Human Health:Blocking E. coli Bacteria
E. coli. Source: USDA/Eric Erbe; Colorization, Christopher Pooley.
Published: January 11, 2011, 12:00 am
Updated: July 8, 2011, 6:11 pm
This article has been reviewed by the following Topic Editor:
Sidney Draggan Ph.D.Blocking E. coli Bacteria Before They Move In
A U.S. Department of Agriculture (USDA) scientist and his colleagues have discovered key gene and chemical interactions that allow Escherichia coli (E. coli) O157:H7 bacteria to colonize the gut of cattle. The animals not only host, but can shed the deadly human pathogen.
Many E. coli O157:H7 outbreaks have been associated with contaminated meat products and cross contamination of produce crops. Because the bacteria do not cause cattle to show clinical symptoms of illness, and due to other unknown variables, they can be hard to detect within cattle and the environment.
The researchers reported how the E. coli sense a key chemical that plays a critical role in allowing the bacteria to colonize inside the cattle's gastrointestinal (GI) tract. This research supports the USDA priority of ensuring food safety.
To proliferate, E. coli express genes differently based on their environment, such as outside the cattle host, inside the cattle rumen, or even at the end of the cattle GI tract. Having a better understanding of when, why and how these bacteria colonize could lead to practical applications in the future.
The researchers showed that "quorum sensing" chemicals called acyl-homoserine lactones (AHLs), which are produced by other bacteria, are present within the bovine rumen but absent in other areas of the cattle GI tract. AHLs are important because E. coli harbor a regulator, called SdiA, which senses these AHLs and then prompts the E. coli to attach and colonize.
Limiting production of the SdiA chemical, or blocking bacterial reception of the AHLs, may eventually lead to new strategies for keeping E. coli from attaching inside the animal.
Editor's Notes
- Authos: Rosalie Marion Bliss
- September 7, 2010
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Citation
U.S. Department of Agriculture (Content Source);Sidney Draggan Ph.D. (Topic Editor) "Blocking E. coli Bacteria". In: Encyclopedia of Earth. Eds. Cutler J. Cleveland (Washington, D.C.: Environmental Information Coalition, National Council for Science and the Environment). [First published in the Encyclopedia of Earth January 11, 2011; Last revised Date July 8, 2011; Retrieved May 19, 2013 <http://www.eoearth.org/article/Blocking_E._coli_Bacteria?topic=49473>
Blocking E. coli Bacteria Before They Move In
A U.S. Department of Agriculture (USDA) scientist and his colleagues have discovered key gene and chemical interactions that allow Escherichia coli (E. coli) O157:H7 bacteria to colonize the gut of cattle. The animals not only host, but can shed the deadly human pathogen.
Many E. coli O157:H7 outbreaks have been associated with contaminated meat products and cross contamination of produce crops. Because the bacteria do not cause cattle to show clinical symptoms of illness, and due to other unknown variables, they can be hard to detect within cattle and the environment.
The researchers reported how the E. coli sense a key chemical that plays a critical role in allowing the bacteria to colonize inside the cattle's gastrointestinal (GI) tract. This research supports the USDA priority of ensuring food safety.
To proliferate, E. coli express genes differently based on their environment, such as outside the cattle host, inside the cattle rumen, or even at the end of the cattle GI tract. Having a better understanding of when, why and how these bacteria colonize could lead to practical applications in the future.
The researchers showed that "quorum sensing" chemicals called acyl-homoserine lactones (AHLs), which are produced by other bacteria, are present within the bovine rumen but absent in other areas of the cattle GI tract. AHLs are important because E. coli harbor a regulator, called SdiA, which senses these AHLs and then prompts the E. coli to attach and colonize.
Limiting production of the SdiA chemical, or blocking bacterial reception of the AHLs, may eventually lead to new strategies for keeping E. coli from attaching inside the animal.
Editor's Notes
- Authos: Rosalie Marion Bliss
- September 7, 2010
Are you absolutely sure you want to delete this article? This process cannot be undone and is permanent.
Yes, Delete This Article
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