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. 1997 Nov;137(3):481-494.
doi: 10.1046/j.1469-8137.1997.00855.x.

Colonization of tomato root by a non-pathogenic strain of Fusarium oxysporum

Chantal Olivain  1 Claude Alabouvette  1
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Free article

Colonization of tomato root by a non-pathogenic strain of Fusarium oxysporum

Chantal Olivain et al. New Phytol. 1997 Nov.
Free article

Abstract

A strain of non-pathogenic Fusarium oxysporum Schlecht. emend, Snyd. & Hans. has been selected for its capacity to reduce the incidence of Fusarium wilt of tomato. Among the possible modes of action of this strain, competition with the pathogen for the colonization of the root surface and tissues has been proposed. In order to study the pattern of root colonization, young Lycopersicon etculentum Miller (tomato) plants grown in a nutrient solution were inoculated by a suspension of F. oxysporum microconidia and processed at time-intervals for microscopic observations. The fungal strain was transformed with the Gus reporter gene to facilitate the observations. Within 24 h of inoculation the root surface was colonized by a dense network of hyphae, with the exception of the apex, which was colonized only after 48 h. A few hyphae were observed penetrating into the epidermis, leading to the internal colonization of the root cortex. This colonization was always discontinuous, since defence reactions of the plant limited the extension of the fungus. The barrier formed by thickenings and coilings of the cell walls and hypertrophied cells was most frequently observed in the external cortex and, sometimes, deeper in the internal cortex, close to the vessels which were never colonized. Typical defence reactions such as wall appositions, intercellular plugging and intracellular osmiophilic deposits, were frequently observed. This is the first report, based on microscopic observations, of the capacity of a non-pathogenic strain of F. oxysporum to colonize roots of tomato.

Keywords: Gus gene marker; Light microscopy; infection process; plant defence reactions; ultrastructural study.

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References

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