-M1-Interaktion
KW  - M1-Lipide
KW  - Membrandeformation
KW  - Pathogen
KW  - Plasmamembran
KW  - Vesikel
KW  - Virusassemblierung, Virion
KW  - Virus
KW  - Membranbindung
KW  - Proteinbindung
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-527409
ER  - 
TY  - GEN
A1  - Münch, Juliane
A1  - Abdelilah-Seyfried, Salim
T1  - Sensing and Responding of Cardiomyocytes to Changes of Tissue Stiffness in the Diseased Heart
T2  - Postprints der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Cardiomyocytes are permanently exposed to mechanical stimulation due to cardiac contractility. Passive myocardial stiffness is a crucial factor, which defines the physiological ventricular compliance and volume of diastolic filling with blood. Heart diseases often present with increased myocardial stiffness, for instance when fibrotic changes modify the composition of the cardiac extracellular matrix (ECM). Consequently, the ventricle loses its compliance, and the diastolic blood volume is reduced. Recent advances in the field of cardiac mechanobiology revealed that disease-related environmental stiffness changes cause severe alterations in cardiomyocyte cellular behavior and function. Here, we review the molecular mechanotransduction pathways that enable cardiomyocytes to sense stiffness changes and translate those into an altered gene expression. We will also summarize current knowledge about when myocardial stiffness increases in the diseased heart. Sophisticated in vitro studies revealed functional changes, when cardiomyocytes faced a stiffer matrix. Finally, we will highlight recent studies that described modulations of cardiac stiffness and thus myocardial performance in vivo. Mechanobiology research is just at the cusp of systematic investigations related to mechanical changes in the diseased heart but what is known already makes way for new therapeutic approaches in regenerative biology.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1234 
KW  - mechanobiology
KW  - tissue stiffness
KW  - cardiomyocyte
KW  - heart regeneration
KW  - titin
KW  - collagen
KW  - agrin
KW  - extracellular matrix
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-545805
SN  - 1866-8372
ER  - 
TY  - JOUR
A1  - Flöder, Sabine
A1  - Yong, Joanne
A1  - Klauschies, Toni
A1  - Gaedke, Ursula
A1  - Poprick, Tobias
A1  - Brinkhoff, Thorsten
A1  - Moorthi, Stefanie
T1  - Intraspecific trait variation alters the outcome of competition in freshwater ciliates
JF  - Ecology and evolution
N2  - Trait variation among heterospecific and conspecific organisms may substantially affect community and food web dynamics. While the relevance of competition and feeding traits have been widely studied for different consumer species, studies on intraspecific differences are more scarce, partly owing to difficulties in distinguishing different clones of the same species. Here, we investigate how intraspecific trait variation affects the competition between the freshwater ciliates Euplotes octocarinatus and Coleps hirtus in a nitrogen-limited chemostat system. The ciliates competed for the microalgae Cryptomonas sp. (Cry) and Navicula pelliculosa (Nav), and the bacteria present in the cultures over a period of 33 days. We used monoclonal Euplotes and three different Coleps clones (Col 1, Col 2, and Col 3) in the experiment that could be distinguished by a newly developed rDNA-based molecular assay based on the internal transcribed spacer (ITS) regions. While Euplotes feeds on Cry and on bacteria, the Coleps clones cannot survive on bacteria alone but feed on both Cry and Nav with clone-specific rates. Experimental treatments comprised two-species mixtures of Euplotes and one or all of the three different Coleps clones, respectively. We found intraspecific variation in the traits "selectivity" and "maximum ingestion rate" for the different algae to significantly affect the competitive outcome between the two ciliate species. As Nav quickly escaped top-down control and likely reached a state of low food quality, ciliate competition was strongly determined by the preference of different Coleps clones for Cry as opposed to feeding on Nav. In addition, the ability of Euplotes to use bacteria as an alternative food source strengthened its persistence once Cry was depleted. Hence, trait variation at both trophic levels codetermined the population dynamics and the outcome of species competition.
KW  - ciliate predators
KW  - intraspecific trait variation
KW  - microalgal resource
KW  - predator trait variation
KW  - predator-prey systems
KW  - resource competition
Y1  - 2021
U6  - https://doi.org/10.1002/ece3.7828
SN  - 2045-7758
VL  - 11
IS  - 15
SP  - 10225
EP  - 10243
PB  - Wiley
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Baunach, Martin
A1  - Chowdhury, Somak
A1  - Stallforth, Pierre
A1  - Dittmann-Thünemann, Elke
T1  - The landscape of recombination events that create nonribosomal peptide diversity
JF  - Molecular biology and evolution : MBE
N2  - Nonribosomal peptides (NRP) are crucial molecular mediators in microbial ecology and provide indispensable drugs. Nevertheless, the evolution of the flexible biosynthetic machineries that correlates with the stunning structural diversity of NRPs is poorly understood. Here, we show that recombination is a key driver in the evolution of bacterial NRP synthetase (NRPS) genes across distant bacterial phyla, which has guided structural diversification in a plethora of NRP families by extensive mixing andmatching of biosynthesis genes. The systematic dissection of a large number of individual recombination events did not only unveil a striking plurality in the nature and origin of the exchange units but allowed the deduction of overarching principles that enable the efficient exchange of adenylation (A) domain substrates while keeping the functionality of the dynamic multienzyme complexes. In the majority of cases, recombination events have targeted variable portions of the A(core) domains, yet domain interfaces and the flexible A(sub) domain remained untapped. Our results strongly contradict the widespread assumption that adenylation and condensation (C) domains coevolve and significantly challenge the attributed role of C domains as stringent selectivity filter during NRP synthesis. Moreover, they teach valuable lessons on the choice of natural exchange units in the evolution of NRPS diversity, which may guide future engineering approaches.
KW  - evolution
KW  - recombination
KW  - structural diversity
KW  - natural products
KW  - nonribosomal peptide synthetases
KW  - microbial ecology
Y1  - 2021
U6  - https://doi.org/10.1093/molbev/msab015
SN  - 0737-4038
SN  - 1537-1719
VL  - 38
IS  - 5
SP  - 2116
EP  - 2130
PB  - Oxford Univ. Press
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Ruthsatz, Katharina
A1  - Scherz, Mark D.
A1  - Vences, Miguel
T1  - Dissecting the tree of life
BT  - the prospect of open-access digital resources in morphology, anatomy and taxonomy in training the next generation of zoologists
JF  - Zootaxa : an international journal of zootaxonomy ;
Y1  - 2021
U6  - https://doi.org/10.11646/zootaxa.5016.3.10
SN  - 1175-5326
SN  - 1175-5334
VL  - 5016
IS  - 3
SP  - 448
EP  - 450
PB  - Magnolia Press
CY  - Auckland
ER  - 
TY  - JOUR
A1  - Schneeberger, Karin
A1  - Eccard, Jana
T1  - Experience of social density during early life is associated with attraction to conspecific odour in the common vole (Microtus arvalis)
JF  - Ethology : international journal of behavioural biology
N2  - Social organisation in species with fluctuating population sizes can change with density. Therefore, information on (future) density obtained during early life stages may be associated with social behaviour. Olfactory cues may carry important social information. We investigated whether early life experience of different experimental densities was subsequently associated with differences in attraction to adult conspecific odours. We used common voles (Microtus arvalis), a rodent species undergoing extreme density fluctuations. We found that individuals originating from high experimental density populations kept in large outdoor enclosures invested more time in inspecting conspecific olfactory cues than individuals from low-density populations. Generally, voles from both treatments spent more time with the olfactory cues than expected by chance and did not differ in their latency to approach the odour samples. Our findings indicate either that early experience affects odour sensitivity or that animals evaluate the social information contained in conspecific odours differently, depending on their early life experience of conspecific density.
KW  - early experience
KW  - olfactory
KW  - population cycles
KW  - priming
KW  - rodents
Y1  - 2021
U6  - https://doi.org/10.1111/eth.13211
SN  - 0179-1613
SN  - 1439-0310
VL  - 127
IS  - 10
SP  - 908
EP  - 913
PB  - Wiley-Blackwell
CY  - Berlin
ER  - 
TY  - JOUR
A1  - Malchow, Anne-Kathleen
A1  - Bocedi, Greta
A1  - Palmer, Stephen C. F.
A1  - Travis, Justin M. J.
A1  - Zurell, Damaris
T1  - RangeShiftR: an R package for individual-based simulation of spatial eco-evolutionary dynamics and speciesu0027 responses to environmental changes
JF  - Ecography
N2  - Reliably modelling the demographic and distributional responses of a species to environmental changes can be crucial for successful conservation and management planning. Process-based models have the potential to achieve this goal, but so far they remain underused for predictions of species' distributions. Individual-based models offer the additional capability to model inter-individual variation and evolutionary dynamics and thus capture adaptive responses to environmental change. We present RangeShiftR, an R implementation of a flexible individual-based modelling platform which simulates eco-evolutionary dynamics in a spatially explicit way. The package provides flexible and fast simulations by making the software RangeShifter available for the widely used statistical programming platform R. The package features additional auxiliary functions to support model specification and analysis of results. We provide an outline of the package's functionality, describe the underlying model structure with its main components and present a short example. RangeShiftR offers substantial model complexity, especially for the demographic and dispersal processes. It comes with elaborate tutorials and comprehensive documentation to facilitate learning the software and provide help at all levels. As the core code is implemented in C++, the computations are fast. The complete source code is published under a public licence, making adaptations and contributions feasible. The RangeShiftR package facilitates the application of individual-based and mechanistic modelling to eco-evolutionary questions by operating a flexible and powerful simulation model from R. It allows effortless interoperation with existing packages to create streamlined workflows that can include data preparation, integrated model specification and results analysis. Moreover, the implementation in R strengthens the potential for coupling RangeShiftR with other models.
KW  - connectivity
KW  - conservation
KW  - dispersal
KW  - evolution
KW  - population dynamics
KW  - range dynamics
Y1  - 2021
SN  - 1600-0587
VL  - 44
IS  - 10
PB  - John Wiley & Sons, Inc.
CY  - New Jersey
ER  - 
TY  - GEN
A1  - Malchow, Anne-Kathleen
A1  - Bocedi, Greta
A1  - Palmer, Stephen C. F.
A1  - Travis, Justin M. J.
A1  - Zurell, Damaris
T1  - RangeShiftR: an R package for individual-based simulation of spatial eco-evolutionary dynamics and speciesu0027 responses to environmental changes
T2  - Postprints der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Reliably modelling the demographic and distributional responses of a species to environmental changes can be crucial for successful conservation and management planning. Process-based models have the potential to achieve this goal, but so far they remain underused for predictions of species' distributions. Individual-based models offer the additional capability to model inter-individual variation and evolutionary dynamics and thus capture adaptive responses to environmental change. We present RangeShiftR, an R implementation of a flexible individual-based modelling platform which simulates eco-evolutionary dynamics in a spatially explicit way. The package provides flexible and fast simulations by making the software RangeShifter available for the widely used statistical programming platform R. The package features additional auxiliary functions to support model specification and analysis of results. We provide an outline of the package's functionality, describe the underlying model structure with its main components and present a short example. RangeShiftR offers substantial model complexity, especially for the demographic and dispersal processes. It comes with elaborate tutorials and comprehensive documentation to facilitate learning the software and provide help at all levels. As the core code is implemented in C++, the computations are fast. The complete source code is published under a public licence, making adaptations and contributions feasible. The RangeShiftR package facilitates the application of individual-based and mechanistic modelling to eco-evolutionary questions by operating a flexible and powerful simulation model from R. It allows effortless interoperation with existing packages to create streamlined workflows that can include data preparation, integrated model specification and results analysis. Moreover, the implementation in R strengthens the potential for coupling RangeShiftR with other models.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1178 
KW  - connectivity
KW  - conservation
KW  - dispersal
KW  - evolution
KW  - population dynamics
KW  - range dynamics
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-523979
SN  - 1866-8372
IS  - 10
ER  - 
TY  - JOUR
A1  - Köker, Latife
A1  - Akçaalan, Reyhan
A1  - Dittmann, Elke
A1  - Albay, Meriç
T1  - Depth profiles of protein-bound microcystin in Küçükçekmece Lagoon
JF  - Toxicon : an international journal devoted to the exchange of knowledge on the poisons derived from the tissues of plants and animals ; official journal of the International Society on Toxinology
N2  - Microcystis is the most commonly found toxic cyanobacterial genus around the world and has a negative impact on the ecosystem. As a predominant producer of the potent hepatotoxin microcystin (MC), the genus causes outbreaks in freshwaters worldwide. Standard analytical methods that are used for the detection of microcystin variants can only measure the free form of microcystin in cells. Since microcystin was found as free and proteinbound forms in the cells, a significant proportion of microcystin is underestimated with analytical methods. The aim of the study was to measure protein-bound microcystins and determine the environmental factors that affect the binding of microcystin to proteins. Samples were taken at depths of surface, 1 m, 5 m, 10 m, 15 m, and 18 m in Kucukcekmece Lagoon to analyze depth profiles of two different microcystin forms from June to September 2012 at regular monthly intervals. Our findings suggest that the most important parameter affecting proteinbound microcystin at surface water is high light. Due to favorable environmental conditions such as temperature, light, and physicochemical parameters, the higher microcystin contents, both free and protein-bound MCs, were found in summer periods.
KW  - Microcystis
KW  - Microcystin
KW  - Protein-bound microcystin
KW  - Mcy gene
KW  - Kucukcekmece Lagoon
Y1  - 2021
U6  - https://doi.org/10.1016/j.toxicon.2021.05.005
SN  - 0041-0101
SN  - 1879-3150
VL  - 198
SP  - 156
EP  - 163
PB  - Elsevier
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Münch, Juliane
A1  - Abdelilah-Seyfried, Salim
T1  - Sensing and responding of cardiomyocytes to changes of tissue stiffness in the diseased heart
JF  - Frontiers in cell developmental biology
N2  - Cardiomyocytes are permanently exposed to mechanical stimulation due to cardiac contractility. Passive myocardial stiffness is a crucial factor, which defines the physiological ventricular compliance and volume of diastolic filling with blood. Heart diseases often present with increased myocardial stiffness, for instance when fibrotic changes modify the composition of the cardiac extracellular matrix (ECM). Consequently, the ventricle loses its compliance, and the diastolic blood volume is reduced. Recent advances in the field of cardiac mechanobiology revealed that disease-related environmental stiffness changes cause severe alterations in cardiomyocyte cellular behavior and function. Here, we review the molecular mechanotransduction pathways that enable cardiomyocytes to sense stiffness changes and translate those into an altered gene expression. We will also summarize current knowledge about when myocardial stiffness increases in the diseased heart. Sophisticated in vitro studies revealed functional changes, when cardiomyocytes faced a stiffer matrix. Finally, we will highlight recent studies that described modulations of cardiac stiffness and thus myocardial performance in vivo. Mechanobiology research is just at the cusp of systematic investigations related to mechanical changes in the diseased heart but what is known already makes way for new therapeutic approaches in regenerative biology.
KW  - mechanobiology
KW  - tissue stiffness
KW  - cardiomyocyte
KW  - heart regeneration
KW  - titin
KW  - collagen
KW  - agrin
KW  - extracellular matrix
Y1  - 2020
U6  - https://doi.org/10.3389/fcell.2021.642840
SN  - 2296-634X
VL  - 9
PB  - Frontiers Media
CY  - Lausanne
ER  -