开花时间基因调节对LEAFY活性的反应。

Flowering-time genes modulate the response to LEAFY activity.

作者信息

Nilsson O, Lee I, Blázquez M A, Weigel D

机构信息

Plant Biology Laboratory, The Salk Institute for Biological Studies, La Jolla, California 92037, USA.

出版信息

Genetics. 1998 Sep;150(1):403-10. doi: 10.1093/genetics/150.1.403.

DOI:10.1093/genetics/150.1.403

PMID:9725856

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1460307/

Abstract

Among the genes that control the transition to flowering in Arabidopsis is a large group whose inactivation causes a delay in flowering. It has been difficult to establish different pathways in which the flowering-time genes might act, because mutants with lesions in these genes have very similar phenotypes. Among the putative targets of the flowering-time genes is another group of genes, which control the identity of individual meristems. Overexpression of one of the meristem-identity genes, LEAFY, can cause the precocious generation of flowers and thus early flowering. We have exploited the opposite phenotypes seen in late-flowering mutants and LEAFY overexpressers to clarify the genetic interactions between flowering-time genes and LEAFY. According to epistatic relationships, we can define one class of flowering-time genes that affects primarily the response to LEAFY activity, and another class of genes that affects primarily the transcriptional induction of LEAFY. These observations allow us to expand previously proposed models for the genetic control of flowering time.

摘要

在控制拟南芥开花转变的基因中，有一大组基因，其失活会导致开花延迟。很难确定开花时间基因可能起作用的不同途径，因为这些基因有损伤的突变体具有非常相似的表型。开花时间基因的假定靶标中有另一组基因，它们控制着单个分生组织的特性。其中一个分生组织特性基因LEAFY的过表达会导致花的过早产生，从而导致早花。我们利用晚花突变体和LEAFY过表达体中出现的相反表型，来阐明开花时间基因与LEAFY之间的遗传相互作用。根据上位性关系，我们可以定义一类主要影响对LEAFY活性反应的开花时间基因，以及另一类主要影响LEAFY转录诱导的基因。这些观察结果使我们能够扩展先前提出的开花时间遗传控制模型。

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