1887

Microbiology

Volume 138, Issue 12

Iron assimilation storage in prokaryotes Free

Preview this article:
Preview Magnify

There is no abstract available.

  • Published Online:
© Society for General Microbiology, 1992
Loading

Article metrics loading...

/content/journal/micro/10.1099/00221287-138-12-2475
1992-12-01
2021-10-24
Loading full text...

Full text loading...

/deliver/fulltext/micro/138/12/mic-138-12-2475.html?itemId=/content/journal/micro/10.1099/00221287-138-12-2475&mimeType=html&fmt=ahah

References

  1. Ames G. F. L. ( 1986;). Bacterial periplasmic transport systems: structure, mechanism and evolution.. Annual Review of Biochemistry 55, 397-425.
     [Google Scholar]
  2. Andrews S. C., Harrison P. M. & Guest J. R. ( 1989;). Cloning, sequencing, and mapping of the bacterioferritin gene (bfr) of Escherichia coli K-12.. Journal of Bacteriology 171, 3940-3947.
     [Google Scholar]
  3. Andrews S. C., Findlay J.B. C., Guest J. R., Harrison P. M., Keen J. N. & Smith J. M. A. ( 1991;). Physical, chemical and immunological properties of the bacterioferritins of Escherichia coli, Pseudomonas aeruginosa and Azotobacter vinelandii. . Biochimica et Biophysica Acta 1078, 111-116.
     [Google Scholar]
  4. Archibald F. ( 1983;). Micrococcus lysodeikticus, an organism not requiring iron. . FEMS Microbiology Letters 19, 29-32.
     [Google Scholar]
  5. Archibald F. & De Voe I. W. ( 1980;). Iron acquisition by Neisseria meningitidis. . Infection and Immunity 27, 322-334.
     [Google Scholar]
  6. Bagg A. & Neilanos J. B. ( 1985;). Mapping of a mutation affecting regulation of iron uptake systems in Escherichia coli K12. . Journal of Bacteriology 161, 450-453.
     [Google Scholar]
  7. Bagg A. & Neilands J. B. ( 1987a;). Molecular mechanism of regulation of siderophore-mediated iron assimilation.. Microbiological Reviews 51, 509-518.
     [Google Scholar]
  8. Bagg A. & Neilands J.B. ( 1987b;). Ferric uptake regulation protein acts as a repressor, employing iron(II) as a cofactor to bind the operator of an iron transport operon in Escherichia coli.. Biochemistry 26, 5471-5477.
     [Google Scholar]
  9. Barghouti S., Young R., Olson M. O., Arceneaux J.E.L., Clem L. W. & Byers B. R. ( 1989;). Amonabactin, a novel tryptophan- or phenylalanine-containing phenolate siderophore in Aeromonas hydrophila. . Journal of Bacteriology 171, 1811-1816.
     [Google Scholar]
  10. Barghouti S., Payne S. M., Arceneaux J. E. L. & Byers B. R. ( 1991;). Cloning, mutagenesis and nucleotide sequence of a siderophore biosynthetic gene (amoA) from Aeromonas hydrophila.. Journal of Bacteriology 173, 5121-5128.
     [Google Scholar]
  11. Bauminger E. R., Cohen S. G., Dickson D. P. E., Levy A., Ofer S. & Yariv J. ( 1980;). Mossbauer spectroscopy of Escherichia coli and its iron-storage protein. . Biochimica et Biophysica Acta 623, 237-242.
     [Google Scholar]
  12. Bäumler A. J. & Hantke K. ( 1992a;). A lipoprotein of Yersinia enterocolitica facilitates ferrioxamine uptake in Escherichia coli. . Journal of Bacteriology 174, 1029-1035.
     [Google Scholar]
  13. Bäumler A. J. & Hantke K. ( 1992b;). Ferrioxamine uptake in Yersinia enterocolitica: characterization of the protein receptor FoxA. . Molecular Microbiology 6 (in the press).
     [Google Scholar]
  14. Bitter W., Marugg J. D., De Weger L. A., Tommassen J. & Weisbeek P. J. ( 1991;). The ferric-pseudobactin receptor PupA of Pseudomonas putida WCS 358: homology to TonB-dependent Escherichia coli receptors and specificity of the protein. . Molecular Microbiology 5, 647-655.
     [Google Scholar]
  15. Blakemore R. P. ( 1975;). Magnetotactic bacteria.. Science 190, 377-379.
     [Google Scholar]
  16. Blakemore R. P. ( 1982;). Magnetotactic bacteria.. Annual Review of Microbiology 36, 217-238.
     [Google Scholar]
  17. Braun V. & Hantke K. ( 1991). Genetics of bacterial iron transport. . In Handbook of Microbial Chelates, pp. 107-138. Edited by Winkelmann G.. Boca Raton:: CRC Press;.
     [Google Scholar]
  18. Braun V., Gross R., Köster W. & Zimmermann L. ( 1983;). Plasmid and chromosomal mutants of the iron(III)-aerobactin transport system of Escherichia coli. Use of streptonigrin for selection.. Molecular and General Genetics 192, 131-139.
     [Google Scholar]
  19. Braun V., Hantke K., Eick-Helmerich K., Köster W., Pressler U., Sauer M., Schaffer S., Schoffler H., Staudenmaier H. & Zimmermann L. ( 1987). Iron transport system in Escherichia coli. . In Iron Transport in Microbes, Plants and Animals, pp. 35-51. Edited by Winkelmann G., van der Helm D. & Neilands J.B.. Weinheim:: VCH Publishers;.
     [Google Scholar]
  20. Burkhardt R. & Braun V. ( 1987;). Nucleotide sequence of thejhuC and jhuD genes involved in iron(III) hydroxamate transport: domains in FhuC homologous to ATP binding proteins. . Molecular and General Genetics 209, 49-55.
     [Google Scholar]
  21. Byers B. R. ( 1987;). Pathogenic iron acquisition.. Life Chemical Report 4, 143-159.
     [Google Scholar]
  22. Byers B. R., Massad G., Barghouti S. &Arcenaux. , J.E.L. ( 1991;). Iron acquisition in the motile aeromonads: siderophore-dependent and -independent systems.. Experientia 47, 416-418.
     [Google Scholar]
  23. Chakraborty T., Huhle B., Hof H., Bergbauer H. & Goebel W. ( 1987;). Marker exchange mutagenesis of the aerolysin determinant in Aeromonas hydrophila demonstrates the role of aerolysin in A. hydrophila associated systemic infections. . Infection and Immunity 55, 2274-2280.
     [Google Scholar]
  24. Cheesman M. R., Thomson A. J., Greenwood C., Moore G. R. & Kadir F. ( 1990;). Bis-methionine axial ligation of haem in bacterioferritin from Pseudomonas aeruginosa. . Nature, London 346, 771-773.
     [Google Scholar]
  25. Chen M. & Crichton R.R. ( 1982;). Purification and characterization of a bacterioferritin from Azotobacter chroococcum. . Biochimica et Biophysica Acta 707, 1-6.
     [Google Scholar]
  26. Chenault S. S. & Earhart C. C. F. ( 1991;). Organisation of genes encoding membrane proteins of the Escherichia coli ferrienterobactin permease. . Molecular Microbiology 5, 1405-1413.
     [Google Scholar]
  27. C0Ulton J. W., Mason P. & Allat D. D. ( 1987;). jhuC and jhuD genes for iron(III)-f errichrome transport in Escherichia coli K-12. . Journal of Bacteriology 169, 3844-3849.
     [Google Scholar]
  28. Coy M. & Neilands J.B. ( 1991;). Structural dynamics and functional domains of the Fur protein.. Biochemistry 30, 8201-8210.
     [Google Scholar]
  29. Cr0Sa J. H. ( 1980;). A plasmid associated with virulence in the marine fish pathogen Vibrio anguillarum specifies an iron-sequestering system. . Nature, London 284, 566-568.
     [Google Scholar]
  30. Crosa J. H. ( 1989;). Genetics and molecular biology of siderophore mediated iron transport in bacteria.. Microbiological Reviews 53, 517-530.
     [Google Scholar]
  31. De Lorenzo V., Wee S., Herrero M. & Neilands J. B. ( 1987;). Operator sequences of the aerobactin operon of plasmid Co1V-K30 binding the ferric uptake regulation (fur) repressor.. Journal of Bacteriology 169, 2624-2630.
     [Google Scholar]
  32. De Lorenzo V., Herrero M., Giovannini F. & Neilands J. B. ( 1988;). Fur (ferric uptake regulation) protein and CAP (catabolite-activator protein) modulate transcription of fur gene in Escherichia coli.. European Journal of Biochemistry 173, 537-546.
     [Google Scholar]
  33. Deich R. A., Metcalf B. J., Finn C. W., Farley J.E. & Green B. A. ( 1988;). Cloning of genes encoding a 15,000-dalton peptidoglycan-associated outer membrane lipoprotein and an antigenically related 15,000-dalton protein from Haemophilus influenzae. . Journal of Bacteriology 170, 489-498.
     [Google Scholar]
  34. Dyer D. W., West E. P. &Sparling. , P. F. ( 1987;). Effects of serum carrier proteins on the growth of pathogenic Neisseria with haem bound iron. . Infection and Immunity 55, 2171-2175.
     [Google Scholar]
  35. Earhart C. F. ( 1987). Ferrienterobactin transport in Escherichia coli. . In Iron Transport in Microbes, Plants and Animals, pp. 67-84. Edited by Winkelmann G., van der Helm D. & Neilands J.B.. Weinheim:: VCH Publishers;.
     [Google Scholar]
  36. Eick-Helmerich K., Hantke K. & Braun V. ( 1987;). Cloning and expression of the exbB gene of Escherichia coli K 12. . Molecular and General Genetics 206, 246-251.
     [Google Scholar]
  37. Elkins M. F. & Earhart C. F. ( 1989;). Nucleotide sequence and regulation of Escherichia coli gene for ferrienterobactin transport protein FepB. . Journal of Bacteriology 171, 5443-5451.
     [Google Scholar]
  38. Enard C., Diolez A. & Expert D. ( 1988;). Systemic virulence of Erwinia chrysanthemi 3937 requires a functional iron assimilation system. . Journal of Bacteriology 170, 2419-2426.
     [Google Scholar]
  39. Ernst J. F., Bennett R. L. & Rothfield L. I. ( 1978;). Constitutive expression of the iron enterochelin and ferrichrome uptake systems in a mutant strain of Salmonella typhimurium. . Journal of Bacteriology 135, 928-934.
     [Google Scholar]
  40. Fecker L. & Braun V. ( 1983;). Cloning and expression of the jhu genes involved in iron(III)-hydroxamate uptake by Escherichia coli. . Journal of Bacteriology 156, 1301-1314.
     [Google Scholar]
  41. Ferris F. G., Tazaki K. & Fyfe W. S. ( 1989;). Iron oxides in acid mine drainage environments and their association with bacteria.. Chemical Geology 14, 321-330.
     [Google Scholar]
  42. Flitter R. W., Rowley D. A. & Halliwell B. ( 1983;). Superoxide dependent formation of hydroxyl radicals in the presence of iron salts.. FEBS Letters 158, 310-312.
     [Google Scholar]
  43. Francis R. T., Booth J. W. & Becker R.R. ( 1985;). Uptake of iron from hemoglobin and the hemoglobin-haptoglobin complex by hemolytic bacteria.. Journal of Biochemistry 17, 767-773.
     [Google Scholar]
  44. Frankel R. B., Blakemore R. P. & Wolfe R. S. ( 1979;). Magnetite in fresh-water bacteria.. Science 203, 1355-1356.
     [Google Scholar]
  45. Garibaldi J. A. & Neilands J.B. ( 1956;). Formation of iron binding compounds by microorganisms.. Nature, London 177, 526-527.
     [Google Scholar]
  46. Ghiorse W. C. ( 1984;). Biology of iron-and manganese-depositing bacteria.. Annual Review of Microbiology 38, 515-550.
     [Google Scholar]
  47. Gibson F. & Magrath D. J. ( 1969;). The isolation and characterization of a hydroxamic acid (aerobactin) formed by Aerobacter aerogenes 62-1.. Biochimica et Biophysica Acta 192, 175-184.
     [Google Scholar]
  48. Gorby Y. A., Beveridge T. J. & Blakemore R. P. ( 1988;). Characterization of the bacterial magnetosome membrane.. Journal of Bacteriology 170, 834-841.
     [Google Scholar]
  49. Gray M. W. ( 1989;). The evolutionary origins of organelles.. Trends in Genetics 5, 294-299.
     [Google Scholar]
  50. Grossman M. J., Hinton S. M., Minak-Bernero V., Slaughter C. & Stiefel E. I. ( 1992;). Unification of the ferritin family of proteins.. Proceedings of the National Academy of Sciences of the United States of America 89, 2419-2423.
     [Google Scholar]
  51. Hall R. M. & Ratledge C. ( 1984;). Myobactins as chemotaxonomic characters for some rapidly growing mycobacteria.. Journal of General Microbiology 130, 1883-1892.
     [Google Scholar]
  52. Hanson M. S. & Hansen E. J. ( 1991;). Molecular cloning, partial purification, and characterization of a haemin-binding lipoprotein from Haemophilus influenzae type b. . Molecular Microbiology 5, 267-278.
     [Google Scholar]
  53. Hantke K. ( 1981;). Regulation of ferric iron transport in E. coli: isolation of a constitutive mutant. . Molecular and General Genetics 182, 288-292.
     [Google Scholar]
  54. Hantke K. ( 1984;). Cloning of the repressor protein gene of iron regulated system in E. coli K 12. . Molecular and General Genetics 197, 337-341.
     [Google Scholar]
  55. Hantke K. ( 1987;). Selection procedure for deregulated iron transport mutants (fur) in E. coli K12: fur not only affects iron metabolism.. Molecular and General Genetics 210, 135-139.
     [Google Scholar]
  56. Hantke K. & Braun V. ( 1978;). Functional interaction of the tonAtonB receptor system. . Journal of Bacteriology 135, 190-197.
     [Google Scholar]
  57. Hantke K. & Zimmermann L. ( 1981;). The importance of the exbB gene for vitamin Bl2 and ferric iron transport. . FEMS Microbiology Letters 12, 31-35.
     [Google Scholar]
  58. Harding R. A. & Royt P. W. ( 1990;). Acquisition of iron from citrate by Pseudomonas aeruginosa. . Journal of General Microbiology 136, 1859-1867.
     [Google Scholar]
  59. Harker A. R. & Wullstein L. H. ( 1985;). Evidence of two nonidentical subunits of bacterioferritin from Azotobacter vinelandii. . Journal of Bacteriology 162, 651-655.
     [Google Scholar]
  60. Harkness R. E., Chong P. & Klein M. H. ( 1992;). Identification of two iron-repressed periplasmic proteins in Haemophilus influenzae. . Journal of Bacteriology 174, 2425-2430.
     [Google Scholar]
  61. Harrison P. M., Andrews S., Artymiuk P. J., Ford G. C., Guest J. R., Hirzmann J., Lawson D. M., Livingstone J. C., Smith J.M. A., Treffry A. & Yewdall S. J. ( 1991;). Probing structurefunction relations in ferritin and bacterioferritin.. Advances in Inorganic Chemistry 36, 449-485.
     [Google Scholar]
  62. Howard S. P. & Buckley J. T. ( 1986;). Molecular cloning and expression in Escherichia coli of the structural gene for the hemolytic toxin aerolysin from Aeromonas hydrophila. . Molecular and General Genetics 204, 289-295.
     [Google Scholar]
  63. Hussein S., Hantke K. & Braun V. ( 1981;). Citrate-dependent iron transport system in Escherichia coli K-12. . European Journal of Biochemistry 117, 431-437.
     [Google Scholar]
  64. Ishimaru C. A. & Loper J. E. ( 1992;). High affinity uptake systems present in Erwinia carotovora subsp. carotovora include the hydroxamate siderophore aerobactin. . Journal of Bacteriology 174, 2993-3003.
     [Google Scholar]
  65. Lzuhara M., Takamune K. & Takata R. ( 1991;). Cloning and sequencing of an Escherichia coli K 12 gene which encodes a polypeptide having similarity to the human ferritin H subunit. . Molecular and General Genetics 225, 510-513.
     [Google Scholar]
  66. Köster W. L. & Braun V. ( 1986;). Iron hydroxamate transport of Escherichia coli: nucleotide sequence of the jhuB gene and identification of the protein. . Molecular and General Genetics 204, 435-442.
     [Google Scholar]
  67. Köster W. L., Actios L.A., Waldbeser L. S., Tolmasky M. E. & Crosa J. H. ( 1991;). Molecular characterization of the iron transport system mediated by the pJMl plasmid in Vibrio anguillarum 775. . Journal of Biological Chemistry 266, 23829-23833.
     [Google Scholar]
  68. Kurokawa T., Fukumori Y. & Yamanaka T. ( 1989;). Nitrobacter winogradskyi cytochrome b-559: a nonhaem iron-containing cytochrome related to bacterioferritin. . Biochimica et Biophysica Acta 916, 135-139.
     [Google Scholar]
  69. Lankford C. E. ( 1973;). Bacterial assimilation of iron.. Critical Reviews in Microbiology 2, 273-331.
     [Google Scholar]
  70. Laulhere J.P., Labouré A. M., Van Wuytswinkel O., Gagnon J. & Briat J. F. ( 1992;). Purification, characterization and function of bacterioferritin from the cyanobacterium Synechocystis PCC 6803. . Biochemical Journal 281, 785-793.
     [Google Scholar]
  71. Lescure A. M., Proudhon D., Pesey H., Ragland M., Theil E. C. & Briat J. F. ( 1991;). Ferritin gene transcription is regulated by iron in soybean cell cultures.. Proceedings of the National Academy of Sciences of the United States of America 88, 8222-8226.
     [Google Scholar]
  72. Loper J. E. & Buyer J. S. ( 1991;). Siderophores in microbial interactions on plant surfaces.. Molecular Plant-Microbe Interactions 4, 5-13.
     [Google Scholar]
  73. Macham L. P. & Ratledge C. ( 1975;). A new group of water-soluble iron-binding compounds from mycobacteria: the exochelins.. Journal of General Microbiology 89, 379-382.
     [Google Scholar]
  74. Mann S., Frankel R. B. & Blakemore R. P. ( 1984;). Structure, morphology and crystal growth of bacterial magnetite.. Nature, London 310, 405-407.
     [Google Scholar]
  75. Mann S., Bannister J. V. & Williams R. J.P. ( 1986;). Structure and composition of ferritin cores isolated from human spleen, limpet (Patella vulgata) hemolymph and bacterial cells (Pseudomonas aeruginosa).. Journal of Molecular Biology 188, 225-232.
     [Google Scholar]
  76. Mann S., Williams J. M., Treffry A. & Harrison P. M. ( 1987;). Reconstituted and native iron-cores of bacterioferritin and ferritin.. Journal of Molecular Biology 198, 405-416.
     [Google Scholar]
  77. Massad G., Arceneaux J.E. L. & Byers B. R. ( 1991;). Acquisition of iron from host sources by mesophilic Aeromonas species. . Journal of General Microbiology 137, 237-241.
     [Google Scholar]
  78. Matsuda T., Endo J., Ossakabe N. & Tonomura A. ( 1983;). Morphology and structure of biogenic magnetite particles.. Nature, London 302, 411-412.
     [Google Scholar]
  79. Matzanke B. F., Moller G. I., Bill E. & Trautwein A. X. ( 1989;). Iron metabolism of Escherichia coli studied by Mossbauer spectroscopy and biochemical methods. . European Journal of Biochemistry 183, 371-379.
     [Google Scholar]
  80. Messenger A. J. M. & Ratledge C. ( 1982;). Iron transport in Mycobacterium smegmatis: uptake of iron from ferric citrate. . Journal of Bacteriology 149, 131-135.
     [Google Scholar]
  81. Messenger A. J. M., Hall R. M. & Ratledge C. ( 1986;). Iron uptake processes in Mycobacterium vaccae R877R, A Mycobacterium lacking myobactin. . Journal of General Microbiology 132, 845-852.
     [Google Scholar]
  82. Mickelsen P. A. & Sparling P. F. ( 1981;). Ability of Neisseria gonorrhoeae, Neisseria meningitidis, and commensal Neisseria species to obtain iron from transferrin and iron compounds. . Infection and Immunity 33, 555-564.
     [Google Scholar]
  83. Moore G. R., Mann S. & Bannister J. V. ( 1986;). Isolation and properties of the complex nonhaem-iron-containing cytochrome B-557 (bacterioferritin) from Pseudomonas aeruginosa. . Journal of Inorganic Biochemistry 28, 329-336
     [Google Scholar]
  84. Morton D. J. & Williams P. ( 1990;). Siderophore-independent acquisition of transferrin-bound iron by Haemophilus inftuenzae type b. . Journal of General Microbiology 136, 927-933.
     [Google Scholar]
  85. Niederhoffer E. C., Naranjo C. M. & Fee J. A. ( 1989). Relationship of the superoxide dismutase genes, sodA and sodB, to the iron uptake (fur) regulon in Escherichia coli K-12. . In Metal Ion Homeostasis: Molecular Biology and Chemistry, pp. 149-158. New York:: Alan R. Liss;.
     [Google Scholar]
  86. Ozenberger B. A., Nahlik M. S. & Mcintosh M. A. ( 1987;). Genetic organization of multiple fep genes encoding ferric enterobactin transport functions in Escherichia coli. . Journal of Bacteriology 169, 3638-3646.
     [Google Scholar]
  87. Persmark M., Expert D. & Neilands J. B. ( 1989;). Isolation, characterization, and synthesis of chrysobactin, a compound with siderophore activity from Erwinia chrysanthemi. . Journal of Biological Chemistry 264, 3187-3193.
     [Google Scholar]
  88. Pidcock K. A., Wooten J. A., Daley B. A. & Stull T. L. ( 1988;). Iron acquisition by Haemophilus influenzae. . Infection and Immunity 56, 721-725.
     [Google Scholar]
  89. Pierce J. R. & Earhart C. F. ( 1986;). Escherichia coli K-12 envelope proteins specifically required for ferrienterobactin uptake. . Journal of Bacteriology 166, 930-936.
     [Google Scholar]
  90. Pierce J. R., Pickett C. L. & Earhart C. F. ( 1983;). Twofep genes are required for ferrienterobactin uptake in Escherichia coli K-12. . Journal of Bacteriology, 155, 330-336.
     [Google Scholar]
  91. Postle K. & Good R. F. ( 1983;). DNA sequence of the Escherichia coli tonB gene. . Proceedings of the National Academy of Sciences of the United States of America 80, 5235-5239.
     [Google Scholar]
  92. Ragland M., Briat J. , F., Gagnon J., Laulhere J.P., Massenet O. & Theil E. C. ( 1990;). Evidence for a conservation of ferritin sequences among plants and animals and for a transit peptide in soybean.. Journal of Biological Chemistry 265, 18339-18344.
     [Google Scholar]
  93. Ratledge C. ( 1984). Metabolism of iron and other metals by mycobacteria. . In The Mycobacteria - A Source Book, part A, pp. 603-627. Edited by Kubica G. P. & Wayne L. G.. New York:: Marcel Dekker;.
     [Google Scholar]
  94. Ratledge C., Macham L., Brown K. A. & Marshall B. J. ( 1974;). Iron transport in Mycobacterium smegmatis: a restricted role for salicylic acid in the extracellular environment. . Biochimica et Biophysica Acta 372, 39-51.
     [Google Scholar]
  95. Robson R. L., Eady R. R., Richardson T. H., Miller R. W., Hawkins M. & Postgate J.M. ( 1986;). The alternative nitrogenase of Azotobacter chroococcum. . Nature, London 322, 388-390.
     [Google Scholar]
  96. Saito T. & Williams R. J.P. ( 1991;). The binding of the ferric uptake regulation protein to a DNA fragment.. European Journal of Biochemistry 197, 43-47.
     [Google Scholar]
  97. Saito T., Wormald M. R. & Williams R. J. P. ( 1991a;). Some structural features of the iron-uptake regulation protein.. European Journal of Biochemistry 197, 29-38.
     [Google Scholar]
  98. Saito T., Duly D. & Williams R. J.P. ( 1991b;). The histidines of the iron uptake regulation protein, Fur.. European Journal of Biochemistry 197, 39-42.
     [Google Scholar]
  99. Schaffer S., Hantke K. & Braun V. ( 1985;). Nucleotide sequence of the iron regulatory gene fur. . Molecular and General Genetics 201, 204-212.
     [Google Scholar]
  100. Schryvers A. B. ( 1989;). Identification of the transferrin-and lactoferrin-binding proteins in Haemophilus inftuenzae. . Journal of Medical Microbiology 29, 121-130.
     [Google Scholar]
  101. Seckbach S. ( 1982;). Ferreting out the secrets of plant ferritin -a review.. Journal of Plant Nutrition 5, 369-394.
     [Google Scholar]
  102. Shea C. M. & Mcintosh M. A. ( 1991;). Nucleotide sequence and genetic organization of the ferric enterobactin transport system: homology to other periplasmic binding protein-dependent systems in Escherichia coli. . Molecular Microbiology 5, 1415-1428.
     [Google Scholar]
  103. Sibille J.C., Ciriolo M., Kondo H., Crichton R.R. & Aisen P. ( 1989;). Subcellular localization of ferritin and iron taken up by rat hepatocytes.. Biochemical Journal 262, 685-688.
     [Google Scholar]
  104. Smith J.M. A., Quirk A. V., Plank R. W. H., Diffin F. M., Ford G. C. & Harrison P. M. ( 1988;). The identity of Escherichia coli bacterioferritin and cytochrome b-1. . Biochemical Journal 255, 737-740.
     [Google Scholar]
  105. Smith J. M. A., Ford G. C., Harrison P. M., Yariv J. & Kalb (Gilboa) A. J. ( 1989;). Molecular size and symmetry of the bacterioferritin of Escherichia coli. X-ray crystallographic characterization of four crystal forms. . Journal of Molecular Biology 205, 465-467.
     [Google Scholar]
  106. Staggs T. M. & Perry R. D. ( 1991;). Identification and cloning of a fur regulatory gene in Yersinia pestis. . Journal of Bacteriology 173, 417-425.
     [Google Scholar]
  107. Staudenmaier J., Van Hove B., Yaraghi Z. & Braun V. ( 1989;). Nucleotide sequences of the fecBCDE genes and locations of the proteins suggest a periplasmic-binding-protein-dependent transport mechanism for iron(III) dicitrate in Escherichia coli. . Journal of Bacteriology 177, 2626-2633.
     [Google Scholar]
  108. Stiefel E. I. & Wati G. D. ( 1979;). Azotobactercytochrome b557.5 is a bacterioferritin. . Nature, London 279, 81-83 .
     [Google Scholar]
  109. Stull T . L. ( 1987;). Protein sources of haem for Haemophilus inftuenzae. . Infection and Immunity 55, 148-153.
     [Google Scholar]
  110. Tolmasky M. E. & Crosa J. H. ( 1984;). Molecular cloning and expression of genetic determinants for the iron uptake system mediated by the Vibrio anguillarum plasmid pJMI. . Journal of Bacteriology 160, 860-866.
     [Google Scholar]
  111. Tolmasky M . E., Actis L.A. & Crosa J. H. ( 1988;) . Genetic analysis of the iron uptake region of the Vibrio anguillarum plasmid pJMI: molecular cloning of genetic determinants encoding a novel trans activator of siderophore biosynthesis. . Journal of Bacteriology 170, 1913-1919.
     [Google Scholar]
  112. Underwood E. J . ( 1971). Trace Elements in Human and Animal Nutrition, , 3rd edn., p. 15. New York:: Academic Press;.
     [Google Scholar]
  113. Valvano M. A. & Crosa J . H. ( 1984;). Aerobactin iron transport genes commonly encoded by certain ColV plasmids occur in the chromosome of a human invasive strain of Escherichia coli Kl. . Infection and Immunity 46, 159-167.
     [Google Scholar]
  114. Valvano M.A. & Crosa J . H. ( 1988;). Molecular cloning, expression, and regulation in Escherichia coli K12 of a chromosome-mediated aerobactin iron transport system from a human invasive strain of E. coli Kl. . Journal of Bacteriology, 170, 5529-5538.
     [Google Scholar]
  115. Valvano M.A., Silver R. P. & Crosa J . H . ( 1986;). Occurrence of chromosome-or plasmid-mediated aerobactin iron transport systems and hemolysin production among clonal groups of human invasive strains of Escherichia coli Kl. . Infection and Immunity S2, 192-199.
     [Google Scholar]
  116. Weaver J. & Pollack S. ( 1990;). Two types of receptors for iron on mitochondria.. Biochemical Journal 271, 463-466.
     [Google Scholar]
  117. Wee S., Neilands J.B., Bittner M. L., Hemming, 8. C., Haymore B. L. & Seetharam R. ( 1988;). Expression, isolation and properties of Fur (ferric uptake regulation) protein of Escherichia coli K12.. Biology of Metals 1, 62-67.
     [Google Scholar]
  118. Williams P., Morton O. J., Towner K. J., Stevenson P. & Griffiths E. ( 1990;). Utilization of enterobactin and other exogenous iron sources by Haemophilus inftuenzae, H. parainfluenzae and H. paraphrophilus. . Journal of General Microbiology 136, 2343-2350.
     [Google Scholar]
  119. Yariv J., Kalb A. J., Sperling R., Bauminger E. R., Cohen S. G. & Ofer S. ( 1981;). The composition and the structure of bacterioferritin of Escherichia coli. . Biochemical Journal 197, 771-775.
     [Google Scholar]
  120. Zakaria-Meehan Z., Massad G., Simpson L. M., Travis J. C. & Oliver J. D. ( 1988;). Ability of Vibrio vulnificus to obtain iron from hemoglobin-haptoglobin complexes. . Infection and Immunity 56, 275-277.
     [Google Scholar]
  121. Zimmermann L., Hantke K. & Braun V. ( 1984;). Exogenous induction of the iron dicitrate transport system of Escherichia coli K12. . Journal of Bacteriology 159, 271-277.
     [Google Scholar]
  122. Zimmermann L., Angllrer A. & Braun V. ( 1989;). Mechanistically novel iron(l11) transport system in Serratia marcescens.. Journal of Bacteriology 171, 238-243.
     [Google Scholar]
http://instance.metastore.ingenta.com/content/journal/micro/10.1099/00221287-138-12-2475
Loading

Most cited this month Most Cited RSS feed

This is a required field
Please enter a valid email address
Approval was a Success
Invalid data
An Error Occurred
Approval was partially successful, following selected items could not be processed due to error