两种不同氮素水平下杨树根系氮响应基因的鉴定

IF 1 Q3 PLANT SCIENCES

Plant Root Pub Date : 2014-01-01 DOI:10.3117/PLANTROOT.8.42

F. Pitre, J. Cooke, S. Caron, W. Kayal, M. Ouellet, Kim Lam, W. Nissim, J. MacKay

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引用次数: 2

摘要

研究了杨树根系对低氮和高氮速效度的短期响应，以阐明养分获取的机制。低硝铵与高硝铵处理28 d后，地上生物量增加，根系生物量减少，28 d后根冠比降低。这些生物量分配的变化伴随着根构型的变化和基因表达的改变。在转移到低氮和高氮环境7天后，使用定制的cDNA芯片评估基因表达反应。结果表明，56个序列在杨树根系中存在差异表达。这56个基因中的许多可能与发育或对生物和非生物应激的反应有关。通过RT-qPCR对选定的细胞壁相关基因进行时间过程分析，证实了微阵列获得的表达模式，并显示了这种差异反应的时间。结果表明，杨树根系转录本积累模式受氮供应的影响，为其独特的氮适应机制提供了证据。

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Identification of nitrogen responsive genes in poplar roots grown under two contrasting nitrogen levels

We investigated the short-term response of poplar roots to low and high nitrogen availability in order to elucidate the mechanisms involved in nutrient acquisition. After 28 days of fertilization with low versus high ammonium nitrate, an increase in aboveground biomass was observed accompanied by a decrease in root biomass, reducing the root: shoot ratio after 28 days. These changes in biomass allocation were accompanied by changes in root architecture and altered gene expression. The gene expression response was evaluated after 7 days using a custom cDNA micrarray following transfer to low and high nitrogen supply. We found that 56 sequences were differentially expressed in poplar roots. Many of these 56 genes could be associated with putative roles in development or response to biotic and abiotic stress. A time course analysis of selected cell wall-related genes by RT-qPCR confirmed the expression patterns obtained by microarray and also showed the timing of this differential response. Our results show that patterns of transcript accumulation in roots of poplars are influenced by nitrogen supply, providing evidence of unique nitrogen-adaptative mechanisms.

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来源期刊

Plant Root PLANT SCIENCES-

CiteScore

1.50

自引率

0.00%

发文量

期刊介绍： Plant Root publishes original papers, either theoretical or experimental, that provide novel insights into plant roots. The Journal’s subjects include, but are not restricted to, anatomy and morphology, cellular and molecular biology, biochemistry, physiology, interactions with soil, mineral nutrients, water, symbionts and pathogens, food culture, together with ecological, genetic and methodological aspects related to plant roots and rhizosphere. Work at any scale, from the molecular to the community level, is welcomed.