赤霉素在野燕麦糊粉层原生质体质膜上的感知。

Gibberellin perception at the plasma membrane of Avena fatua aleurone protoplasts.

机构信息

Department of Agricultural Sciences, University of Bristol, AFRC Institute of Arable Crops Research, Long Ashton Research Station, BS18 9AF, Bristol, UK.

出版信息

Planta. 1991 Jan;183(2):274-80. doi: 10.1007/BF00197799.

DOI:10.1007/BF00197799

PMID:24193631

Abstract

A functional assay for gibberellin (GA) receptors is described based on the induction of α-amylase gene expression in isolated aleurone protoplasts of Avena fatua L. by GA4 immobilised to Sepharose beads. A 17-thiol derivative of GA4, shown to be biologically active with aleurone protoplasts, has been coupled to epoxy-activated Sepharose 6B. This GA4-17-Sepharose induces high levels of α-amylase when incubated with isolated aleurone protoplasts, while cells of the intact aleurone layer do not respond appreciably to the immobilised GA4. In order to eliminate the possibility that GA4 may be released from the Sepharose when incubated with protoplasts, aleurone layers and isolated aleurone protoplasts have been co-incubated, and their responses to GA4, GA4-17-Sepharose and control Sepharose estimated by determining the relative amounts of α-amylase mRNA induced in each tissue. Evidence from these experiments is consistent with the view that GA417-Sepharose induces α-amylase gene expression in aleurone protoplasts by interacting with the protoplast surface. This indicates that GA receptors may be located at, or near, the external face of the aleurone plasma membrane.

摘要

描述了一种基于 GA4 固定在 Sepharose 珠上诱导 Avena fatua L. 糊粉层原生质体中α-淀粉酶基因表达的赤霉素（GA）受体功能测定法。已将生物活性与糊粉层原生质体具有的 GA4 的 17-巯基衍生物偶联到环氧活化的 Sepharose 6B 上。当与分离的糊粉层原生质体一起孵育时，这种 GA4-17-Sepharose 会诱导高水平的α-淀粉酶，而完整糊粉层的细胞对固定化 GA4 没有明显反应。为了排除 GA4 可能在与原生质体孵育时从 Sepharose 中释放出来的可能性，已经共孵育了糊粉层和分离的糊粉层原生质体，并通过确定每个组织中诱导的α-淀粉酶 mRNA 的相对量来估计它们对 GA4、GA4-17-Sepharose 和对照 Sepharose 的反应。这些实验的证据与 GA417-Sepharose 通过与原生质体表面相互作用诱导糊粉层原生质体中α-淀粉酶基因表达的观点一致。这表明 GA 受体可能位于或靠近糊粉层质膜的外表面。

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赤霉素在野燕麦糊粉层原生质体质膜上的感知。

Gibberellin perception at the plasma membrane of Avena fatua aleurone protoplasts.

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