@phdthesis{Graf2020,
  author    = {Anica Graf},
  title     = {Functional characterization of lipoproteins in Staphylococcus aureus},
  journal    = {Funktionelle Charakterisierung von Lipoproteinen in Staphylococcus aureus},
  url       = {https://nbn-resolving.org/urn:nbn:de:gbv:9-opus-41371},
  pages     = {170},
  year      = {2020},
  abstract  = {Lipoproteins of Staphylococcus aureus represent a major class of surface proteins, which are anchored to the outer leaflet of the cell membrane. Although they play a key role in the immune response and virulence, the majority of lipoproteins in this organism is still of unknown function. The aim of our study was to investigate the function of so far poorly or uncharacterized lipoproteins in S. aureus strain Newman. To this end, an integrated bioinformatical approach was applied to define the pan-lipoproteome of 123 completely sequenced S. aureus strains. In total, this analysis predicted 192 different potential lipoproteins, with a core lipoproteome of 39 and a variable lipoproteome of 153 lipoproteins. Out of those 192 lipoproteins, 141 are so far functionally uncharacterized. Primarily focusing on members of the core-lipoproteome with unknown or poorly characterized function, 24 lipoproteins or co-encoded neighbor proteins were selected for further characterization. Of those 24 proteins, 20 S. aureus markerless deletion mutants were constructed (S. aureus delta l01 - delta l20) and screened for an altered growth behavior under various conditions. Here, three mutants showed a temperature-sensitive phenotype, two mutants formed aggregates in the TSB of the manufacturer Merck (TSBMerck), and four mutants showed reduced growth under osmotic stress with 8\% NaCl. An altered aggregation behavior was observed for four mutants in the presence of Triton X-100 and for eleven mutants in the presence of SDS. Furthermore, ten mutants revealed an impaired biofilm formation capacity as well as reduced hemolytic activity. Interestingly, S. aureus deletion mutants delta l14 (delta NWMN\_1435) and delta l16 (delta NWMN\_0646) showed an altered phenotype under nearly all tested growth and stress conditions. Most strikingly, both deletion mutants demonstrated dramatic defects in cell morphology and cell division during the transient growth phase in TSBMerck and were therefore selected for further detailed characterization. Electron microscopy imaging of the two mutants revealed an irregular cell shape, increased cell size, multiple displaced division septa, and incomplete separation of daughter cells resulting in the formation of cell aggregates in TSBMerck. Complementarily, microarray-based transcriptome analysis and whole-genome sequencing of S. aureus delta l14 and delta l16 suppressor mutants strongly point to a functional association of both lipoproteins with cell envelope- or cell division-related processes. Specifically, multiple hints suggest a functional connection of both lipoproteins with lipo- or wall teichoic acids. Of note, the phenotypes of S. aureus delta l14 and delta l16 are conditional and appear under some, but not all growth conditions. Thus, it is conceivable that the function of L14 and L16 is modulated by metabolic processes, or that the proteins might be part of a “backup system” becoming important only under certain conditions. Collectively, we propose that L14 and L16 fulfill a basic role in cell envelope- or cell division-related processes under specific growth conditions. Particularly, the activity of L14 and L16 might be necessary for the function or localization of lipo- or wall teichoic acids, and thus, might be linked to the regulation of autolysins. In conclusion, this study reveals important insights into the function of two so far uncharacterized but highly conserved lipoproteins in S. aureus.},
  language  = {en}
}