Abstract
Symbioses with beneficial microbes are widespread in plants, but these relationships must balance the energy invested by the plants with the nutrients acquired. Symbiosis with arbuscular mycorrhizal (AM) fungi occurs throughout land plants but our understanding of the genes and signals that regulate colonisation levels is limited. Here, we demonstrate that in tomato two CLV3/EMBRYO-SURROUNDING REGION (CLE) peptides, SlCLE10 and SlCLE11, act to suppress AM colonisation of roots. Mutant studies and overexpression via hairy transformation indicate SlCLE11 acts locally in the root to limit AM colonisation. Indeed, SlCLE11 expression is strongly induced in AM colonised roots but SlCLE11 is not required for phosphate suppression of AM colonisation. SlCLE11 may act through as yet uncharacterised signalling pathways, as SlCLE11 does not suppress AM colonisation by acting through two previously characterised receptors with roles in regulating AM colonisation, SlFAB (CLAVATA1 orthologue) or SlCLV2. SlCLE10 appears to play a more minor or redundant role, as cle10 mutants did not influence AM, although the fact that ectopic overexpression of SlCLE10 did suppress colonisation suggests SlCLE10 may play a role in regulating AM colonisation. Our findings show that CLE peptides regulate AM colonisation in the non-legume species tomato.
Competing Interest Statement
The authors have declared no competing interest.