生物
基因
侧根
生长素
突变体
细胞生物学
根毛
转录组
器官发生
拟南芥
位置克隆
植物
遗传学
基因表达
作者
Frank Hochholdinger,Peng Yu,Caroline Marcon
标识
DOI:10.1016/j.tplants.2017.10.004
摘要
The maize root system comprises structurally and functionally different root types. Mutant analyses have revealed that root-type-specific genetic regulators intrinsically determine the maize root system architecture. Molecular cloning of these genes has demonstrated that key elements of auxin signal transduction, such as LOB domain (LBD) and Aux/IAA proteins, are instrumental for seminal, shoot-borne, and lateral root initiation. Moreover, genetic analyses have demonstrated that genes related to exocytotic vesicle docking, cell wall loosening, and cellulose synthesis and organization control root hair elongation. The identification of upstream regulators, protein interaction partners, and downstream targets of these genes together with cell-type-specific transcriptome analyses have provided novel insights into the regulatory networks controlling root development and architecture in maize.
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