The insect-pathogenic fungus Metarhizium robertsii (Clavicipitaceae) is also an endophyte that stimulates plant root development

The insect-pathogenic fungus Metarhizium robertsii (Clavicipitaceae) is also an endophyte that stimulates plant root development

Premise of the study: The soil-inhabiting insect-pathogenic fungus Metarhizium robertsii also colonizes plant roots endophytically, thus showing potential as a plant symbiont. Metarhizium robertsii is not randomly distributed in soils but preferentially associates with the plant rhizosphere when app...

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Bibliographic Details
Published in:American journal of botany Vol. 99; no. 1; pp. 101 - 107
Main Authors: Sasan, Ramanpreet K., Bidochka, Michael J.
Format: Journal Article
Language:English
Published: United States Botanical Society of America 01-01-2012
Botanical Society of America, Inc
Subjects:
Animals
Ascomycota
Cells
Clavicipitaceae
Conidia
endophyte
Endophytes
Endosymbionts
Flowers & plants
Fungi
Gene expression
Germination
Green Fluorescent Proteins
Hypocreales
Insecta - microbiology
Metarhizium
Metarhizium - cytology
Metarhizium - physiology
Metarhizium robertsii
Microbial colonization
Mycelium
Mycology
Panicum - cytology
Panicum - growth & development
Panicum - microbiology
Panicum virgatum
Pathogens
Phaseolus - cytology
Phaseolus - growth & development
Phaseolus - microbiology
Phaseolus vulgaris
Plant roots
Plant Roots - microbiology
Plants
Rhizosphere
rhizosphere competent
root colonization
Root hairs
Seedlings - microbiology
Soil fungi
Spores, Fungal
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Summary:Premise of the study: The soil-inhabiting insect-pathogenic fungus Metarhizium robertsii also colonizes plant roots endophytically, thus showing potential as a plant symbiont. Metarhizium robertsii is not randomly distributed in soils but preferentially associates with the plant rhizosphere when applied in agricultural settings. Root surface and endophytic colonization of switchgrass (Panicum virgatum) and haricot beans (Phaseolus vulgaris) by M. robertsii were examined after inoculation with fungal conidia. Methods: We used light and confocal microscopy to ascertain the plant endophytic association with GFP-expressing M. robertsii. Root lengths, root hair density, and lateral roots emerged were also observed. Key results: Initially, M. robertsii conidia adhered to, germinated on, and colonized roots. Furthermore, plant roots treated with Metarhizium grew faster and the density of plant root hairs increased when compared with control plants. The onset of plant root hair proliferation was initiated before germination of M. robertsii on the root (within 1-2 d). Plants inoculated with M.robertsii AMAD2 (plant adhesin gene) took significantly longer to show root hair proliferation than the wild type. Cell free extracts of M. robertsii did not stimulate root hair proliferation. Longer-term (60 d) associations showed that M. robertsii endophytically colonized cortical cells within bean roots. Metarhizium appeared as a mycelial aggregate within root cortical cells as well as between the intercellular spaces with no apparent damage to the plant. Conclusions: These results suggest that M. robertsii is not only rhizosphere competent but also displays a beneficial endophytic association with plant roots that results in the proliferation of root hairs.
Bibliography:This research was conducted with the assistance of an NSERC Discovery Grant to M.J.B.
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ISSN:0002-9122
1537-2197
DOI:10.3732/ajb.1100136