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竞争内源 RNA 网络在杨树适应低氮供应的解剖和生理特性中的作用。

Competing Endogenous RNA Networks Underlying Anatomical and Physiological Characteristics of Poplar Wood in Acclimation to Low Nitrogen Availability.

机构信息

State key Laboratory of Tree Genetics and Breeding, Key Laboratory of Silviculture of the National Forestry and Grassland Administration, Research Institute of Forestry, Chinese Academy of Forestry, Beijing, P. R. China.

Postgraduate School, Chinese Academy of Forestry, Beijing, P. R. China.

出版信息

Plant Cell Physiol. 2019 Nov 1;60(11):2478-2495. doi: 10.1093/pcp/pcz146.

DOI:10.1093/pcp/pcz146
PMID:31368491
Abstract

Although poplar plantations are often established on nitrogen (N)-poor soil, the physiological and molecular mechanisms underlying wood properties of poplars in acclimation to low N availability remain largely unknown. To investigate wood properties of poplars in acclimation to low N, Populus � canescens saplings were exposed to either 50 (low N) or 500 (normal N) �M NH4NO3 for 2 months. Low N resulted in decreased xylem width and cell layers of the xylem (the number of cells counted along the ray parenchyma on the stem cross section), narrower lumina of vessels and fibers, greater thickness of double fiber walls (the walls between two adjacent fiber cells), more hemicellulose and lignin deposition, and reduced cellulose accumulation in poplar wood. Consistently, concentrations of gibberellins involved in cell size determination and the abundance of various metabolites including amino acids, carbohydrates and precursors for cell wall biosynthesis were decreased in low N-supplied wood. In line with these anatomical and physiological changes, a number of mRNAs, long noncoding RNAs (lncRNAs) and microRNAs (miRNAs) were significantly differentially expressed. Competing endogenous RNA regulatory networks were identified in the wood of low N-treated poplars. Overall, these results indicate that miRNAs-lncRNAs-mRNAs networks are involved in regulating wood properties and physiological processes of poplars in acclimation to low N availability.

摘要

尽管杨属植物通常种植在氮(N)贫土壤上,但杨树适应低氮供应的木材特性的生理和分子机制在很大程度上仍不清楚。为了研究杨树适应低氮的木材特性,将 50(低 N)或 500(正常 N)μM NH4NO3 处理的青杨实生苗暴露于低氮或正常氮 2 个月。低氮导致木质部宽度和木质部细胞层(沿茎横切面上射线薄壁组织计数的细胞数)减少,导管和纤维的腔更窄,双纤维壁(两个相邻纤维细胞之间的壁)更厚,半纤维素和木质素沉积增加,以及杨树木材中纤维素积累减少。一致地,与细胞大小决定有关的赤霉素浓度和各种代谢物(包括氨基酸、碳水化合物和细胞壁生物合成前体)的丰度在低 N 供应的木材中降低。与这些解剖和生理变化一致,许多 mRNAs、长非编码 RNA(lncRNAs)和 microRNAs(miRNAs)的表达水平显著差异。在低 N 处理的杨树木材中鉴定到竞争内源 RNA 调控网络。总的来说,这些结果表明,miRNAs-lncRNAs-mRNAs 网络参与调节杨树适应低氮供应的木材特性和生理过程。

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