bacteria

A team of engineers from Washington University in St. Louis and the University of Colorado at Boulder has removed bioaerosols – airborne biological particulate matter — from the air of a hospital therapy pool using a new generation of hybrid filters. The bioaerosols identified in the unnamed Midwestern hospital pool had sickened nine lifeguards who had become ill with hypersensitivity pneumonitis, a lung condition that mimics pneumonia symptoms. This forced the pool to shut down. It is now reopened.

Carinne Blank has a method she uses to date ancient life forms that could be helpful for specimens from Mars.A geologist from Washington University in St. Louis is developing new techniques to render a more coherent story of how primitive life arose and diverged on Earth – with implications for Mars.

A WUSTL researcher has identified a bacterium as the pathogen living on bubbles in hot water environments.A team of researchers, led by an environmental engineer at Washington University in St. Louis, has applied a molecular approach to identify the biological particles in aerosol responsible for making employees of a Colorado hospital therapeutic pool ill. They found: when the bubble bursts, the bacteria disperse, and lifeguards get pneumonia-like symptoms.

E. Coli (yellow) attaches to a host cell using sticky fibersNew insights into the bacteria responsible for urinary tract infections appear to open up an opportunity for disabling a wide range of infectious bacteria. Researchers at the School of Medicine recently revealed how a protein known as PapD helps E. coli assemble sticky fibers called pili that allow the bacterium to latch onto and infect host cells. Scientists are using what they’ve learned to begin designing pilicides, new treatments that stop pili formation and disrupt the infection process.

E. Coli (yellow) attaches to a host cell using sticky fibersNew insights into the bacteria responsible for urinary tract infections appear to open up an opportunity for disabling a wide range of infectious bacteria. Researchers at the School of Medicine recently revealed how a protein known as PapD helps E. coli assemble sticky fibers called pili that allow the bacterium to latch onto and infect host cells. Scientists are using what they’ve learned to begin designing pilicides, new treatments that stop pili formation and disrupt the infection process.