Interestingly, there is evidence suggesting that PrrA regulation may be affected by kinase activity of the non-cognate sensor protein HupT (Gomelsky and Kaplan 1995), which Sirtuin inhibitor is a histidine kinase for hydrogen uptake. However, to our knowledge, there are no prior reports of PrrB promiscuity with respect to other response regulators. The model of the hierarchical regulation of genes involving PpsR and PrrA proposes that the inability of PrrA mutant bacteria to grow phototrophically is not due to the lack of PrrA-mediated
activation of PS genes; rather, it is the inability to anti-repress PpsR-regulated genes (Gomelsky et al. 2008). The presence of aberrant QNZ structures in bacteria lacking both PrrA and PpsR suggests this model is incomplete, and that there may be genes regulated by PrrA, but not by PpsR, that are required for normal ICM development. While the essential PS genes of R. sphaeroides 2.4.1 are Compound C ic50 little changed in their transcription levels by the presence versus the absence of FnrL (reviewed in Gomelsky
and Zeilstra-Ryalls 2013), fnrL null mutant bacteria are nevertheless unable to form normal ICM. This study has identified a potential route to the identification of FnrL-dependent genes other than PS genes that are required for ICM formation, since unlike R. sphaeroides FnrL mutants, R. capsulatus FnrL mutants are unaltered in their ability
to grow phototrophically (Zeilstra-Ryalls et al. 1997), and the ultrastructure of the R. capsulatus ICM appeared normal. The prediction is that there are genes necessary for the differentiation process to take place that are regulated by FnrL in R. sphaeroides but not in R. capsulatus. Acknowledgments This research was supported by funds from the National Science Foundation (NSF, MCB-0921449) and other NSF support provided to JZ-R while working at the Foundation. The authors would like to thank M. Cayer for assistance with the TEM work; S. Kaplan for providing strains PRRA1, PRRA2, and PRRBCA2; and M. Gomelsky for providing strains PPS1 and RPS1, and for useful discussions. Disclaimer Any opinions, findings, PR-171 and conclusions or recommendations expressed in this material are those of the authors and do not necessarily reflect the views of the supporting agencies. Open AccessThis article is distributed under the terms of the Creative Commons Attribution License which permits any use, distribution, and reproduction in any medium, provided the original author(s) and the source are credited. References Chory J, Donohue T, Varga A, Staehelin L, Kaplan S (1984) Induction of the photosynthetic membranes of Rhodopseudomonas sphaeroides: biochemical and morphological studies.