A Dartmouth College research team has reported that plasmids can force bacteria to form dense clusters in order to tolerate antibiotics which suggests a source of treatment failure that does not ...

The problem of antibiotic-resistant bacteria has many health experts worried. As disease-causing bacteria adapt to some of our ways to reduce them, especially with antibiotics, it presents an arms ...

BLOOMINGTON, Ind. -- Studying self-replicating genetic units, called plasmids, found in one of the world's widest-ranging pathogenic soil bacteria -- the crown-gall-disease-causing microorganism ...

An international collaboration has achieved an important breakthrough in understanding the genetic mechanisms that allow bacteria to build resistance to drugs. Bacteria have multiple defence ...

In the microscopic world of bacteria, gene transfer is a powerful mechanism that can alter cellular function, drive ...

An international collaboration has achieved an important breakthrough in understanding the genetic mechanisms that allow bacteria to build resistance to drugs. An international collaboration has ...

Scientists who have described in a new study the step-by-step details of a bacterial defense strategy see the mechanism as a promising platform for development of a new genome-editing method.

Last fall, more than 100 people in 14 states got sick after eating at McDonald’s. The Centers for Disease Control and Prevention traced the outbreak to raw onions on the quarter-pounder hamburger, ...

The genetic culprits responsible for the spread of multidrug resistance (MDR) in bacteria have been identified by new research mapping 100 years of bacterial evolution. Experts at the Wellcome Sanger ...

Researchers from the Yong Loo Lin School of Medicine, National University of Singapore (NUS Medicine), have uncovered how a high-risk class of genetic vectors can efficiently spread antibiotic ...