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STENOFOLIA 调控蒴果木蓝和野生烟草的叶片外突生长和叶脉模式。

STENOFOLIA regulates blade outgrowth and leaf vascular patterning in Medicago truncatula and Nicotiana sylvestris.

机构信息

Plant Biology Division, The Samuel Roberts Noble Foundation, Ardmore, Oklahoma 73401, USA.

出版信息

Plant Cell. 2011 Jun;23(6):2125-42. doi: 10.1105/tpc.111.085340. Epub 2011 Jun 30.

DOI:10.1105/tpc.111.085340
PMID:21719692
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3160033/
Abstract

Dicot leaf primordia initiate at the flanks of the shoot apical meristem and extend laterally by cell division and cell expansion to form the flat lamina, but the molecular mechanism of lamina outgrowth remains unclear. Here, we report the identification of STENOFOLIA (STF), a WUSCHEL-like homeobox transcriptional regulator, in Medicago truncatula, which is required for blade outgrowth and leaf vascular patterning. STF belongs to the MAEWEST clade and its inactivation by the transposable element of Nicotiana tabacum cell type1 (Tnt1) retrotransposon insertion leads to abortion of blade expansion in the mediolateral axis and disruption of vein patterning. We also show that the classical lam1 mutant of Nicotiana sylvestris, which is blocked in lamina formation and stem elongation, is caused by deletion of the STF ortholog. STF is expressed at the adaxial-abaxial boundary layer of leaf primordia and governs organization and outgrowth of lamina, conferring morphogenetic competence. STF does not affect formation of lateral leaflets but is critical to their ability to generate a leaf blade. Our data suggest that STF functions by modulating phytohormone homeostasis and crosstalk directly linked to sugar metabolism, highlighting the importance of coordinating metabolic and developmental signals for leaf elaboration.

摘要

双子叶叶原基从芽尖分生组织的两侧起始,并通过细胞分裂和细胞扩展横向延伸,形成扁平的叶片,但叶片延伸的分子机制尚不清楚。在这里,我们在蒺藜苜蓿中鉴定了 STENOFOLIA(STF),这是一种 WUSCHEL 类同源盒转录调节因子,它是叶片延伸和叶脉模式形成所必需的。STF 属于 MAEWEST 分支,其失活是由烟草细胞类型 1(Tnt1)转座元件反转录插入引起的,导致叶片在中侧轴上的扩展中止和叶脉模式的破坏。我们还表明,Nicotiana sylvestris 的经典 lam1 突变体,其在叶片形成和茎伸长中被阻断,是由 STF 同源物的缺失引起的。STF 在叶原基的近轴-远轴边界层表达,并控制叶片的组织和延伸,赋予形态发生能力。STF 不影响侧小叶的形成,但对其产生叶片的能力至关重要。我们的数据表明,STF 通过调节植物激素稳态和与糖代谢直接相关的信号转导来发挥作用,突出了协调代谢和发育信号对叶片发育的重要性。

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