叶片损伤远距离信号传导靶向AtCuAOβ导致根系表型可塑性。

Leaf-Wounding Long-Distance Signaling Targets AtCuAOβ Leading to Root Phenotypic Plasticity.

作者信息

Fraudentali Ilaria, Rodrigues-Pousada Renato A, Tavladoraki Paraskevi, Angelini Riccardo, Cona Alessandra

机构信息

Department of Science, University "Roma Tre", 00146 Rome, Italy.

Department of Life, Health and Environmental Sciences, University of L'Aquila, 67100 L'Aquila, Italy.

出版信息

Plants (Basel). 2020 Feb 15;9(2):249. doi: 10.3390/plants9020249.

DOI:10.3390/plants9020249

PMID:32075218

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7076439/

Abstract

The Arabidopsis gene (At4g14940) encodes an apoplastic copper amine oxidase (CuAO) highly expressed in guard cells of leaves and flowers and in root vascular tissues, especially in protoxylem and metaxylem precursors, where its expression is strongly induced by the wound signal methyl jasmonate (MeJA). The hydrogen peroxide (HO) derived by the AtCuAOβ-driven oxidation of the substrate putrescine (Put), mediates the MeJA-induced early root protoxylem differentiation. Considering that early root protoxylem maturation was also induced by both exogenous Put and leaf wounding through a signaling pathway involving HO, in the present study we investigated the role of in the leaf wounding-induced early protoxylem differentiation in combination with Put treatment. Quantitative and tissue specific analysis of gene expression by RT-qPCR and promoter:: fusion analysis revealed that wounding of the cotiledonary leaf induced gene expression which was particularly evident in root vascular tissues. loss-of-function mutants were unresponsive to the injury, not showing altered phenotype upon wounding in comparison to wild type seedlings. Exogenous Put and wounding did not show synergy in inducing early root protoxylem maturation, suggesting their involvement in a shared signaling pathway.

摘要

拟南芥基因（At4g14940）编码一种质外体铜胺氧化酶（CuAO），该酶在叶片和花朵的保卫细胞以及根维管组织中高度表达，尤其是在原生木质部和后生木质部前体中，其表达在伤口信号茉莉酸甲酯（MeJA）的强烈诱导下进行。由AtCuAOβ驱动的底物腐胺（Put）氧化产生的过氧化氢（H₂O₂）介导了MeJA诱导的早期根原生木质部分化。鉴于外源Put和叶片损伤均通过涉及H₂O₂的信号通路诱导早期根原生木质部成熟，在本研究中，我们研究了与Put处理相结合时，At4g14940在叶片损伤诱导的早期原生木质部分化中的作用。通过RT-qPCR对At4g14940基因表达进行定量和组织特异性分析以及启动子::GUS融合分析表明，子叶叶片损伤诱导了At4g14940基因表达，这在根维管组织中尤为明显。At4g14940功能缺失突变体对损伤无反应，与野生型幼苗相比，受伤后未表现出表型改变。外源Put和损伤在诱导早期根原生木质部成熟方面未表现出协同作用，表明它们参与了共同的信号通路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0561/7076439/37a3163b50a0/plants-09-00249-g001.jpg

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叶片损伤远距离信号传导靶向AtCuAOβ导致根系表型可塑性。

Leaf-Wounding Long-Distance Signaling Targets AtCuAOβ Leading to Root Phenotypic Plasticity.

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