通过计算机分析推断，在线虫取食位点与LBD16共同调控的基因，与拟南芥中由生长素/细胞分裂素平衡介导的调控回路具有相似性。

Genes co-regulated with LBD16 in nematode feeding sites inferred from in silico analysis show similarities to regulatory circuits mediated by the auxin/cytokinin balance in Arabidopsis.

作者信息

Cabrera Javier, Fenoll Carmen, Escobar Carolina

机构信息

a Facultad de Ciencias Ambientales y Bioquímica ; Universidad de Castilla-La Mancha ; Toledo , Spain.

出版信息

Plant Signal Behav. 2015;10(3):e990825. doi: 10.4161/15592324.2014.990825.

DOI:10.4161/15592324.2014.990825

PMID:25664644

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4622745/

Abstract

Plant endoparasitic nematodes, root-knot and cyst nematodes (RKNs and CNs) induce within the root vascular cylinder transfer cells used for nourishing, termed giant cells (GCs) and syncytia. Understanding the molecular mechanisms behind this process is essential to develop tools for nematode control. Based on the crucial role in gall development of LBD16, also a key component of the auxin pathway leading to the divisions in the xylem pole pericycle during lateral root (LR) formation, we investigated genes co-regulated with LBD16 in different transcriptomes and analyzed their similarities and differences with those of RKNs and CNs feeding sites (FS). This analysis confirmed LBD16 and its co-regulated genes, integrated in signaling cascades mediated by auxins during LR and callus formation, as a particular feature of RKN-FS distinct to CNs. However, LBD16, and its positively co-regulated genes, were repressed in syncytia, suggesting a selective down- regulation of the LBD16 auxin mediated pathways in CNs-FS. Interestingly, cytokinin-induced genes are enriched in syncytia and we encountered similarities between the transcriptome of shoot regeneration from callus, modulated by cytokinins, and that of syncytia. These findings establish differences in the regulatory networks leading to both FS formation, probably modulated by the auxin/cytokinin balance.

摘要

植物内寄生线虫，根结线虫和胞囊线虫（RKNs和CNs）会在根维管束中诱导形成用于获取营养的转移细胞，即巨型细胞（GCs）和多核细胞。了解这一过程背后的分子机制对于开发线虫防治工具至关重要。基于LBD16在虫瘿发育中的关键作用，LBD16也是侧根（LR）形成过程中导致木质部极周皮细胞分裂的生长素途径的关键组成部分，我们在不同转录组中研究了与LBD16共同调控的基因，并分析了它们与根结线虫和胞囊线虫取食位点（FS）的异同。该分析证实，LBD16及其共同调控的基因在侧根和愈伤组织形成过程中整合到由生长素介导的信号级联反应中，这是根结线虫取食位点区别于胞囊线虫取食位点的一个特殊特征。然而，LBD16及其正向共同调控的基因在多核细胞中受到抑制，这表明在胞囊线虫取食位点中，LBD16生长素介导的途径被选择性下调。有趣的是，细胞分裂素诱导的基因在多核细胞中富集，并且我们发现由细胞分裂素调节的愈伤组织芽再生转录组与多核细胞转录组之间存在相似性。这些发现揭示了导致两种取食位点形成的调控网络存在差异，这可能受生长素/细胞分裂素平衡的调节。

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Genes co-regulated with LBD16 in nematode feeding sites inferred from in silico analysis show similarities to regulatory circuits mediated by the auxin/cytokinin balance in Arabidopsis.通过计算机分析推断，在线虫取食位点与LBD16共同调控的基因，与拟南芥中由生长素/细胞分裂素平衡介导的调控回路具有相似性。

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通过计算机分析推断，在线虫取食位点与LBD16共同调控的基因，与拟南芥中由生长素/细胞分裂素平衡介导的调控回路具有相似性。

Genes co-regulated with LBD16 in nematode feeding sites inferred from in silico analysis show similarities to regulatory circuits mediated by the auxin/cytokinin balance in Arabidopsis.

作者信息

Cabrera Javier, Fenoll Carmen, Escobar Carolina

机构信息

a Facultad de Ciencias Ambientales y Bioquímica ; Universidad de Castilla-La Mancha ; Toledo , Spain.

出版信息

Plant Signal Behav. 2015;10(3):e990825. doi: 10.4161/15592324.2014.990825.

DOI:10.4161/15592324.2014.990825

PMID:25664644

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4622745/

Abstract

摘要

通过计算机分析推断，在线虫取食位点与LBD16共同调控的基因，与拟南芥中由生长素/细胞分裂素平衡介导的调控回路具有相似性。

Genes co-regulated with LBD16 in nematode feeding sites inferred from in silico analysis show similarities to regulatory circuits mediated by the auxin/cytokinin balance in Arabidopsis.

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通过计算机分析推断，在线虫取食位点与LBD16共同调控的基因，与拟南芥中由生长素/细胞分裂素平衡介导的调控回路具有相似性。

Genes co-regulated with LBD16 in nematode feeding sites inferred from in silico analysis show similarities to regulatory circuits mediated by the auxin/cytokinin balance in Arabidopsis.

作者信息

机构信息

出版信息