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一种在拟南芥中正常顶端和花分生组织发育所必需的核干细胞样 GTPase。

A nucleostemin-like GTPase required for normal apical and floral meristem development in Arabidopsis.

机构信息

Department of Plant, Soil, and Entomological Sciences and Program of Microbiology, Molecular Biology and Biochemistry, University of Idaho, Moscow, ID 83844.

出版信息

Mol Biol Cell. 2012 Apr;23(8):1446-56. doi: 10.1091/mbc.E11-09-0797. Epub 2012 Feb 22.

DOI:10.1091/mbc.E11-09-0797
PMID:22357616
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3327326/
Abstract

Mammalian nucleostemin (NS) is preferentially expressed in stem cells and acts to promote cell cycle progression. In plants, stem cell activities have to be terminated during flower development, and this process requires the activation of AGAMOUS (AG) gene expression. Here, a nucleostemin-like 1 gene, NSN1, is shown to be required for flower development in Arabidopsis. The NSN1 mRNA was found in the inflorescence meristem and floral primordia, and its protein was localized to the nucleoli. Both heterozygous and homozygous plants developed defective flowers on inflorescences that were eventually terminated by the formation of carpelloid flowers. Overexpression of NSN1 resulted in loss of apical dominance and formation of defective flowers. Expression of the AG gene was found to be up-regulated in nsn1. The carpelloid flower defect of nsn1 was suppressed by the ag mutation in the nsn1 ag double mutant, whereas double mutants of nsn1 apetala2 (ap2) displayed enhanced defective floral phenotypes. These results suggest that in the delicately balanced regulatory network, NSN1 acts to repress AG and plays an additive role with AP2 in floral organ specification. As a midsize nucleolar GTPase, NSN1 represents a new class of regulatory proteins required for flower development in Arabidopsis.

摘要

哺乳动物核干细胞蛋白 (NS) 优先在干细胞中表达,作用是促进细胞周期进程。在植物中,干细胞的活动必须在花发育过程中终止,这个过程需要激活 AGAMOUS (AG) 基因表达。在这里,一个类似于核干细胞蛋白的 1 基因 NSN1,被证明在拟南芥的花发育中是必需的。在花序分生组织和花原基中发现了 NSN1 mRNA,其蛋白定位于核仁。杂合和纯合植物的花序上形成了有缺陷的花,最终通过形成似心皮花而终止。NSN1 的过表达导致顶端优势的丧失和形成有缺陷的花。发现 NSN1 基因的表达上调。在 nsn1 中,AG 基因的表达被上调。在 nsn1 ag 双突变体中,ag 突变抑制了 nsn1 的似心皮花缺陷,而 nsn1 apetala2 (ap2) 的双突变体则表现出增强的有缺陷的花表型。这些结果表明,在精细平衡的调控网络中,NSN1 作用是抑制 AG,并与 AP2 在花器官特化中起累加作用。作为一种中等大小的核仁 GTPase,NSN1 代表了拟南芥花发育所必需的一类新的调控蛋白。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c943/3327326/601915a6404a/1446fig1.jpg

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