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2009 | 12 | 1 |

Tytuł artykułu

Purification and partial characterization of pyoverdine synthesized by Pseudomonas putida

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN

Wydawca

-

Rocznik

Tom

12

Numer

1

Opis fizyczny

http://www.ejpau.media.pl/volume12/issue1/art-11.html

Twórcy

  • Department of Biochemistry, Warsaw University of Life Sciences, Nowoursynowska 159, 02-776 Warsaw, Poland

Bibliografia

  • 1. Ahl P., Voisard C., Défago G., 1986. Iron bound-siderophores, cyanic acid, and antibiotics involved in the suppression of Thielaviopsis basicola of a Pseudomonas fluorescens strain. J. Phyto. 116, 121-134.
  • 2. Bakker P.A.H.M., Ran L.X., Pieterse C.M.J., Van Loon L.,C., 2003. Understanding the involvement of rhizobacteria-mediated induction of systemic resistance in biocontrol of plant diseases. Can. J. Plant Pathol. 25, 5-9.
  • 3. Bano N., Musarrat J., 2004. Characterization of a novel carbofuran degrading Pseudomonas sp. with collateral biocontrol and plant growth promoting potential. FEMS Microbiol. Lett. 231, 13-17.
  • 4. Boopathi E., Sankara Rao K., 1999. A Siderophores from Pseudomonas putida type A1: structural and biological characterization. Biochim. et Biophys. Acta 1435, 30-40.
  • 5. Budzikiewicz H., 1997. Siderophores of Fluorescent Pseudomonads. Z. Naturforsch. 52c, 713-720.
  • 6. Bultreys A., Gheysen I., Maraite H., De Hoffmann E., 2001. Characterization of fluorescent and nonfluorescent peptide siderophores produced by Pseudomonas syringae strains and their potential use in strain identification. App. Environ. Microbiol. 67, 1718-1727.
  • 7. Fuchs R., Schäfer M., Geoffroy V., Meyer J.M., 2001. Siderotyping – a powerful tool for the characterization of pyoverdines. Current Topics in Medicinal Chem. 1, 31-57.
  • 8. Gamalero E., Fracchia L., Cavaletto M., Garbaye J., Frey-Klett P., Varese G.C., Martinotti M.G., 2003. Characterization of functional traits of two fluorescent Pseudomonads isolated from basidiomes of ectomycorrhizal fungi. Soil Biolog. Biochem. 35, 55-65.
  • 9. Hohnadel D., Meyer J.M., 1988. Specificity of pyoverdine-mediated iron uptake among fluorescent Pseudomonas strains. J. Bacteriol. 170, 4865-4873.
  • 10. Jacques P., Ongena M., Gwose I., Seinsche D., Schröder H., Delfosse P., Thonart P., Taraz K., Budzikiewicz H., 1995. Structure and Characterization of isopyoverdin from Pseudomonas putida BTP1 and its relation to the biogenetic pathway leading to pyoverdins. Z. Naturforsch. 50c, 622-629.
  • 11. King E.O., Ward M.K., Raney D.E., 1954. Two simple media for the demonstration of pyocyanin and fuorescein. J. Lab Clin Med. 44, 301-302.
  • 12. Lemanceau P., Robin A., Mazurier S., Vansuyt G., 2007. Implication of pyoverdines in the interactions of fluorescent Pseudomonads with soil microflora and plant in the phizosphere [In:] Microbial Siderophores, eds. A. Varma, S.B. Chincholkar, Springer, 165-193.
  • 13. Leong J., 1986. Siderophores: their biochemistry and possible role in the biocontrol of plant pathogens. Ann. Rev Phytopathol. 24,187-209.
  • 14. Liamas M.A., Bitter W., 2006. Iron Gate: the Translocation System. J. Bacteriol. 188, 3172-3174.
  • 15. Mercado-Blanco J., Van Der Drift K.M.G.M., Olsson P., Thomas-Oates J.E., Van Loon L.C., Bakker P.A.H.M., 2001. Analysisof the pmsCEAB gene cluster involved in biosynthesis of salicylic acid and the siderophore pseudomonine in the biocontrol strain Pseudomonas fluorescens WCS374. J. Bacteriol. 183, 1909-1920.
  • 16. Meyer J.M., Abdallah M.A., 1978. The fluorescent pigment of Pseudomonas fluorescens: biosynthesis, purification and physiochemical properties. J. General Microbiol. 107, 319–328.
  • 17. Meyer J.M., Geoffroy V.A., Baida N., Gardan L., Izard D., Lemanceau P., Achouak W., Palleroni N., 2002. Siderophore typing, a powerful tool for the identification of fluorescent and non-fluorescent Pseudomonas. Appl. Environ. Microbiol. 68, 2745-2753.
  • 18. Meyer J.M., 2000. Pyoverdines: pigments, siderophores and potential taxonomic markers of fluorescent Pseudomonas species. Arch. Microbiol. 174, 135-142.
  • 19. Meyer J.M., 2007. Siderotyping and bacterial taxonomy: a siderophore bank for a rapid identification at the species level of fluorescentand non-fluorescent Pseudomonas [In:] Microbial Siderophores, eds. A. Varma, S.B. Chincholkar, Springer, 43-66.
  • 20. Meziane H., Van Der Sluis I., Van Loon L., Höfte M., Bakker P.A.H.M., 2005. Determinants of Pseudomonas putida WCS358 involved in inducing systemic resistance in plants. Mol. Plant Pathol 6, 177-185.
  • 21. Miethke M., Marahiel M., 2007. Siderophore-based iron acquisition and pathogen control. Microbiol. Mol. Biol. Rev. 71, 413-451.
  • 22. Mossialos D., Meyer J.M., Budzikiewicz H., Wolff U., Koedam N., Baysse Ch., Anjaiah V., Cornelis P., 2000. Quinolobactin, a new siderophore of Pseudomonas fluorescens ATCC 17400, the Production of which is repressed by the cognate pyoverdine. Appl. Environ. Microbiol. 66, 487-492.
  • 23. Neilands J.B., 1981. Microbial Iron Compounds. Ann. Rev. Biochem. 50, 715-731.
  • 24. Neilands, J.B., 1995. Siderophores: structure and function of microbial iron transport compounds. J. Biol. Chem. 270, 26723-26726.
  • 25. Ongena M., Jacques P, De Pauw E., Thonart P., 2002. Synthesis of peptide-modifled pyoyerdins by a fluorescent Pseudomonas strain grown in isoleucinc-supplemented medium. Lett. Pep. Sci. 8, 21-27.
  • 26. Ongena M., Daayf F., Jacques P., Thonart P., Benhamou N., Paulitz T., Cornelis P., Koedam N., Belanger R.R., 1999. Protection of cucumber against Pythium root rot by fluorescent Pseudomonads: predominant role of induced resistance over siderophores and antibiosis. Plant Pathol. 48, 66-76.
  • 27. Paulitz T.C., Loper J.E., 1991. Lack of a role for fluorescent siderophore production in the biological control of Pythium damping-off of cucumber by a strain of Pseudomonas putida. Phytopathology 81, 930-935.
  • 28. Schwyn B., Neilands J.B, 1987. Universal chemical assay for the detection and determination of siderophores. Anal Biochem. 160, 47-56.
  • 29. Xiao R., Kisaalita W.S., 1995. Purification of pyoverdines of Pseudomonas fluorescens 2-79 by Copper-Chelate Chromatography. Appl. Environ. Microbiol. 61, 3769-3774.
  • 30. Zawadzka A.M., Crawford R.L., Paszczynski A.J., 2006. Pyridine-2,6-Bis (Thiocarboxylic Acid) produced by Pseudomonas stutzeri KC. Reduces and precipitates selenium and tellurium oxyanions. Appl. Environ. Microbiol. 72, 3119-3129.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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