Your search keyword '"P Stegen"' showing total 395 results

1. A functional microbiome catalogue crowdsourced from North American rivers

Author

Borton, Mikayla A, McGivern, Bridget B, Willi, Kathryn R, Woodcroft, Ben J, Mosier, Annika C, Singleton, Derick M, Bambakidis, Ted, Pelly, Aaron, Daly, Rebecca A, Liu, Filipe, Freiburger, Andrew, Edirisinghe, Janaka N, Faria, José P, Danczak, Robert, Leleiwi, Ikaia, Goldman, Amy E, Wilkins, Michael J, Hall, Ed K, Pennacchio, Christa, Roux, Simon, Eloe-Fadrosh, Emiley A, Good, Stephen P, Sullivan, Matthew B, Wood-Charlson, Elisha M, Miller, Christopher S, Ross, Matthew RV, Henry, Christopher S, Crump, Byron C, Stegen, James C, and Wrighton, Kelly C

Subjects

Microbiology, Biological Sciences, Microbiome, Human Genome, Genetics, General Science & Technology

Abstract

Predicting elemental cycles and maintaining water quality under increasing anthropogenic influence requires knowledge of the spatial drivers of river microbiomes. However, understanding of the core microbial processes governing river biogeochemistry is hindered by a lack of genome-resolved functional insights and sampling across multiple rivers. Here we used a community science effort to accelerate the sampling, sequencing and genome-resolved analyses of river microbiomes to create the Genome Resolved Open Watersheds database (GROWdb). GROWdb profiles the identity, distribution, function and expression of microbial genomes across river surface waters covering 90% of United States watersheds. Specifically, GROWdb encompasses microbial lineages from 27 phyla, including novel members from 10 families and 128 genera, and defines the core river microbiome at the genome level. GROWdb analyses coupled to extensive geospatial information reveals local and regional drivers of microbial community structuring, while also presenting foundational hypotheses about ecosystem function. Building on the previously conceived River Continuum Concept1, we layer on microbial functional trait expression, which suggests that the structure and function of river microbiomes is predictable. We make GROWdb available through various collaborative cyberinfrastructures2,3, so that it can be widely accessed across disciplines for watershed predictive modelling and microbiome-based management practices.

Published

2024

2. A functional microbiome catalogue crowdsourced from North American rivers

Author

Borton, Mikayla A., McGivern, Bridget B., Willi, Kathryn R., Woodcroft, Ben J., Mosier, Annika C., Singleton, Derick M., Bambakidis, Ted, Pelly, Aaron, Daly, Rebecca A., Liu, Filipe, Freiburger, Andrew, Edirisinghe, Janaka N., Faria, José P., Danczak, Robert, Leleiwi, Ikaia, Goldman, Amy E., Wilkins, Michael J., Hall, Ed K., Pennacchio, Christa, Roux, Simon, Eloe-Fadrosh, Emiley A., Good, Stephen P., Sullivan, Matthew B., Wood-Charlson, Elisha M., Miller, Christopher S., Ross, Matthew R. V., Henry, Christopher S., Crump, Byron C., Stegen, James C., and Wrighton, Kelly C.

Published

2024

3. Microbiome–metabolite linkages drive greenhouse gas dynamics over a permafrost thaw gradient

Author

Freire-Zapata, Viviana, Holland-Moritz, Hannah, Cronin, Dylan R., Aroney, Sam, Smith, Derek A., Wilson, Rachel M., Ernakovich, Jessica G., Woodcroft, Ben J., Bagby, Sarah C., Rich, Virginia I., Sullivan, Matthew B., Stegen, James C., and Tfaily, Malak M.

Published

2024

4. Riverine dissolved organic matter transformations increase with watershed area, water residence time, and Damköhler numbers in nested watersheds

Author

Ryan, Kevin A., Garayburu-Caruso, Vanessa A., Crump, Byron C., Bambakidis, Ted, Raymond, Peter A., Liu, Shaoda, and Stegen, James C.

Published

2024

5. Biogeochemical and community ecology responses to the wetting of non-perennial streams

Author

Price, Adam Nicholas, Zimmer, Margaret Ann, Bergstrom, Anna, Burgin, Amy Jo, Seybold, Erin Cedar, Krabbenhoft, Corey Anne, Zipper, Sam, Busch, Michelle Hope, Dodds, Walter Kennedy, Walters, Annika, Rogosch, Jane Sarah, Stubbington, Rachel, Walker, Richard Harry, Stegen, James Christian, Datry, Thibault, Messager, Mathis, Olden, Julian, Godsey, Sarah Elizabeth, Shanafield, Margaret, Lytle, David, Burrows, Ryan, Kaiser, Kendra Elena, Allen, George Henry, Mims, Meryl Christine, Tonkin, Jonathan Douglas, Bogan, Michael, Hammond, John Christopher, Boersma, Kate, Myers-Pigg, Allison Nicole, DelVecchia, Amanda, Allen, Daniel, Yu, Songyan, and Ward, Adam

Published

2024

6. Metabolic regulation of skeletal cell fate and function

Author

Stegen, Steve and Carmeliet, Geert

Published

2024

7. Thermal responses of dissolved organic matter under global change

Author

Hu, Ang, Jang, Kyoung-Soon, Tanentzap, Andrew J., Zhao, Wenqian, Lennon, Jay T., Liu, Jinfu, Li, Mingjia, Stegen, James, Choi, Mira, Lu, Yahai, Feng, Xiaojuan, and Wang, Jianjun

Published

2024

8. Reviews and syntheses: Opportunities for robust use of peak intensities from high-resolution mass spectrometry in organic matter studies

Author

W. Kew, A. Myers-Pigg, C. H. Chang, S. M. Colby, J. Eder, M. M. Tfaily, J. Hawkes, R. K. Chu, and J. C. Stegen

Subjects

Ecology, QH540-549.5, Life, QH501-531, Geology, QE1-996.5

Abstract

Earth's biogeochemical cycles are intimately tied to the biotic and abiotic processing of organic matter (OM). Spatial and temporal variations in OM chemistry are often studied using direct infusion, high-resolution Fourier transform mass spectrometry (FTMS). An increasingly common approach is to use ecological metrics (e.g., within-sample diversity) to summarize high-dimensional FTMS data, notably Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS). However, problems can arise when FTMS peak-intensity data are used in a way that is analogous to abundances in ecological analyses (e.g., species abundance distributions). Using peak-intensity data in this way requires the assumption that intensities act as direct proxies for concentrations. Here, we show that comparisons of the same peak across samples (within-peak) may carry information regarding variations in relative concentration, but comparing different peaks (between-peak) within or between samples does not. We further developed a simulation model to study the quantitative implications of using peak intensities to compute ecological metrics (e.g., intensity-weighted mean properties and diversity) that rely on information about both within-peak and between-peak shifts in relative abundance. We found that, despite analytical limitations in linking concentration to intensity, ecological metrics often perform well in terms of providing robust qualitative inferences and sometimes quantitatively accurate estimates of diversity and mean molecular characteristics. We conclude with recommendations for the robust use of peak intensities for natural organic matter studies. A primary recommendation is the use and extension of the simulation model to provide objective guidance on the degree to which conceptual and quantitative inferences can be made for a given analysis of a given dataset. Broad use of this approach can help ensure rigorous scientific outcomes from the use of FTMS peak intensities in environmental applications.

Published

2024

9. Beyond small-scale transients: a closer look at the diffuse quiet solar corona

Author

Gorman, J., Chitta, L. P., Peter, H., Berghmans, D., Auchère, F., Cuadrado, R. Aznar, Teriaca, L., Solanki, S. K., Verbeeck, C., Kraaikamp, E., Stegen, K., and Gissot, S.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Within the quiet Sun corona imaged at 1 MK, much of the field of view consists of diffuse emission that appears to lack the spatial structuring that is so evident in coronal loops or bright points. We seek to determine if these diffuse regions are categorically different in terms of their intensity fluctuations and spatial configuration from the more well-studied dynamic coronal features. We analyze a time series of observations from Solar Orbiter's High Resolution Imager in the Extreme Ultraviolet to quantify the characterization of the diffuse corona at high spatial and temporal resolutions. We then compare this to the dynamic features within the field of view, mainly a coronal bright point. We find that the diffuse corona lacks visible structuring, such as small embedded loops, and that this is persistent over the 25 min duration of the observation. The intensity fluctuations of the diffuse corona, which are within +/-5%, are significantly smaller in comparison to the coronal bright point. Yet, the total intensity observed in the diffuse corona is of the same order as the bright point. It seems inconsistent with our data that the diffuse corona is a composition of small loops or jets or that it is driven by discrete small heating events that follow a power-law-like distribution. We speculate that small-scale processes like MHD turbulence might be energizing the diffuse regions, but at this point we cannot offer a conclusive explanation for the nature of this feature., Comment: Accepted for publication in A&A. 10 pages, 8 figures

Published

2023

10. Beyond the disk: EUV coronagraphic observations of the Extreme Ultraviolet Imager on board Solar Orbiter

Author

Auchère, Berghmans, Dumesnil, Halain, -P., J., Mercier, Rochus, Delmotte, François, Hermans, Hervier, Kraaikamp, Meltchakov, Morinaud, Philippon, Smith, J., P., Stegen, Verbeeck, Zhang, Y., X., Andretta, Abbo, Buchlin, Frassati, Gissot, Gyo, Harra, Jerse, Landini, Mierla, Nicula, Parenti, Renotte, Romoli, Russano, Sasso, Schühle, Schmutz, Soubrié, Susino, Teriaca, West, Zhukov, and N, A.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Most observations of the solar corona beyond 2 Rs consist of broadband visible light imagery from coronagraphs. The associated diagnostics mainly consist of kinematics and derivations of the electron number density. While the measurement of the properties of emission lines can provide crucial additional diagnostics of the coronal plasma (temperatures, velocities, abundances, etc.), these observations are comparatively rare. In visible wavelengths, observations at these heights are limited to total eclipses. In the VUV range, very few additional observations have been achieved since the pioneering results of UVCS. One of the objectives of the Full Sun Imager (FSI) channel of the EUI telescope on board the Solar Orbiter mission has been to provide very wide field-of-view EUV diagnostics of the morphology and dynamics of the solar atmosphere in temperature regimes that are typical of the lower transition region and of the corona. FSI carries out observations in two narrowbands of the EUV spectrum centered on 17.4 nm and 30.4 nm that are dominated, respectively, by lines of Fe IX/X (formed in the corona around 1 MK) and by the resonance line of He II (formed around 80 kK in the lower transition region). Unlike previous EUV imagers, FSI includes a moveable occulting disk that can be inserted in the optical path to reduce the amount of instrumental stray light to a minimum. FSI detects signals at 17.4 nm up to the edge of its FOV (7~Rs), which is about twice further than was previously possible. Comparisons with observations by the LASCO and Metis coronagraphs confirm the presence of morphological similarities and differences between the broadband visible light and EUV emissions, as documented on the basis of prior eclipse and space-based observations. The very-wide-field observations of FSI are paving the way for future dedicated instruments.

Published

2023

11. EUV fine structure and variability associated with coronal rain revealed by Solar Orbiter/EUI HRIEUV and SPICE

Author

Antolin, P., Dolliou, A., Auchère, F., Chitta, L. P., Parenti, S., Berghmans, D., Cuadrado, R. Aznar, Barczynski, K., Gissot, S., Harra, L., Huang, Z., Janvier, M., Kraaikamp, E., Long, D. M., Mandal, S., Peter, H., Rodriguez, L., Schühle, U., Smith, P. J., Solanki, S. K., Stegen, K., Teriaca, L., Verbeeck, C., West, M. J., Zhukov, A. N., Appourchaux, T., Aulanier, G., Buchlin, E., Delmotte, F., Gilles, J. M., Haberreiter, M., Halain, J. -P., Heerlein, K., Hochedez, J. -F., Gyo, M., Poedts, S., and Rochus, P.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Coronal rain is the most dramatic cooling phenomenon of the solar corona and an essential diagnostic tool for the coronal heating properties. A puzzling feature of the solar corona, besides the heating, is its EUV filamentary structure and variability. We aim to identify observable features of the TNE-TI scenario underlying coronal rain at small and large spatial scales, to understand the role it plays in the solar corona. We use EUV datasets at unprecedented spatial resolution of ~240 km from EUI/HRIEUV and SPICE of Solar Orbiter from the spring 2022 perihelion. EUV absorption features produced by coronal rain are detected at scales as small as 260 km. As the rain falls, heating and compression is produced immediately downstream, leading to a small EUV brightening accompanying the fall and producing a "fireball" phenomenon. Just prior to impact, a flash-like EUV brightening downstream of the rain, lasting a few minutes is observed for the fastest events. For the first time, we detect the atmospheric response to the rain's impact on the chromosphere and consists of upward propagating rebound shocks and flows partly reheating the loop. The observed widths of the rain clumps are 500 +- 200 km. They exhibit a broad velocity distribution of 10 - 150 km s^-1, peaking below 50 km s^-1. Coronal strands of similar widths are observed along the same loops co-spatial with cool filamentary structure, which we interpret as the CCTR. Matching with the expected cooling, prior to the rain appearance sequential loop brightenings are detected in gradually cooler lines from corona to chromospheric temperatures. Despite the large rain showers, most cannot be detected in AIA 171 in quadrature, indicating that LOS effects play a major role in coronal rain visibility. Still, AIA 304 and SPICE observations reveal that only a small fraction of the rain can be captured by HRIEUV., Comment: Astronomy & Astrophysics; 32 Pages, 24 Main Figures, Appendix

Published

2023

12. A functional microbiome catalog crowdsourced from North American rivers.

Author

Borton, Mikayla A, McGivern, Bridget B, Willi, Kathryn R, Woodcroft, Ben J, Mosier, Annika C, Singleton, Derick M, Bambakidis, Ted, Pelly, Aaron, Liu, Filipe, Edirisinghe, Janaka N, Faria, José P, Leleiwi, Ikaia, Daly, Rebecca A, Goldman, Amy E, Wilkins, Michael J, Hall, Ed K, Pennacchio, Christa, Roux, Simon, Eloe-Fadrosh, Emiley A, Good, Stephen P, Sullivan, Matthew B, Henry, Christopher S, Wood-Charlson, Elisha M, Ross, Matthew RV, Miller, Christopher S, Crump, Byron C, Stegen, James C, and Wrighton, Kelly C

Subjects

Microbiology, Environmental Sciences, Biological Sciences, Ecology, Human Genome, Genetics

Abstract

Predicting elemental cycles and maintaining water quality under increasing anthropogenic influence requires understanding the spatial drivers of river microbiomes. However, the unifying microbial processes governing river biogeochemistry are hindered by a lack of genome-resolved functional insights and sampling across multiple rivers. Here we employed a community science effort to accelerate the sampling, sequencing, and genome-resolved analyses of river microbiomes to create the Genome Resolved Open Watersheds database (GROWdb). This resource profiled the identity, distribution, function, and expression of thousands of microbial genomes across rivers covering 90% of United States watersheds. Specifically, GROWdb encompasses 1,469 microbial species from 27 phyla, including novel lineages from 10 families and 128 genera, and defines the core river microbiome for the first time at genome level. GROWdb analyses coupled to extensive geospatial information revealed local and regional drivers of microbial community structuring, while also presenting a myriad of foundational hypotheses about ecosystem function. Building upon the previously conceived River Continuum Concept 1 , we layer on microbial functional trait expression, which suggests the structure and function of river microbiomes is predictable. We make GROWdb available through various collaborative cyberinfrastructures 2, 3 so that it can be widely accessed across disciplines for watershed predictive modeling and microbiome-based management practices.

Published

2023

13. Author Correction: Generation of T-cell-receptor-negative CD8αβ-positive CAR T cells from T-cell-derived induced pluripotent stem cells

Author

van der Stegen, Sjoukje J. C., Lindenbergh, Pieter L., Petrovic, Roseanna M., Xie, Hongyao, Diop, Mame P., Alexeeva, Vera, Shi, Yuzhe, Mansilla-Soto, Jorge, Hamieh, Mohamad, Eyquem, Justin, Cabriolu, Annalisa, Wang, Xiuyan, Abujarour, Ramzey, Lee, Tom, Clarke, Raedun, Valamehr, Bahram, Themeli, Maria, Riviere, Isabelle, and Sadelain, Michel

Published

2024

14. First Perihelion of EUI on the Solar Orbiter mission

Author

Berghmans, D., Antolin, P., Auchère, F., Cuadrado, R. Aznar, Barczynski, K., Chitta, L. P., Gissot, S., Harra, L., Huang, Z., Janvier, M., Kraaikamp, E., Long, D. M., Mandal, S., Mierla, M., Parenti, S., Peter, H., Rodriguez, L., Schühle, U., Smith, P. J., Solanki, S. K., Stegen, K., Teriaca, L., Verbeeck, C., West, M. J., Zhukov, A. N., Appourchaux, T., Aulanier, G., Buchlin, E., Delmotte, F., Gilles, J. M., Haberreiter, M., Halain, J. -P., Heerlein, K., Hochedez, J. -F., Gyo, M., Poedts, S., and Rochus, P.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Physics - Space Physics

Abstract

Context. The Extreme Ultraviolet Imager (EUI), onboard Solar Orbiter consists of three telescopes: the two High Resolution Imagers in EUV (HRIEUV) and in Lyman-{\alpha} (HRILya), and the Full Sun Imager (FSI). Solar Orbiter/EUI started its Nominal Mission Phase on 2021 November 27. Aims. EUI images from the largest scales in the extended corona off limb, down to the smallest features at the base of the corona and chromosphere. EUI is therefore a key instrument for the connection science that is at the heart of the Solar Orbiter mission science goals. Methods. The highest resolution on the Sun is achieved when Solar Orbiter passes through the perihelion part of its orbit. On 2022 March 26, Solar Orbiter reached for the first time a distance to the Sun close to 0.3 au. No other coronal EUV imager has been this close to the Sun. Results. We review the EUI data sets obtained during the period 2022 March-April, when Solar Orbiter quickly moved from alignment with the Earth (2022 March 6), to perihelion (2022 March 26), to quadrature with the Earth (2022 March 29). We highlight the first observational results in these unique data sets and we report on the in-flight instrument performance. Conclusions. EUI has obtained the highest resolution images ever of the solar corona in the quiet Sun and polar coronal holes. Several active regions were imaged at unprecedented cadences and sequence durations. We identify in this paper a broad range of features that require deeper studies. Both FSI and HRIEUV operate at design specifications but HRILya suffered from performance issues near perihelion. We conclude emphasising the EUI open data policy and encouraging further detailed analysis of the events highlighted in this paper.

Published

2023

15. Temperature of Solar Orbiter/EUI quiet Sun small scale brightenings: evidence for a cooler component

Author

Dolliou, A., Parenti, S., Auchère, F., Bocchialini, K., Pelouze, G., Antolin, P., Berghmans, D., Harra, L., Long, D. M., Schühle, U., Kraaikamp, E., Stegen, K., Verbeeck, C., Gissot, S., Cuadrado, R. Aznar, Buchlin, E., Mierla, M., Teriaca, L., and Zhukov, A. N.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Context: On 2020 May 30, small and short-lived EUV brightenings were observed in the Quiet Sun (QS) during a four minutes sequence by EUI/HRIEUV on board Solar Orbiter. Their physical origin and possible impact on coronal or Transition Region (TR) heating are still to be determined. Aims: Our aim is to derive the statistical thermal evolution of these events in order to establish their coronal or TR origin. Methods. Our thermal analysis takes advantage of the multithermal sensitivity of the Atmospheric Imaging Assembly (AIA) imager on board the Solar Dynamics Observatory (SDO). We first identified these HRIEUV events in the six coronal bands of AIA. We then performed a statistical time lag analysis, which quantifies the delays between the light curves from different bands. These time lags can give significant insights into the temperature evolution of these events. The analysis is performed taking into account the possible contribution to the results from the background and foreground emissions. Results: The events are characterized by time lags inferior to the AIA cadence of 12 s, for all nine couples of AIA bands analyzed. Our interpretation is the possible co-presence of events which reach or do not reach coronal temperatures ($\approx$ 1MK). We believe that the cool population dominates the events analyzed in this work., Comment: 14 pages, 8 figures, language and typo editing, accepted in A&A

Published

2023

16. Analysis of lipid uptake, storage, and fatty acid oxidation by group 2 innate lymphoid cells

Author

Audrey Roy-Dorval, Rebecca C. Deagle, Frederik Roth, Mathilde Raybaud, Nailya Ismailova, Sai Sakktee Krisna, Damon G. K. Aboud, Camille Stegen, Julien Leconte, Gabriel Berberi, Ademola Esomojumi, and Jörg H. Fritz

Subjects

group 2 innate lymphoid cells (ILC2), type 2 immunity, immunometabolism, fatty acid uptake, lipid droplets, fatty acid oxidation (FAO), Immunologic diseases. Allergy, RC581-607

Abstract

Group 2 Innate Lymphoid Cells (ILC2) are critical drivers of both innate and adaptive type 2 immune responses, known to orchestrate processes involved in tissue restoration and wound healing. In addition, ILC2 have been implicated in chronic inflammatory barrier disorders in type 2 immunopathologies such as allergic rhinitis and asthma. ILC2 in the context of allergen-driven airway inflammation have recently been shown to influence local and systemic metabolism, as well as being rich in lipid-storing organelles called lipid droplets. However, mechanisms of ILC2 lipid anabolism and catabolism remain largely unknown and the impact of these metabolic processes in regulating ILC2 phenotypes and effector functions has not been extensively characterized. ILC2 phenotypes and effector functions are shaped by their metabolic status, and determining the metabolic requirements of ILC2 is critical in understanding their role in type 2 immune responses and their associated pathophysiology. We detail here a novel experimental method of implementing flow cytometry for large scale analysis of fatty acid uptake, storage of neutral lipids, and fatty acid oxidation in primary murine ILC2 with complementary morphological analysis of lipid storage using confocal microscopy. By combining flow cytometry and confocal microscopy, we can identify the metabolic lipid requirements for ILC2 functions as well as characterize the phenotype of lipid storage in ILC2. Linking lipid metabolism pathways to ILC2 phenotypes and effector functions is critical for the assessment of novel pharmaceutical strategies to regulate ILC2 functions in type 2 immunopathologies.

Published

2024

17. Building Cross-Site and Cross-Network collaborations in critical zone science

Author

Arora, Bhavna, Kuppel, Sylvain, Wellen, Christopher, Oswald, Claire, Groh, Jannis, Payandi-Rolland, Dahédrey, Stegen, James, and Coffinet, Sarah

Subjects

Built Environment and Design, Architecture, Critical zone, Watershed, Cross -site synthesis, Data harmonization, Interdisciplinary, Available datasets, Environmental Engineering

Abstract

The critical zone (CZ) includes natural and anthropogenic environments, where life, energy and matter cycles combine in complex interactions in time and space. Critical zone observatories (CZOs) have been established around the world, yet their limitations in space and duration of observations, as well as the oft-existing dominant disciplinary research field(s) of each CZO may limit the transferability of the local knowledge to other settings or hinder integrative CZ understanding. In this regard, this review advocates for cross-site cross-network collaborations in CZ sciences. We posit that this type of collaboration is becoming indispensable for understanding past trends and future trajectories of the CZ, in the context of fast-developing and widespread environmental changes. Aided by a series of cyberseminars and a community survey, we highlight some of the existing cross-site initiatives, tools and techniques, and the cross-cutting science questions that could benefit from such cross-network syntheses, in various types of CZ settings (montane, alpine, arctic, managed and agricultural environments, lakes, wetlands, streams, landscapes disturbed by drought and/or wildfire, etc.). This review also identifies and discusses the major and legitimate concerns and obstacles for a collaborative CZ approach, including data harmonization and integration of social sciences, and proposes tentative ways forward.

Published

2023

18. Rotating wireless power transfer: A new concept for wireless charging systems

Author

Elisa de Melo Henriques, Junwei Lu, and Sascha Stegen

Subjects

Automonous guided vehicles, DC motor, Permanent magnets, Wireless power transfer, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Fast and safe charging are current concerns in relation to wireless charging of autonomous guided vehicles (AGVs). Wireless Power Transfer (WPT) is a capable solution and a replacement for conventional contact-based methods. However, resonant inductive and capacitive WPT topologies demand more power as the gap between transmitter and receiver pads increases. These structures, initially developed for electric vehicle applications, do not adequately optimize power transfer and power quality for the smaller surface areas of AGVs. In this paper, a novel topology for wireless charging concept is described and validated. This methodology has been named rotating WPT, with a primary side spinning neodymium magnet disc. The receiver pad is composed of a circular coil with ferrite U-cores. Calculations of the induced voltage over the rotating magnetic field resulted in 1.95 V at an operating frequency of 2.7 kHz. FEM simulation results show approximately 3 V, while laboratory experiments outputted 33 mV at 3.8 kHz. A sinusoidal waveform was observed from prototype, and power was successfully transferred to the receiver end, validating this proposed topology. This novel WPT system has no inverter, rectifier, nor compensation, decreasing reactive power, assembly costs and complexity while transferring power and enhancing power quality.© 2017 Elsevier Inc. All rights reserved.

Published

2024

19. Prominence eruption observed in He II 304 {\AA} up to $>6 R_\sun$ by EUI/FSI aboard Solar Orbiter

Author

Mierla, M., Zhukov, A. N., Berghmans, D., Parenti, S., Auchere, F., Heinzel, P., Seaton, D. B., Palmerio, E., Jejcic, S., Janssens, J., Kraaikamp, E., Nicula, B., Long, D. M., Hayes, L. A., Jebaraj, I. C., Talpeanu, D. -C., D'Huys, E., Dolla, L., Gissot, S., Magdalenic, J., Rodriguez, L., Shestov, S., Stegen, K., Verbeeck, C., Sasso, C., Romoli, M., and Andretta, V.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We report observations of a unique, large prominence eruption that was observed in the He II 304 {\AA} passband of the the Extreme Ultraviolet Imager/Full Sun Imager telescope aboard Solar Orbiter on 15-16 February 2022. Observations from several vantage points (Solar Orbiter, the Solar-Terrestrial Relations Observatory, the Solar and Heliospheric Observatory, and Earth-orbiting satellites) were used to measure the kinematics of the erupting prominence and the associated coronal mass ejection. Three-dimensional reconstruction was used to calculate the deprojected positions and speeds of different parts of the prominence. Observations in several passbands allowed us to analyse the radiative properties of the erupting prominence. The leading parts of the erupting prominence and the leading edge of the corresponding coronal mass ejection propagate at speeds of around 1700 km/s and 2200 km/s, respectively, while the trailing parts of the prominence are significantly slower (around 500 km/s). Parts of the prominence are tracked up to heights of over $6 R_\sun$. The He II emission is probably produced via collisional excitation rather than scattering. Surprisingly, the brightness of a trailing feature increases with height. The reported prominence is the first observed in He II 304 {\AA} emission at such a great height (above 6 $R_\sun$).

Published

2022

20. Standardized multi-omics of Earth’s microbiomes reveals microbial and metabolite diversity

Author

Shaffer, Justin P, Nothias, Louis-Félix, Thompson, Luke R, Sanders, Jon G, Salido, Rodolfo A, Couvillion, Sneha P, Brejnrod, Asker D, Lejzerowicz, Franck, Haiminen, Niina, Huang, Shi, Lutz, Holly L, Zhu, Qiyun, Martino, Cameron, Morton, James T, Karthikeyan, Smruthi, Nothias-Esposito, Mélissa, Dührkop, Kai, Böcker, Sebastian, Kim, Hyun Woo, Aksenov, Alexander A, Bittremieux, Wout, Minich, Jeremiah J, Marotz, Clarisse, Bryant, MacKenzie M, Sanders, Karenina, Schwartz, Tara, Humphrey, Greg, Vásquez-Baeza, Yoshiki, Tripathi, Anupriya, Parida, Laxmi, Carrieri, Anna Paola, Beck, Kristen L, Das, Promi, González, Antonio, McDonald, Daniel, Ladau, Joshua, Karst, Søren M, Albertsen, Mads, Ackermann, Gail, DeReus, Jeff, Thomas, Torsten, Petras, Daniel, Shade, Ashley, Stegen, James, Song, Se Jin, Metz, Thomas O, Swafford, Austin D, Dorrestein, Pieter C, Jansson, Janet K, Gilbert, Jack A, and Knight, Rob

Subjects

Microbiology, Biological Sciences, Microbiome, Life Below Water, Animals, Microbiota, Metagenome, Metagenomics, Earth, Planet, Soil, Earth Microbiome Project 500 (EMP500) Consortium, Medical Microbiology

Abstract

Despite advances in sequencing, lack of standardization makes comparisons across studies challenging and hampers insights into the structure and function of microbial communities across multiple habitats on a planetary scale. Here we present a multi-omics analysis of a diverse set of 880 microbial community samples collected for the Earth Microbiome Project. We include amplicon (16S, 18S, ITS) and shotgun metagenomic sequence data, and untargeted metabolomics data (liquid chromatography-tandem mass spectrometry and gas chromatography mass spectrometry). We used standardized protocols and analytical methods to characterize microbial communities, focusing on relationships and co-occurrences of microbially related metabolites and microbial taxa across environments, thus allowing us to explore diversity at extraordinary scale. In addition to a reference database for metagenomic and metabolomic data, we provide a framework for incorporating additional studies, enabling the expansion of existing knowledge in the form of an evolving community resource. We demonstrate the utility of this database by testing the hypothesis that every microbe and metabolite is everywhere but the environment selects. Our results show that metabolite diversity exhibits turnover and nestedness related to both microbial communities and the environment, whereas the relative abundances of microbially related metabolites vary and co-occur with specific microbial consortia in a habitat-specific manner. We additionally show the power of certain chemistry, in particular terpenoids, in distinguishing Earth's environments (for example, terrestrial plant surfaces and soils, freshwater and marine animal stool), as well as that of certain microbes including Conexibacter woesei (terrestrial soils), Haloquadratum walsbyi (marine deposits) and Pantoea dispersa (terrestrial plant detritus). This Resource provides insight into the taxa and metabolites within microbial communities from diverse habitats across Earth, informing both microbial and chemical ecology, and provides a foundation and methods for multi-omics microbiome studies of hosts and the environment.

Published

2022

21. Generation of T-cell-receptor-negative CD8αβ-positive CAR T cells from T-cell-derived induced pluripotent stem cells.

Author

van der Stegen, Sjoukje, Lindenbergh, Pieter, Petrovic, Roseanna, Xie, Hongyao, Diop, Mame, Alexeeva, Vera, Shi, Yuzhe, Mansilla-Soto, Jorge, Hamieh, Mohamad, Eyquem, Justin, Cabriolu, Annalisa, Wang, Xiuyan, Abujarour, Ramzey, Lee, Tom, Clarke, Raedun, Valamehr, Bahram, Themeli, Maria, Riviere, Isabelle, and Sadelain, Michel

Subjects

Mice, Animals, Humans, T-Lymphocytes, Induced Pluripotent Stem Cells, Receptors, Antigen, T-Cell, CD8 Antigens, Receptors, Chimeric Antigen

Abstract

The production of autologous T cells expressing a chimaeric antigen receptor (CAR) is time-consuming, costly and occasionally unsuccessful. T-cell-derived induced pluripotent stem cells (TiPS) are a promising source for the generation of off-the-shelf CAR T cells, but the in vitro differentiation of TiPS often yields T cells with suboptimal features. Here we show that the premature expression of the T-cell receptor (TCR) or a constitutively expressed CAR in TiPS promotes the acquisition of an innate phenotype, which can be averted by disabling the TCR and relying on the CAR to drive differentiation. Delaying CAR expression and calibrating its signalling strength in TiPS enabled the generation of human TCR- CD8αβ+ CAR T cells that perform similarly to CD8αβ+ CAR T cells from peripheral blood, achieving effective tumour control on systemic administration in a mouse model of leukaemia and without causing graft-versus-host disease. Driving T-cell maturation in TiPS in the absence of a TCR by taking advantage of a CAR may facilitate the large-scale development of potent allogeneic CD8αβ+ T cells for a broad range of immunotherapies.

Published

2022

22. Thermal responses of dissolved organic matter under global change

Author

Ang Hu, Kyoung-Soon Jang, Andrew J. Tanentzap, Wenqian Zhao, Jay T. Lennon, Jinfu Liu, Mingjia Li, James Stegen, Mira Choi, Yahai Lu, Xiaojuan Feng, and Jianjun Wang

Subjects

Science

Abstract

Abstract The diversity of intrinsic traits of different organic matter molecules makes it challenging to predict how they, and therefore the global carbon cycle, will respond to climate change. Here we develop an indicator of compositional-level environmental response for dissolved organic matter to quantify the aggregated response of individual molecules that positively and negatively associate with warming. We apply the indicator to assess the thermal response of sediment dissolved organic matter in 480 aquatic microcosms along nutrient gradients on three Eurasian mountainsides. Organic molecules consistently respond to temperature change within and across contrasting climate zones. At a compositional level, dissolved organic matter in warmer sites has a stronger thermal response and shows functional reorganization towards molecules with lower thermodynamic favorability for microbial decomposition. The thermal response is more sensitive to warming at higher nutrients, with increased sensitivity of up to 22% for each additional 1 mg L-1 of nitrogen loading. The utility of the thermal response indicator is further confirmed by laboratory experiments and reveals its positive links to greenhouse gas emissions.

Published

2024

23. International relations theory on grid communities and international politics in a green world

Author

Smith Stegen, Karen

Published

2023

24. Caring neighbourhoods in Belgium: lessons learned on the development, implementation and evaluation of 35 caring neighbourhood projects

Author

Liesbeth De Donder, Hannelore Stegen, and Sylvia Hoens

Subjects

Medicine (General), R5-920

Abstract

Background: In recent years, there has been a rise in international (care) movements that prioritise community-centred initiatives such as age-friendly communities, compassionate communities or integrated community care. Although these movements have different focal points, they share common features: seeking to address systemic failures in (care) services, value the participation of end-users, focus on unmet (care) needs, through a local, neighbourhood-oriented approach. In the Flemish and Brussels regions notably the concept of Caring Neighbourhoods is experiencing rapid growth. Objectives: The objective of the present study is to examine the development and implementation of 35 Caring Neighbourhood initiatives in Flanders and Brussels (Belgium) to explore the added value of such projects, as well as the crucial elements for creating Caring Neighbourhoods. Design: Thirty-five caring neighbourhood projects were examined by means of five focus group interviews with project coordinators ( n = 34) and five focus group interviews with neighbourhood residents ( n = 27), using participant-generated photo elicitation. Methods: The focus group sessions were recorded, transcribed and data were labelled using an inductive analytical framework, following the steps of reflexive thematic analysis. Results: The analysis of the 35 Caring Neighbourhoods showed that fostering connections was key in building Caring Neighbourhoods: connections among residents, connections between residents and care and support services and among care services themselves. The three primary ways to connect people were through activities, places and people. Also, the role of the Caring Neighbourhood coordinator is highlighted as key, which should focus on weaving existing resources, facilitating and coaching instead of organising. Altogether, the projects brought meaning and value to participants’ lives, enhancing overall life satisfaction and well-being, with an emphasis on physical and psychosocial care and support. Conclusion: Through critically reflecting on our results and other research, we call on researchers to pay increased attention in research on community-centred care initiatives to death, dying and grief, equity and social justice and the need for both warm and cold solidarity.

Published

2024

25. Thousands of small, novel genes predicted in global phage genomes

Author

Fremin, Brayon J, Bhatt, Ami S, Kyrpides, Nikos C, Consortium, Global Phage Small Open Reading Frame, Sengupta, Aditi, Sczyrba, Alexander, da Silva, Aline Maria, Buchan, Alison, Gaudin, Amelie, Brune, Andreas, Hirsch, Ann M, Neumann, Anthony, Shade, Ashley, Visel, Axel, Campbell, Barbara, Baker, Brett, Hedlund, Brian P, Crump, Byron C, Currie, Cameron, Kelly, Charlene, Craft, Chris, Hazard, Christina, Francis, Christopher, Schadt, Christopher W, Averill, Colin, Mobilian, Courtney, Buckley, Dan, Hunt, Dana, Noguera, Daniel, Beck, David, Valentine, David L, Walsh, David, Sumner, Dawn, Lymperopoulou, Despoina, Bhaya, Devaki, Bryant, Donald A, Morrison, Elise, Brodie, Eoin, Young, Erica, Lilleskov, Erik, Högfors-Rönnholm, Eva, Chen, Feng, Stewart, Frank, Nicol, Graeme W, Teeling, Hanno, Beller, Harry R, Dionisi, Hebe, Liao, Hui-Ling, Beman, J Michael, Stegen, James, Tiedje, James, Jansson, Janet, VanderGheynst, Jean, Norton, Jeanette, Dangl, Jeff, Blanchard, Jeffrey, Bowen, Jennifer, Macalady, Jennifer, Pett-Ridge, Jennifer, Rich, Jeremy, Payet, Jérôme P, Gladden, John D, Raff, Jonathan D, Klassen, Jonathan L, Tarn, Jonathan, Neufeld, Josh, Gravuer, Kelly, Hofmockel, Kirsten, Chen, Ko-Hsuan, Konstantinidis, Konstantinos, DeAngelis, Kristen M, Partida-Martinez, Laila P, Meredith, Laura, Chistoserdova, Ludmila, Moran, Mary Ann, Scarborough, Matthew, Schrenk, Matthew, Sullivan, Matthew, David, Maude, O'Malley, Michelle A, Medina, Monica, Habteselassie, Mussie, Ward, Nicholas D, Pietrasiak, Nicole, Mason, Olivia U, Sorensen, Patrick O, de los Santos, Paulina Estrada, Baldrian, Petr, McKay, R Michael, Simister, Rachel, Stepanauskas, Ramunas, Neumann, Rebecca, Malmstrom, Rex, Cavicchioli, Ricardo, Kelly, Robert, Hatzenpichler, Roland, Stocker, Roman, Cattolico, Rose Ann, Ziels, Ryan, and Vilgalys, Rytas

Subjects

Microbiology, Biological Sciences, Bioinformatics and Computational Biology, Genetics, Biotechnology, Human Genome, 2.1 Biological and endogenous factors, Generic health relevance, Bacteriophages, Genome, Viral, Genomics, Microbiota, Phylogeny, Global Phage Small Open Reading Frame (GP-SmORF) Consortium, CP: Microbiology, MetaRibo-Seq, comparative genomics, gene families, microbiome, phage, sORFs, small genes, Biochemistry and Cell Biology, Medical Physiology, Biological sciences

Abstract

Small genes (40,000 small-gene families in ∼2.3 million phage genome contigs. We find that small genes in phage genomes are approximately 3-fold more prevalent than in host prokaryotic genomes. Our approach enriches for small genes that are translated in microbiomes, suggesting the small genes identified are coding. More than 9,000 families encode potentially secreted or transmembrane proteins, more than 5,000 families encode predicted anti-CRISPR proteins, and more than 500 families encode predicted antimicrobial proteins. By combining homology and genomic-neighborhood analyses, we reveal substantial novelty and diversity within phage biology, including small phage genes found in multiple host phyla, small genes encoding proteins that play essential roles in host infection, and small genes that share genomic neighborhoods and whose encoded proteins may share related functions.

Published

2022

26. Disinfection byproducts formed during drinking water treatment reveal an export control point for dissolved organic matter in a subalpine headwater stream

Author

Leonard, Laura T, Vanzin, Gary F, Garayburu-Caruso, Vanessa A, Lau, Stephanie S, Beutler, Curtis A, Newman, Alexander W, Mitch, William A, Stegen, James C, Williams, Kenneth H, and Sharp, Jonathan O

Subjects

Earth Sciences, Atmospheric Sciences, Clean Water and Sanitation, Climate change, Disinfection byproducts, Organic matter, Watershed, Water treatment, Water quality

Abstract

Changes in climate, season, and vegetation can alter organic export from watersheds. While an accepted tradeoff to protect public health, disinfection processes during drinking water treatment can adversely react with organic compounds to form disinfection byproducts (DBPs). By extension, DBP monitoring can yield insights into hydrobiogeochemical dynamics within watersheds and their implications for water resource management. In this study, we analyzed temporal trends from a water treatment facility that sources water from Coal Creek in Crested Butte, Colorado. These trends revealed a long-term increase in haloacetic acid and trihalomethane formation over the period of 2005-2020. Disproportionate export of dissolved organic carbon and formation of DBPs that exceeded maximum contaminant levels were consistently recorded in association with late spring freshet. Synoptic sampling of the creek in 2020 and 2021 identified a biogeochemical hotspot for organic carbon export in the upper domain of the watershed that contained a prominent fulvic acid-like fluorescent signature. DBP formation potential analyses from this domain yielded similar ratios of regulated DBP classes to those formed at the drinking water facility. Spectrometric qualitative analyses of pre and post-reacted waters with hypochlorite indicated lignin-like and condensed hydrocarbon-like molecules were the major reactive chemical classes during chlorine-based disinfection. This study demonstrates how drinking water quality archives combined with synoptic sampling and targeted analyses can be used to identify and understand export control points for dissolved organic matter. This approach could be applied to identify and characterize analogous watersheds where seasonal or climate-associated organic matter export challenge water treatment disinfection and by extension inform watershed management and drinking water treatment.

Published

2022

27. Stereoscopy of extreme UV quiet Sun brightenings observed by Solar Orbiter/EUI

Author

Zhukov, A. N., Mierla, M., Auchère, F., Gissot, S., Rodriguez, L., Soubrié, E., Thompson, W. T., Inhester, B., Nicula, B., Antolin, P., Parenti, S., Buchlin, É., Barczynski, K., Verbeeck, C., Kraaikamp, E., Smith, P. J., Stegen, K., Dolla, L., Harra, L., Long, D. M., Schühle, U., Podladchikova, O., Cuadrado, R. Aznar, Teriaca, L., Haberreiter, M., Katsiyannis, A. C., Rochus, P., Halain, J. -P., Jacques, L., and Berghmans, D.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The 3D fine structure of the solar atmosphere is still not fully understood as most of the available observations are taken from a single vantage point. The goal of the paper is to study the 3D distribution of small-scale brightening events ("campfires") discovered in the EUV quiet Sun by the Extreme Ultraviolet Imager (EUI) aboard Solar Orbiter. We used a first commissioning data set acquired by the EUI's High Resolution EUV telescope on 30 May 2020 in the 174 {\AA} passband and we combined it with simultaneous data taken by the Atmospheric Imaging Assembly (AIA) aboard the Solar Dynamics Observatory in a similar 171 {\AA} passband. The two-pixel spatial resolution of the two telescopes is 400 km and 880 km, respectively, which is sufficient to identify the campfires in both data sets. The two spacecraft had an angular separation of around 31.5 degrees (essentially in heliographic longitude), which allowed for the 3D reconstruction of the campfire position. These observations represent the first time that stereoscopy was achieved for brightenings at such a small scale. Manual and automatic triangulation methods were used to characterize the campfire data. The height of the campfires is located between 1000 km and 5000 km above the photosphere and we find a good agreement between the manual and automatic methods. The internal structure of campfires is mostly unresolved by AIA; however, for a particularly large campfire, we were able to triangulate a few pixels, which are all in a narrow range between 2500 and 4500 km. The low height of EUI campfires suggests that they belong to the previously unresolved fine structure of the transition region and low corona of the quiet Sun. They are probably apexes of small-scale dynamic loops heated internally to coronal temperatures. This work demonstrates that high-resolution stereoscopy of structures in the solar atmosphere has become feasible.

Published

2021

28. Distinct and Temporally Stable Assembly Mechanisms Shape Bacterial and Fungal Communities in Vineyard Soils

Author

Larsen, Stefano, Albanese, Davide, Stegen, James, Franceschi, Pietro, Coller, E., Zanzotti, Roberto, Ioriatti, Claudio, Stefani, Erika, Pindo, Massimo, Cestaro, Alessandro, and Donati, Claudio

Published

2023

29. HLA-independent T cell receptors for targeting tumors with low antigen density.

Author

Mansilla-Soto, Jorge, Eyquem, Justin, Haubner, Sascha, Hamieh, Mohamad, Feucht, Judith, Paillon, Noémie, Zucchetti, Andrés, Li, Zhuoning, Sjöstrand, Maria, Lindenbergh, Pieter, Saetersmoen, Michelle, Dobrin, Anton, Maurin, Mathieu, Iyer, Archana, Garcia Angus, Andreina, Miele, Matthew, Zhao, Zeguo, Giavridis, Theodoros, van der Stegen, Sjoukje, Tamzalit, Fella, Rivière, Isabelle, Huse, Morgan, Hendrickson, Ronald, Hivroz, Claire, and Sadelain, Michel

Subjects

Animals, Antigens, CD19, Histocompatibility Antigens, Humans, Immunotherapy, Adoptive, Leukemia, Myeloid, Acute, Mice, Receptors, Antigen, T-Cell, Receptors, Chimeric Antigen, Xenograft Model Antitumor Assays

Abstract

Chimeric antigen receptors (CARs) are receptors for antigen that direct potent immune responses. Tumor escape associated with low target antigen expression is emerging as one potential limitation of their efficacy. Here we edit the TRAC locus in human peripheral blood T cells to engage cell-surface targets through their T cell receptor-CD3 complex reconfigured to utilize the same immunoglobulin heavy and light chains as a matched CAR. We demonstrate that these HLA-independent T cell receptors (HIT receptors) consistently afford high antigen sensitivity and mediate tumor recognition beyond what CD28-based CARs, the most sensitive design to date, can provide. We demonstrate that the functional persistence of HIT T cells can be augmented by constitutive coexpression of CD80 and 4-1BBL. Finally, we validate the increased antigen sensitivity afforded by HIT receptors in xenograft mouse models of B cell leukemia and acute myeloid leukemia, targeting CD19 and CD70, respectively. Overall, HIT receptors are well suited for targeting cell surface antigens of low abundance.

Published

2022

30. Meta model application for consistency management of models for avionic systems design

Author

Stegen, Jef, Dutre, Stefan, Guo, Joe Zhensheng, Zeller, Marc, and Rothbauer, Stefan

Subjects

Computer Science - Software Engineering

Abstract

This paper presents the application of a meta model and single underlying model on an applied avionics system design use case. System models, safety assurance cases and safety requirements are maintained in a central repository. This enables to link these data which are originally developed in unrelated tools. By having such a central repository, traceability can be established, and consistency can be ensured, which leads to less errors and a shorter development time. A meta model was constructed which matches the central repository to enable bidirectional synchronization with an external authoring tool.

Published

2021

31. Extreme UV quiet Sun brightenings observed by Solar Orbiter/EUI

Author

Berghmans, D., Auchere, F., Long, D. M., Soubrie, E., Zhukov, M. Mierla A. N., Schuhle, U., Antolin, P., Parenti, L. Harra S., Podladchikova, O., Cuadrado, R. Aznar, Buchlin, E., Dolla, L., Verbeeck, C., Gissot, S., Teriaca, L., Haberreiter, M., Katsiyannis, A. C., Rodriguez, L., Kraaikamp, E., Smith, P. J., Stegen, K., Rochus, P., Halain, J. P., Jacques, L., Thompson, W. T., and Inhester, B.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The goal of this paper is to study the smallest brightening events observed in the EUV quiet Sun. We use commissioning data taken by the EUI instrument onboard the recently launched Solar Orbiter mission. On 2020 May 30, EUI was situated at 0.556AU from the Sun. Its HRIEUV telescope 17.4nm passband reached an exceptionally high two-pixel spatial resolution of 400km. The size and duration of small-scale structures is determined in the HRIEUV data, while their height is estimated from triangulation with the simultaneous SDO/AIA data. This is the first stereoscopy of small scale brightenings at high resolution. We observed small localised brightenings ("campfires") in a quiet Sun region with lengthscales between 400km and 4000km and durations between 10 and 200s. The smallest and weakest of these HRIEUV brightenings have not been observed before. Simultaneous HRILYA observations do not show localised brightening events, but the locations of the HRIEUV events correspond clearly to the chromospheric network. Comparison with simultaneous AIA images shows that most events can also be identified in the 17.1nm, 19.3nm, 21.1nm, and 30.4nm passbands of AIA, although they appear weaker and blurred. DEM analysis indicates coronal temperatures peaking at log(T)~6.1-6.15. We determined the height of a few campfires, which is between 1000 and 5000km above the photosphere. We conclude that "campfires" are mostly coronal in nature and are rooted in the magnetic flux concentrations of the chromospheric network. We interpret these events as a new extension to the flare/microflare/nanoflare family. Given their low height, the EUI "campfires" could be a new element of the fine structure of the transition region/low corona: apexes of small-scale loops that are internally heated to coronal temperatures., Comment: 12 pages, 14 figures

Published

2021

32. Interdisciplinary risk counseling for hereditary breast and ovarian cancer: real-world data from a specialized center

Author

Zang, Benedikt, Helms, Malina, Besch, Laura, Kalmbach, Nanette, Stegen, Stephanie, Blohmer, Jens-Uwe, and Speiser, Dorothee

Published

2023

33. Potential bioavailability of representative pyrogenic organic matter compounds in comparison to natural dissolved organic matter pools

Author

E. B. Graham, H.-S. Song, S. Grieger, V. A. Garayburu-Caruso, J. C. Stegen, K. D. Bladon, and A. N. Myers-Pigg

Subjects

Ecology, QH540-549.5, Life, QH501-531, Geology, QE1-996.5

Abstract

Pyrogenic organic matter (PyOM) from wildfires impacts river corridors globally and is widely regarded as resistant to biological degradation. Though recent work suggests PyOM may be more bioavailable than historically perceived, estimating bioavailability across its chemical spectrum remains elusive. To address this knowledge gap, we assessed potential bioavailability of representative PyOM compounds relative to ubiquitous dissolved organic matter (DOM) with a substrate-explicit model. The range of potential bioavailability of PyOM was greater than natural DOM; however, the predicted thermodynamics, metabolic rates, and carbon use efficiencies (CUEs) overlapped significantly between all OM pools. Compound type (e.g., natural versus PyOM) had approximately 6-fold less impact on predicted respiration rates than simulated carbon and oxygen limitations. Within PyOM, the metabolism of specific chemistries differed strongly between unlimited and oxygen-limited conditions – degradations of anhydrosugars, phenols, and polycyclic aromatic hydrocarbons (PAHs) were more favorable under oxygen limitation than other molecules. Notably, amino sugar-like, protein-like, and lignin-like PyOM had lower carbon use efficiencies relative to natural DOM of the same classes, indicating potential impacts in process-based model representations. Overall, our work illustrates how similar PyOM bioavailability may be to that of natural DOM in the river corridor, furthering our understanding of how PyOM may influence riverine biogeochemical cycling.

Published

2023

34. Maximum respiration rates in hyporheic zone sediments are primarily constrained by organic carbon concentration and secondarily by organic matter chemistry

Author

J. C. Stegen, V. A. Garayburu-Caruso, R. E. Danczak, A. E. Goldman, L. Renteria, J. M. Torgeson, and J. Hager

Subjects

Ecology, QH540-549.5, Life, QH501-531, Geology, QE1-996.5

Abstract

River corridors are fundamental components of the Earth system, and their biogeochemistry can be heavily influenced by processes in subsurface zones immediately below the riverbed, referred to as the hyporheic zone. Within the hyporheic zone, organic matter (OM) fuels microbial respiration, and OM chemistry heavily influences aerobic and anaerobic biogeochemical processes. The link between OM chemistry and respiration has been hypothesized to be mediated by OM molecular diversity, whereby respiration is predicted to decrease with increasing diversity. Here we test the specific prediction that aerobic respiration rates will decrease with increases in the number of unique organic molecules (i.e., OM molecular richness, as a measure of diversity). We use publicly available data across the United States from crowdsourced samples taken by the Worldwide Hydrobiogeochemical Observation Network for Dynamic River Systems (WHONDRS) consortium. Our continental-scale analyses rejected the hypothesis of a direct limitation of respiration by OM molecular richness. In turn, we found that organic carbon (OC) concentration imposes a primary constraint over hyporheic zone respiration, with additional potential influences of OM richness. We specifically observed respiration rates to decrease nonlinearly with the ratio of OM richness to OC concentration. This relationship took the form of a constraint space with respiration rates in most systems falling below the constraint boundary. A similar, but slightly weaker, constraint boundary was observed when relating respiration rate to the inverse of OC concentration. These results indicate that maximum respiration rates may be governed primarily by OC concentration, with secondary influences from OM richness. Our results also show that other variables often suppress respiration rates below the maximum associated with the richness-to-concentration ratio. An important focus of future research will identify physical (e.g., sediment grain size), chemical (e.g., nutrient concentrations), and/or biological (e.g., microbial biomass) factors that suppress hyporheic zone respiration below the constraint boundaries observed here.

Published

2023

35. Linkages Between Mineral Element Composition of Soils and Sediments With Hyporheic Zone Dissolved Organic Matter Chemistry Across the Contiguous United States

Author

J. Alan Roebuck Jr., Kenton A. Rod, Vanessa A. Garayburu‐Caruso, Rosalie K. Chu, Amy E. Goldman, Lupita Renteria, Micah Taylor, and James C. Stegen

Subjects

hyporheic zone, continental, crowdsourced data, organo‐mineral interactions, river corridor, hydro‐biogeochemistry, Geophysics. Cosmic physics, QC801-809

Abstract

Abstract The hyporheic zone is a hotspot for biogeochemical cycling where interactions with mineral metals preserve the release and biodegradation of organic matter (OM). A small fraction of OM can still be exchanged between localized sediments and the overlying water column, and recent evidence suggests there exists a longitudinal structuring in sediment dissolved OM (DOM) chemistry across the continental United States (CONUS). In this study, we tested a hypothesis that water extractable sediment DOM chemistry could be explained by sediment metal contents and integrative watershed scale features at the CONUS scale. Crowdsourced samples were characterized for high resolution mass spectrometry and coupled with sediment metals determined via x‐ray fluorescence as well as with land cover and soil elemental information obtained from national databases. Our results highlight weak relationships between DOM chemistry and elemental composition at the CONUS scale indicating limited transferability of organo‐metal linkages into multi‐scale hydrobiogeochemical models.

Published

2024

36. iKNOW—Supporting the counseling of women with hereditary risk of breast and ovarian cancer with digital technologies: A randomized controlled trial

Author

Markus A. Feufel, Dorothee Speiser, Stephen Schüürhuis, Konrad Neumann, Marie Keinert, Steffi Stegen, Gudrun Rauwolf, Maren Heibges, Viola Westfal, Laura Besch, Christine Olbrich, Katharina Klein, Isabell Witzel, and Friederike Kendel

Subjects

Digital health, Genetic counseling, Gynecology, Hereditary cancer, Risk communication, Genetics, QH426-470, Medicine

Abstract

Purpose: We developed the online-based counseling tool iKNOW for women with a pathogenic germline variant in BRCA1/2 to improve risk understanding and quality of life. Methods: With a randomized controlled trial, we investigated the efficacy of iKNOW with regard to risk understanding (primary endpoint), quality of life, risk perception, and anxiety (secondary endpoints). Self-report questionnaires were administered to N = 217 women with a pathogenic variant in BRCA1/2 before counseling (T0), immediately after (T1), 4 weeks after (T2), and 6 months after (T3). Result: Deviations between self-assessed and calculated cancer risks tended to be smaller in the intervention group than in the control group but no longer significantly after adjustment for multiple testing. In the intervention group, the proportion of women with a correct understanding of breast cancer risk at T3 was higher (30.7% vs 14.7%; P = .032). There were no differences in secondary endpoints. Conclusion: iKNOW tends to positively influence the understanding of familial cancer risk. At the same time, it does not negatively influence any of the secondary endpoints. However, converging evidence suggests that iKNOW seems to affect the quality of counseling processes and can thus be used as a paradigm for reinventing the notion of efficient, digital care.

Published

2024

37. Annihilating Dark Matter Search with 12 Years of Fermi LAT Data in Nearby Galaxy Clusters

Author

Thorpe-Morgan, Charles, Malyshev, Denys, Stegen, Christoph-Alexander, Santangelo, Andrea, and Jochum, Josef

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Galaxy clusters are the largest virialised objects in the Universe, and as such, have a high dark matter (DM) concentration. This abundance of dark matter makes them promising targets for indirect DM searches. Here we report the details of a search, utilising almost 12~years of Fermi/LAT data, for gamma ray signatures from the pair annihilation of WIMP dark matter in the GeV energy band. From this, we present the constraints on the annihilation cross section for the bb-bar, W+W- and gamma-gamma channels, derived from the non-detection of a characteristic signal from five nearby high galactic latitude galaxy clusters (Centaurus, Coma, Virgo, Perseus and Fornax). We discuss the potential of a boost to the signal due the presence of substructures in the DM halos of selected objects, as well as the impact of uncertainties in DM profiles on the presented results. We assert that the obtained limits are, within a small factor, comparable to the best available limits of those based on Fermi/LAT observations of dwarf spheroidal galaxies.

Published

2020

38. Fast, Lifetime-Preserving Readout for High-Coherence Quantum Annealers

Author

Grover, Jeffrey A., Basham, James I., Marakov, Alexander, Disseler, Steven M., Hinkey, Robert T., Khalil, Moe, Stegen, Zachary A., Chamberlin, Thomas, DeGottardi, Wade, Clarke, David J., Medford, James R., Strand, Joel D., Stoutimore, Micah J. A., Novikov, Sergey, Ferguson, David G., Lidar, Daniel, Zick, Kenneth M., and Przybysz, Anthony J.

Subjects

Quantum Physics

Abstract

We demonstrate, for the first time, that a quantum flux parametron (QFP) is capable of acting as both isolator and amplifier in the readout circuit of a capacitively shunted flux qubit (CSFQ). By treating the QFP like a tunable coupler and biasing it such that the coupling is off, we show that $T_1$ of the CSFQ is not impacted by Purcell loss from its low-Q readout resonator ($Q_e = 760$) despite being detuned by only $40$ MHz. When annealed, the QFP amplifies the qubit's persistent current signal such that it generates a flux qubit-state-dependent frequency shift of $85$ MHz in the readout resonator, which is over $9$ times its linewidth. The device is shown to read out a flux qubit in the persistent current basis with fidelities surpassing $98.6\%$ with only $80$ ns integration, and reaches fidelities of $99.6\%$ when integrated for $1$ $\mu$s. This combination of speed and isolation is critical to the readout of high-coherence quantum annealers., Comment: 14 pages, 11 figures; version accepted for publication in PRX Quantum

Published

2020

39. Osteocyte Egln1/Phd2 links oxygen sensing and biomineralization via FGF23

Author

Noonan, Megan L., Ni, Pu, Solis, Emmanuel, Marambio, Yamil G., Agoro, Rafiou, Chu, Xiaona, Wang, Yue, Gao, Hongyu, Xuei, Xiaoling, Clinkenbeard, Erica L., Jiang, Guanglong, Liu, Sheng, Stegen, Steve, Carmeliet, Geert, Thompson, William R., Liu, Yunlong, Wan, Jun, and White, Kenneth E.

Published

2023

40. Harmonized and Open Energy Dataset for Modeling a Highly Renewable Brazilian Power System

Author

Deng, Ying, Cao, Karl-Kiên, Hu, Wenxuan, Stegen, Ronald, von Krbek, Kai, Soria, Rafael, Rochedo, Pedro Rua Rodriguez, and Jochem, Patrick

Published

2023

41. Sample Identifiers and Metadata to Support Data Management and Reuse in Multidisciplinary Ecosystem Sciences

Author

Damerow, Joan E, Varadharajan, Charuleka, Boye, Kristin, Brodie, Eoin L, Burrus, Madison, Chadwick, K Dana, Crystal-Ornelas, Robert, Elbashandy, Hesham, Alves, Ricardo J Eloy, Ely, Kim S, Goldman, Amy E, Haberman, Ted, Hendrix, Valerie, Kakalia, Zarine, Kemner, Kenneth M, Kersting, Annie B, Merino, Nancy, O'Brien, Fianna, Perzan, Zach, Robles, Emily, Sorensen, Patrick, Stegen, James C, Walls, Ramona L, Weisenhorn, Pamela, Zavarin, Mavrik, and Agarwal, Deborah

Subjects

Artificial Intelligence and Image Processing, Data Format, Computation Theory & Mathematics

Abstract

Physical samples are foundational entities for research across biological, Earth, and environmental sciences. Data generated from sample-based analyses are not only the basis of individual studies, but can also be integrated with other data to answer new and broader-scale questions. Ecosystem studies increasingly rely on multidisciplinary team-science to study climate and environmental changes. While there are widely adopted conventions within certain domains to describe sample data, these have gaps when applied in a multidisciplinary context. In this study, we reviewed existing practices for identifying, characterizing, and linking related environmental samples. We then tested practicalities of assigning persistent identifiers to samples, with standardized metadata, in a pilot field test involving eight United States Department of Energy projects. Participants collected a variety of sample types, with analyses conducted across multiple facilities. We address terminology gaps for multidisciplinary research and make recommendations for assigning identifiers and metadata that supports sample tracking, integration, and reuse. Our goal is to provide a practical approach to sample management, geared towards ecosystem scientists who contribute and reuse sample data. (IGSN); physical samples; soil; water; plant; leaf; microbial communities; related identifiers; persistent identifiers.

Published

2021

42. Ecological Assembly Processes Are Coordinated between Bacterial and Viral Communities in Fractured Shale Ecosystems

Author

Danczak, RE, Daly, RA, Borton, MA, Stegen, JC, Roux, S, Wrighton, KC, and Wilkins, MJ

Subjects

2.2 Factors relating to the physical environment, Aetiology, hydraulic fracturing, microbial ecology, null modeling, shale, viral ecology

Abstract

The ecological drivers that concurrently act upon both a virus and its host and that drive community assembly are poorly understood despite known interactions between viral populations and their microbial hosts. Hydraulically fractured shale environments provide access to a closed ecosystem in the deep subsurface where constrained microbial and viral community assembly processes can be examined. Here, we used metagenomic analyses of time-resolved-produced fluid samples from two wells in the Appalachian Basin to track viral and host dynamics and to investigate community assembly processes. Hypersaline conditions within these ecosystems should drive microbial community structure to a similar configuration through time in response to common osmotic stress. However, viral predation appears to counterbalance this potentially strong homogeneous selection and pushes the microbial community toward undominated assembly. In comparison, while the viral community was also influenced by substantial undominated processes, it assembled, in part, due to homogeneous selection. When the overall assembly processes acting upon both these communities were directly compared with each other, a significant relationship was revealed, suggesting an association between microbial and viral community development despite differing selective pressures. These results reveal a potentially important balance of ecological dynamics that must be in maintained within this deep subsurface ecosystem in order for the microbial community to persist over extended time periods. More broadly, this relationship begins to provide knowledge underlying metacommunity development across trophic levels.IMPORTANCE Interactions between viral communities and their microbial hosts have been the subject of many recent studies in a wide range of ecosystems. The degree of coordination between ecological assembly processes influencing viral and microbial communities, however, has been explored to a much lesser degree. By using a combined null modeling approach, this study investigated the ecological assembly processes influencing both viral and microbial community structure within hydraulically fractured shale environments. Among other results, significant relationships between the structuring processes affecting both the viral and microbial community were observed, indicating that ecological assembly might be coordinated between these communities despite differing selective pressures. Within this deep subsurface ecosystem, these results reveal a potentially important balance of ecological dynamics that must be maintained to enable long-term microbial community persistence. More broadly, this relationship begins to provide insight into the development of communities across trophic levels.

Published

2020

43. Harmonized and Open Energy Dataset for Modeling a Highly Renewable Brazilian Power System

Author

Ying Deng, Karl-Kiên Cao, Wenxuan Hu, Ronald Stegen, Kai von Krbek, Rafael Soria, Pedro Rua Rodriguez Rochedo, and Patrick Jochem

Subjects

Science

Abstract

Abstract Improvements in modelling energy systems of populous emerging economies are highly decisive for a successful global energy transition. The models used–increasingly open source–still need more appropriate open data. As an illustrative example, we take the Brazilian energy system, which has great potential for renewable energy resources but still relies heavily on fossil fuels. We provide a comprehensive open dataset for scenario analyses, which can be directly used with the popular open energy system model PyPSA and other modelling frameworks. It includes three categories: (1) time series data of variable renewable potentials, electricity load profiles, inflows for the hydropower plants, and cross-border electricity exchanges; (2) geospatial data on the administrative division of the Brazilian federal states; (3) tabular data, which contains power plant data with installed and planned generation capacities, aggregated grid network topology, biomass thermal plant potential, as well as scenarios of energy demand. Our dataset could enable further global or country-specific energy system studies based on open data relevant to decarbonizing Brazil’s energy system.

Published

2023

44. Osteocyte Egln1/Phd2 links oxygen sensing and biomineralization via FGF23

Author

Megan L. Noonan, Pu Ni, Emmanuel Solis, Yamil G. Marambio, Rafiou Agoro, Xiaona Chu, Yue Wang, Hongyu Gao, Xiaoling Xuei, Erica L. Clinkenbeard, Guanglong Jiang, Sheng Liu, Steve Stegen, Geert Carmeliet, William R. Thompson, Yunlong Liu, Jun Wan, and Kenneth E. White

Subjects

Biology (General), QH301-705.5, Physiology, QP1-981

Abstract

Abstract Osteocytes act within a hypoxic environment to control key steps in bone formation. FGF23, a critical phosphate-regulating hormone, is stimulated by low oxygen/iron in acute and chronic diseases, however the molecular mechanisms directing this process remain unclear. Our goal was to identify the osteocyte factors responsible for FGF23 production driven by changes in oxygen/iron utilization. Hypoxia-inducible factor-prolyl hydroxylase inhibitors (HIF-PHI) which stabilize HIF transcription factors, increased Fgf23 in normal mice, as well as in osteocyte-like cells; in mice with conditional osteocyte Fgf23 deletion, circulating iFGF23 was suppressed. An inducible MSC cell line (‘MPC2’) underwent FG-4592 treatment and ATACseq/RNAseq, and demonstrated that differentiated osteocytes significantly increased HIF genomic accessibility versus progenitor cells. Integrative genomics also revealed increased prolyl hydroxylase Egln1 (Phd2) chromatin accessibility and expression, which was positively associated with osteocyte differentiation. In mice with chronic kidney disease (CKD), Phd1-3 enzymes were suppressed, consistent with FGF23 upregulation in this model. Conditional loss of Phd2 from osteocytes in vivo resulted in upregulated Fgf23, in line with our findings that the MPC2 cell line lacking Phd2 (CRISPR Phd2-KO cells) constitutively activated Fgf23 that was abolished by HIF1α blockade. In vitro, Phd2-KO cells lost iron-mediated suppression of Fgf23 and this activity was not compensated for by Phd1 or −3. In sum, osteocytes become adapted to oxygen/iron sensing during differentiation and are directly sensitive to bioavailable iron. Further, Phd2 is a critical mediator of osteocyte FGF23 production, thus our collective studies may provide new therapeutic targets for skeletal diseases involving disturbed oxygen/iron sensing.

Published

2023

45. Spatial and temporal metagenomics of river compartments reveals viral community dynamics in an urban impacted stream

Author

Josué Rodríguez-Ramos, Angela Oliverio, Mikayla A. Borton, Robert Danczak, Birgit M. Mueller, Hanna Schulz, Jared Ellenbogen, Rory M. Flynn, Rebecca A. Daly, LeAundra Schopflin, Michael Shaffer, Amy Goldman, Joerg Lewandowski, James C. Stegen, and Kelly C. Wrighton

Subjects

phage, time-series, auxiliary metabolic genes, hyporheic zone, genome, biogeochemistry, Microbial ecology, QR100-130

Abstract

Although river ecosystems constitute a small fraction of Earth’s total area, they are critical modulators of microbially and virally orchestrated global biogeochemical cycles. However, most studies either use data that is not spatially resolved or is collected at timepoints that do not reflect the short life cycles of microorganisms. To address this gap, we assessed how viral and microbial communities change over a 48-hour period by sampling surface water and pore water compartments of the wastewater-impacted River Erpe in Germany. We sampled every 3 hours resulting in 32 samples for which we obtained metagenomes along with geochemical and metabolite measurements. From our metagenomes, we identified 6,500 viral and 1,033 microbial metagenome assembled genomes (MAGs) and found distinct community membership and abundance associated with each river compartment (e.g., Competibacteraceae in surfacewater and Sulfurimonadaceae in pore water). We show that 17% of our viral MAGs clustered to viruses from other ecosystems like wastewater treatment plants and rivers. Our results also indicated that 70% of the viral community was persistent in surface waters, whereas only 13% were persistent in the pore waters taken from the hyporheic zone. Finally, we predicted linkages between 73 viral genomes and 38 microbial genomes. These putatively linked hosts included members of the Competibacteraceae, which we suggest are potential contributors to river carbon and nitrogen cycling via denitrification and nitrogen fixation. Together, these findings demonstrate that members of the surface water microbiome from this urban river are stable over multiple diurnal cycles. These temporal insights raise important considerations for ecosystem models attempting to constrain dynamics of river biogeochemical cycles.

Published

2023

46. Riverine organic matter functional diversity increases with catchment size

Author

Robert E. Danczak, Vanessa A. Garayburu-Caruso, Lupita Renteria, Sophia A. McKever, Opal C. Otenburg, Samantha R. Grieger, Kyongho Son, Matthew H. Kaufman, Stephanie G. Fulton, J. Alan Roebuck, Allison N. Myers-Pigg, and James C. Stegen

Subjects

dissolved organic matter, FTICR-MS, functional diversity, meta-metabolome ecology, transformation analysis, Environmental technology. Sanitary engineering, TD1-1066

Abstract

A large amount of dissolved organic matter (DOM) is transported to the ocean from terrestrial inputs each year (~0.95 Pg C per year) and undergoes a series of abiotic and biotic reactions, causing a significant release of CO2. Combined, these reactions result in variable DOM characteristics (e.g., nominal oxidation state of carbon, double-bond equivalents, chemodiversity) which have demonstrated impacts on biogeochemistry and ecosystem function. Despite this importance, however, comparatively few studies focus on the drivers for DOM chemodiversity along a riverine continuum. Here, we characterized DOM within samples collected from a stream network in the Yakima River Basin using ultrahigh-resolution mass spectrometry (i.e., FTICR-MS). To link DOM chemistry to potential function, we identified putative biochemical transformations within each sample. We also used various molecular characteristics (e.g., thermodynamic favorability, degradability) to calculate a series of functional diversity metrics. We observed that the diversity of biochemical transformations increased with increasing upstream catchment area and landcover. This increase was also connected to expanding functional diversity of the molecular formula. This pattern suggests that as molecular formulas become more diverse in thermodynamics or degradability, there is increased opportunity for biochemical transformations, potentially creating a self-reinforcing cycle where transformations in turn increase diversity and diversity increase transformations. We also observed that these patterns are, in part, connected to landcover whereby the occurrence of many landcover types (e.g., agriculture, urban, forest, shrub) could expand DOM functional diversity. For example, we observed that a novel functional diversity metric measuring similarity to common freshwater molecular formulas (i.e., carboxyl-rich alicyclic molecules) was significantly related to urban coverage. These results show that DOM diversity does not decrease along stream networks, as predicted by a common conceptual model known as the River Continuum Concept, but rather are influenced by the thermodynamic and degradation potential of molecular formula within the DOM, as well as landcover patterns.

Published

2023

47. Exploring the determinants of organic matter bioavailability through substrate-explicit thermodynamic modeling

Author

Firnaaz Ahamed, Yaqi You, Amy Burgin, James C. Stegen, Timothy D. Scheibe, and Hyun-Seob Song

Subjects

river biogeochemistry, organic matter bioavailability, chemical traits, thermodynamic favorability, model optimization, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Microbial decomposition of organic matter (OM) in river corridors is a major driver of nutrient and energy cycles in natural ecosystems. Recent advances in omics technologies enabled high-throughput generation of molecular data that could be used to inform biogeochemical models. With ultrahigh-resolution OM data becoming more readily available, in particular, the substrate-explicit thermodynamic modeling (SXTM) has emerged as a promising approach due to its ability to predict OM degradation and respiration rates from chemical formulae of compounds. This model implicitly assumes that all detected organic compounds are bioavailable, and that aerobic respiration is driven solely by thermodynamics. Despite promising demonstrations in previous studies, these assumptions may not be universally valid because OM degradation is a complex process governed by multiple factors. To identify key drivers of OM respiration, we performed a comprehensive analysis of diverse river systems using Fourier-transform ion cyclotron resonance mass spectrometry OM data and associated respiration measurements collected by the Worldwide Hydrobiogeochemistry Observation Network for Dynamic River Systems (WHONDRS) consortium. In support of our argument, we found that the incorporation of all compounds detected in the samples into the SXTM resulted in a poor correlation between the predicted and measured respiration rates. The data-model consistency was significantly improved by the selective use of a small subset (i.e., only about 5%) of organic compounds identified using an optimization method. Through a subsequent comparative analysis of the subset of compounds (which we presume as bioavailable) against the full set of compounds, we identified three major traits that potentially determine OM bioavailability, including: (1) thermodynamic favorability of aerobic respiration, (2) the number of C atoms contained in compounds, and (2) carbon/nitrogen (C/N) ratio. We found that all three factors serve as “filters” in that the compounds with undesirable properties in any of these traits are strictly excluded from the bioavailable fraction. This work highlights the importance of accounting for the complex interplay among multiple key traits to increase the predictive power of biogeochemical and ecosystem models.

Published

2023

48. Evaluation of the Effects of an Undenatured Collagen Type-2-Based Nutraceutical (ARTHROSHINE® HA²) on Recovery Time after TPLO in Dogs: A Prospective, Randomized Study with Objective Gait Analysis as the Primary Outcome Measure

Author

Maria Assies, Björn Berger, Bente Stegen, Thomas Rohwedder, Marcus Doherr, and Peter Böttcher

Subjects

TPLO, undenatured collagen type 2, gait analysis, LOAD, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

This randomized, prospective clinical trial investigates the impact of a novel undenatured collagen type 2 (T2NDC)-based nutraceutical, ARTHROSHINE® HA² (AS), on postoperative rehabilitation following Tibial Plateau Leveling Osteotomy (TPLO) in 50 dogs with unilateral cranial cruciate ligament rupture (CCLR). The patients were randomly allocated to either group A, receiving AS once daily for 24 weeks post-TPLO surgery, or group B, without any supplementation. Frequency matching was applied to enhance group comparability. Assessment of outcomes included computerized gait analysis and a validated owner questionnaire. AS supplementation was well received, without any reported side effect. Consistently, patients in group A exhibited significantly higher peak vertical force values during all follow-up assessments. By the 12-week mark, gait analysis indicated a return to a physiological gait pattern in group A, while group B achieved this normalization only by the 24-week point. The administration of AS post-TPLO surgery demonstrates promise in enhancing limb function, leading to faster restoration of a physiological gait pattern. The inclusion of AS, a T2NDC-based nutraceutical, in the post-TPLO rehabilitation protocol may contribute to improved limb function and an expedited recovery, potentially facilitating a quicker return to normalcy. It is noteworthy that subjective owner perceptions did not differ between the two groups.

Published

2024

49. CAR T cell trogocytosis and cooperative killing regulate tumour antigen escape.

Author

Hamieh, Mohamad, Dobrin, Anton, Cabriolu, Annalisa, van der Stegen, Sjoukje, Giavridis, Theodoros, Mansilla-Soto, Jorge, Eyquem, Justin, Zhao, Zeguo, Whitlock, Benjamin, Miele, Matthew, Li, Zhuoning, Cunanan, Kristen, Huse, Morgan, Hendrickson, Ronald, Wang, Xiuyan, Rivière, Isabelle, and Sadelain, Michel

Subjects

4-1BB Ligand, Animals, Antigens, Neoplasm, CD28 Antigens, Cytotoxicity, Immunologic, Female, Immunotherapy, Adoptive, Leukemia, Male, Mice, Mice, Inbred NOD, Neoplasm Recurrence, Local, Receptors, Chimeric Antigen, T-Lymphocytes, Tumor Escape

Abstract

Chimeric antigen receptors (CARs) are synthetic antigen receptors that reprogram T cell specificity, function and persistence1. Patient-derived CAR T cells have demonstrated remarkable efficacy against a range of B-cell malignancies1-3, and the results of early clinical trials suggest activity in multiple myeloma4. Despite high complete response rates, relapses occur in a large fraction of patients; some of these are antigen-negative and others are antigen-low1,2,4-9. Unlike the mechanisms that result in complete and permanent antigen loss6,8,9, those that lead to escape of antigen-low tumours remain unclear. Here, using mouse models of leukaemia, we show that CARs provoke reversible antigen loss through trogocytosis, an active process in which the target antigen is transferred to T cells, thereby decreasing target density on tumour cells and abating T cell activity by promoting fratricide T cell killing and T cell exhaustion. These mechanisms affect both CD28- and 4-1BB-based CARs, albeit differentially, depending on antigen density. These dynamic features can be offset by cooperative killing and combinatorial targeting to augment tumour responses to immunotherapy.

Published

2019

50. Organic matter transformations are disconnected between surface water and the hyporheic zone

Author

J. C. Stegen, S. J. Fansler, M. M. Tfaily, V. A. Garayburu-Caruso, A. E. Goldman, R. E. Danczak, R. K. Chu, L. Renteria, J. Tagestad, and J. Toyoda

Subjects

Ecology, QH540-549.5, Life, QH501-531, Geology, QE1-996.5

Abstract

Biochemical transformations of organic matter (OM) are a primary driver of river corridor biogeochemistry, thereby modulating ecosystem processes at local to global scales. OM transformations are driven by diverse biotic and abiotic processes, but we lack knowledge of how the diversity of those processes varies across river corridors and across surface and subsurface components of river corridors. To fill this gap we quantified the number of putative biotic and abiotic transformations of organic molecules across diverse river corridors using ultra-high-resolution mass spectrometry. The number of unique transformations is used here as a proxy for the diversity of biochemical processes underlying observed profiles of organic molecules. For this, we use public data spanning the contiguous United States (ConUS) from the Worldwide Hydrobiogeochemical Observation Network for Dynamic River Systems (WHONDRS) consortium. Our results show that surface water OM had more biotic and abiotic transformations than OM from shallow hyporheic zone sediments (1–3 cm depth). We observed substantially more biotic than abiotic transformations, and the numbers of biotic and abiotic transformations were highly correlated with each other. We found no relationship between the number of transformations in surface water and sediments and no meaningful relationships with latitude, longitude, or climate. We also found that the composition of transformations in sediments was not linked with transformation composition in adjacent surface waters. We infer that OM transformations represented in surface water are an integrated signal of diverse processes occurring throughout the upstream catchment. In contrast, OM transformations in sediments likely reflect a narrower range of processes within the sampled volume. This indicates decoupling between the processes influencing surface water and sediment OM, despite the potential for hydrologic exchange to homogenize OM. We infer that the processes influencing OM transformations and the scales at which they operate diverge between surface water and sediments.

Published

2022