Dede, Bledina


Publications
2

Extremely acidic proteomes and metabolic flexibility in bacteria and highly diversified archaea thriving in geothermal chaotropic brines

Citation
Gutierrez-Preciado et al. (2024).
Names
“Karumarchaeum halophilus” “Abyssiniarchaeum dallolvicinus” “Haloaenigmatarchaeum” “Haloaenigmatarchaeum danakilense” “Abyssiniarchaeum” “Karumarchaeum” “Salsurabacterium abyssinicum” “Salsurabacterium” “Salsurabacteria”
Abstract
Few described archaeal, and fewer bacterial, lineages thrive at salt-saturating conditions, such as solar saltern crystallizers (salinity above 30%-w/v). They accumulate molar K+ cytoplasmic concentrations to maintain osmotic balance ("salt-in" strategy), and have proteins adaptively enriched in negatively charged, acidic amino acids. Here, we analyzed metagenomes and metagenome-assembled genomes (MAGs) from geothermally influenced hypersaline ecosystems with increasing chaotropicity in the Dana

Niche differentiation of sulfur-oxidizing bacteria (SUP05) in submarine hydrothermal plumes

Citation
Dede et al. (2022). The ISME Journal 16 (6)
Names
Ca. Thioglobus plumae Ca. Thioglobus vadi Ca. Thioglobus vulcanius
Abstract
AbstractHydrothermal plumes transport reduced chemical species and metals into the open ocean. Despite their considerable spatial scale and impact on biogeochemical cycles, niche differentiation of abundant microbial clades is poorly understood. Here, we analyzed the microbial ecology of two bathy- (Brothers volcano; BrV-cone and northwest caldera; NWC) and a mesopelagic (Macauley volcano; McV) plumes on the Kermadec intra-oceanic arc in the South Pacific Ocean. The microbial community structure