Evitando el incesto en las plantas: control genético y bioquímico

TIP Revista Especializada en Ciencias QuimicoBiologicas Pub Date : 2013-01-01 DOI:10.1016/S1405-888X(13)72078-3

Liliana E. García-Valencia, Carlos E. Bravo-Alberto, Felipe Cruz-García

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引用次数: 2

Abstract

To avoid endogamy many flowering plants evolved a mechanism to recognize and reject their self-pollen, which is known as self-incompatibility (SI) system. In many cases the SI is genetically controlled by a single and highly polymorphic locus known as the S-locus. This DNA region carries two tightly linked transcriptional units. One of them encodes the female determinant (pistil expressed) and the second one the male determinant (pollen expressed). In this review, we discuss the most relevant advances in the SI mechanism in S-RNase based systems, which are present in Solanaceae, Rosaceae and Plantaginaceae. In these families, the female determinant encodes a ribonuclease named S-RNase and the male determinant encodes a protein called SLF/SFB (S-locus F-Box). We finally describe the role of the role of modifier genes, not coded by S-locus, in the pollen rejection response and propose a model including the main events so far described.

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防止植物乱伦:遗传和生化控制

为了避免内婚制，许多开花植物进化出一种识别和排斥自交花粉的机制，即自交不亲和系统。在许多情况下，SI是由一个被称为s位点的高度多态位点遗传控制的。这个DNA区域携带两个紧密相连的转录单位。其中一个编码雌蕊表达的雌性决定因子，另一个编码花粉表达的雄性决定因子。本文综述了茄科、蔷薇科和车前草科中基于S-RNase的体系中SI机制的最新研究进展。在这些家族中，女性决定因子编码一种名为S-RNase的核糖核酸酶，而男性决定因子编码一种名为SLF/SFB (S-locus F-Box)的蛋白质。我们最后描述了未被s位点编码的修饰基因在花粉排斥反应中的作用，并提出了一个包含目前所描述的主要事件的模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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TIP Revista Especializada en Ciencias QuimicoBiologicas

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审稿时长

20 weeks