Proc Natl Acad Sci USA 2007, 104:8113–8118.CrossRefPubMed 49. Tobisch S, Zuhlke D, Bernhardt J, Stülke J, Hecker M: Role

of CcpA in regulation of the central pathways of carbon catabolism in Bacillus subtilis. J Bacteriol 1999,181(22):6996–7004.PubMed 50. Moreno MS, Schneider BL, Maile RR, Weyler W, Saier MH: Catabolite repression mediated by the CcpA protein in Bacillus subtilis : novel modes of regulation revealed by whole-genome analyses. Mol Microbiol 2001,39(5):1366–1381.CrossRefPubMed 51. Grundy FJ, Wateres DA, Allen HG, Henkin TM: Regulation of the Bacillus subtilis acetate kinase gene by CcpA. J Bacteriol see more 1993, 175:7348–7355.PubMed 52. Renna MC, Najimudin N, Winik LR, Zahler SA: Regulation of the Bacillus subtilis alsS, alsD , and alsR genes involved in post-exponential-phase production of acetoin. J Bacteriol 1993, 175:3863–3875.PubMed PI3K Inhibitor Library 53. Grundy FJ, Turinsky AJ, Henkin TM: Catabolite regulation of Bacillus subtilis acetate

and acetoin utilization genes by CcpA. J Bacteriol 1994,176(15):4527–4533.PubMed 54. Ludwig H, Meinken C, Matin A, Stülke J: Insufficient expression of the ilv-leu operon encoding enzymes of branched-chain amino acid biosynthesis limits gowth of a Bacillus subtilis ccpA mutant. J Bacteriol 2002,184(18):5174–5178.CrossRefPubMed 55. Shivers RP, Sonenshein AL:Bacillus subtilis ilvB operon: an intersection of global regulons. Mol Microbiol 2005,56(6):1549–1559.CrossRefPubMed

56. Tojo S, Satomura T, Morisaki K, Methisazone Deutscher J, Hirooka K, Fujita Y: Elaborate transcription regulation of the Bacillus subtilis ilv-leu operon involved in the biosynthesis of branched-chain amino acids through global regulators of CcpA, CodY and TnrA. Mol Microbiol 2005,56(6):1560–1573.CrossRefPubMed 57. Duthie E, Lorenz LL: Staphylococcal coagulase; mode of action and antigeniCity. J Gen Microbiol 1952,6(1–2):95–107.PubMed 58. selleck inhibitor Renzoni A, Barras C, Francois P, Charbonnier Y, Huggler E, Garzoni C, Kelley WL, Majcherczyk P, Schrenzel J, Lew DP, et al.: Transcriptomic and functional analysis of an autolysis-deficient, teicoplanin-resistant derivative of methicillin-resistant Staphylococcus aureus. Antimicrob Agents Chemother 2006,50(9):3048–3061.CrossRefPubMed 59. Scherl A, Francois P, Charbonnier Y, Deshusses J, Koessler T, Huyghe A, Bento M, Stahl-Zeng J, Fischer A, Masselot A, et al.: Exploring glycopeptide-resistance in Staphylococcus aureus : a combined proteomics and transcriptomics approach for the identification of resistance-related markers. BMC Genomics 2006,7(1):296.CrossRefPubMed 60. Charbonnier Y, Gettler B, Francois P, Bento M, Renzoni A, Vaudaux P, Schlegel W, Schrenzel J: A generic approach for the design of whole-genome oligoarrays, validated for genomotyping, deletion mapping and gene expression analysis on Staphylococcus aureus. BMC Genomics 2005,6(1):95.CrossRefPubMed 61.