Functional conservation and divergence of five SEPALLATA-like genes from a basal eudicot tree, Platanus acerifolia.

IF 0.3 Q4 INFORMATION SCIENCE & LIBRARY SCIENCE
Journal of Map & Geography Libraries Pub Date : 2017-02-01 Epub Date: 2016-11-11 DOI:10.1007/s00425-016-2617-0
Sisi Zhang, Shunjiao Lu, Shuangshuang Yi, Hongji Han, Lei Liu, Jiaqi Zhang, Manzhu Bao, Guofeng Liu
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引用次数: 20

Abstract

Main conclusion: Five SEP -like genes were cloned and identified from Platanus acerifolia through the analysis of expression profiles, protein-protein interaction patterns, and transgenic phenotypes, which suggested that they play conservative and diverse functions in floral initiation and development, fruit development, bud growth, and dormancy. SEPALLATA (SEP) genes have been well characterized in core eudicots and some monocots, and they play important and diverse roles in plant development, including flower meristem initiation, floral organ identity, and fruit development and ripening. However, the knowledge on the function and evolution of SEP-like genes in basal eudicot species is very limited. Here, we cloned and identified five SEP-like genes from London plane (Platanus acerifolia), a basal eudicot tree that is widely used for landscaping in cities. Sequence alignment and phylogenetic analysis indicated that three genes (PlacSEP1.1, PlacSEP1.2, and PlacSEP1.3) belong to the SEP1/2/4 clade, while the other two genes (PlacSEP3.1 and PlacSEP3.2) are grouped into the SEP3 clade. Quantitative real-time PCR (qRT-PCR) analysis showed that all PlacSEPs, except PlacSEP1.1 and PlacSEP1.2, were expressed during the male and female inflorescence initiation, and throughout the flower and fruit development process. PlacSEP1.2 gene expression was only detected clearly in female inflorescence at April. PlacSEP1.3 and PlacSEP3.1 were also expressed, although relatively weak, in vegetative buds of adult trees. No evident PlacSEPs transcripts were detected in various organs of juvenile trees. Overexpression of PlacSEPs in Arabidopsis and tobacco plants resulted in different phenotypic alterations. 35S:PlacSEP1.1, 35S:PlacSEP1.3, and 35S:PlacSEP3.2 transgenic Arabidopsis plants showed evident early flowering, with less rosette leaves but more cauline leaves, while 35S:PlacSEP1.2 and PlacSEP3.1 transgenic plants showed no visible phenotypic changes. 35S:PlacSEP1.1 and 35S:PlacSEP3.2 transgenic Arabidopsis plants also produced smaller and curled leaves. Overexpression of PlacSEP1.1 and PlacSEP3.1 in tobacco resulted in the early flowering and producing more lateral branches. Yeast two-hybrid analysis indicated that PlacSEPs proteins can form homo- or hetero-dimers with the Platanus APETALA1 (AP1)/FRUITFULL (FUL), B-, C-, and D-class MADS-box proteins in different interacting patterns and intensities. Our results suggest that the five PlacSEP genes may play important and divergent roles during floral initiation and development, as well as fruit development, by collaborating with FUL, B-, C-, and D-class MADS-box genes in London plane; PlacSEP1.3 and PlacSEP3.1 genes might also involve in vegetative bud growth and dormancy. The results provide valuable data for us to understand the functional evolution of SEP-like genes in basal eudicot species.

基生桉树(Platanus acerifolia)中五个 SEPALLATA 样基因的功能保护和分化。
主要结论:通过对表达谱、蛋白-蛋白相互作用模式和转基因表型的分析,从桔梗中克隆并鉴定了5个类似SEP的基因,这些基因在花的萌发和发育、果实发育、芽的生长和休眠中发挥着保守而多样的功能。SEPALLATA(SEP)基因在核心真核植物和一些单子叶植物中已经得到了很好的表征,它们在植物发育过程中发挥着重要而多样的作用,包括花分生组织的萌发、花器官的特征以及果实的发育和成熟。然而,有关基生真核植物中 SEP 类基因的功能和进化的知识非常有限。在这里,我们克隆并鉴定了伦敦梧桐(Platanus acerifolia)中的五个 SEP 样基因。序列比对和系统发生分析表明,三个基因(PlacSEP1.1、PlacSEP1.2 和 PlacSEP1.3)属于 SEP1/2/4 支系,而另外两个基因(PlacSEP3.1 和 PlacSEP3.2)则归入 SEP3 支系。实时定量 PCR(qRT-PCR)分析表明,除 PlacSEP1.1 和 PlacSEP1.2 外,所有 PlacSEP 均在雌雄花序萌发期以及整个花和果实发育过程中表达。PlacSEP1.2 基因只在四月的雌花序中被明确检测到。PlacSEP1.3 和 PlacSEP3.1 在成年树的无性芽中也有表达,但相对较弱。在幼树的各种器官中未检测到明显的 PlacSEPs 转录物。在拟南芥和烟草植株中过表达 PlacSEPs 会导致不同的表型改变。35S:PlacSEP1.1、35S:PlacSEP1.3和35S:PlacSEP3.2转基因拟南芥植株表现出明显的早花,莲座叶较少,但茎生叶较多,而35S:PlacSEP1.2和PlacSEP3.1转基因植株则没有明显的表型变化。35S:PlacSEP1.1 和 35S:PlacSEP3.2 转基因拟南芥植株的叶片也较小且卷曲。在烟草中过表达 PlacSEP1.1 和 PlacSEP3.1 能使烟草提早开花并产生更多侧枝。酵母双杂交分析表明,PlacSEPs蛋白能与桔梗APETALA1(AP1)/FRUITFULL(FUL)、B-、C-和D-类MADS-box蛋白形成同源或异源二聚体,并具有不同的相互作用模式和强度。我们的研究结果表明,PlacSEP 的五个基因可能通过与 FUL、B-、C-和 D 级 MADS-box 基因在伦敦平面上的合作,在花的萌发和发育以及果实的发育过程中发挥重要而不同的作用;PlacSEP1.3 和 PlacSEP3.1 基因还可能参与无性花芽的生长和休眠。这些结果为我们了解基生真叶植物中 SEP 类基因的功能进化提供了宝贵的数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Map & Geography Libraries
Journal of Map & Geography Libraries INFORMATION SCIENCE & LIBRARY SCIENCE-
CiteScore
0.60
自引率
83.30%
发文量
12
期刊介绍: The Journal of Map & Geography Libraries is a multidisciplinary publication that covers international research and information on the production, procurement, processing, and utilization of geographic and cartographic materials and geospatial information. Papers submitted undergo a rigorous peer-review process by professors, researchers, and practicing librarians with a passion for geography, cartographic materials, and the mapping and spatial sciences. The journal accepts original theory-based, case study, and practical papers that substantially advance an understanding of the mapping sciences in all of its forms to support users of map and geospatial collections, archives, and similar institutions.
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