The involvement of cell-to-cell signals in the development of a bacterial biofilm
Science, 1998•science.org
Bacteria in nature often exist as sessile communities called biofilms. These communities
develop structures that are morphologically and physiologically differentiated from free-living
bacteria. A cell-to-cell signal is involved in the development of Pseudomonas aeruginosa
biofilms. A specific signaling mutant, a lasI mutant, forms flat, undifferentiated biofilms that
unlike wild-type biofilms are sensitive to the biocide sodium dodecyl sulfate. Mutant biofilms
appeared normal when grown in the presence of a synthetic signal molecule. The …
develop structures that are morphologically and physiologically differentiated from free-living
bacteria. A cell-to-cell signal is involved in the development of Pseudomonas aeruginosa
biofilms. A specific signaling mutant, a lasI mutant, forms flat, undifferentiated biofilms that
unlike wild-type biofilms are sensitive to the biocide sodium dodecyl sulfate. Mutant biofilms
appeared normal when grown in the presence of a synthetic signal molecule. The …
Bacteria in nature often exist as sessile communities called biofilms. These communities develop structures that are morphologically and physiologically differentiated from free-living bacteria. A cell-to-cell signal is involved in the development of Pseudomonas aeruginosa biofilms. A specific signaling mutant, alasI mutant, forms flat, undifferentiated biofilms that unlike wild-type biofilms are sensitive to the biocide sodium dodecyl sulfate. Mutant biofilms appeared normal when grown in the presence of a synthetic signal molecule. The involvement of an intercellular signal molecule in the development of P. aeruginosa biofilms suggests possible targets to control biofilm growth on catheters, in cystic fibrosis, and in other environments where P. aeruginosa biofilms are a persistent problem.
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