AI Article Synopsis
- Three exocellular enzymes from Thermoanaerobacterium thermosulfurigenes EM1 have a triplicated sequence linked to bacterial cell surface proteins, specifically the SLH domain.
- Research was conducted using an SLH domain-containing xylanase, synthesized in E. coli, to study how these domains interact with the bacterial cell envelope.
- Findings reveal that SLH domains are crucial for protein attachment to the cell wall, indicating that accessory cell wall polymers, rather than peptidoglycan, play a key role in this adhesion process, highlighting a new mechanism for protein display on bacterial surfaces.
Article Abstract
Three exocellular enzymes of Thermoanaerobacterium thermosulfurigenes EM1 possess a C-terminal triplicated sequence related to a domain of bacterial cell surface proteins (S-layer proteins). At least one copy of this sequence, named the SLH (for S-layer homology) domain, is also present at the N terminus of the S-layer protein of this bacterium. The hypothesis that SLH domains serve to anchor proteins to the cell surface was investigated by using the SLH domain-containing xylanase. This enzyme was isolated from T. thermosulfurigenes EM1, and different forms with and without SLH domains were synthesized in Escherichia coli. The interaction of these proteins with isolated components of the cell envelope was determined to identify the attachment site in the cell wall. In addition, a polypeptide consisting of three SLH domains and the N terminus of the S-layer protein of T. thermosulfurigenes EM1 were included in these studies. The results indicate that SLH domains are necessary for the attachment of these proteins to peptidoglycan-containing sacculi. Extraction of the native sacculi with hydrofluoric acid led to the conclusion that not peptidoglycan but accessory cell wall polymers function as the adhesion component in the cell wall. Our results provide further evidence that attachment of proteins via their SLH domains represents an additional mode to display polypeptides on the cell surfaces of bacteria.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC93991 | PMC |
| http://dx.doi.org/10.1128/JB.181.16.5017-5023.1999 | DOI Listing |
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