Integration of pluripotency pathways regulates stem cell maintenance in the <i>Arabidopsis</i> shoot meristem
Ying Hua Su, Chao Zhou, Ying Ju Li, Yu Yang, Li Ping Tang, Wen Jie Zhang, Wang Jinsong Yao, Rongfeng Huang, Thomas Laux, Xian Sheng Zhang
Abstract
Significance Pluripotent stem cells are critical in both animal and plant development. Unlike higher animals, plants have unique postembryonic development, which continuously produce organs depending on shoot and root meristems. In the shoot meristem, division of the stem cells in the outermost layers provides the cells for all shoot structures. How those meristem cells are tightly controlled attracted intense studies. Genetic and molecular analyses in Arabidopsis have identified the key transcription factors WUSCHEL (WUS) and SHOOTMERISTEMLESS (STM) as the major regulators of pluripotency in the shoot meristem. Here, the results provide solid evidence showing how those two pluripotency factors WUS and STM coordinate to control shoot meristem cells strictly in plants.