GhSMO2-2 is regulated by brassinosteroid signal and involved in cotton fiber elongation via influencing phytosterol and sphingolipid biosynthesis

Abstract

Cotton fiber cell is an extremely elongated single cell and is regarded as an ideal material to study the growth and development of plant cell. Phytohormone brassinosteroids (BRs) play crucial roles in fiber cell development. However, its action mechanism in fiber growth is largely unknown. In this study, we identified a homologue of Arabidopsis SMO2–2 (Sterol C-4α Methyl Oxidase), GhSMO2–2, in upland cotton (Gossypium hirsutum L.), which predominantly expressed in fiber cell and peaked at the rapid elongation stage, and responded to BR signal. The GhBES1, a transcription factor in BR signaling could directly bind to the promoter of GhSMO2–2 and promoted its expression. Overexpression of GhSMO2–2 significantly promoted fiber cell elongation and phytosterol synthesis in cotton, and elevated some sphingolipid species that was important for fiber elongation. On the contrary, down-regulating GhSMO2–2 suppressed fiber elongation and blocked these chemicals accumulation. These results indicated that GhSMO2–2 is an important gene involved in fiber cell elongation, and is valuable for genetic engineering to improve fiber quality and yield. Taken together, our study revealed that BR regulated fiber cell elongation by influencing phytosterol and sphingolipid biosynthesis, the key components of membrane lipid raft and provided a new clue for further revealing the function and mechanism of phytosterols, sphingolipids, and BRs in plant cell development.