基因多效性、冗余性与花的进化

Pleiotropy, redundancy and the evolution of flowers.

作者信息

Albert Victor A, Oppenheimer David G, Lindqvist Charlotte

机构信息

Natural History Museums and Botanical Garden, University of Oslo, Sarś gate 1, N-0562 Oslo, Norway.

出版信息

Trends Plant Sci. 2002 Jul;7(7):297-301. doi: 10.1016/s1360-1385(02)02300-2.

DOI:10.1016/s1360-1385(02)02300-2

PMID:12119166

Abstract

Most angiosperm flowers are tightly integrated, functionally bisexual shoots that have carpels with enclosed ovules. Flowering plants evolved from within the gymnosperms, which lack this combination of innovations. Paradoxically, phylogenetic reconstructions suggest that the flowering plant lineage substantially pre-dates the evolution of flowers themselves. We provide a model based on known gene regulatory networks whereby positive selection on a single, partially redundant gene duplicate 'trapped' the ancestors of flower-bearing plants into the condensed, bisexual state approximately 130 million years ago. The LEAFY (LFY) gene of Arabidopsis encodes a master regulator that functions as the main conduit of environmental signals to the reproductive developmental program. We directly link the elimination of one LFY paralog, pleiotropically maintained in gymnosperms, to the sudden appearance of flowers in the fossil record.

摘要

大多数被子植物的花是紧密整合的、功能上为两性的枝条，其心皮内有包被的胚珠。开花植物从裸子植物中演化而来，而裸子植物缺乏这种创新组合。矛盾的是，系统发育重建表明开花植物谱系在花本身的演化之前就已存在。我们基于已知的基因调控网络提供了一个模型，据此，大约1.3亿年前，对单个部分冗余的基因复制体的正选择将有花植物的祖先“捕获”到了紧凑的两性状态。拟南芥的LEAFY（LFY）基因编码一种主要调控因子，它作为环境信号通向生殖发育程序的主要通道。我们将在裸子植物中多效性维持的一个LFY旁系同源基因的消除，与化石记录中花的突然出现直接联系起来。

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基因多效性、冗余性与花的进化

Pleiotropy, redundancy and the evolution of flowers.

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