Plant-on-chip: Core morphogenesis processes in the tiny plant Wolffia australiana .
Feng LiJing-Jing YangZong-Yi SunLei WangLe-Yao QiSina AYi-Qun LiuHong-Mei ZhangLei-Fan DangShu-Jing WangChun-Xiong LuoWei-Feng NianSeth O'ConnerLong-Zhen JuWei-Peng QuanXiao-Kang LiChao WangDe-Peng WangHan-Li YouZhu-Kuan ChengJia YanFu-Chou TangDe-Chang YangChu-Wei XiaGe GaoYan WangBao-Cai ZhangYi-Hua ZhouXing GuoSun-Huan XiangHuan LiuTian-Bo PengXiao-Dong SuYong ChenQi OuyangDong-Hui WangDa-Ming ZhangZhi-Hong XuHong-Wei HouShu-Nong BaiLing LiPublished in: PNAS nexus (2023)
A plant can be thought of as a colony comprising numerous growth buds, each developing to its own rhythm. Such lack of synchrony impedes efforts to describe core principles of plant morphogenesis, dissect the underlying mechanisms, and identify regulators. Here, we use the minimalist known angiosperm to overcome this challenge and provide a model system for plant morphogenesis. We present a detailed morphological description of the monocot Wolffia australiana , as well as high-quality genome information. Further, we developed the plant-on-chip culture system and demonstrate the application of advanced technologies such as single-nucleus RNA-sequencing, protein structure prediction, and gene editing. We provide proof-of-concept examples that illustrate how W. australiana can decipher the core regulatory mechanisms of plant morphogenesis.