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ANALYSIS OF AUXIN SIGNAL TRANSDUCTION PATHWAYS

生长素信号转导途径分析

基本信息

批准号：
6062483
负责人：
Reeta Prusty Rao
金额：
$ 3.09万
依托单位：
WHITEHEAD INSTITUTE FOR BIOMEDICAL RES
依托单位国家：
美国
项目类别：
财政年份：
2000
资助国家：
美国
起止时间：
2000-08-01 至
项目状态：
未结题

来源：
https://reporter.nih.gov/project-details/6062483
关键词：
Arabidopsis biological signal transduction gene mutation gravity indoleacetate membrane proteins plant genetics root

项目摘要

The gravitropic response of roots involves perception of the 'gravistimulus' by root-cap cells, transduction of this physical information into biochemical signals, followed by their transmission to cells in the expansion zone. This ultimately results in an appropriate curvature response of the root. Indole-3-acetic acid (IAA), the major form of auxins in higher plants, is directly involved in providing directionality to plants in response to stimuli such as light, gravity and even obstacles in the path of growth but its mechanism of action has not been elucidated. Plants bearing mutant alleles of EIR1, which encodes a plasma membrane protein, have phenotypes that suggest it is an auxin efflux pump involved in transport of auxin from the root tip to the elongation zone. These mutants have long roots with compromised ability to form root hairs and the roots do not respond to light or gravity. These mutants resemble plants grown in the presence of auxin transport inhibitors. The focus of this proposal is: 1) to further characterize Eir1p, a key component involved in the gravitropic response of roots; and 2) to identify proteins that affect activity of the EIR1 pump. These studies will provide insight regarding the previously uncharacterized auxin signaling pathway involved in the gravitronic response.

根的向重力反应涉及根冠细胞对“重力刺激”的感知，将这种物理信息转换为生化信号，然后将其传递到扩展区的细胞。这最终导致根部的适当曲率响应。吲哚-3-乙酸（Indole-3-acetic acid，IAA）是高等植物生长素的主要形式，直接参与植物对光、重力甚至障碍物等刺激的定向反应，但其作用机制尚未阐明。携带EIR 1突变等位基因的植物，其编码质膜蛋白，具有表型，这表明它是一个生长素外排泵参与运输生长素从根尖到伸长区。这些突变体具有长根，形成根毛的能力受损，并且根对光或重力没有反应。这些突变体类似于生长素运输抑制剂存在下生长的植物。该提案的重点是：1）进一步表征EIR 1 p，这是参与根向重力反应的关键组分; 2）鉴定影响EIR 1泵活性的蛋白质。这些研究将提供洞察力关于以前未知的生长素信号通路参与重力子响应。