Homeostatic regulation of meristematic stem cells accomplished by maintaining a balance between stem cell self-renewal and differentiation is critical for proper plant growth and development. The quiescent center (QC) regulates root apical meristem homeostasis by maintaining stem cell fate during plant root development. Cell cycle checkpoints, such as anaphase promoting complex/cyclosome/CELL CYCLE SWITCH 52 A2 (APC/CCCS52A2), strictly control the low proliferation rate of QC cells. Although APC/CCCS52A2 plays a critical role in maintaining QC cell division, the molecular mechanism that regulates its activity remains largely unknown. Here, we identified SCFF-BOX STRESS INDUCED 1 (FBS1), a ubiquitin E3 ligase, as a key regulator of QC cell division through the direct proteolysis of CCS52A2. FBS1 activity is positively associated with QC cell division and CCS52A2 proteolysis. FBS1 overexpression or ccs52a2-1 knockout consistently resulted in abnormal root development, characterized by root growth inhibition and low mitotic activity in the meristematic zone. Loss-of-function mutation of FBS1, on the other hand, resulted in low QC cell division, extremely low WOX5 expression, and rapid root growth. The 26S proteasome-mediated degradation of CCS52A2 was facilitated by its direct interaction with F-box stress induced 1 (FBS1). The FBS1 genetically interacted with APC/CCCS52A2-ERF115-PSKR1 signaling module for QC division. Thus, our findings establish SCFFBS1-mediated CCS52A2 proteolysis as the molecular mechanism for controlling QC cell division in plants.
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