Philipp Fesel scite author profile

Plant innate immunity relies in first place on the detection of invading microbes. Thus, plants evolved receptors to sense unique molecules of the microbe, the so called microbe-associated molecular patterns or MAMPs. The best studied fungal MAMP is chitin, an important structural building block of the fungal cell wall. Over the past years several plant receptors for chitin have been characterized as well as different strategies adopted by fungi to evade chitin recognition. Despite its strong activity as an elicitor of plant defense chitin represents only a small percentage of the cell wall of most fungi compared to other complex sugars. β-glucan, the most abundant fungal cell wall polysaccharide, also serves as a MAMP, but the mechanisms of β-glucan perception and signaling in plants are largely unknown. In contrast to that the β-glucan recognition and signaling machineries are well characterized in mammals. The C-type lectin receptor Dectin-1 is a key component of these machineries. In this review we describe valuable knowledge about the existence of at least one β-glucan receptor in plants and about the hindrances in β-glucan research. Additionally we discuss possible future perspectives of glucan research and the possibility to transfer the gathered knowledge from mammalian systems to plants.

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The fungal-specific β-glucan-binding lectin FGB1 alters cell-wall composition and suppresses glucan-triggered immunity in plants

Wawra

et al. 2016

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β-glucans are well-known modulators of the immune system in mammals but little is known about β-glucan triggered immunity in planta. Here we show by isothermal titration calorimetry, circular dichroism spectroscopy and nuclear magnetic resonance spectroscopy that the FGB1 gene from the root endophyte Piriformospora indica encodes for a secreted fungal-specific β-glucan-binding lectin with dual function. This lectin has the potential to both alter fungal cell wall composition and properties, and to efficiently suppress β-glucan-triggered immunity in different plant hosts, such as Arabidopsis, barley and Nicotiana benthamiana. Our results hint at the existence of fungal effectors that deregulate innate sensing of β-glucan in plants.

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Dissecting endophytic lifestyle along the parasitism/mutualism continuum in Arabidopsis

Fesel

Zuccaro

2016

Current Opinion in Microbiology

115

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Mutualistic interactions between plants and fungi often occur in the rhizosphere, although examples exist where shoot-endophytes support host growth and increase resistance to pathogens and herbivores. Fungal endophytes which colonize their hosts without any visible disease symptoms have been recognized to be fundamental components of various ecosystems. Initial efforts have been taken to decipher the genetic basis of beneficial plant-fungus interactions and of lifestyle transitions. This review gives a short overview on well established experimental systems amenable to genetic manipulation and of known genome sequence for dissecting plant-fungal endophyte interactions with a special focus on Arabidopsis thaliana associations.

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Philipp Fesel

β-glucan: Crucial component of the fungal cell wall and elusive MAMP in plants

The fungal-specific β-glucan-binding lectin FGB1 alters cell-wall composition and suppresses glucan-triggered immunity in plants

Dissecting endophytic lifestyle along the parasitism/mutualism continuum in Arabidopsis

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