SYNTAXIN OF PLANTS132 Regulates Root Meristem Activity and Stem Cell Niche Maintenance via RGF-PLT Pathways.

Root growth and development are contingent upon continuous cell division and differentiation in root tips. In this study, we found that the knockdown of the syntaxin gene SYNTAXIN OF PLANTS132 (SYP132) in Arabidopsis thaliana resulted in a significant reduction in root meristem activity and disruption of root stem cell niche (SCN) identity. The SYP132 knockdown mutant exhibits a compromised SCN characterized by an increased number of quiescent center (QC) cells, abnormal columella stem cells (CSCs), reduced meristem size, and subsequent inhibition of root growth. In syp132, vesicle transport of PIN proteins is disrupted, leading to altered auxin distribution and decreased expression of the auxin-response transcription factors PLETHORA 1 (PLT1) and PLETHORA 2 (PLT2). Furthermore, the transcription level of the precursor of root meristem growth factor 1 (RGF1) is also modified in syp132. The reduction in PLT2 transcription and protein levels along with defects in the root SCN are partially rescued by the application of synthesized RGF1. This finding suggests that both the auxin-PLT and RGF-PLT pathways are interconnected through SYP132-mediated vesicle transport. Collectively, our findings indicate that SYP132 regulates the PLT pathway to maintain the root stem cell niche (SCN) in an RGF1-dependent manner.