SEARCH

SEARCH BY CITATION

References

  • Barrientos, A., Barros, M.H., Valnot, I., Rotig, A., Rustin, P., and Tzagoloff, A. (2002) Cytochrome oxidase in health and disease. Gene 0: 5363.
  • Batut, J., Daveran-Mingot, M.L., David, M., Jacobs, J., Garnerone, A.M., and Kahn, D. (1989) fixK, a gene homologous with fnr and crp from Escherichia coli, regulates nitrogen fixation genes both positively and negatively in Rhizobium meliloti. EMBO J 8: 12791286.
  • Blumer, C., and Haas, D. (2000) Mechanism, regulation, and ecological role of bacterial cyanide biosynthesis. Arch Microbiol 173: 170177.
  • Castric, P.A. (1975) Hydrogen cyanide, a secondary metabolite of Pseudomonas aeruginosa. Can J Microbiol 21: 613618.
  • Comolli, J.C., and Donohue, T.J. (2002) Pseudomonas aeruginosa RoxR, a response regulator related to Rhodobacter sphaeroides PrrA, activates expression of the cyanide-insensitive terminal oxidase, CioAB. Mol Microbiol 45: 755768.
  • Cooper, M., Tavankar, G.R., and Williams, H.D. (2003) Regulation of expression of the cyanide-insensitive terminal oxidase in Pseudomonas aeruginosa. Microbiology 149: 12751284.
  • Croft, L., Beatson, S.A., Whitchurch, C.B., Huang, B., Blakeley, R.L., and Mattick, J.S. (2000) An interactive web-based Pseudomonas aeruginosa genome database: discovery of new genes, pathways and structures. Microbiology 146: 23512364.
  • Delgado, M.J., Bedmar, E.J., and Downie, J.A. (1998) Genes involved in the formation and assembly of rhizobial cytochromes and their role in symbiotic nitrogen fixation. Adv Microb Physiol 40: 191231.
  • Fellay, R., Frey, J., and Krisch, H.M. (1987) Interposon mutagenesis of soil and water bacteria: a family of DNA fragments designed for in vitro insertional mutagenesis of Gram-negative bacteria. Gene 52: 147154.
  • Fisher, H.M. (1994) Genetic regulation of nitrogen fixation in rhizobia. Microbiol Rev 58: 352386.
  • Garcia-Horsman, J.A., Barquera, B., Rumbley, J., Ma, J., and Gennis, R.B. (1994) The superfamily of heme-copper respiratory oxidases. J Bacteriol 176: 55875600.
  • Jeffke, T., Gropp, N.H., Kaiser, C., Grzeszik, C., Kusian, B., and Bowien, B. (1999) Mutational analysis of the cbb operon (CO2 assimilation) promoter of Ralstonia eutropha. J Bacteriol 181: 43744380.
  • Lopez, O., Morera, C., Miranda-Rios, J., Girard, L., Romero, D., and Soberon, M. (2001) Regulation of gene expression in response to oxygen in Rhizobium etli: role of FnrN in fixNOQP expression and in symbiotic nitrogen fixation. J Bacteriol 183: 69997006.
  • Mandon, K., Kaminski, P.A., and Elmerich, C. (1994) Functional analysis of the fixNOQP region of Azorhizobium caulinodans. J Bacteriol 176: 25602568.
  • Myllykallio, H., and Liebl, U. (2000) Dual role for cytochrome cbb3 oxidase in clinically relevant proteobacteria? Trends Microbiol 8: 542543.
  • O'Gara, J.P., and Kaplan, S. (1997) Evidence for the role of redox carriers in photosynthesis gene expression and carotenoid biosynthesis in Rhodobacter sphaeroides 2.4.1. J Bacteriol 179: 19511961.
  • O'Gara, J.P., Eraso, J.M., and Kaplan, S. (1998) A redox-responsive pathway for aerobic regulation of photosynthesis gene expression in Rhodobacter sphaeroides 2.4.1. J Bacteriol 180: 40444050.
  • Oh, J.I., and Kaplan, S. (1999) The cbb3 terminal oxidase of Rhodobacter sphaeroides 2.4.1: structural and functional implications for the regulation of spectral complex formation. Biochemistry 38: 26882696.
  • Oh, J.I., and Kaplan, S. (2000) Redox signaling: globalization of gene expression. Embo J 19: 42374247.
  • Oh, J.I., and Kaplan, S. (2001) Generalized approach to the regulation and integration of gene expression. Mol Microbiol 39: 11161123.
  • Oh, J.I., and Kaplan, S. (2002) Oxygen adaptation. The role of the CcoQ subunit of the cbb3 cytochrome c oxidase of Rhodobacter sphaeroides 2.4.1. J Biol Chem 277: 1622016228.
  • van der Oost, J., de Boer, A.P., de Gier, J.W., Zumft, W.G., Stouthamer, A.H., and van Spanning, R.J. (1994) The heme-copper oxidase family consists of three distinct types of terminal oxidases and is related to nitric oxide reductase. FEMS Microbiol Lett 121: 19.
  • Otten, M.F., Stork, D.M., Reijnders, W.N., Westerhoff, H.V., and Van Spanning, R.J. (2001) Regulation of expression of terminal oxidases in Paracoccus denitrificans. Eur J Biochem 268: 24862497.
  • Parales, R.E., and Harwood, C.S. (1993) Construction and use of a new broad-host-range lacZ transcriptional fusion vector, pHRP309, for Gram- bacteria. Gene 133: 2330.
  • Patschkowski, T., Schluter, A., and Priefer, U.B. (1996) Rhizobium leguminosarum bv. viciae contains a second fnr/fixK-like gene and an unusual fixL homologue. Mol Microbiol 21: 267280.
  • Pereira, M.M., Santana, M., and Teixeira, M. (2001) A novel scenario for the evolution of haem-copper oxygen reductases. Biochim Biophys Acta 1505: 185208.
  • Pitcher, R.S., Brittain, T., and Watmough, N.J. (2002) Cytochrome cbb3 oxidase and bacterial microaerobic metabolism. Biochem Soc Trans 30: 653658.
  • Poole, R.K., and Cook, G.M. (2000) Redundancy of aerobic respiratory chains in bacteria? Routes, reasons and regulation. Adv Microb Physiol 43: 165224.
  • Preisig, O., Anthamatten, D., and Hennecke, H. (1993) Genes for a microaerobically induced oxidase complex in Bradyrhizobium japonicum are essential for a nitrogen-fixing endosymbiosis. Proc Natl Acad Sci USA 90: 33093313.
  • Preisig, O., Zufferey, R., Thony-Meyer, L., Appleby, C.A., and Hennecke, H. (1996) A high-affinity cbb3-type cytochrome oxidase terminates the symbiosis- specific respiratory chain of Bradyrhizobium japonicum. J Bacteriol 178: 15321538.
  • Preston, M.J., Seed, P.C., Toder, D.S., Iglewski, B.H., Ohman, D.E., Gustin, J.K., Goldberg, J.B., and Pier, G.B. (1997) Contribution of proteases and LasR to the virulence of Pseudomonas aeruginosa during corneal infections. Infect Immun 65: 30863090.
  • Pudek, M.R., and Bragg, P.D. (1974) Inhibition by cyanide of the respiratory chain oxidases of Escherichia coli. Arch Biochem Biophys 164: 682693.
  • Ray, A., and Williams, H.D. (1997) The effects of mutation of the anr gene on the aerobic respiratory chain of Pseudomonas aeruginosa. FEMS Microbiol Lett 156: 227232.
  • Richardson, D.J. (2000) Bacterial respiration: a flexible process for a changing environment. Microbiology 146: 551571.
  • Rompf, A., Hungerer, C., Hoffman, T., Lindenmeyer, M., Romling, U., Gross, U., et al. (1998) Regulation of Pseudomonas aeruginosa hemF and hemN by the dual action of the redox response regulators Anr and Dnr. Mol Microbiol 29: 985997.
  • Sawers, R.G. (1991) Identification and molecular characterization of a transcriptional regulator from Pseudomonas aeruginosa PAO1 exhibiting structural and functional similarity to the FNR protein of Escherichia coli. Mol Microbiol 5: 14691481.
  • Schluter, A., Ruberg, S., Kramer, M., Weidner, S., and Priefer, U.B. (1995) A homolog of the Rhizobium meliloti nitrogen fixation gene fixN is involved in the production of a microaerobically induced oxidase activity in the phytopathogenic bacterium Agrobacterium tumefaciens. Mol Gen Genet 247: 206215.
  • Schluter, A., Patschkowski, T., Quandt, J., Selinger, L.B., Weidner, S., Kramer, M., et al. (1997) Functional and regulatory analysis of the two copies of the fixNOQP operon of Rhizobium leguminosarum strain VF39. Mol Plant Microbe Interact 10: 605616.
  • Smith, M.A., Finel, M., Korolik, V., and Mendz, G.L. (2000) Characteristics of the aerobic respiratory chains of the microaerophiles Campylobacter jejuni and Helicobacter pylori. Arch Microbiol 174: 110.
  • Solomonson, L.P. (1981) Cyanide as a metabolic inhibitor. In Cyanide in Biology. Wissing, F, (ed.). London: Academic Press, pp. 1128.
  • Stover, C.K., Pham, X.Q., Erwin, A.L., Mizoguchi, S.D., Warrener, P., Hickey, M.J., et al. (2000) Complete genome sequence of Pseudomonas aeruginosa PA01, an opportunistic pathogen. Nature 406: 959964.
  • Swem, L.R., Elsen, S., Bird, T.H., Swem, D.L., Koch, H.G., Myllykallio, H., et al. (2001) The RegB/RegA two-component regulatory system controls synthesis of photosynthesis and respiratory electron transfer components in Rhodobacter capsulatus. J Mol Biol 309: 121138.
  • Thomas, P.E., Ryan, D., and Levin, W. (1976) An improved staining procedure for the detection of the peroxidase activity of cytochrome P-450 on sodium dodecyl sulfate polyacrylamide gels. Anal Biochem 75: 168176.
  • Thony-Meyer, L., Beck, C., Preisig, O., and Hennecke, H. (1994) The ccoNOQP gene cluster codes for a cb-type cytochrome oxidase that functions in aerobic respiration of Rhodobacter capsulatus. Mol Microbiol 14: 705716.
  • Toledo-Cuevas, M., Barquera, B., Gennis, R.B., Wikstrom, M., and Garcia-Horsman, J.A. (1998) The cbb3-type cytochrome c oxidase from Rhodobacter sphaeroides, a proton-pumping heme-copper oxidase. Biochim Biophys Acta 1365: 421434.
  • Van Spanning, R.J., De Boer, A.P., Reijnders, W.N., Westerhoff, H.V., Stouthamer, A.H., and Van Der Oost, J. (1997) FnrP and NNR of Paracoccus denitrificans are both members of the FNR family of transcriptional activators but have distinct roles in respiratory adaptation in response to oxygen limitation. Mol Microbiol 23: 893907.
  • Vogel, H.J., and Bonner, D.M. (1956) Acetylornithinase of Escherichia coli: partial purification and some properties. J Biol Chem 218: 97106.
  • Weinstein, M., Roberts, R.C., and Helinski, D.R. (1992) A region of the broad-host-range plasmid RK2 causes stable in planta inheritance of plasmids in Rhizobium meliloti cells isolated from alfalfa root nodules. J Bacteriol 174: 74867489.
  • Winteler, H.V., and Haas, D. (1996) The homologous regulators ANR of Pseudomonas aeruginosa and FNR of Escherichia coli have overlapping but distinct specificities for anaerobically inducible promoters. Microbiology 142: 685693.
  • Zimmermann, A., Reimmann, C., Galimand, M., and Haas, D. (1991) Anaerobic growth and cyanide synthesis of Pseudomonas aeruginosa depend on anr, a regulatory gene homologous with fnr of Escherichia coli. Mol Microbiol 5: 14831490.
  • Zufferey, R., Preisig, O., Hennecke, H., and Thony-Meyer, L. (1996) Assembly and function of the cytochrome cbb3 oxidase subunits in Bradyrhizobium japonicum. J Biol Chem 271: 91149119.