Document Type
Article
Journal Title
PLoS One
Publication Date
Summer 7-31-2012
Volume
7
Abstract
The most prominent murein hydrolase of Staphylococcus aureus, AtlA, is a bifunctional enzyme that undergoes proteolytic cleavage to yield two catalytically active proteins, an amidase (AM) and a glucosaminidase (GL). Although the bifunctional nature of AtlA has long been recognized, most studies have focused on the combined functions of this protein in cell wall metabolism and biofilm development. In this study, we generated mutant derivatives of the clinical S. aureus isolate, UAMS-1, in which one or both of the AM and GL domains of AtlA have been deleted. Examination of these strains revealed that each mutant exhibited growth rates comparable to the parental strain, but showed clumping phenotypes and lysis profiles that were distinct from the parental strain and each other, suggesting distinct roles in cell wall metabolism. Given the known function of autolysis in the release of genomic DNA for use as a biofilm matrix molecule, we also tested the mutants in biofilm assays and found both AM and GL necessary for biofilm development. Furthermore, the use of enzymatically inactive point mutations revealed that both AM and GL must be catalytically active for S. aureus to form a biofilm. The results of this study provide insight into the relative contributions of AM and GL in S. aureus and demonstrate the contribution of Atl-mediated lysis in biofilm development.
MeSH Headings
Biofilms, Blotting, Western, Chromosomes, Bacterial, Gene Deletion, Genes, Bacterial, Mutation, N-Acetylmuramoyl-L-alanine Amidase, Staphylococcus aureus
DOI Link
ISSN
1932-6203
Creative Commons License
This work is licensed under a Creative Commons Attribution 3.0 License.
Recommended Citation
Bose, Jeffrey L.; Lehman, McKenzie K.; Fey, Paul D.; and Bayles, Kenneth W., "Contribution of the Staphylococcus aureus Atl AM and GL murein hydrolase activities in cell division, autolysis, and biofilm formation." (2012). Journal Articles: Pathology and Microbiology. 16.
https://digitalcommons.unmc.edu/com_pathmicro_articles/16
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