Aerobic bacteria and archaea tend to have larger and more versatile genomes
Results
Candidatus Prosiliicoccus vernus, a spring phytoplankton bloom associated member of the Flavobacteriaceae
Fungal community response to long‐term soil warming with potential implications for soil carbon dynamics
Mass spectrometry imaging–based assays for aminotransferase activity reveal a broad substrate spectrum for a previously uncharacterized enzyme
Comparative genomics of freshwater Fe-oxidizing bacteria: implications for physiology, ecology, and systematics
Genome-Resolved Meta-Omics Ties Microbial Dynamics to Process Performance in Biotechnology for Thiocyanate Degradation
Rational Design of Mechanism-Based Inhibitors and Activity-Based Probes for the Identification of Retaining α‑l‑Arabinofuranosidases
Genomic Expansion of Domain Archaea Highlights Roles for Organisms from New Phyla in Anaerobic Carbon Cycling
Shedding light on spatial structure and dynamics in phototrophic biofilms
Supercharging Carbohydrate Binding Module Alone Enhances Endocellulase Thermostability, Binding, and Activity on Cellulosic Biomass
Complete Genome Sequence of the Aerobic CO-Oxidizing Thermophile Thermomicrobium roseum
A Genomic Perspective Across Earth’s Microbiomes Reveals That Genome Size in Archaea and Bacteria Is Linked to Ecosystem Type and Trophic Strategy
