Molecular Mechanisms Regulating Lamina Joint Development in Rice

Abstract

Leaf angle (LA) is a major agronomic trait of rice plant architecture, which is determined by the development of the leaf lamina joint (LJ) and closely related to plant yield. The LJ is formed by the leaf collar belt (ligule band), leaf tongue (ligule) and leaf ear (auricle). Parenchyma cells (PCs), sclerenchyma cells (SCs), vascular bundles (VBs), and arenchyma tissue (Ac) are present in the cross sections of LJ. The genetic and molecular regulation of rice leaf angle and LJ development has been well investigated in recent years. However, the underlying complex regulatory network still requires further elucidation and comprehensive discussion. In this review, we briefly describe the cellular characteristics of four typical stages of LJ development, and systematically summarize the genes regulating rice leaf inclination based on their roles in PC proliferation and elongation, as well as SC proliferation and differentiation. We also introduce the emerging regulatory pathways of phytohormones and transcription factors (TFs), environmental cues that are involved in rice LJ development, discussing the relevant intricate signal network that is relevant to provide further insights into the genetic improvement of leaf angle traits in rice breeding.