Chitinase‐resistant hydrophilic symbiotic factors secreted by Frankia activate both Ca2+ spiking and NIN gene expression in the actinorhizal plant Casuarina glauca

Although it is now well‐established that decorated lipo‐chitooligosaccharide Nod factors are the key rhizobial signals which initiate infection/nodulation in host legume species, the identity of the equivalent microbial signaling molecules in the Frankia/actinorhizal association remains elusive. Wit...

Full description

Saved in:
Bibliographic Details
Published in:The New phytologist 2016-01, Vol.209 (1), p.86-93
Main Authors: Chabaud, Mireille, Gherbi, Hassen, Pirolles, Elodie, Vaissayre, Virginie, Fournier, Joëlle, Moukouanga, Daniel, Franche, Claudine, Bogusz, Didier, Tisa, Louis S, Barker, David G, Svistoonoff, Sergio
Format: Article
Language:English
Subjects:
actinorhiza
bioassays
calcium
Casuarina glauca
cell free system
chitinase
chitinase‐resistance
Frankia
Frankia culture supernatant
gene expression
hydrophilicity
legumes
molecular weight
NIN gene expression
nodulation
nuclear Ca2+ spiking
plant–microbe signaling
Rapid reports
root hairs
transcriptional activation
transgenic Casuarina glauca
vesicular arbuscular mycorrhizae
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Although it is now well‐established that decorated lipo‐chitooligosaccharide Nod factors are the key rhizobial signals which initiate infection/nodulation in host legume species, the identity of the equivalent microbial signaling molecules in the Frankia/actinorhizal association remains elusive. With the objective of identifying Frankia symbiotic factors we present a novel approach based on both molecular and cellular pre‐infection reporters expressed in the model actinorhizal species Casuarina glauca. By introducing the nuclear‐localized cameleon Nup‐YC2.1 into Casuarina glauca we show that cell‐free culture supernatants of the compatible Frankia CcI3 strain are able to elicit sustained high frequency Ca²⁺ spiking in host root hairs. Furthermore, an excellent correlation exists between the triggering of nuclear Ca²⁺ spiking and the transcriptional activation of the ProCgNIN:GFP reporter as a function of the Frankia strain tested. These two pre‐infection symbiotic responses have been used in combination to show that the signal molecules present in the Frankia CcI3 supernatant are hydrophilic, of low molecular weight and resistant to chitinase degradation. In conclusion, the biologically active symbiotic signals secreted by Frankia appear to be chemically distinct from the currently known chitin‐based rhizobial/arbuscular mycorrhizal signaling molecules. Convenient bioassays in Casuarina glauca are now available for their full characterization.
ISSN:0028-646X
1469-8137
DOI:10.1111/nph.13732