SEPALLATA基因多样化：全新的轮状结构

SEPALLATA gene diversification: brave new whorls.

作者信息

Malcomber Simon T, Kellogg Elizabeth A

机构信息

Department of Biology, University of Missouri - St. Louis, One University Boulevard, Saint Louis, MO 63121, USA.

出版信息

Trends Plant Sci. 2005 Sep;10(9):427-35. doi: 10.1016/j.tplants.2005.07.008.

DOI:10.1016/j.tplants.2005.07.008

PMID:16099195

Abstract

SEPALLATA (SEP) genes form an integral part of models that outline the molecular basis of floral organ determination and are hypothesized to act as co-factors with ABCD floral homeotic genes in specifying different floral whorls. The four SEP genes in Arabidopsis function redundantly, but the extent to which SEP genes in other flowering plants function similarly is unknown. Using a recent 113-gene SEP phylogeny as a framework, we find surprising heterogeneity among SEP gene C-terminal motifs, mRNA expression patterns, protein-protein interactions and inferred function. Although some SEP genes appear to function redundantly, others have novel roles in fruit maturation, floral organ specification and plant architecture, and have played a major role in floral evolution of diverse plants.

摘要

SEPALLATA（SEP）基因是勾勒花器官决定分子基础模型的一个组成部分，并且据推测在指定不同的花轮时作为ABCD花同源异型基因的辅助因子发挥作用。拟南芥中的四个SEP基因功能冗余，但其他开花植物中SEP基因的功能相似程度尚不清楚。以最近的113个基因的SEP系统发育为框架，我们发现SEP基因的C端基序、mRNA表达模式、蛋白质-蛋白质相互作用和推断功能之间存在惊人的异质性。虽然一些SEP基因似乎功能冗余，但其他基因在果实成熟、花器官特化和植物结构中具有新的作用，并且在多种植物的花进化中发挥了重要作用。

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SEPALLATA基因多样化：全新的轮状结构

SEPALLATA gene diversification: brave new whorls.

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