Abstract
The dynamics of root and hypocotyl colonization, and the gene expression patterns of several fungal virulence factors and plant defense factors have been analyzed and compared in the interaction of two Fusarium oxysporum f. sp. phaseoli strains displaying clear differences in virulence, with a susceptible common bean cultivar. The growth of the two strains on the root surface and the colonization of the root was quantitatively similar although the highly virulent (HV) strain was more efficient reaching the central root cylinder. The main differences between both strains were found in the temporal and spatial dynamics of crown root and hypocotyl colonization. The increase of fungal biomass in the crown root was considerably larger for the HV strain, which, after an initial stage of global colonization of both the vascular cylinder and the parenchymal cells, restricted its growth to the newly differentiated xylem vessels. The weakly virulent (WV) strain was a much slower and less efficient colonizer of the xylem vessels, showing also growth in the intercellular spaces of the parenchyma. Most of the virulence genes analyzed showed similar expression patterns in both strains, except SIX1, SIX6 and the gene encoding the transcription factor FTF1, which were highly upregulated in root crown and hypocotyl. The response induced in the infected plant showed interesting differences for both strains. The WV strain induced an early and strong transcription of the PR1 gene, involved in SAR response, while the HV strain preferentially induced the early expression of the ethylene responsive factor ERF2.
Highlights
Fusarium oxysporum Schlechtend.:Fr. is an anamorphic species complex (FOSC) with considerable morphological and physiological variation (O’Donnell et al, 2009)
We have shown that some virulence factors are specific to highly virulent (HV) strains (Alves-Santos et al, FIGURE 1 | Common bean plant (Phaseolus vulgaris L.) and histological structure of the plant regions analyzed in the present study. (A) Common bean plant grown in hydroponic culture. (B–D) Cross sections of the three plant regions analyzed in the present study showing the definitive architecture of the xylem and phloem vessels in the hypocotyl (B), the primordial rings of xylem and phloem vessels in the root crown (C) and the undifferentiated central cylinder in the tap root (D)
FOP-SP1 is a HV strain that belongs to VCG 167, while FOP-SP4 belongs to VCG 166 and behaves as weakly virulent (WV) when inoculated on common bean plants (Alves-Santos et al, 1999, 2002a)
Summary
Fusarium oxysporum Schlechtend.:Fr. is an anamorphic species complex (FOSC) with considerable morphological and physiological variation (O’Donnell et al, 2009). This fungus is ubiquitous in soils worldwide being able to grow saprophytically or colonizing plants. Colonization of common bean by Fusarium oxysporum complex level, the individual isolates are able to infect only one or a few plant species. This allows for a classification into formae speciales based on host-specificity (Booth, 1971; Armstrong and Armstrong, 1975), making the F. oxysporum species complex a very attractive system for the study of the relationships between pathogenicity, virulence and host-specificity. F. oxysporum f. sp. phaseoli infects some species of the genus Phaseolus, mainly Phaseolus vulgaris and P. coccineus (de Vega-Bartol et al, 2011), and is one of the principal agents limiting dry bean production worldwide
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
