Your search keyword '"Fuß, Janina"' showing total 5 results

1. Meta-transcriptomic comparison of two sponge holobionts feeding on coral- and macroalgal-dissolved organic matter

Author

European Commission, Ministerio de Ciencia e Innovación (España), University of Amsterdam, Campana, Sara, Riesgo Gil, Ana, Jongepier, Evelien, Fuss, Janina, Muyzer, Gerard, de Goeij, Jasper M., European Commission, Ministerio de Ciencia e Innovación (España), University of Amsterdam, Campana, Sara, Riesgo Gil, Ana, Jongepier, Evelien, Fuss, Janina, Muyzer, Gerard, and de Goeij, Jasper M.

Abstract

[Background] Sponge holobionts (i.e., the host and its associated microbiota) play a key role in the cycling of dissolved organic matter (DOM) in marine ecosystems. On coral reefs, an ecological shift from coral-dominated to algal-dominated ecosystems is currently occurring. Given that benthic corals and macroalgae release different types of DOM, in different abundances and with different bioavailability to sponge holobionts, it is important to understand how the metabolic activity of the host and associated microbiota change in response to the exposure to both DOM sources. Here, we look at the differential gene expression of two sponge holobionts 6 hours after feeding on naturally sourced coral- and macroalgal-DOM using RNA sequencing and meta-transcriptomic analysis., [Results] We found a slight, but significant differential gene expression in the comparison between the coral- and macroalgal-DOM treatments in both the high microbial abundance sponge Plakortis angulospiculatus and the low microbial abundance sponge Haliclona vansoesti. In the hosts, processes that regulate immune response, signal transduction, and metabolic pathways related to cell proliferation were elicited. In the associated microbiota carbohydrate metabolism was upregulated in both treatments, but coral-DOM induced further lipid and amino acids biosynthesis, while macroalgal-DOM caused a stress response. These differences could be driven by the presence of distinct organic macronutrients in the two DOM sources and of small pathogens or bacterial virulence factors in the macroalgal-DOM., [Conclusions] This work provides two new sponge meta-transcriptomes and a database of putative genes and genetic pathways that are involved in the differential processing of coral- versus macroalgal-DOM as food source to sponges with high and low abundances of associated microbes. These pathways include carbohydrate metabolism, signaling pathways, and immune responses. However, the differences in the meta-transcriptomic responses of the sponge holobionts after 6 hours of feeding on the two DOM sources were small. Longer-term responses to both DOM sources should be assessed to evaluate how the metabolism and the ecological function of sponges will be affected when reefs shift from coral towards algal dominance.

Published

2022

2. Differential microRNA expression analyses across two brain regions in Alzheimer's disease.

Author

Dobricic, Valerija, Schilling, Marcel, Schulz, Jessica, Zhu, Ling-Shuang, Zhou, Chao-Wen, Fuß, Janina, Franzenburg, Sören, Zhu, Ling-Qiang, Parkkinen, Laura, Lill, Christina M., and Bertram, Lars

Published

2022

3. Carotenoids are used as regulators for membrane fluidity by Staphylococcus xylosus.

Author

Seel, Waldemar, Baust, Denise, Sons, Dominik, Albers, Maren, Etzbach, Lara, Fuss, Janina, and Lipski, André

Subjects

CAROTENOIDS, FLUIDITY of biological membranes, STAPHYLOCOCCUS, OXIDATIVE stress, COLD adaptation

Abstract

Carotenoids are associated with several important biological functions as antenna pigments in photosynthesis or protectives against oxidative stress. Occasionally they were also discussed as part of the cold adaptation mechanism of bacteria. For two Staphylococcus xylosus strains we demonstrated an increased content of staphyloxanthin and other carotenoids after growth at 10 °C but no detectable carotenoids after grow at 30 °C. By in vivo measurements of generalized polarization and anisotropy with two different probes Laurdan and TMA-DPH we detected a strong increase in membrane order with a simultaneous increase in membrane fluidity at low temperatures accompanied by a broadening of the phase transition. Increased carotenoid concentration was also correlated with an increased resistance of the cells against freeze-thaw stress. In addition, the fatty acid profile showed a moderate adaptation to low temperature by increasing the portion of anteiso-branched fatty acids. The suppression of carotenoid synthesis abolished the effects observed and thus confirmed the causative function of the carotenoids in the modulation of membrane parameters. A differential transcriptome analysis demonstrated the upregulation of genes involved in carotenoid syntheses under low temperature growth conditions. The presented data suggests that upregulated synthesis of carotenoids is a constitutive component in the cold adaptation strategy of Staphylococcus xylosus and combined with modifications of the fatty acid profile constitute the adaptation to grow under low temperature conditions. [ABSTRACT FROM AUTHOR]

Published

2020

4. Interplay and Targetome of the Two Conserved Cyanobacterial sRNAs Yfr1 and Yfr2 in Prochlorococcus MED4.

Author

Lambrecht, S. Joke, Kanesaki, Yu, Fuss, Janina, Huettel, Bruno, Reinhardt, Richard, and Steglich, Claudia

Subjects

NON-coding RNA, CYANOBACTERIA, CROSSTALK, GENE expression, PROCHLOROCOCCUS, METABOLISM

Abstract

The sRNA Yfr1 and members of the Yfr2 sRNA family are almost universally present within cyanobacteria. The conserved motifs of these sRNAs are nearly complementary to each other, suggesting their ability to participate in crosstalk. The conserved motif of Yfr1 is shared by members of the Yfr10 sRNA family, members of which are otherwise less conserved in sequence, structure, and synteny compared to Yfr1. The different structural properties enable the discrimination of unique targets of Yfr1 and Yfr10. Unlike most studied regulatory sRNAs, Yfr1 gene expression only slightly changes under the tested stress conditions and is present at high levels at all times. In contrast, cellular levels of Yfr10 increase during the course of acclimation to darkness, and levels of Yfr2 increase when cells are shifted to high light or nitrogen limitation conditions. In this study, we investigated the targetomes of Yfr2, Yfr1, and Yfr10 in Prochlorococcus MED4, establishing CRAFD-Seq as a new method for identifying direct targets of these sRNAs that is applicable to all bacteria, including those that are not amenable to genetic modification. The results suggest that these sRNAs are integrated within a regulatory network of unprecedented complexity in the adjustment of carbon and nitrogen-related primary metabolism. [ABSTRACT FROM AUTHOR]

Published

2019

5. Linked-read sequencing of gametes allows efficient genome-wide analysis of meiotic recombination.

Author

Sun, Hequan, Rowan, Beth A., Flood, Pádraic J., Brandt, Ronny, Fuss, Janina, Hancock, Angela M., Michelmore, Richard W., Huettel, Bruno, and Schneeberger, Korbinian

Subjects

GENETIC recombination, GAMETES, CHROMOSOME segregation, ARABIDOPSIS thaliana, PLANT genomes, POLLEN

Abstract

Meiotic crossovers (COs) ensure proper chromosome segregation and redistribute the genetic variation that is transmitted to the next generation. Large populations and the demand for genome-wide, fine-scale resolution challenge existing methods for CO identification. Taking advantage of linked-read sequencing, we develop a highly efficient method for genome-wide identification of COs at kilobase resolution in pooled recombinants. We first test this method using a pool of Arabidopsis F2 recombinants, and recapitulate results obtained from the same plants using individual whole-genome sequencing. By applying this method to a pool of pollen DNA from an F1 plant, we establish a highly accurate CO landscape without generating or sequencing a single recombinant plant. The simplicity of this approach enables the simultaneous generation and analysis of multiple CO landscapes, accelerating the pace at which mechanisms for the regulation of recombination can be elucidated through efficient comparisons of genotypic and environmental effects on recombination. Meiotic crossovers (COs) generate genetic variation and ensure proper chromosome segregation. Here, the authors develop a method for identifying COs at kilobase resolution in pooled recombinants using linked-read sequencing data, and apply it to investigate genome-wide CO landscapes of Arabidopsis thaliana. [ABSTRACT FROM AUTHOR]

Published

2019