De novo transcriptome analysis reveals the molecular regulatory mechanism underlying the response to excess nitrogen in Azolla spp.
文献类型: 外文期刊
作者: Zheng, Xiangli 1 ; Lin, Zhongyuan 2 ; Lu, Jianjun 2 ; Ye, Rongrong 2 ; Qu, Mengyu 2 ; Wang, Junhong 1 ; Xu, Guozhong 1 ; Ying, Zhaoyang 1 ; Chen, Songbiao 2 ;
作者机构: 1.Fujian Acad Agr Sci, Agr Ecol Inst, Natl Azolla Germplasm Ctr, Fuzhou, Peoples R China
2.Minjiang Univ, Fuzhou Inst Oceanog, Ctr Marine Biotechnol, Fuzhou 350108, Peoples R China
3.Minjiang Univ, Fuzhou Inst Oceanog, Marine & Agr Biotechnol Lab, Fuzhou, Peoples R China
关键词: Azolla; Nitrogen tolerance; Nitrogen removal; Transcriptome analysis; Nitrogen metabolism
期刊名称:AQUATIC TOXICOLOGY ( 影响因子:5.202; 五年影响因子:5.758 )
ISSN: 0166-445X
年卷期: 2022 年 248 卷
页码:
收录情况: SCI
摘要: Phytoremediation potential of Azolla in removal of nitrogen from wastewater has been promising. However, little is known about the response of Azolla to high concentrations of nitrogen. In this study, the responses of four Azolla species to different concentrations of total nitrogen ranging from 0 to 180 mg L-1 were examined. The responses varied among different species, and the high nitrogen-tolerant species A. caroliniana and A. microphylla could remove nitrogen from aqueous solutions with higher efficiencies. We further performed transcriptome analysis to explore the molecular mechanism underlying the response to high nitrogen stress in Azolla. RNA-seq analysis revealed a synergistic regulatory network of differentially expressed genes (DEGs) involved in nitrogen transport and metabolism in A. microphylla, mainly in the roots. Under high nitrogen treatment, the DEGs encoding nitrate transporters or nitrate transporter 1/peptide transporters (NRTs/NPFs), ammonium transporters (AMTs), nitrate reductase (NIA), nitrite reductase (NIR) and glutamine synthetases/glutamate synthases (GSs/ GOGATs) were down-regulated, and the DEGs encoding glutamate dehydrogenases (GDHs) were up-regulated, suggesting that A. microphylla possessed high tolerance against excess nitrogen through down-regulation of nitrate and ammonium uptake and fine regulation of nitrogen assimilation in the roots. Our results provided a theoretical foundation for better utilization of Azolla for wastewater treatment.
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