%0 Journal Article %1 glaeser_protein_2007 %A Glaeser, Jens %A Zobawa, Monica %A Lottspeich, Friedrich %A Klug, Gabriele %D 2007 %J Journal of proteome research %K Bacterial Bacterial_Proteins Catalase Cations Divalent Electrophoresis Gel Gene_Expression_Regulation Host_Factor_1_Protein Hydrogen_Peroxide IFZ Light Messenger Mutation Protein_Biosynthesis Proteome RNA Reactive_Oxygen_Species Rhodobacter_sphaeroides Sigma_Factor Singlet_Oxygen Transcription_Factors Two-Dimensional %P 2460-71 %T Protein synthesis patterns reveal a complex regulatory response to singlet oxygen in Rhodobacter %V 6 %X Singlet oxygen (1O2) is a stress factor and signal in the facultative phototrophic bacterium Rhodobacter sphaeroides. In vivo protein labeling with L-35S-methionine and analysis by two-dimensional gel electrophoresis revealed that the synthesis of 61 proteins was changed in response to 1O2. After 1O2 treatment, protein synthesis patterns were distinct from those after H2O2 treatment but similar to those after high light exposure. This indicates regulatory mechanisms selective for different reactive oxygen species (ROS) and a response to light partly mediated by 1O2. Analysis of mutant strains support that the response to 1O2 is regulated mainly by rpoE (sigma E), but also a modulation of the sigma E dependent response by other factors and the existence of sigma E independent responses. The involvement of the RNA chaperon Hfq in the 1O2 response implies a role of small regulatory RNAs.

@article{glaeser_protein_2007, abstract = {Singlet oxygen (1O2) is a stress factor and signal in the facultative phototrophic bacterium Rhodobacter sphaeroides. In vivo protein labeling with L-[35S]-methionine and analysis by two-dimensional gel electrophoresis revealed that the synthesis of 61 proteins was changed in response to 1O2. After 1O2 treatment, protein synthesis patterns were distinct from those after H2O2 treatment but similar to those after high light exposure. This indicates regulatory mechanisms selective for different reactive oxygen species (ROS) and a response to light partly mediated by 1O2. Analysis of mutant strains support that the response to 1O2 is regulated mainly by rpoE (sigma E), but also a modulation of the sigma E dependent response by other factors and the existence of sigma E independent responses. The involvement of the RNA chaperon Hfq in the 1O2 response implies a role of small regulatory RNAs.}, added-at = {2008-05-07T15:52:44.000+0200}, author = {Glaeser, Jens and Zobawa, Monica and Lottspeich, Friedrich and Klug, Gabriele}, biburl = {https://www.bibsonomy.org/bibtex/27ffd100e93e552721654848a86efd795/mikromolbio}, interhash = {bf9382bf6271069da873c11620120799}, intrahash = {7ffd100e93e552721654848a86efd795}, issn = {15353893}, journal = {Journal of proteome research}, keywords = {Bacterial Bacterial_Proteins Catalase Cations Divalent Electrophoresis Gel Gene_Expression_Regulation Host_Factor_1_Protein Hydrogen_Peroxide IFZ Light Messenger Mutation Protein_Biosynthesis Proteome RNA Reactive_Oxygen_Species Rhodobacter_sphaeroides Sigma_Factor Singlet_Oxygen Transcription_Factors Two-Dimensional}, month = {July}, note = {PMID: 17536848}, pages = {2460-71}, timestamp = {2008-07-18T14:09:58.000+0200}, title = {Protein synthesis patterns reveal a complex regulatory response to singlet oxygen in Rhodobacter}, volume = 6, year = 2007 }