A first look into the molecular defenses of archaea highlights the importance of surveying diverse microbes to discover new types of antimicrobials As bacteria become increasingly resistant to ...

AIST researchers, in collaboration with JAMSTEC, Hokkaido University and Tohoku University, have succeeded in cultivating an ultrasmall bacterial strain parasitizing archaea and classified the strain ...

Following the drive to understand and control bacteria, it’s becoming clear that our methods have changed the very organisms we aim to understand, increasing resistance to tried-and-true antimicrobial ...

When you get infected with a virus, some of the first weapons your body deploys to fight it were passed down to us from our microbial ancestors billions of years ago. According to new research from ...

Scientists are uncovering the surprising ways bacteria and archaea differ — and how these differences could be turned into weapons against dangerous infections. From bacteria’s peptidoglycan walls to ...

Archaea, once thought to only survive in extreme environments, are now recognized as vital players in ecosystems from soil to sea. They drive key nutrient cycles, help plants grow, and even produce ...

Archaea are a major domain of prokaryotic microorganisms characterized by unique molecular and biochemical features distinguishing them from Bacteria and Eukarya. Their cell membranes typically ...

Scientists have identified over 600,000 microbial proteins that can break down plastics, revealing a nearly universal ability ...