Nod factor/nitrate-induced CLE genes that drive HAR1-mediated systemic regulation of nodulation.

Satoru Okamoto, Erika Ohnishi, Shusei Sato, Hirokazu Takahashi, Mikio Nakazono, Satoshi Tabata, Masayoshi Kawaguchi

Department of Biological Sciences, Graduate School of Science, University of Tokyo, Bunkyo, Tokyo, Japan.

Plant & cell physiology 2009 Jan

filter terms:

Host legumes control root nodule numbers by sensing external and internal cues. A major external cue is soil nitrate, whereas a feedback regulatory system in which earlier formed nodules suppress further nodulation through shoot-root communication is an important internal cue. The latter is known as autoregulation of nodulation (AUT), and is believed to consist of two long-distance signals: a root-derived signal that is generated in infected roots and transmitted to the shoot; and a shoot-derived signal that systemically inhibits nodulation. In Lotus japonicus, the leucine-rich repeat receptor-like kinase, HYPERNODULATION ABERRANT ROOT FORMATION 1 (HAR1), mediates AUT and nitrate inhibition of nodulation, and is hypothesized to recognize the root-derived signal. Here we identify L. japonicus CLE-Root Signal 1 (LjCLE-RS1) and LjCLE-RS2 as strong candidates for the root-derived signal. A hairy root transformation study shows that overexpressing LjCLE-RS1 and -RS2 inhibits nodulation systemically and, furthermore, that the systemic suppression depends on HAR1. Moreover, LjCLE-RS2 expression is strongly up-regulated in roots by nitrate addition. Based on these findings, we propose a simple model for AUT and nitrate inhibition of nodulation mediated by LjCLE-RS1, -RS2 peptides and the HAR1 receptor-like kinase.

Citation

Satoru Okamoto, Erika Ohnishi, Shusei Sato, Hirokazu Takahashi, Mikio Nakazono, Satoshi Tabata, Masayoshi Kawaguchi. Nod factor/nitrate-induced CLE genes that drive HAR1-mediated systemic regulation of nodulation. Plant & cell physiology. 2009 Jan;50(1):67-77