Infections with the vascular pathogens Verticillium longisporum and Verticillium dahliae induce distinct disease symptoms and differentially affect drought stress tolerance of Arabidopsis thaliana

Abstract

Verticillium longisporum and Verticillium dahliae are soil borne vascular pathogens. Under standard laboratory growth conditions both fungi infect Arabidopsis thaliana ecotype Col-0 plants via primary and lateral (secondary) root tips and colonize the vascular cylinder including proto- and metaxylem. After entry into the hypocotyl both Verticillium species spread into petioles and leaves, but with different efficiency and distinct disease symptom patterns. V. longisporum typically induces early senescence whereas V. dahliae infections cause wilting. In both cases, these symptoms coincide with the switch from a biotrophic to a necrotrophic life style. Fungal proliferation analyses monitored by quantitative real-time PCR and anatomical studies show that V. dahliae is able to colonize aerial plant parts more efficiently compared to V. longisporum. Moreover, V. longisporum-infection triggers hyperplastic xylem formation and cellular transdifferentiation in Arabidopsis, whereas V. dahliae-infection induces enhanced xylem lignification. We have recently shown that V. longisporum induced de novo xylem formation results in enhanced drought stress tolerance, suggesting a conditionally mutualistic interaction. Here we show that on the contrary V. dahliae infections do not provide protection of the plant against drought. Together, our results demonstrate that V. dahliae and V. longisporum induce distinct and species-specific developmental and structural alterations in Arabidopsis, which differently affect plant fitness under concomitant abiotic drought stress conditions.