The chromatin remodeler ZmCHB101 impacts expression of osmotic stress-responsive genes in maize.

ABSTRACT

KEY MESSAGE The maize chromatin remodeler ZmCHB101 plays an essential role in the osmotic stress response. ZmCHB101 controls nucleosome densities around transcription start sites of essential stress-responsive genes. Drought and osmotic stresses are recurring conditions that severely constrain crop production. Evidence accumulated in the model plant Arabidopsis thaliana suggests that core components of SWI/SNF chromatin remodeling complexes play essential roles in abiotic stress responses. However, how maize SWI/SNF chromatin remodeling complexes function in osmotic and drought stress responses remains unknown. Here we show that ZmCHB101, a homolog of A. thaliana SWI3D in maize, plays essential roles in osmotic and dehydration stress responses. ZmCHB101-RNA interference (RNAi) transgenic plants displayed osmotic, salt and drought stress-sensitive phenotypes. Genome-wide RNA-sequencing analysis revealed that ZmCHB101 impacts the transcriptional expression landscape of osmotic stress-responsive genes. Intriguingly, ZmCHB101 controls nucleosome densities around transcription start sites of essential stress-responsive genes. Furthermore, we identified that ZmCHB101 associates with RNA polymerase II (RNAPII) in vivo and is a prerequisite for the proper occupancy of RNAPII on the proximal regions of transcription start sites of stress-response genes. Taken together, our findings suggest that ZmCHB101 affects gene expression by remodeling chromatin states and controls RNAPII occupancies in maize under osmotic stress.