It follows that a protein with the ability to sense environmental

It follows that a protein with the ability to sense environmental stress or the energy status of the cell could be a significant regulator of DNA replication. Our laboratory is BI 2536 price currently investigating whether serp1129 and serp1130 are involved in the transcriptional regulation of the MMSO and/or other replication genes. Conclusions These studies demonstrated that the S. epidermidis MMSO contains two previously

unidentified ORFs (serp1129 and serp1130) and that sigA transcription is regulated by a σβ promoter. The transcriptional regulation of sigA by σB suggests that the staphylococcal σB regulon is regulated at both the transcriptional and post-transcriptional levels. Further assays demonstrated that Serp1129 is an ATP/GTP binding protein; its connection to other check details functions found

within genes encoded by the MMSO is unknown. Finally, although sigA was actively transcribed in both the exponential and post-exponential phases of growth, serp1130, serp1129 and dnaG were most transcriptionally active during exponential growth. We are currently testing the hypothesis that genes involved in DNA replication, including the MMSO, are co-regulated in the exponential growth phase through a common regulator or metabolite. Acknowledgements This work was supported in part by a grant from the Department of Defense, Defense Advanced Research Program Agency (award W911NF0510275). References 1. Noirot-Gros MF, Dervyn E, Wu LJ, Mervelet P, Errington buy GDC-0973 J, Ehrlich SD, Noirot P: An expanded view of bacterial DNA replication. Proc Natl Acad Sci USA 2002,99(12):8342–8347.PubMedCrossRef 2. Versalovic J, Koeuth T, Britton R, Geszvain K, Lupski JR: Conservation and evolution of the rpsU-dnaG-rpoD macromolecular synthesis operon in bacteria. Mol Microbiol 1993,8(2):343–355.PubMedCrossRef 3. Lupski JR, Smiley BL, Godson GN: Regulation of very the rpsU-dnaG-rpoD macromolecular synthesis operon and the initiation of DNA replication in Escherichia coli K-12. Mol Gen Genet 1983,189(1):48–57.PubMedCrossRef 4. Lupski JR, Godson GN: The rpsU-dnaG-rpoD macromolecular synthesis operon of E. coli . Cell 1984,39(2 Pt 1):251–252.PubMedCrossRef

5. Lupski JR, Ruiz AA, Godson GN: Promotion, termination, and anti-termination in the rpsU-dnaG-rpoD macromolecular synthesis operon of E. coli K-12. Mol Gen Genet 1984,195(3):391–401.PubMedCrossRef 6. Briat JF, Gilman MZ, Chamberlin MJ: Bacillus subtilis sigma 28 and Escherichia coli sigma 32 (htpR) are minor sigma factors that display an overlapping promoter specificity. J Biol Chem 1985,260(4):2038–2041.PubMed 7. Wang LF, Doi RH: Nucleotide sequence and organization of Bacillus subtilis RNA polymerase major sigma (sigma 43) operon. Nucleic Acids Res 1986,14(10):4293–4307.PubMedCrossRef 8. Wang LF, Price CW, Doi RH: Bacillus subtilis dnaE encodes a protein homologous to DNA primase of Escherichia coli . J Biol Chem 1985,260(6):3368–3372.PubMed 9.

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