CLAVATA3 (CLV3) is a peptide signal initially identified in the analysis of clv mutants in the model plant Arabidopsis thaliana, as a regulator of meristem homeostasis and floral organ numbers. CLV3 homologs are widely conserved in land plants, collectively called CLV3/ESR-related (CLE) genes. A 12-amino acid CLE peptide with hydroxyproline residues was identified in Zinnia elegans cell culture system, in which cells secrete a CLE peptide called tracheary element differentiation factor (TDIF) into the culture medium. Mature CLV3 peptide is also a post-translationally modified short peptide containing additional triarabinosylation on a hydroxyproline residue. Genetic studies have revealed the involvement of leucin-rich repeat receptor-like kinases (LRR-RLKs) in CLV3 signaling, including CLV1/BAM-CIK, CLV2-CRN and RPK2, although the mechanisms of signal transduction and integration via crosstalk is still largely unknown. Recent studies on bryophyte model species provided a clue to understand evolution and ancestral function of CLV signaling in land plants. Fundamental understanding on CLV signaling provided an opportunity to optimize the crop yield traits using a novel breeding technology with CRISPR/Cas genome editing.