AI Article Synopsis
- Secretory proteins are essential for bacterial survival, allowing them to perform various remote-control functions in their environment.
- The use of complete genome sequences and proteomics has enhanced our understanding of bacterial protein secretion, particularly in Bacillus subtilis, revealing that only about 50% of the secreted proteins were predicted from the genome.
- These findings provide new insights into the trafficking of proteins and could improve our understanding of virulence factors in gram-positive pathogens, which has significant medical implications.
Article Abstract
Secretory proteins perform a variety of important "remote-control" functions for bacterial survival in the environment. The availability of complete genome sequences has allowed us to make predictions about the composition of bacterial machinery for protein secretion as well as the extracellular complement of bacterial proteomes. Recently, the power of proteomics was successfully employed to evaluate genome-based models of these so-called secretomes. Progress in this field is well illustrated by the proteomic analysis of protein secretion by the gram-positive bacterium Bacillus subtilis, for which approximately 90 extracellular proteins were identified. Analysis of these proteins disclosed various "secrets of the secretome," such as the residence of cytoplasmic and predicted cell envelope proteins in the extracellular proteome. This showed that genome-based predictions reflect only approximately 50% of the actual composition of the extracellular proteome of B. subtilis. Importantly, proteomics allowed the first verification of the impact of individual secretion machinery components on the total flow of proteins from the cytoplasm to the extracellular environment. In conclusion, proteomics has yielded a variety of novel leads for the analysis of protein traffic in B. subtilis and other gram-positive bacteria. Ultimately, such leads will serve to increase our understanding of virulence factor biogenesis in gram-positive pathogens, which is likely to be of high medical relevance.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC419921 | PMC |
| http://dx.doi.org/10.1128/MMBR.68.2.207-233.2004 | DOI Listing |
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