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Journal Abstract Search


185 related items for PubMed ID: 1838240

  • 1. Relative importance of fluorescent siderophores and other factors in biological control of Gaeumannomyces graminis var. tritici by Pseudomonas fluorescens 2-79 and M4-80R.
    Hamdan H, Weller DM, Thomashow LS.
    Appl Environ Microbiol; 1991 Nov; 57(11):3270-7. PubMed ID: 1838240
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  • 4. Contribution of phenazine antibiotic biosynthesis to the ecological competence of fluorescent pseudomonads in soil habitats.
    Mazzola M, Cook RJ, Thomashow LS, Weller DM, Pierson LS.
    Appl Environ Microbiol; 1992 Aug; 58(8):2616-24. PubMed ID: 1514808
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  • 5. Variation in Sensitivity of Gaeumannomyces graminis to Antibiotics Produced by Fluorescent Pseudomonas spp. and Effect on Biological Control of Take-All of Wheat.
    Mazzola M, Fujimoto DK, Thomashow LS, Cook RJ.
    Appl Environ Microbiol; 1995 Jul; 61(7):2554-9. PubMed ID: 16535070
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  • 7. Characterization of an antibiotic produced by a strain of Pseudomonas fluorescens inhibitory to Gaeumannomyces graminis var. tritici and Pythium spp.
    Gurusiddaiah S, Weller DM, Sarkar A, Cook RJ.
    Antimicrob Agents Chemother; 1986 Mar; 29(3):488-95. PubMed ID: 3087284
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  • 8. Biological control of wheat root diseases by the CLP-producing strain Pseudomonas fluorescens HC1-07.
    Yang MM, Wen SS, Mavrodi DV, Mavrodi OV, von Wettstein D, Thomashow LS, Guo JH, Weller DM.
    Phytopathology; 2014 Mar; 104(3):248-56. PubMed ID: 24512115
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  • 10. Novel screening strategy reveals a potent Bacillus antagonist capable of mitigating wheat take-all disease caused by Gaeumannomyces graminis var. tritici.
    Zhang DD, Guo XJ, Wang YJ, Gao TG, Zhu BC.
    Lett Appl Microbiol; 2017 Dec; 65(6):512-519. PubMed ID: 28977681
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  • 11. Cloning and heterologous expression of the phenazine biosynthetic locus from Pseudomonas aureofaciens 30-84.
    Pierson LS, Thomashow LS.
    Mol Plant Microbe Interact; 1992 Dec; 5(4):330-9. PubMed ID: 1325219
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  • 12. Siderophore activity of pyoverdin for Pseudomonas aeruginosa.
    Cox CD, Adams P.
    Infect Immun; 1985 Apr; 48(1):130-8. PubMed ID: 3156815
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  • 13. Identification and manipulation of soil properties to improve the biological control performance of phenazine-producing Pseudomonas fluorescens.
    Ownley BH, Duffy BK, Weller DM.
    Appl Environ Microbiol; 2003 Jun; 69(6):3333-43. PubMed ID: 12788734
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  • 15. Biological activity of secondary metabolites produced by a strain of Pseudomonas fluorescens.
    Boruah HP, Kumar BS.
    Folia Microbiol (Praha); 2002 Jun; 47(4):359-63. PubMed ID: 12422510
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  • 16. The siderophores of Pseudomonas fluorescens 18.1 and the importance of cyclopeptidic substructures for the recognition at the cell surface.
    Amann C, Taraz K, Budzikiewicz H, Meyer JM.
    Z Naturforsch C J Biosci; 2000 Jun; 55(9-10):671-80. PubMed ID: 11098814
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  • 18. Bacterial siderophores: structures of pyoverdins Pt, siderophores of Pseudomonas tolaasii NCPPB 2192, and pyoverdins Pf, siderophores of Pseudomonas fluorescens CCM 2798. Identification of an unusual natural amino acid.
    Demange P, Bateman A, Mertz C, Dell A, Piémont Y, Abdallah MA.
    Biochemistry; 1990 Dec 18; 29(50):11041-51. PubMed ID: 2125501
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  • 19. [In vitro control of Sclerotinia sclerotiorum and Gaeumannomyces graminis by bacteria of the fluorescent Pseudomonas group].
    Andreoli YE, Laich FS, Navarro CA.
    Rev Argent Microbiol; 1993 Dec 18; 25(2):70-9. PubMed ID: 8234734
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