Metaproteomics reveals functional partitioning and vegetational variation among permafrost-affected Arctic soil bacterial communities

Abstract: Microbial activity in Arctic soils controls the cycling of significant stores of organic carbon and nutrients. We studied in situ processes in Alaskan soils using original metaproteomic methods in order to relate important heterotrophic functions to microbial taxa and to understand the microbial response to Arctic greening. Major bacterial groups show strong metabolic specialization in organic topsoils. α-/β-/γ-Proteobacteria specialized in the acquisition of small, soluble compounds, w… Show more

“…Acidobacteriota is known to contain genes involved in attaining nitrogen, which include genes essential for ammonia assimilation, for example, glutamine synthetase, and genes for the ammonium channel transporter family (amtB gene; Eichorst et al, 2018). In a recent study comparing microbial responses to Arctic greening in Alaskan soils, Acidobacteriota most strongly expressed the glutamine synthetase metaprotein, a large component of the proteins involved in ammonia metabolism (Miller et al, 2023). Within our study, glutamine synthetase (COG0174) was annotated mainly within the core genome of the Tunturibacter pangenome (Figure 3; Bin 1).…”

Genome analysis and description of Tunturibacter gen. nov. expands the diversity of Terriglobia in tundra soils

“…Acidobacteriota is known to contain genes involved in attaining nitrogen, which include genes essential for ammonia assimilation, for example, glutamine synthetase, and genes for the ammonium channel transporter family (amtB gene; Eichorst et al, 2018). In a recent study comparing microbial responses to Arctic greening in Alaskan soils, Acidobacteriota most strongly expressed the glutamine synthetase metaprotein, a large component of the proteins involved in ammonia metabolism (Miller et al, 2023). Within our study, glutamine synthetase (COG0174) was annotated mainly within the core genome of the Tunturibacter pangenome (Figure 3; Bin 1).…”

Genome analysis and description of Tunturibacter gen. nov. expands the diversity of Terriglobia in tundra soils