外源赤霉素仅在 VERNALIZATION1 的存在下，才能在短日条件下诱导小麦穗发育。

Exogenous gibberellins induce wheat spike development under short days only in the presence of VERNALIZATION1.

机构信息

Department of Plant Sciences, University of California, Davis, California 95616.

出版信息

Plant Physiol. 2013 Nov;163(3):1433-45. doi: 10.1104/pp.113.225854. Epub 2013 Oct 1.

DOI:10.1104/pp.113.225854

PMID:24085801

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3813662/

Abstract

The activation of the meristem identity gene VERNALIZATION1 (VRN1) is a critical regulatory point in wheat (Triticum spp.) flowering. In photoperiod-sensitive wheat varieties, VRN1 is expressed only under long days (LDs), but mutants carrying deletions in a regulatory element in its promoter show VRN1 transcription and early spike development under short days (SDs). However, complete spike development is delayed until plants are transferred to LDs, indicating the existence of an additional regulatory mechanism dependent on LDs. We show here that exogenous gibberellin (GA) application accelerates spike development under SDs, but only in wheat lines expressing VRN1. The simultaneous presence of GA and VRN1 results in the up-regulation of the floral meristem identity genes SUPPRESSOR OF OVEREXPRESSION OF CONSTANS1-1 and LEAFY, whereas inhibition of GA biosynthesis with paclobutrazol precludes the LD induction of these two genes. The inductive role of GA on wheat flowering is further supported by the up-regulation of GA biosynthetic genes in the apices of plants transferred from SDs to LDs and in photoperiod-insensitive and transgenic wheat plants with increased FLOWERING LOCUS T transcription under SDs. The up-regulation of GA biosynthetic genes was not observed in the leaves of the same genetic stocks. Based on these observations, we propose a model in which FLOWERING LOCUS T is up-regulated in the leaves under LDs and is then transported to the shoot apical meristem, where it simultaneously induces the expression of VRN1 and GA biosynthetic genes, which are both required for the up-regulation of the early floral meristem genes SUPPRESSOR OF OVEREXPRESSION OF CONSTANS1-1 and LEAFY and the timely development of the wheat spike.

摘要

春化素 1（VRN1）的激活是小麦（Triticum spp.）开花的关键调控点。在光周期敏感型小麦品种中，VRN1 仅在长日照（LDs）下表达，但在其启动子的调控元件缺失的突变体中，VRN1 转录和早期穗发育发生在短日照（SDs）下。然而，完全的穗发育被延迟，直到植物被转移到 LDs 下，这表明存在一种依赖于 LDs 的额外调控机制。我们在这里表明，外源赤霉素（GA）的应用可以加速 SD 下的穗发育，但仅在表达 VRN1 的小麦品系中。GA 和 VRN1 的同时存在导致花分生组织身份基因 SUPPRESSOR OF OVEREXPRESSION OF CONSTANS1-1 和 LEAFY 的上调，而用多效唑抑制 GA 生物合成则阻止了这两个基因在 LDs 下的诱导。GA 对小麦开花的诱导作用进一步得到了支持，即在从 SD 转移到 LDs 的植物的顶端和在 SD 下 FLOWERING LOCUS T 转录增加的光周期不敏感和转基因小麦植物中，GA 生物合成基因的上调。在同一遗传品系的叶片中没有观察到 GA 生物合成基因的上调。基于这些观察，我们提出了一个模型，即在 LDs 下，FLOWERING LOCUS T 在叶片中被上调，然后被运送到茎尖分生组织，在那里它同时诱导 VRN1 和 GA 生物合成基因的表达，这两个基因都需要上调早期花分生组织基因 SUPPRESSOR OF OVEREXPRESSION OF CONSTANS1-1 和 LEAFY 以及小麦穗的适时发育。

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