Researchers from Tokyo Metropolitan University have created nanostructured alumina surfaces which are strongly antibacterial ...

New nanostructured alumina surfaces offer unprecedented antibacterial resistance, fostering safer cell culture environments ...

Researchers from Tokyo Metropolitan University have created nanostructured alumina surfaces which are strongly antibacterial but can be used to culture cells. They found that anodic porous alumina ...

Antibiotics are a double-edged sword—they should be as toxic as possible to pathogenic bacteria while being harmless to the cells of the human body. An international research team led by the Helmholtz ...

Antibiotic and antifungal drug resistance pose a major public health threat. Live Science is covering the spread of this ...

Researchers from the Organoid group at the Hubrecht Institute developed a new way to grow organoids. Organoids are tiny ...

Nanotube bridge networks grow between the most abundant photosynthetic bacteria in the oceans, suggesting that the world is ...

A new study has uncovered how the defense mechanisms of bacteria can be neutralized, facilitating more efficient genetic ...

Evolution was fueled by endosymbiosis, cellular alliances in which one microbe makes a permanent home inside another. For the ...

EZ-Spread™ Plating Beads from AMSBIO (Oxford, UK) allow you to spread bacterial and yeast cells across the surface of an agar plate in just seconds. Eliminating the traditional need for glass rods and ...