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Canadian Journal of Plant Pathology Volume 28, 2006 - Issue 1
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EPIDEMIOLOGY

Monitoring population levels of Pseudomonas fluorescens labeled with green fluorescent protein, using fluorescence microscopy and direct fluorescence scanning techniques

R. H. Etebarian Abourayhan Campus, University of Tehran, P.O.Box 11365/4117, Tehran, Iran
&
P. L. holberg Pacific Agri-Food Research Centre, Agriculture and Agri-Food Canada, Summerland, BC, V0H 1Z0, Canada
Pages 125-130 | Accepted 16 Dec 2005, Published online: 01 Apr 2010

References

  • Azegami , K. , Tsukamoto , T. , Matsuura , T. , Ohara , T. , Inoue , Y. , Mizuno , A. , Yoshida , K. , Bessho , H. , Kimura , S. and Goto , M. 2004 . Invasion and colonization of mature apple fruit by Erwinia amylovora tagged with bioluminescence genes . J. Gen. Plant Pathol. , 70 : 336 – 341 .
  • Bloemberg , G. V. , O'Toole , G. A. , Lugtenberg , B. J. J. and Kolter , R. 1997 . Green fluorescent protein as a marker for Pseudomonas spp . Appl. Environ. Microbiol. , 63 : 4543 – 4551 .
  • Bogs , J. , Bruchmüller , I. , Erbar , C. and Geider , K. 1998 . Colonization of host plants by the fire blight pathogen Erwinia amylovora marked with genes for bioluminenscence and fluorescence . Phytopathology , 88 : 416 – 421 .
  • Chalfie , M. , Tu , Y. , Euskirchen , G. , Ward , W. W. and Prashert , D. C. 1994 . Green fluorescent protein as a marker for gene expression . Science (Washington, D.C.) , 263 : 802 – 805 .
  • Chen , N. , Hsiang , T. and Goodwin , P. H. 2003 . Use of green fluorescent protein to quantify the growth of Colletotrichum during infection of tobacco . J. Microbiol. Methods , 53 : 113 – 122 .
  • Etebarian , H. , Sholberg , P. , Eastwell , K. C. and Sayler , R. J. 2005 . Biological control of apple blue mold with Pseudomonas fluorescens . Can. J. Microbiol , 51 : 591 – 598 .
  • Janisiewicz , W. J. 1988 . Biocontrol of postharvest diseases of apples with antagonist mixtures . Phytopathology , 78 : 194 – 198 .
  • Janisiewicz , W. J. 1998 . “ Biocontrol of postharvest diseases of temperate fruits ” . In Plant-microbe interactions and biological control , Edited by: Bol , G. J. and Kuykendall , L. D. 171 – 198 . New York : Marcel Dekker, Inc .
  • Janisiewicz , W. and Marchi , A. 1992 . Control of storage rots on various pear cultivars with a saprophytic strain of Pseudomonas syringae . Plant Dis. , 76 : 555 – 560 .
  • Janisiewicz , W. J. , Tworkoski , T. J. and Sharer , C. 2000 . Characterizing the mechanism of biological control of postharvest diseases on fruits with a simple method to study competition for nutrients . Phytopathology , 90 : 1196 – 1200 .
  • Johnson , K. B. and Stockwell , V. O. 2000 . “ Biological control of fire blight ” . In Fire blight, the disease and its causative agent, Erwinia amylovora , Edited by: Vanneste , J. L. 319 – 337 . New York : CABI Publishing .
  • Little , T. M. and Hills , F. J. 1978 . Agricultural experimentation: design and analysis , New York : John Wiley & Sons .
  • Normander , B. , Hendriksen , N. B. and Nybroe , O. 1999 . Green fluorescent protein-marked Pseudomonas fluorescens: localization, viability, and activity in the natural barley rhizosphere . Appl. Environ. Microbiol. , 65 : 4646 – 4651 .
  • Sholberg , P. L. , Harlton , C. , Haag , P. , Lévesque , C. A. , O'Gorman , D. and Seifert , K. 2005 . Benzimidazole and diphenylamine sensitivity and identity of Penicillium spp. that cause postharvest blue mold of apples using β-tubulin gene sequences . Posth. Biol. Technol. , 36 : 41 – 49 .
  • Wang , S. and Hazelrigg , T. 1994 . Implications for bcd mRNA localization from spatial distribution of exu protein in Drosophila oogenesis . Nature (London) , 369 : 400 – 403 .
  • Weller , D. M. 1988 . Biological control of soilborne plant pathogens in the rhizosphere with bacteria . Annu. Rev. Phytopathol. , 26 : 379 – 407 .
  • Zhou , T. , Chu , C.-L. , Liu , W. T. and Schaneider , K. E. 2001 . Postharvest control of blue mold and gray mold on apples using isolates of Pseudomonas syringae . Can. J. Plant Pathol. , 23 : 246 – 252 .

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