Researchers conducted a high-throughput growth assay and machine learning to address the genetic and environmental interplay on bacterial growth. The findings indicated that the environmental ...
Researchers from the Organoid group at the Hubrecht Institute have developed a new way to grow organoids. Organoids are tiny ...
Researchers at University of Tsukuba conducted a high-throughput growth assay and machine learning to address the genetic and ...
This image highlights the various challenges in maintaining cell culture integrity, including contamination from bacteria, viruses, mycoplasmas, and chemicals. It also emphasizes the importance of ...
The Venter Institute built bacterial cells with chemically synthesized genomes ... Because minimal cells were created by eliminating genes not required for growth in laboratory culture, they are ...
Researchers may have finally discovered the "Achilles heel" of drug-resistant bacteria, which could open up new doors for ...
Using a bacterial protein called Invasin ... The 2D Invasin coating simplifies this process. Cells grown in 2D are easier to ...
Antimicrobial resistance (AMR) in waterways presents a critical threat. If commonly used antibiotics are deemed useless, ...
The University of Maryland is leading a project aiming to developing a fuel cell that uses energy derived from marine ...
Researchers have found a magnesium-dependent weakness in resistant bacteria, offering a pathway for drug-free treatments ...
The solution: a polymer coating that integrates with the bacterial cell membrane. Polymers are large molecules made up of billions of identical units called monomers. "We essentially grafted an E.
Bacteria are among the smallest living things. A single bacterium consists of just one cell. Not all bacteria are harmful. There are different unicellular organisms and types of bacteria.