Stem cell number in shoot and floral meristems of Arabidopsis (Arabidopsis thaliana) is regulated by the CLAVATA3 (CLV3) signaling pathway. Perception of the CLV3 peptide requires the receptor kinase CLV1, the receptor-like protein CLV2, and the kinase CORYNE (CRN). Genetic analysis suggested that CLV2 and CRN act together and in parallel with CLV1. We studied the intracellular localization of receptor fusions with fluorescent protein tags and their capacities for interaction via efficiency of fluorescence resonance energy transfer. We found that CLV2 and CRN require each other for export from the endoplasmic reticulum and localization to the plasma membrane (PM). CRN readily forms homomers and interacts with CLV2 through the transmembrane domain and adjacent juxtamembrane sequences. CLV1 forms homomers independently of CLV2 and CRN at the PM. We propose that the CLV3 signal is perceived by a tetrameric CLV2/CRN complex and a CLV1 homodimer that localize to the PM and can interact via CRN.In Arabidopsis (Arabidopsis thaliana), the stem cell number in the shoot apical meristem is regulated by negative feedback regulation. Stem cell induction and maintenance are controlled by the homeodomain protein WUSCHEL (WUS), and WUS expression is in turn repressed by CLAVATA3 (CLV3; Brand et al., 2000;Schoof et al., 2000), which encodes a 13-amino acid arabinosylated glycopeptide that is secreted from stem cells (Ohyama et al., 2009). Three genes have been identified that encode receptors for CLV3 signaling. Mutations in CLV1 (Clark et al., 1997), encoding a leucine-rich repeat (LRR) receptor kinase, CLV2, encoding a LRR receptor-like protein (Jeong et al., 1999), and CORYNE (CRN), encoding a receptor-like kinase, disrupt CLV3 signaling and allow the stem cell domain to expand (Sablowski, 2007;Mü ller et al., 2008). Binding of CLV3 to the LRR domains of CLV1 was recently shown (Ogawa et al., 2008).A simple readout for CLV3 signaling is carpel number. Stem cells of floral meristems are normally consumed with the production of two central carpels. Any reduction in CLV3 signaling, which results in increased WUS expression and production of more stem cells, causes an increase in carpel number. Mutations in CLV1, CLV2, or CRN showed an intermediate carpel number phenotype and reduced CLV3 signaling (Mü ller et al., 2008). Double mutants of clv2 with crn were epistatic, but double mutants of clv1 with clv2 or crn were synergistic and abolished CLV3 signaling. This indicated that CLV1 acts independently from, and in parallel with, CLV2 and CRN to transmit the CLV3 signal. Furthermore, clv2 and crn mutants showed additional phenotypes, such as elongated pedicels and defects in stamen development, suggesting that CLV2 and CRN act in a common pathway (Mü ller et al., 2008). Both CRN and CLV2 were proposed to be membrane localized and may physically interact via their transmembrane domains or immediately adjacent sequences (Fig. 1A). A loss-of-function mutation of CRN, crn-1, is caused by an amino acid exchange within the predicted tra...
