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The xylem as battleground for plant hosts and vascular wilt pathogens

Vascular wilts are among the most destructive plant diseases that occur in annual crops as well as in woody perennials. These diseases are generally caused by soil-borne bacteria, fungi, and oomycetes that infect through the roots and enter the water-conducting xylem vessels where they proliferate a...

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Published in:	Frontiers in plant science 2013, Vol.4, p.97-97
Main Authors:	Yadeta, Koste A, J Thomma, Bart P H
Format:	Article
Language:	English
Subjects:	arabidopsis-thaliana Bacteria campestris pv. campestris Defense response dutch elm disease Fungi fusarium-oxysporum genome sequence Immunity, Innate pathogen pit membrane porosity Plant Science ralstonia-solanacearum rich repeat domain verticillium-albo-atrum xa21-mediated innate immunity Xylem
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description	Vascular wilts are among the most destructive plant diseases that occur in annual crops as well as in woody perennials. These diseases are generally caused by soil-borne bacteria, fungi, and oomycetes that infect through the roots and enter the water-conducting xylem vessels where they proliferate and obstruct the transportation of water and minerals. As a consequence, leaves wilt and die, which may lead to impairment of the whole plant and eventually to death of the plant. Cultural, chemical, and biological measures to control this group of plant pathogens are generally ineffective, and the most effective control strategy is the use of genetic resistance. Owing to the fact that vascular wilt pathogens live deep in the interior of their host plants, studies into the biology of vascular pathogens are complicated. However, to design novel strategies to combat vascular wilt diseases, understanding the (molecular) biology of vascular pathogens and the molecular mechanisms underlying plant defense against these pathogens is crucial. In this review, we discuss the current knowledge on interactions of vascular wilt pathogens with their host plants, with emphasis on host defense responses against this group of pathogens.
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subjects	arabidopsis-thaliana Bacteria campestris pv. campestris Defense response dutch elm disease Fungi fusarium-oxysporum genome sequence Immunity, Innate pathogen pit membrane porosity Plant Science ralstonia-solanacearum rich repeat domain verticillium-albo-atrum xa21-mediated innate immunity Xylem
title	The xylem as battleground for plant hosts and vascular wilt pathogens
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