NfiR, a New Regulatory Noncoding RNA (ncRNA), Is Required in Concert with the NfiS ncRNA for Optimal Expression of Nitrogenase Genes in Pseudomonas stutzeri A1501

Yuhua Zhan; Zhiping Deng; Yongliang Yan; Hongying Zhang; Chao Lu; Zhimin Yang; Liguo Zhang; Yi Huang; Fanyang Lv; Yaqun Liu; Yichao Liu; Shanshan Wang; Sanfeng Chen; Xue-Xian Zhang; Qi Cheng; Min Lin

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NfiR, a New Regulatory Noncoding RNA (ncRNA), Is Required in Concert with the NfiS ncRNA for Optimal Expression of Nitrogenase Genes in Pseudomonas stutzeri A1501

Yuhua Zhan ^[1] ; Zhiping Deng ^[2] ; Yongliang Yan ^[1] ; Hongyang Zhang ^[1] ; Chao Lu ^[1] ; Zhimin Yang ^[1] ; Liguo Shang ^[1] ; Yi Huang ^[1] ; Fanyang Lv ^[1] ; Yaqun Liu ^[1] ; Yichao Liu ^[1] ; Shanshan Wang ^[1] ; Sanfeng Chen ^[3] ; Xue-Xian Zhang ^[4] ; Qi Cheng ^[1] ; Min Lin ^[1]
1. [1] Chinese Academy of Agricultural Sciences
  
  Chinese Academy of Agricultural Sciences
  
  China
2. [2] Shenyang Medical College
  
  Shenyang Medical College
  
  China
3. [3] China Agricultural University
  
  China Agricultural University
  
  China
4. [4] d Institute of Natural and Mathematical Sciences, Massey University at Albany, Auckland, New Zealand
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Localización: Applied and Environmental Microbiology, ISSN 0099-2240, Vol. 85, Nº 14, 2019
Idioma: inglés
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Resumen
- Biological nitrogen fixation is an energy-expensive process requiring the hydrolysis of 16 ATPs. Consequently, the expression of nif genes is highly regulated at both transcriptional and posttranscriptional levels through complex regulatory networks. Global regulation involves a number of regulatory proteins, such as the nif-specific activator NifA and the global nitrogen regulator NtrC, as well as various regulatory ncRNAs. We show that the two P. stutzeri ncRNAs, namely NfiS and NfiR (for nitrogen fixation condition-inducible ncRNA), optimize nitrogen fixation and environmental stress responses. NfiS and NfiR respond differently to various environmental signals and differ in their secondary structures. In addition, the two ncRNAs target the mRNAs of nifK and nifD, respectively. Such ncRNA-based posttranscriptional regulation of nitrogenase expression might be an evolved survival strategy, particularly in nitrogen-limiting environments. This study not only highlights the significant roles of regulatory ncRNAs in the coordination and ﬁne tuning of various physiological processes but also provides a new paradigm for posttranscriptional regulation in nitrogen-fixing bacteria.