Heterologous expression of SpsLAZY1a in Populus enhanced the sensitiveness of plant architecture

Abstract

Plant tiller angle is a key agronomic trait that contributes to ideal plant architecture and grain production. However, the molecular mechanism regulating branch angle and plant architecture has not been fully explored in Salix psammophila. Here, we found that the natural germplasm of S. psammophila has a different plant architecture and determined that SpsLAZY1a participated in the control of agronomical traits. SpsLAZY1a was mainly expressed in the stem. SpsLAZY1a transformed with heterologous overexpression in poplar caused distortion at the base of the stem, increased the number of branches and influenced the sensitivity to gravity of the plant. Furthermore, SpsLAZY1a overexpression plants accumulated less auxin and cytokinin than the control. Transcriptome sequencing showed that the overexpression of SpsLAZY1a caused the differential expression of related genes in the plant hormone signal transduction, starch and sucrose metabolism pathways. The expression level of SpsLAZY1a can be rapidly induced by auxin. Taken together, we discovered the key genes related to S. psammophila plant architecture, which provided a basis for further research on the development of tree architecture.