Publications by authors named "A Trautwein-Schult"
Article Synopsis
- Gracilibacteria are a group of bacteria that are part of the candidate phyla radiation (CPR), characterized by small size and incomplete metabolic pathways, indicating a potential symbiotic lifestyle, and their roles in ecosystems, especially in groundwater, are still largely unknown.
- The study utilized metagenomic and metaproteomic analyses over a 12-day period at a cold-water geyser in Germany to observe the activity and genetic expression of Gracilibacteria, identifying multiple genomes and their interactions with other microbial communities.
- The findings revealed that Gracilibacteria possess genomic traits suggesting limited metabolic functions and a reliance on host organisms for survival, as indicated by a high number of genes related to cell interaction and motility.
Ecosystems subject to mantle degassing are of particular interest for understanding global biogeochemistry, as their microbiomes are shaped by prolonged exposure to high CO and have recently been suggested to be highly active. While the genetic diversity of bacteria and archaea in these deep biosphere systems have been studied extensively, little is known about how viruses impact these microbial communities. Here, we show that the viral community in a high-CO cold-water geyser (Wallender Born, Germany) undergoes substantial fluctuations over a period of 12 days, although the corresponding prokaryotic community remains stable, indicating a newly observed "infect to keep in check" strategy that maintains prokaryotic community structure.
View Article and Find Full Text PDFUnveiling the role of novel carbohydrate-binding modules in laminarin interaction of multimodular proteins from marine Bacteroidota during phytoplankton blooms.
Environ Microbiol
May 2024
Laminarin, a β(1,3)-glucan, serves as a storage polysaccharide in marine microalgae such as diatoms. Its abundance, water solubility and simple structure make it an appealing substrate for marine bacteria. Consequently, many marine bacteria have evolved strategies to scavenge and decompose laminarin, employing carbohydrate-binding modules (CBMs) as crucial components.
View Article and Find Full Text PDFPhytoplankton blooms provoke bacterioplankton blooms, from which bacterial biomass (necromass) is released via increased zooplankton grazing and viral lysis. While bacterial consumption of algal biomass during blooms is well-studied, little is known about the concurrent recycling of these substantial amounts of bacterial necromass. We demonstrate that bacterial biomass, such as bacterial alpha-glucan storage polysaccharides, generated from the consumption of algal organic matter, is reused and thus itself a major bacterial carbon source in vitro and during a diatom-dominated bloom.
View Article and Find Full Text PDFArticle Synopsis
- - Marine microalgae, or phytoplankton, are crucial in global carbon cycling as they fix nearly half of the world's carbon dioxide through photosynthesis, especially during significant blooms where their biomass is composed mainly of polysaccharides.
- - A study analyzed polysaccharide-degrading bacteria during a phytoplankton bloom, revealing distinct groups of bacteria based on size: smaller free-living bacteria and larger particle-attached ones, with the latter showing greater diversity and adaptive changes over time.
- - The research produced 305 species-level genomes, including 152 from particle-attached bacteria, many of which were novel to the area; these genomes indicated a greater capacity for utilizing a wider range of polysaccharides, showcasing their