MADS盒基因在拟南芥发育中的多种作用。

Diverse roles for MADS box genes in Arabidopsis development.

作者信息

Rounsley S D, Ditta G S, Yanofsky M F

机构信息

Department of Biology, University of California at San Diego, La Jolla 92093-0116, USA.

出版信息

Plant Cell. 1995 Aug;7(8):1259-69. doi: 10.1105/tpc.7.8.1259.

DOI:10.1105/tpc.7.8.1259

PMID:7549482

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC160949/

Abstract

Members of the MADS box gene family play important roles in flower development from the early step of determining the identity of floral meristems to specifying the identity of floral organ primordia later in flower development. We describe here the isolation and characterization of six additional members of this family, increasing the number of reported Arabidopsis MADS box genes to 17. All 11 members reported prior to this study are expressed in flowers, and the majority of them are floral specific. RNA expression analyses of the six genes reported here indicate that two genes, AGL11 and AGL13 (AGL for AGAMOUS-like), are preferentially expressed in ovules, but each has a distinct expression pattern. AGL15 is preferentially expressed in embryos, with its onset at or before the octant stage early in embryo development. AGL12, AGL14, and AGL17 are all preferentially expressed in root tissues and therefore represent the only characterized MADS box genes expressed in roots. Phylogenetic analyses showed that the two genes expressed in ovules are closely related to previously isolated MADS box genes, whereas the four genes showing nonfloral expression are more distantly related. Data from this and previous studies indicate that in addition to their proven role in flower development, MADS box genes are likely to play roles in many other aspects of plant development.

摘要

MADS盒基因家族的成员在花发育过程中发挥着重要作用，从确定花分生组织的身份的早期阶段，到在花发育后期确定花器官原基的身份。我们在此描述了该家族另外六个成员的分离和特征，使已报道的拟南芥MADS盒基因数量增加到17个。在本研究之前报道的所有11个成员都在花中表达，并且它们中的大多数是花特异性的。这里报道的六个基因的RNA表达分析表明，两个基因AGL11和AGL13（AGL代表类AGAMOUS）在胚珠中优先表达，但每个都有独特的表达模式。AGL15在胚胎中优先表达，在胚胎发育早期的八分体阶段或之前开始表达。AGL12、AGL14和AGL17都在根组织中优先表达，因此代表了唯一在根中表达的已鉴定的MADS盒基因。系统发育分析表明，在胚珠中表达的两个基因与先前分离的MADS盒基因密切相关，而显示非花表达的四个基因关系更远。来自本研究和先前研究的数据表明，除了它们在花发育中已证实的作用外，MADS盒基因可能在植物发育的许多其他方面发挥作用。

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