Receptor kinase LecRK-I.9 regulates cell wall remodelling during lateral root formation in Arabidopsis.

Assembling and remodelling the cell wall is essential for plant development. Cell wall dynamics are controlled by cell wall proteins, polysaccharide biosynthesis, and a variety of sensor and receptor systems. LecRK-I.9, an Arabidopsis thaliana plasma membrane-localized lectin receptor kinase, was previously shown to be involved in cell wall-plasma membrane contacts and to play roles in plant-pathogen interactions, but until now its role in development was not known. LecRK-I.9 is transcribed at a high level in root tissues including the pericycle. Comparative transcript profiling of a loss-of-function mutant versus the wild type identified LecRK-I.9 as a regulator of cell wall metabolism. Consistently, lecrk-I.9 mutants displayed an increased pectin methylesterification level correlated with decreased pectin methylesterase and increased polygalacturonase activities. Also, LecRK-I.9 negatively impacted lateral root development through the direct or indirect regulation of genes encoding (i) cell wall remodelling proteins during early events of lateral root initiation, and (ii) cell wall signalling peptides (CLE2 and CLE4) repressing lateral root emergence and growth. Furthermore, low nitrate reduced LecRK-I.9 expression in roots, particularly in the lateral root emergence zone: even in these conditions, the control of CLE2 and CLE4 expression is maintained. Altogether, the results show that LecRK-I.9 is a key player in negatively regulating both pre-branch site formation and lateral root emergence.