Researchers have succeeded in cultivating an ultra-small bacterial strain parasitizing archaea and classified it as new species and genus of Minisyncoccus archaeiphilus.

AIST researchers, in collaboration with JAMSTEC, Hokkaido University and Tohoku University, have succeeded in cultivating an ...

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 ...

Microbial life in Yellowstone's Lower Geyser Basin may hold clues to the evolution of life's exploitation of oxygen, ...

The human microbiome market share is expected to reach US$ 4.85 billion by 2031, driven by increased investments in research, ...

Our 4Q and full-year 2024 results underline how we’re laying the foundations for the future. We’ve selected some of the ...

The university’s Carl R. Ice College of Engineering will honor 10 alumni for significant early to mid-career success at its ...

This complex microbial dance seems to have a really important role in our health. Oral diseases and even oral cancers have ...

Rice cultivation is responsible for around 12% of global methane emissions, and these emissions are expected to increase with ...

To assess the interdependency between archaea and bacteria, we conducted an antibiotic ... which corresponds of approximately 5 × 10 6 cells, until full culture growth. We did not used the standard 48 ...

Scientists have developed a new rice strain that emits 70% less methane, addressing a major source of greenhouse gas ...