耐旱苜蓿根瘤共生体在水分亏缺条件下稳定共生固氮及其全基因组序列

Stable symbiotic nitrogen fixation under water-deficit field conditions by a stress-tolerant alfalfa microsymbiont and its complete genome sequence.

机构信息

Consejo Nacional de Investigaciones Científicas y Técnicas, CABA, Argentina; Instituto de Genética Ewald A. Favret (INTA), Buenos Aires, Argentina.

Instituto de Genética Ewald A. Favret (INTA), Buenos Aires, Argentina.

出版信息

J Biotechnol. 2017 Dec 10;263:52-54. doi: 10.1016/j.jbiotec.2017.10.007. Epub 2017 Oct 16.

DOI:10.1016/j.jbiotec.2017.10.007

PMID:29050878

Abstract

We here characterized the stress-tolerant alfalfa microsymbiont Sinorhizobium meliloti B401. B401-treated plants showed high nitrogen fixation rates under humid and semiarid environments. The production of glycine betaine in isolated bacteroids positively correlated with low precipitation levels, suggesting that this compound acts as a critical osmoprotectant under field conditions. Genome analysis revealed that strain B401 contains alternative pathways for the biosynthesis and uptake of glycine betaine and its precursors. Such genomic information will offer substantial insight into the environmental physiology of this biotechnologically valuable nitrogen-fixing bacterium.

摘要

我们对耐胁迫的紫花苜蓿共生菌中华根瘤菌 B401 进行了研究。B401 处理过的植物在潮湿和半干旱环境下具有很高的固氮率。分离出的类菌体中甜菜碱的产生与低降水量呈正相关，这表明在田间条件下该化合物作为一种关键的渗透保护剂发挥作用。基因组分析表明，菌株 B401 含有甜菜碱及其前体生物合成和摄取的替代途径。这种基因组信息将为这种具有生物技术价值的固氮细菌的环境生理学提供重要的见解。

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Stable symbiotic nitrogen fixation under water-deficit field conditions by a stress-tolerant alfalfa microsymbiont and its complete genome sequence.耐旱苜蓿根瘤共生体在水分亏缺条件下稳定共生固氮及其全基因组序列

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耐旱苜蓿根瘤共生体在水分亏缺条件下稳定共生固氮及其全基因组序列

Stable symbiotic nitrogen fixation under water-deficit field conditions by a stress-tolerant alfalfa microsymbiont and its complete genome sequence.

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