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References

  • Aizawa, S.-I. (1996) Flagellar assembly in Salmonella typhimurium. Mol Microbiol 19: 15.
  • Anderson, D. & Newton, A. (1997) Posttranscriptional regulation of Caulobacter flagellin genes by a late flagellum assembly checkpoint. J Bacteriol 179: 22812288.
  • Anderson, P.E. & Gober, J.W. (2000) FlbT, the post-transcriptional regulator of flagellin synthesis in Caulobacter crescentus, interacts with the 5′ untranslated region of flagellin mRNA. Mol Microbiol 38: 4153.DOI: 10.1046/j.1365-2958.2000.02108.x
  • Ausubel, F.M., Brent, R., Kingston, R.E., Moore, D.D., Seidman, J.G., Smith, J.A. & Struhl, K. (1989) Current Protocols in Molecular Biology. New York: John Wiley and Sons, Inc.
  • Benson, A.K., Wu, J. & Newton, A. (1994a) The role of FlbD in regulation of flagellar gene transcription in Caulobacter crescentus. Res Microbiol 145: 420430.
  • Benson, A.K., Ramakrishnan, G., Ohta, N., Feng, J., Ninfa, A.J. & Newton, A. (1994b) The Caulobacter crescentus FlbD protein acts at ftr sequence elements both to activate and to repress transcription of cell cycle-regulated flagellar genes. Proc Natl Acad Sci USA 91: 23692373.
  • Brun, Y., Marczynski, G. & Shapiro, L. (1994) The expression of asymmetry during cell differentiation. Ann Rev Biochem 63: 419450.
  • Bryan, R., Purucker, M., Gomes, S.L., Alexander, W. & Shapiro, L. (1984) Analysis of the pleiotropic regulation of flagellar and chemotaxis gene expression in Caulobacter crescentus by using plasmid complementation. Proc Natl Acad Sci USA 81: 13411345.
  • Champer, R., Dingwall, A. & Shapiro, L. (1987) Cascade regulation of Caulobacter flagellar and chemotaxis genes. J Mol Biol 194: 7180.
  • Domian, I., Quon, K. & Shapiro, L. (1997) Cell Type-Specific Phosphorylation and Proteolysis of a Transcriptional Regulator Controls the G1-to-S Transition in a Bacterial Cell Cycle. Cell 90: 415424.
  • Ely, B. & Johnson, R.C. (1977) Generalized transduction in Caulobacter crescentus. Genetics 87: 391399.
  • Filip. C., Fletcher, G., Wulff, J.L. & Earhart, C.F. (1973) Solubilization of the cytoplasmic membrane of Escherichia coli by the ionic detergent sodium-lauryl-sarcosinate. J Bacteriol 115: 717722.
  • Gillen, K.L. & Hughes, K.T. (1991a) Negative regulatory loci coupling flagellin synthesis to flagellar assembly in Salmonella typhimurium. J Bacteriol 173: 23012310.
  • Gillen, K.L. & Hughes, K.T. (1991b) Molecular characterization of flgM, a gene encoding a negative regulator of flagellin synthesis in Salmonella typhimurium. J Bacteriol 173: 64536459.
  • Gober, J.W. & Shapiro, L. (1992) A developmentally regulated Caulobacter flagellar promoter is activated by 3′ enhancer and IHF binding elements. Mol Biol Cell 3: 913926.
  • Gober, J.W. & Marques, M. (1995) Regulation of Cellular Differentiation in Caulobacter crescentus. Microbiol Rev 59: 3147.
  • Gober, J.W. & England, J. (2000) Regulation of flagellum biosynthesis and motility in Caulobacter. In Prokaryotic Development. Brun, K.V., and Shimkets, L.J. (eds). Washington, DC: American Society for Microbiology, pp. 319–339.
  • Gober, J.W., Champer, R., Reuter, S. & Shapiro, L. (1991) Expression of positional information during cell differentiation of Caulobacter. Cell 64: 381391.
  • Hale, C.A. & De Boer, P.A. (1997) Direct binding of FtsZ to ZipA, an essential component of the septal ring structure that mediates cell division in E. coli. Cell 88: 175185.
  • Hughes, K.T., Gillen, K.L., Semon, M.J. & Karlinsey, J.E. (1993) Sensing structural intermediates in bacterial flagellar assembly by export of a negative regulator. Science 262: 12771280.
  • Jenal, U. & Shapiro, L. (1996) Cell cycle-controlled proteolysis of a flagellar motor protein that is asymmetrically distributed in the Caulobacter predivisional cell. EMBO J 15: 23932406.
  • Jiang, P. & Ninfa, A.J. (1999) Regulation of autophosphorylation of Escherichia coli nitrogen regulator II by the PII signal transduction protein. J Bacteriol 181: 19061911.
  • Johnson, R.C. & Ely, B. (1977) Isolation of spontaneously derived mutants of C. crescentus. Genetics 86: 2532.
  • Khambaty, F.M. & Ely, B. (1992) Molecular genetics of the flgI region and its role in flagellum biosynthesis in Caulobacter crescentus. J Bacteriol 174: 41014109.
  • Komeda, Y. (1986) Transcriptional control of flagellar genes in Escherichia coli K-12. J Bacteriol 168: 13151318.
  • Kovach, M.E., Phillips, R.W., Elzer, P.H., Roop, R.M. & Peterson, K.M. (1994) pBBR1MCS: a broad host range cloning vector. Biotechniques 16: 800802.
  • Kutsukake, K., Ohya, Y. & Iino, T. (1990) Transcriptional analysis of the flagellar regulon of Salmonella typhimurium. J Bacteriol 172: 741747.
  • Mangan, E.K., Bartamian, M. & Gober, J.W. (1995) A mutation that uncouples flagellum assembly from transcription alters the temporal pattern of flagellar gene expression in Caulobacter crescentus. J Bacteriol 177: 31763184.
  • Mangan, E.K., Malakooti, J., Caballero, A., Anderson. P., Ely, B. & Gober, J.W. (1999) FlbT couples flagellum assembly to gene expression in Caulobacter crescentus. J Bacteriol 181: 61606170.
  • Minnich, S.A. & Newton, A. (1987) Promoter mapping and cell cycle regulation of flagellin gene transcription in Caulobacter crescentus. Proc Natl Acad Sci USA 84: 11421146.
  • Mohr, C.D., Mackichan, J. & Shapiro, L. (1998) A membrane-associated protein, FliX, is required for an early step in Caulobacter flagellar assembly. J Bacteriol 180: 21752185.
  • Mullin, D.A., Van Way, S.M., Blankenship, C.A. & Mullin, A.H. (1994) FlbD has a DNA binding activity near its carboxy terminus that recognizes ftr sequences involved in positive and negative regulation of flagellar gene transcription in Caulobacter crescentus. J Bacteriol 176: 59715981.
  • Nakai, K. & Kanehisa, M. (1991) Expert system for predicting protein localization sites in Gram-negative bacteria. PROTEINS: Structure, Function and Genetics 11: 95110.
  • Newton, A., Ohta, N., Ramakrishnan, G., Mullin, D. & Raymond, G. (1989) Genetic switching in the flagellar gene hierarchy of Caulobacter requires negative as well as positive regulation of transcription. Proc Natl Acad Sci USA 86: 66516655.
  • Ninfa, A.J., Jiang, P., Atkinson, M.R. & Peliska, J.A. (2000) Integration of antagonistic signals in the regulation of nitrogen assimilation in Escherichia coli. Curr Top Cell Reg 36: 3175.
  • Ohta, N., Swanson, E., Ely, B. & Newton, A. (1984) Physical mapping and complementation analysis of transposon Tn5 mutations in Caulobacter crescentus: organization of transcriptional units in the hook gene cluster. J Bacteriol 158: 897904.
  • Ohta, N., Chen, L.-S., Swanson, E. & Newton, A. (1985) Transcriptional regulation of a periodically controlled flagellar gene operon in Caulobacter crescentus. J Mol Biol 186: 107115.
  • Ohta, N., Mullin, D.A., Tarleton, J., Ely, B. & Newton, A. (1990) Identification, distribution, and sequence analysis of new insertion elements in Caulobacter crescentus. J Bacteriol 172: 236242.
  • Ohta, N., Chen, L.-S., Mullin, D.A. & Newton, A. (1991) Timing of flagellar gene expression in the Caulobacter cell cycle is determined by a transcriptional cascade of positive regulatory genes. J Bacteriol 173: 15141522.
  • Onishi, K., Kutsukake, K., Suzuki, H. & Iino, T. (1992) A novel transcriptional regulatory mechanism in the flagellar regulaon of Salmonella typhimurium: an anti-sigma factor inhibits the activity of the flagellum-specific sigma factor, σF. Mol Microbiol 6: 31493157.
  • Pohl, T. (1990) Concentration of proteins and removal of solutes. Methods Enzymol 182: 6883.
  • Poindexter, J.S. (1964) Biological properties and classification of the Caulobacter group. Bacteriol Rev 28: 231295.
  • Quon, K.C., Marczynski, G.T. & Shapiro, L. (1996) Cell cycle control by an essential bacterial two-component signal transduction protein. Cell 84: 8393.
  • Ramakrishnan, G. & Newton, A. (1990) FlbD of Caulobacter crescentus is a homologue of the NtrC (NRI) protein and activates sigma 54-dependent flagellar gene promoters. Proc Natl Acad Sci USA 87: 23692373.
  • Ramakrishnan, G., Zhao, J.L. & Newton, A. (1994) Multiple structural proteins are required for both transcriptional activation and negative autoregulation of Caulobacter crescentus flagellar genes. J Bacteriol 176: 75877600.
  • Reisenauer, A., Quon, K. & Shapiro, L. (1999) The CtrA response regulator mediates temporal control of gene expression during the Caulobacter cell cycle. J Bacteriol 181: 24302439.
  • Sanger, F., Nicklen, S. & Coulson, A.R. (1977) DNA sequencing with chain terminating inhibitors. Proc Natl Acad Sci USA 74: 54635467.
  • Schweizer, H.P. (1992) Allelic exchange in Pseudomonas aeruginosa using novel ColE1-type vectors and a family of cassettes containing a portable oriT and the counter-selectable Bacillus subtilis sacB marker. Mol Microbiol 6: 11951204.
  • Simon, R., Piefer, U. & Puhler, A. (1983) A broad host range mobilization system for in vivo genetic engineering: transposon mutagenesis in Gram-negative bacteria. Biotechnology 1: 784790.
  • Stephens, C., Mohr, C., Boyd, C., Maddock, J., Gober, J. & Shapiro, L. (1997) Identification of the fliI and fliJ components of the Caulobacter flagellar type III protein secretion system. J Bacteriol 179: 53555365.
  • Towbin, H., Staehlin, T. & Gordon, J. (1979) Electrophoretic transfer of proteins from polyacrylamide gels to nitrocellulose sheets: procedure and some applications. Proc Natl Acad Sci USA 76: 43504354.
  • Wingrove, J.A. & Gober, J.W. (1994) A σ54 transcriptional activator also functions as a pole-specific repressor in Caulobacter. Genes Dev 8: 18391852.
  • Wingrove, J.A. & Gober, J.W. (1996) Identification of an asymmetrically localized sensor histidine kinase responsible for temporally and spatially regulated transcription. Science 274: 597601.DOI: 10.1126/science.274.5287.597
  • Wingrove, J.A., Mangan, E.K. & Gober, J.W. (1993) Spatial and temporal phosphorylation of a transcriptional activator regulates pole-specific gene expression in Caulobacter. Genes Dev 7: 19791992.
  • Wu, J. & Newton, A. (1997) Regulation of the Caulobacter flagellar gene hierarchy; not just for motility. Mol Microbiol 24: 233239.
  • Xu, H., Dingwall, A. & Shapiro, L. (1989) Negative transcriptional regulation in the Caulobacter flagellar hierarchy. Proc Natl Acad Sci USA 86: 66566660.
  • Yu, J. & Shapiro, L. (1992) Early Caulobacter crescentus genes fliL and fliM are required for flagellar gene expression and normal cell division. J Bacteriol 174: 33273338.