A Dof-CLE circuit controls phloem organization

This study shows that Dof transcription factors in the phloem precursors not only induce formation of phloem, but also cause secretion of CLE peptides, which in turn inhibit phloem formation in neighbourhing cells by post-transcriptionally decreasing Dofs. The phloem consists of sieve elements (SEs) and companion cells (CCs). Here we show that Dof-class transcription factors preferentially expressed in the phloem (phloem-Dofs) are not only necessary and sufficient for SE and CC differentiation, but also induce negative regulators of phloem development, CLAVATA3/EMBRYO SURROUNDING REGION-RELATED25 (CLE25), CLE26 and CLE45 secretory peptides. CLEs were perceived by BARELY ANY MERISTEM (BAM)-class receptors and CLAVATA3 INSENSITIVE RECEPTOR KINASE (CIK) co-receptors, and post-transcriptionally decreased phloem-Dof proteins and repressed SE and CC formation. Multiple mutations in CLE-, BAM- or CIK-class genes caused ectopic formation of SEs and CCs, producing an SE/CC cluster at each phloem region. We propose that while phloem-Dofs induce phloem cell formation, they inhibit excess phloem cell formation by inducing CLEs. Normal-positioned SE and CC precursor cells appear to overcome the effect of CLEs by reinforcing the production of phloem-Dofs through a positive feedback transcriptional regulation.

Automated summary

This study reveals the role of Dof transcription factors in phloem development. It shows that Dof proteins induce phloem formation while also inhibiting excessive phloem cell formation through the secretion of CLE peptides. Furthermore, the study highlights the importance of positive feedback regulation in maintaining the balance of phloem differentiation.