在林地草莓 Fragaria vesca 中，光质以依赖于 FvFT1/FvTFL1 的方式调控开花。

Light quality regulates flowering in FvFT1/FvTFL1 dependent manner in the woodland strawberry Fragaria vesca.

机构信息

Department of Agricultural Sciences, University of Helsinki Helsinki, Finland.

Department of Electrical Engineering and Automation, Aalto University Espoo, Finland.

出版信息

Front Plant Sci. 2014 Jun 11;5:271. doi: 10.3389/fpls.2014.00271. eCollection 2014.

DOI:10.3389/fpls.2014.00271

PMID:24966865

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4052200/

Abstract

Control of flowering in the perennial model, the woodland strawberry (Fragaria vesca L.), involves distinct molecular mechanisms that result in contrasting photoperiodic flowering responses and growth cycles in different accessions. The F. vesca homolog of TERMINAL FLOWER1 (FvTFL1) functions as a key floral repressor that causes short-day (SD) requirement of flowering and seasonal flowering habit in the SD strawberry. In contrast, perpetual flowering F. vesca accessions lacking functional FvTFL1 show FLOWERING LOCUS T (FvFT1)-dependent early flowering specifically under long-days (LD). We show here that the end-of-day far-red (FR) and blue (B) light activate the expression of FvFT1 and the F. vesca homolog of SUPPRESSOR OF THE OVEREXPRESSION OF CONSTANS (FvSOC1) in both SD and LD strawberries, whereas low expression levels are detected in red (R) and SD treatments. By using transgenic lines, we demonstrate that FvFT1 advances flowering under FR and B treatments compared to R and SD treatments in the LD strawberry, and that FvSOC1 is specifically needed for the B light response. In the SD strawberry, flowering responses to these light quality treatments are reversed due to up-regulation of the floral repressor FvTFL1 in parallel with FvFT1 and FvSOC1. Our data highlights the central role of FvFT1 in the light quality dependent flower induction in the LD strawberry and demonstrates that FvTFL1 reverses not only photoperiodic requirements but also light quality effects on flower induction in the SD strawberry.

摘要

在多年生模式植物林地草莓（ Fragaria vesca L. ）中，开花的控制涉及独特的分子机制，导致不同品种对光周期开花反应和生长周期的对比。F. vesca 同源物 TERMINAL FLOWER1（FvTFL1）作为关键的花抑制物，导致短日照（SD）草莓的开花需要和季节性开花习性。相比之下，缺乏功能性 FvTFL1 的永久性开花 F. vesca 品种在长日照（LD）下表现出 FLOWERING LOCUS T（FvFT1）依赖性的早期开花。我们在这里表明，在 SD 和 LD 草莓中，终日照远红（FR）和蓝光（B）光激活 FvFT1 和 F. vesca 同源物 SUPPRESSOR OF THE OVEREXPRESSION OF CONSTANS（FvSOC1）的表达，而在 R 和 SD 处理中检测到低表达水平。通过使用转基因株系，我们证明 FvFT1 在 LD 草莓中，与 R 和 SD 处理相比，在 FR 和 B 处理下提前开花，并且 FvSOC1 是 B 光反应所特需的。在 SD 草莓中，由于与 FvFT1 和 FvSOC1 平行地上调花抑制物 FvTFL1，对这些光质处理的开花反应被逆转。我们的数据突出了 FvFT1 在 LD 草莓中光质依赖性花诱导中的核心作用，并证明 FvTFL1 不仅逆转了光周期要求，而且逆转了 SD 草莓中光质对花诱导的影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4521/4052200/0960158085f9/fpls-05-00271-g0001.jpg

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在林地草莓 Fragaria vesca 中，光质以依赖于 FvFT1/FvTFL1 的方式调控开花。

Light quality regulates flowering in FvFT1/FvTFL1 dependent manner in the woodland strawberry Fragaria vesca.

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