This is a news story, published by MSN, that relates primarily to Salmonella news.
For more biology news, you can click here:
more biology newsFor more news from MSN, you can click here:
more news from MSNOtherweb, Inc is a public benefit corporation, dedicated to improving the quality of news people consume. We are non-partisan, junk-free, and ad-free. We use artificial intelligence (AI) to remove junk from your news feed, and allow you to select the best science news, business news, entertainment news, and much more. If you like biology news, you might also like this article about
physiological fluid shear forces. We are dedicated to bringing you the highest-quality news, junk-free and ad-free, about your favorite topics. Please come every day to read the latest different physiological fluid shear environments news, Gut Microbes news, biology news, and other high-quality news about any topic that interests you. We are working hard to create the best news aggregator on the web, and to put you in control of your news feed - whether you choose to read the latest news through our website, our news app, or our daily newsletter - all free!
physiological fluid shearPhys Org
•86% Informative
A new study investigates how pathogens like salmonella change their disease characteristics under fluid shear conditions like those they encounter in our bodies during infection.
Fluid shear is the mechanical force caused by fluid flow, such as along the walls of blood vessels or over the surfaces of cells in the intestine.
The researchers used mathematical modeling and laboratory investigations of bacterial cultures to study how the genes and disease-causing traits of a multidrug-resistant strain of Salmonella .
Arizona State University researchers simulate fluid shear conditions that bacteria encounter in the body.
The research is the first to demonstrate that incremental changes in fluid.
forces alter stress responses, survival in immune cells called macrophages, colonization of human intestinal cells and global gene expression in any ST313 strain.
The study represents a milestone in the ongoing quest to understand how mechanical forces.
VR Score
90
Informative language
94
Neutral language
24
Article tone
formal
Language
English
Language complexity
82
Offensive language
possibly offensive
Hate speech
not hateful
Attention-grabbing headline
not detected
Known propaganda techniques
not detected
Time-value
long-living
External references
6
Affiliate links
no affiliate links