Daylength measurements by rice plants in photoperiodic short-day flowering.

International Review of Cytology-A Survey of Cell Biology Pub Date : 2007-01-01 DOI:10.1016/S0074-7696(07)56006-7

Takeshi Izawa

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引用次数: 65

Abstract

Plants set seed at appropriate seasons. One major mechanism responsible for this adaptation involves photoperiodic flowering. Most plants are classified as either long-day plants, which flower under a longer photoperiod, or short-day plants, which flower under a shorter photoperiod. A third group, day-neutral plants, is not responsive to changes in photoperiod. During the past decade, molecular analysis has revealed at the molecular level how the long-day plant Arabidopsis thaliana measures daylength in photoperiodic flowering. In contrast, the molecular mechanisms underlying the responses of short-day plants are still under investigation. Progress in understanding photoperiodic flowering in rice (Oryza sativa), a short-day plant, revealed unique, evolutionarily conserved pathways involved in photoperiodic flowering at the molecular level. Furthermore, the conserved pathways promote flowering under short-day conditions and suppress flowering under long-day conditions in rice, but promote flowering under long-day conditions in Arabidopsis. In this chapter, we discuss the molecular mechanisms responsible for short-day flowering in rice in comparison with long-day flowering in Arabidopsis.

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水稻光周期短日花期的日长测量。

植物在适当的季节播种。这种适应的一个主要机制与光周期开花有关。大多数植物被分类为长日照植物，在较长的光周期下开花，或短日照植物，在较短的光周期下开花。第三类植物，昼中性植物，对光周期的变化没有反应。在过去的十年中，分子分析在分子水平上揭示了长日照植物拟南芥是如何在光周期开花中测量日照长度的。相比之下，短日照植物反应的分子机制仍在研究中。对短日照植物水稻(Oryza sativa)光周期开花的研究进展揭示了在分子水平上参与光周期开花的独特的、进化保守的途径。此外，保守通路在短日照条件下促进水稻开花，在长日照条件下抑制开花，而在长日照条件下促进拟南芥开花。在本章中，我们讨论了水稻短日开花与拟南芥长日开花的分子机制。

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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来源期刊

International Review of Cytology-A Survey of Cell Biology 生物-细胞生物学

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>12 weeks