春化:研究植物表观遗传学和真核基因调控的一个模型

Robert J. Schmitz , Richard M. Amasino
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引用次数: 134

摘要

从营养发育到生殖发育的转变是一个高度调控的过程,在许多植物物种中,对提供季节性信息的环境线索非常敏感,这些信息提供了在一年中最佳时间开始开花的季节信息。一个环境因素是冬天的寒冷。冬季一年生植物和二年生植物通常需要长时间暴露在冬季的寒冷中,以便在春季迅速开花。这种通过低温暴露促进开花的过程被称为春化。拟南芥每年冬季的习性是由FRIGIDA促进有效的花抑制因子开花位点C (FLC)的高水平表达的能力建立的。在拟南芥中,春化导致FLC以一种有丝分裂稳定(即表观遗传)的方式沉默,这种方式在植物生命周期的剩余时间内保持不变。FLC被抑制的“关闭”状态具有兼性异染色质的特征。传递到下一代后,FLC的“关”状态重置为“开”状态。春化介导的FLC抑制以及随后的下一代重置的环境诱导和有丝分裂稳定性为研究基因表达的几个方面的表观遗传控制提供了一个系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Vernalization: A model for investigating epigenetics and eukaryotic gene regulation in plants

The transition from vegetative to reproductive development is a highly regulated process that, in many plant species, is sensitive to environmental cues that provide seasonal information to initiate flowering during optimal times of the year. One environmental cue is the cold of winter. Winter annuals and biennials typically require prolonged exposure to the cold of winter to flower rapidly in the spring. This process by which flowering is promoted by cold exposure is known as vernalization. The winter-annual habit of Arabidopsis thaliana is established by the ability of FRIGIDA to promote high levels of expression of the potent floral repressor FLOWERING LOCUS C (FLC). In Arabidopsis, vernalization results in the silencing of FLC in a mitotically stable (i.e., epigenetic) manner that is maintained for the remainder of the plant life cycle. The repressed “off” state of FLC has features characteristic of facultative heterochromatin. Upon passing to the next generation, the “off” state of FLC is reset to the “on” state. The environmental induction and mitotic stability of vernalization-mediated FLC repression as well as the subsequent resetting in the next generation provides a system for studying several aspects of epigenetic control of gene expression.

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