IrrE是耐辐射球菌中极端辐射抗性的全局调节因子，可增强大肠杆菌和甘蓝型油菜的耐盐性。

IrrE, a global regulator of extreme radiation resistance in Deinococcus radiodurans, enhances salt tolerance in Escherichia coli and Brassica napus.

作者信息

Pan Jie, Wang Jin, Zhou Zhengfu, Yan Yongliang, Zhang Wei, Lu Wei, Ping Shuzhen, Dai Qilin, Yuan Menglong, Feng Bin, Hou Xiaoguang, Zhang Ying, Ma Ruiqiang, Liu Tingting, Feng Lu, Wang Lei, Chen Ming, Lin Min

机构信息

Biotechnology Research Institute, Chinese Academy of Agricultural Sciences, Key Laboratory of Crop Biotechnology, Ministry of Agriculture, Beijing, China.

出版信息

PLoS One. 2009;4(2):e4422. doi: 10.1371/journal.pone.0004422. Epub 2009 Feb 10.

DOI:10.1371/journal.pone.0004422

PMID:19204796

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2635966/

Abstract

BACKGROUND

Globally, about 20% of cultivated land is now affected by salinity. Salt tolerance is a trait of importance to all crops in saline soils. Previous efforts to improve salt tolerance in crop plants have met with only limited success. Bacteria of the genus Deinococcus are known for their ability to survive highly stressful conditions, and therefore possess a unique pool of genes conferring extreme resistance. In Deinococcus radiodurans, the irrE gene encodes a global regulator responsible for extreme radioresistance.

METHODOLOGY/PRINCIPAL FINDINGS: Using plate assays, we showed that IrrE protected E. coli cells against salt shock and other abiotic stresses such as oxidative, osmotic and thermal shocks. Comparative proteomic analysis revealed that IrrE functions as a switch to regulate different sets of proteins such as stress responsive proteins, protein kinases, glycerol-degrading enzymes, detoxification proteins, and growth-related proteins in E. coli. We also used quantitative RT-PCR to investigate expression of nine selected stress-responsive genes in transgenic and wild-type Brassica napus plants. Transgenic B. napus plants expressing the IrrE protein can tolerate 350 mM NaCl, a concentration that inhibits the growth of almost all crop plants.

CONCLUSIONS

Expression of IrrE, a global regulator for extreme radiation resistance in D. radiodurans, confers significantly enhanced salt tolerance in both E. coli and B. napus. We thus propose that the irrE gene might be used as a potentially promising transgene to improve abiotic stress tolerances in crop plants.

摘要

背景

在全球范围内，约20%的耕地目前受到盐渍化影响。耐盐性是盐碱土壤中所有作物的重要性状。此前提高作物耐盐性的努力仅取得了有限的成功。嗜放射菌属细菌以其在高度应激条件下的生存能力而闻名，因此拥有一组独特的赋予极端抗性的基因。在耐辐射奇球菌中，irrE基因编码一种负责极端抗辐射的全局调控因子。

方法/主要发现：通过平板试验，我们表明IrrE可保护大肠杆菌细胞免受盐胁迫以及其他非生物胁迫，如氧化、渗透和热胁迫。比较蛋白质组学分析表明，IrrE作为一个开关，调节大肠杆菌中不同组别的蛋白质，如应激反应蛋白、蛋白激酶、甘油降解酶、解毒蛋白和生长相关蛋白。我们还使用定量RT-PCR研究了转基因和野生型甘蓝型油菜植株中九个选定的应激反应基因的表达。表达IrrE蛋白的转基因甘蓝型油菜植株能够耐受350 mM NaCl，这一浓度几乎会抑制所有作物的生长。

结论

耐辐射奇球菌中负责极端抗辐射的全局调控因子IrrE的表达，可显著增强大肠杆菌和甘蓝型油菜的耐盐性。因此，我们认为irrE基因可能作为一种潜在的有前景的转基因，用于提高作物对非生物胁迫的耐受性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/24df/2635966/d3d8d1fdf327/pone.0004422.g001.jpg

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IrrE是耐辐射球菌中极端辐射抗性的全局调节因子，可增强大肠杆菌和甘蓝型油菜的耐盐性。

IrrE, a global regulator of extreme radiation resistance in Deinococcus radiodurans, enhances salt tolerance in Escherichia coli and Brassica napus.

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