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1. Higher order approximation of nonlinear SPDEs with additive space-time white noise

Author

Djurdjevac, Ana, Gerencsér, Máté, and Kremp, Helena

Subjects
Mathematics - Probability, 60H15, 60H35
Abstract

We consider strong approximations of $1+1$-dimensional stochastic PDEs driven by additive space-time white noise. It has been long proposed (Davie-Gaines '01, Jentzen-Kloeden '08), as well as observed in simulations, that approximation schemes based on samples from the stochastic convolution, rather than from increments of the underlying Wiener processes, should achieve significantly higher convergence rates with respect to the temporal timestep. The present paper proves this. For a large class of nonlinearities, with possibly superlinear growth, a temporal rate of (almost) $1$ is proven, a major improvement on the rate $1/4$ that is known to be optimal for schemes based on Wiener increments. The spatial rate remains (almost) $1/2$ as it is standard in the literature., Comment: 34 pages

Published
2024

2. Polarization-Resolved Transmission Matrices of Specialty Optical Fibers

Author

Lamb, Erin S., Kremp, Tristan, DiGiovanni, David J., and Westbrook, Paul S.

Subjects
Physics - Optics
Abstract

Transmission matrix measurements of multimode fibers are now routinely performed in numerous labs, enabling control of the electric field at the distal end of the fiber and paving the way for the potential application to ultrathin medical endoscopes with high resolution. However, the process of building an experimental setup and developing the supporting code to measure the fiber's transmission matrix remains challenging with full details on experimental design, data collection, and supporting algorithms spread over multiple papers or lacking in detail. Here, we outline a complete and self-contained description of the experiment we use to measure fully polarization-resolved transmission matrices. Our specific implementation of the full polarization experiment is new and is easy to align while providing flexibility to switch between full-polarization and scalar measurements if desired. We introduce a new method to measure and account for the phase and amplitude drift during the measurement using a Levenberg-Marquardt nonlinear fitting algorithm. Finally, we describe creating distal images through the multimode fiber using phase-to-amplitude shaping techniques to construct the correct input electric field and show that results are insensitive to this choice as quantified by measuring the contrast of a razor blade at the distal end of the fiber. Throughout the paper, we discuss applications of our setup and measurement process to a variety of specialty fibers, including fibers with harsh environment coatings, coreless fibers, rectangular core fibers, pedestal fibers, and a pump-signal combiner based on a tapered fiber bundle.

Published
2024

5. Periodic homogenization for singular L\'evy SDEs

Author

Kremp, Helena and Perkowski, Nicolas

Subjects
Mathematics - Probability, 35A21, 35B27, 60H10, 60G51, 60L40, 60K37
Abstract

We generalize the theory of periodic homogenization for multidimensional SDEs with additive Brownian and stable L\'evy noise for $\alpha\in (1,2)$ to the setting of singular periodic Besov drifts of regularity $\beta\in ((2-2\alpha)/3,0)$ beyond the Young regime. For the martingale solution from Kremp, Perkowski '22 projected onto the torus, we prove existence and uniqueness of an invariant probability measure with strictly positive Lebesgue density exploiting the theory of paracontrolled distributions and a strict maximum principle for the singular Fokker-Planck equation. Furthermore, we prove a spectral gap on the semigroup of the diffusion and solve the Poisson equation with singular right-hand side equal to the drift itself. In the CLT scaling, we prove that the diffusion converges in law to a Brownian motion with constant diffusion matrix. In the pure stable noise case, we rescale in the scaling that the stable process respects and show convergence to the stable process itself. We conclude on the periodic homogenization result for the singular parabolic PDE.

Published
2023

6. Rough weak solutions for singular L\'evy SDEs

Author

Kremp, Helena and Perkowski, Nicolas

Subjects
Mathematics - Probability, 60H10, 60G51, 60L20, 60L40, 60K37
Abstract

We introduce a weak solution concept (called "rough weak solutions") for singular SDEs with additive alpha-stable L\'evy noise (including the Brownian noise case) and prove its equivalence to martingale solutions from Kremp, Perkowski '22 in the Young and rough regularity regime. In the rough regime this leads to the construction of certain rough stochastic sewing integrals involved. For rough weak solutions, we can then prove a generalized It\^o formula. Furthermore, we show that canonical weak solutions are wellposed in the Young case (and equivalent to rough weak solutions), while ill-posed in the rough case. For the latter, we construct a counterexample for uniqueness in law.

Published
2023

7. Fractional Kolmogorov equations with singular paracontrolled terminal conditions

Author

Kremp, Helena and Perkowski, Nicolas

Subjects
Mathematics - Probability, Mathematics - Analysis of PDEs, 35A21, 60L40
Abstract

We consider backward fractional Kolmogorov equations with singular Besov drift of low regularity and singular terminal conditions. To treat drifts beyond the socalled Young regime, we assume an enhancement assumption on the drift and consider paracontrolled terminal conditions. Our work generalizes previous results on the equation from Cannizzaro, Chouk 2018 and Kremp, Perkowski 2022 to the case of singular paracontrolled terminal conditions and simultaneously treats singular and non-singular data in one concise solution theory. We introduce a paracontrolled solution space, that implies parabolic time and space regularity on the solution without introducing the socalled "modified paraproduct" from Gubinelli, Perkowski 2017. The tools developed in this article apply for general linear PDEs that can be tackled with the paracontrolled ansatz.

Published
2023

8. Weak error analysis for a nonlinear SPDE approximation of the Dean-Kawasaki equation

Author

Djurdjevac, Ana, Kremp, Helena, and Perkowski, Nicolas

Subjects
Mathematics - Probability, 60H17, 60H35
Abstract

We consider a nonlinear SPDE approximation of the Dean-Kawasaki equation for independent particles. Our approximation satisfies the physical constraints of the particle system, i.e. its solution is a probability measure for all times (preservation of positivity and mass conservation). Using a duality argument, we prove that the weak error between particle system and nonlinear SPDE is of the order $N^{-1-1/(d/2+1)}\log (N)$. Along the way we show well-posedness, a comparison principle and an entropy estimate for a class of nonlinear regularized Dean-Kawasaki equations with It\^o noise. Keywords: Dean-Kawasaki equation, weak error analysis, Laplace duality, Comment: 21 pages

Published
2022
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9. Simpson's Paradox in Recommender Fairness: Reconciling differences between per-user and aggregated evaluations

Author

Prost, Flavien, Packer, Ben, Chen, Jilin, Wei, Li, Kremp, Pierre, Blumm, Nicholas, Wang, Susan, Doshi, Tulsee, Osadebe, Tonia, Heldt, Lukasz, Chi, Ed H., and Beutel, Alex

Subjects
Computer Science - Information Retrieval, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

There has been a flurry of research in recent years on notions of fairness in ranking and recommender systems, particularly on how to evaluate if a recommender allocates exposure equally across groups of relevant items (also known as provider fairness). While this research has laid an important foundation, it gave rise to different approaches depending on whether relevant items are compared per-user/per-query or aggregated across users. Despite both being established and intuitive, we discover that these two notions can lead to opposite conclusions, a form of Simpson's Paradox. We reconcile these notions and show that the tension is due to differences in distributions of users where items are relevant, and break down the important factors of the user's recommendations. Based on this new understanding, practitioners might be interested in either notions, but might face challenges with the per-user metric due to partial observability of the relevance and user satisfaction, typical in real-world recommenders. We describe a technique based on distribution matching to estimate it in such a scenario. We demonstrate on simulated and real-world recommender data the effectiveness and usefulness of such an approach.

Published
2022

10. Rough homogenization for Langevin dynamics on fluctuating Helfrich surfaces

Author

Djurdjevac, Ana, Kremp, Helena, and Perkowski, Nicolas

Subjects
Mathematics - Probability, 35B27, 37A50, 60F05, 60H30, 60J55, 60L20
Abstract

In this paper, we study different scaling rough path limit regimes in space and time for the Langevin dynamics on a quasi-planar fluctuating Helfrich surfaces. The convergence results of the processes were already proven in the work by Duncan, Elliott, Pavliotis and Stuart (2015). We extend this work by proving the convergence of the It\^o and Stratonovich rough path lift. For the rough path limit, there appears, typically, an area correction term to the It\^o iterated integrals, and in certain regimes to the Stratonovich iterated integrals. This yields additional information on the homogenization limit and enables to conclude on homogenization results for diffusions driven by the Brownian motion on the membrane using the continuity of the It\^o-Lyons map in rough paths topology.

Published
2022

13. Quantitative real-time PCR assays for species-specific detection and quantification of Baltic Sea spring bloom dinoflagellates

Author

Annica Marie Brink, Anke Kremp, and Elena Gorokhova

Subjects
Baltic Sea, spring bloom, dinoflagellates, Apocalathium malmogiense, Biecheleria baltica, Gymnodinium corollarium, Microbiology, QR1-502
Abstract

In the Baltic Sea, the dinoflagellates Apocalathium malmogiense, Biecheleria baltica, and Gymnodinium corollarium are important contributors to the spring bloom. However, their relative contribution to the bloom community cannot be unambiguously determined by conventional light microscopy due to a lack of resolution of distinctive morphological features of the three species. Here, we describe a molecular approach based on a quantitative real-time polymerase chain reaction (qPCR) primer and probe system, targeting the ITS1 and ITS2 regions of the rRNA gene for all three species and enabling their quantification. The specificity of the method was demonstrated using monocultures of A. malmogiense, B. baltica, G. corollarium as well as three other dinoflagellate species co-occurring in the Baltic Sea during spring and validated using field-collected phytoplankton samples.

Published
2024
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14. Decoding the Baltic Sea’s past and present: A simple molecular index for ecosystem assessment

Author

Alexandra Schmidt, Juliane Romahn, Elinor Andrén, Anke Kremp, Jérôme Kaiser, Helge W. Arz, Olaf Dellwig, Miklós Bálint, and Laura S. Epp

Subjects
ddPCR, Biomonitoring phytoplankton, Metabarcoding, Dinoflagellate, Diatom, Sedimentary ancient DNA, Ecology, QH540-549.5
Abstract

Marginal sea ecosystems, such as the Baltic Sea, are severely affected by anthropogenic pressures, such as climate warming, pollution, and eutrophication, which increased in the course of the past century. Biodiversity monitoring data and assessment of environmental status in such systems have typically been carried out only for the past few decades, if at all, and knowledge on pre-impact stability and good ecological status is limited. An extension of monitoring time series can potentially be achieved through analyses of paleoecological records, e.g. for phytoplankton, which form the base of the food web and are highly susceptible to environmental changes. Within the phytoplankton community, dinoflagellates and diatoms play a significant role as primary producers, and their relative dominance in the spring bloom, calculated as Dia/Dino index, is used as an indicator for the environmental status of the Baltic Sea. To extend time series on the dominance patterns and include non-fossilized dinoflagellates, we here establish a simple droplet digital PCR (ddPCR) reaction on ancient DNA from sediment cores that decodes phytoplankton dynamics. We focus on two common spring bloom species, the diatom Skeletonema marinoi and the dinoflagellate Apocalathium malmogiense, for which we evaluate a DNA based dominance index. It performs very well in comparison to DNA metabarcoding and modern monitoring and can elucidate past species dominance across the past century and across millennia in different basins of the Baltic. For the past century, we see a dominance shift already starting before the mid-20th century in two of the Baltic Sea basins, thus substantially predating current monitoring programs. Shifts are only partly coeval among the cores and the index shows different degrees of stability. This pattern is confirmed across millennia, where a long-term stable relationship between the diatom and the dinoflagellate is observed in the Eastern Gotland Basin, while data from the Gulf of Finland bear testimony to a much more unstable relationship. This confirms that good ecological status based on the dominance pattern of diatoms and dinoflagellates must be established locally and exemplifies how sediment core DNA can be employed to extend monitoring data.

Published
2024
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15. Population genomic analyses reveal that salinity and geographic isolation drive diversification in a free-living protist

Author

Karin Rengefors, Nataliia Annenkova, Joel Wallenius, Marie Svensson, Anke Kremp, and Dag Ahrén

Subjects
Medicine, Science
Abstract

Abstract Protists make up the vast diversity of eukaryotic life and play a critical role in biogeochemical cycling and in food webs. Because of their small size, cryptic life cycles, and large population sizes, our understanding of speciation in these organisms is very limited. We performed population genomic analyses on 153 strains isolated from eight populations of the recently radiated dinoflagellate genus Apocalathium, to explore the drivers and mechanisms of speciation processes. Species of this genus inhabit both freshwater and saline habitats, lakes and seas, and are found in cold temperate environments across the world. RAD sequencing analyses revealed that the populations were overall highly differentiated, but morphological similarity was not congruent with genetic similarity. While geographic isolation was to some extent coupled to genetic distance, this pattern was not consistent. Instead, we found evidence that the environment, specifically salinity, is a major factor in driving ecological speciation in Apocalathium. While saline populations were unique in loci coupled to genes involved in osmoregulation, freshwater populations appear to lack these. Our study highlights that adaptation to freshwater through loss of osmoregulatory genes may be an important speciation mechanism in free-living aquatic protists.

Published
2024
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17. Glimpse of past dynamics: A new set of phytoplankton primers for sedaDNA

Author

Juliane Romahn, Damian Baranski, Alexandra Schmidt, Jérôme Kaiser, Helge Arz, Laura S. Epp, Anke Kremp, and Miklós Bálint

Subjects
cyanobacteria, dinoflagellate, metabarcoding, sedimentary ancient DNA, Environmental sciences, GE1-350, Microbial ecology, QR100-130
Abstract

Abstract Sedimentary ancient DNA (sedaDNA) offers an important opportunity for investigating long‐term community dynamics. Nevertheless, sedaDNA is challenging since DNA is degraded and fragmented over time. Of particular interest for such sedaDNA studies are phytoplankton communities, which are sensitive environmental indicators and important producers in aquatic systems. So far, only a few suitable metabarcoding primers for sedaDNA targeting phytoplankton exist. In this study, we introduce new metabarcoding primers targeting cyanobacteria and dinoflagellates. They amplify short, ~200‐bp ribosomal 16S and 18S DNA fragments. We compared these primers against published ones, uncovering distinct communities captured by different primer sets. The newly designed dinoflagellate and cyanobacterial primers revealed unique sets of amplicon sequence variants (ASVs) compared to published primers, highlighting the impact of primer choice on describing community composition. We also explored the effect of amplicon length on metabarcoding success over a sample age. Observed trends suggest that amplification success decreases with longer amplicons, probably as a result of DNA degradation in older sediment samples. Lastly, strong DNA preservation challenges emerged in sediment samples older than 7000 BP, corresponding with oxic phases of the Baltic Sea bottom water. This emphasizes the importance of age, sediment type, and preservation conditions when interpreting sedaDNA results. Despite limitations in temporal resolution, the study shows that sedaDNA‐based fluctuations in the phytoplankton community are consistent with well‐known environmental stages. More research is necessary to understand (1) DNA preservation and its impact on reconstructed communities and (2) impact of abiotic conditions on phytoplankton communities.

Published
2024
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18. Associations between various markers of intestinal barrier and immune function after a high‐intensity exercise challenge

Author

Maria Fernanda Roca Rubio, Mattias Folkesson, Carolin Kremp, Niklas Evertsson, Dirk Repsilber, Ulrika Eriksson, John‐Peter Ganda Mall, Fawzi Kadi, Robert J. Brummer, and Julia König

Subjects
gastrointestinal symptoms, high‐intensity exercise, intestinal barrier function, intestinal permeability, Physiology, QP1-981
Abstract

Abstract Strenuous exercise can result in disruption of intestinal barrier function and occurrence of gastrointestinal symptoms. The aim of this exploratory study was to elucidate systemic effects of increased intestinal permeability after high‐intensity exercise. Forty‐one endurance‐trained subjects performed a 60‐min treadmill run at 80% VO2max. Small intestinal permeability was measured as urinary excretion ratio of lactulose/rhamnose (L/R). Blood, saliva and feces were analyzed for gut barrier and immune‐related biomarkers. The exercise challenge increased several markers of intestinal barrier disruption, immune function and oxidative stress. We found a negative correlation between L/R ratio and uric acid (r = −0.480), as well as a positive correlation between the L/R ratio and fecal chromogranin A in male participants (r = 0.555). No significant correlations were found between any of the markers and gastrointestinal symptoms, however, perceived exertion correlated with the combination of IL‐6, IL‐10 and salivary cortisol (r = 0.492). The lack of correlation between intestinal permeability and gastrointestinal symptoms could be due to minor symptoms experienced in lab settings compared to real‐life competitions. The correlation between L/R ratio and uric acid might imply a barrier‐protective effect of uric acid, and inflammatory processes due to strenuous exercise seem to play an important role regarding physical exhaustion.

Published
2024
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19. Human distal airways contain a multipotent secretory cell that can regenerate alveoli

Author

Basil, Maria C, Cardenas-Diaz, Fabian L, Kathiriya, Jaymin J, Morley, Michael P, Carl, Justine, Brumwell, Alexis N, Katzen, Jeremy, Slovik, Katherine J, Babu, Apoorva, Zhou, Su, Kremp, Madison M, McCauley, Katherine B, Li, Shanru, Planer, Joseph D, Hussain, Shah S, Liu, Xiaoming, Windmueller, Rebecca, Ying, Yun, Stewart, Kathleen M, Oyster, Michelle, Christie, Jason D, Diamond, Joshua M, Engelhardt, John F, Cantu, Edward, Rowe, Steven M, Kotton, Darrell N, Chapman, Harold A, and Morrisey, Edward E

Subjects
Lung, Stem Cell Research, Stem Cell Research - Embryonic - Non-Human, Aetiology, 2.1 Biological and endogenous factors, Respiratory, Animals, Bronchioles, Cell Lineage, Ferrets, Humans, Mice, Multipotent Stem Cells, Pulmonary Alveoli, Pulmonary Disease, Chronic Obstructive, General Science & Technology
Abstract

The human lung differs substantially from its mouse counterpart, resulting in a distinct distal airway architecture affected by disease pathology in chronic obstructive pulmonary disease. In humans, the distal branches of the airway interweave with the alveolar gas-exchange niche, forming an anatomical structure known as the respiratory bronchioles. Owing to the lack of a counterpart in mouse, the cellular and molecular mechanisms that govern respiratory bronchioles in the human lung remain uncharacterized. Here we show that human respiratory bronchioles contain a unique secretory cell population that is distinct from cells in larger proximal airways. Organoid modelling reveals that these respiratory airway secretory (RAS) cells act as unidirectional progenitors for alveolar type 2 cells, which are essential for maintaining and regenerating the alveolar niche. RAS cell lineage differentiation into alveolar type 2 cells is regulated by Notch and Wnt signalling. In chronic obstructive pulmonary disease, RAS cells are altered transcriptionally, corresponding to abnormal alveolar type 2 cell states, which are associated with smoking exposure in both humans and ferrets. These data identify a distinct progenitor in a region of the human lung that is not found in mouse that has a critical role in maintaining the gas-exchange compartment and is altered in chronic lung disease.

Published
2022

20. Molecular architecture and electron transfer pathway of the Stn family transhydrogenase

Author

Anuj Kumar, Florian Kremp, Jennifer Roth, Sven A. Freibert, Volker Müller, and Jan M. Schuller

Subjects
Science
Abstract

Abstract The challenge of endergonic reduction of NADP+ using NADH is overcome by ferredoxin-dependent transhydrogenases that employ electron bifurcation for electron carrier adjustments in the ancient Wood-Ljungdahl pathway. Recently, an electron-bifurcating transhydrogenase with subunit compositions distinct from the well-characterized Nfn-type transhydrogenase was described: the Stn complex. Here, we present the single-particle cryo-EM structure of the Stn family transhydrogenase from the acetogenic bacterium Sporomusa ovata and functionally dissect its electron transfer pathway. Stn forms a tetramer consisting of functional heterotrimeric StnABC complexes. Our findings demonstrate that the StnAB subunits assume the structural and functional role of a bifurcating module, homologous to the HydBC core of the electron-bifurcating HydABC complex. Moreover, StnC contains a NuoG-like domain and a GltD-like NADPH binding domain that resembles the NfnB subunit of the NfnAB complex. However, in contrast to NfnB, StnC lost the ability to bifurcate electrons. Structural comparison allows us to describe how the same fold on one hand evolved bifurcation activity on its own while on the other hand combined with an associated bifurcating module, exemplifying modular evolution in anaerobic metabolism to produce activities critical for survival at the thermodynamic limit of life.

Published
2023
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21. Multidimensional SDE with distributional drift and L\'evy noise

Author

Kremp, Helena and Perkowski, Nicolas

Subjects
Mathematics - Probability
Abstract

We solve multidimensional SDEs with distributional drift driven by symmetric, $\alpha$-stable L\'evy processes for $\alpha\in (1,2]$ by studying the associated (singular) martingale problem and by solving the Kolmogorov backward equation. We allow for drifts of regularity $(2-2\alpha)/3$, and in particular we go beyond the by now well understood "Young regime", where the drift must have better regularity than $(1-\alpha)/2$. The analysis of the Kolmogorov backward equation in the low regularity regime is based on paracontrolled distributions. As an application of our results we construct a Brox diffusion with L\'evy noise. Keywords: Singular diffusions, stable L\'evy noise, distributional drift, paracontrolled distributions, Brox diffusion, Comment: 25 pages

Published
2020
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24. Long-term changes in bloom dynamics of Southern and Central Baltic cold-water phytoplankton

Author

Carolin Paul, Ulf Gräwe, and Anke Kremp

Subjects
ice algae, cold-water phytoplankton, Baltic Sea, climate change, warming, Science, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

In the Baltic Sea, cold-water adapted dinoflagellates and diatoms dominate the phytoplankton spring bloom of the Northern and Eastern Basins of the Baltic Sea. In the Central and Southern parts, where such species are less prominent, they cause occasional biomass peaks. We hypothesized that these dynamics correlate with ice cover, sea surface temperature (SST), and water transport processes, as the large Basins of the Central Baltic Sea are too deep to build-up blooms from their own seed banks. Long-term monitoring data from the past 40 and 20 years in the central and southern Baltic Sea, respectively, were analyzed here for biomass development of five cold-adapted taxa: the diatoms Pauliella taeniata, Thalassiosira baltica, Thalassiosira levanderi and Melosira spp. and the dinoflagellate Peridinella catenata. Results show that diatoms generally reached high biomass peaks in the 1980s and in shorter periods from 1995-1997, 2003- 2006, and 2010-2013 in all areas. We detected good correlations with the length of the ice cover period as well as low minimum and mean winter and spring SSTs. In contrast, biomass dynamics of the dinoflagellate P. catenata are more independent from these factors but have decreased strongly since the beginning of the 21st century. A numerical ocean model analysis confirmed the hypothesis that large blooms in the deep basins are seeded through water transport from adjacent shallow, ice-covered coastal areas such as the Gulf of Finland and the Gulf of Riga. Our results show that under ongoing climate warming, the common cold-water species may disappear from spring blooms in southern and central areas with unknown consequences for the ecosystem.

Published
2023
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25. Local adaptation through countergradient selection in northern populations of Skeletonema marinoi

Author

Josefin Sefbom, Anke Kremp, Per Juel Hansen, Kerstin Johannesson, Anna Godhe, and Karin Rengefors

Subjects
countergradient variation, diatom, intraspecific competition, local adaptation, pH, phenotypic plasticity, Evolution, QH359-425
Abstract

Abstract Marine microorganisms have the potential to disperse widely with few obvious barriers to gene flow. However, among microalgae, several studies have demonstrated that species can be highly genetically structured with limited gene flow among populations, despite hydrographic connectivity. Ecological differentiation and local adaptation have been suggested as drivers of such population structure. Here we tested whether multiple strains from two genetically distinct Baltic Sea populations of the diatom Skeletonema marinoi showed evidence of local adaptation to their local environments: the estuarine Bothnian Sea and the marine Kattegat Sea. We performed reciprocal transplants of multiple strains between culture media based on water from the respective environments, and we also allowed competition between strains of estuarine and marine origin in both salinities. When grown alone, both marine and estuarine strains performed best in the high‐salinity environment, and estuarine strains always grew faster than marine strains. This result suggests local adaptation through countergradient selection, that is, genetic effects counteract environmental effects. However, the higher growth rate of the estuarine strains appears to have a cost in the marine environment and when strains were allowed to compete, marine strains performed better than estuarine strains in the marine environment. Thus, other traits are likely to also affect fitness. We provide evidence that tolerance to pH could be involved and that estuarine strains that are adapted to a more fluctuating pH continue growing at higher pH than marine strains.

Published
2023
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32. Quantitative real-time PCR assays for species-specific detection and quantification of Baltic Sea spring bloom dinoflagellates.

Author

Brink, Annica Marie, Kremp, Anke, and Gorokhova, Elena

Subjects
SPRING, POLYMERASE chain reaction, MICROSCOPY, DINOFLAGELLATES, PHYTOPLANKTON, GYMNODINIUM
Abstract

In the Baltic Sea, the dinoflagellates Apocalathium malmogiense, Biecheleria baltica, and Gymnodinium corollarium are important contributors to the spring bloom. However, their relative contribution to the bloom community cannot be unambiguously determined by conventional light microscopy due to a lack of resolution of distinctive morphological features of the three species. Here, we describe a molecular approach based on a quantitative real-time polymerase chain reaction (qPCR) primer and probe system, targeting the ITS1 and ITS2 regions of the rRNA gene for all three species and enabling their quantification. The specificity of the method was demonstrated using monocultures of A. malmogiense, B. baltica, G. corollarium as well as three other dinoflagellate species co-occurring in the Baltic Sea during spring and validated using field-collected phytoplankton samples. [ABSTRACT FROM AUTHOR]

Published
2024
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40. Impact of radiotherapy protocol adherence in NSCLC patients treated with concurrent chemoradiation: RTQA results of the PET-Plan trial

Author

Gkika, Eleni, Schimek-Jasch, Tanja, Kremp, Stephanie, Lenz, Stefan, Stockinger, Marcus, Schaefer-Schuler, Andrea, Mix, Michael, Küsters, Andreas, Tosch, Marco, Hehr, Thomas, Eschmann, Susanne Martina, Bultel, Yves-Pierre, Hass, Peter, Fleckenstein, Jochen, Thieme, Alexander Henry, Dieckmann, Karin, Miederer, Matthias, Holl, Gabriele, Rischke, Hans Christian, Adebahr, Sonja, König, Jochem, Binder, Harald, Grosu, Anca-Ligia, and Nestle, Ursula

Published
2021
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43. Associations between various markers of intestinal barrier and immune function after a high-intensity exercise challenge

Author

Roca Rubio, Maria Fernanda, Folkesson, Mattias, Kremp, Carolin, Evertsson, Niklas, Repsilber, Dirk, Eriksson, Ulrika, Ganda Mall, John Peter, Kadi, Fawzi, Brummer, Robert Jan, König, Julia, Roca Rubio, Maria Fernanda, Folkesson, Mattias, Kremp, Carolin, Evertsson, Niklas, Repsilber, Dirk, Eriksson, Ulrika, Ganda Mall, John Peter, Kadi, Fawzi, Brummer, Robert Jan, and König, Julia

Abstract

Strenuous exercise can result in disruption of intestinal barrier function and occurrence of gastrointestinal symptoms. The aim of this exploratory study was to elucidate systemic effects of increased intestinal permeability after high-intensity exercise. Forty-one endurance-trained subjects performed a 60-min treadmill run at 80% VO2max. Small intestinal permeability was measured as urinary excretion ratio of lactulose/rhamnose (L/R). Blood, saliva and feces were analyzed for gut barrier and immune-related biomarkers. The exercise challenge increased several markers of intestinal barrier disruption, immune function and oxidative stress. We found a negative correlation between L/R ratio and uric acid (r = -0.480), as well as a positive correlation between the L/R ratio and fecal chromogranin A in male participants (r = 0.555). No significant correlations were found between any of the markers and gastrointestinal symptoms, however, perceived exertion correlated with the combination of IL-6, IL-10 and salivary cortisol (r = 0.492). The lack of correlation between intestinal permeability and gastrointestinal symptoms could be due to minor symptoms experienced in lab settings compared to real-life competitions. The correlation between L/R ratio and uric acid might imply a barrier-protective effect of uric acid, and inflammatory processes due to strenuous exercise seem to play an important role regarding physical exhaustion., The study was partially supported by the Knowledge Foundation Sweden (Grant reference number: 20110225) and Chr. Hansen A/S, Denmark.

Published
2024
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44. A Third Way of Energy Conservation in Acetogenic Bacteria

Author

Florian Kremp, Jennifer Roth, and Volker Müller

Subjects
methylene-THF reductase, acetogenesis, bioenergetics, energy conservation, periplasmic hydrogenase, Microbiology, QR1-502
Abstract

ABSTRACT Acetogenic bacteria are a group of strictly anaerobic bacteria that make a living from acetate formation from two molecules of CO2 via the Wood-Ljungdahl pathway (WLP). The free energy change of this reaction is very small and allows the synthesis of only a fraction of an ATP. How this pathway is coupled to energy conservation has been an enigma since its discovery ~90 years ago. Here, we describe an electron transport chain in the cytochrome- and quinone-containing acetogen Sporomusa ovata that leads from molecular hydrogen as an electron donor to an intermediate of the WLP, methylenetetrahydrofolate (methylene-tetrahydrofolate [THF]), as an electron acceptor. The catalytic site of the hydrogenase is periplasmic and likely linked cytochrome b to the membrane. We provide evidence that the MetVF-type methylenetetrahydrofolate reductase is linked proteins MvhD and HdrCBA to the cytoplasmic membrane. Membrane preparations catalyzed the H2-dependent reduction of methylene-THF to methyl-THF. In our model, a transmembrane electrochemical H+ gradient is established by both scalar and vectorial protons that leads to the synthesis of 0.5 mol ATP/mol methylene-THF by a H+-F1Fo ATP synthase. This H2- and methylene-THF-dependent electron transport chain may be present in other cytochrome-containing acetogens as well and represents a third way of chemiosmotic energy conservation in acetogens, but only in addition to the well-established respiratory enzymes Rnf and Ech. IMPORTANCE Acetogenic bacteria grow by making acetate from CO2 and are considered the first life forms on Earth since they couple CO2 reduction to the conservation of energy. How this is achieved has been an enigma ever since. Recently, two respiratory enzymes, a ferredoxin:NAD+ oxidoreductase (Rnf) and a ferredoxin:H+ oxidoreductase (Ech), have been found in cytochrome-free acetogenic model bacteria. However, some acetogens contain cytochromes in addition, and there has been a long-standing assumption of a cytochrome-containing electron transport chain in those acetogens. Here, we provide evidence for a respiratory chain in Sporomusa ovata that has a cytochrome-containing hydrogenase as the electron donor and a methylenetetrahydrofolate reductase as the terminal electron acceptor. This is the third way of chemiosmotic energy conservation found in acetogens.

Published
2022
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