极端微生物

高盐微生物是一类极端微生物，可生存在高盐环境中。

Halotolerant microbe is one of extreme microorganism which can survive in high salt environment .

新的生命形式&极端微生物

A New Live & Extreme Microorganism

结果表明，抗H.极端微生物活性物质的研究进展

Anti - H. The Active Substances Produced by Extremophiles

极端微生物及其适应机理的研究进展

The Progress of Extremophilic Microorganisms and Their Adaptive Mechanism

海洋极端微生物和极端酶分子生物学研究

Molecular characterization of extreme enzymes isolated from marine extremophiles

研究者应如何保护极端微生物？

What measures should researchers take to protect extremophiles ?

对这些极端微生物的研究开发将会在工业应用、医药应用、环境保护等方面具有潜在的、巨大的应用价值。

These extremophiles will have great potential in industry , medicine and environment protection .

极端微生物是亟待开发的微生物资源宝库。

Extremophiles are microbial resource treasury needing exploitation .

极端微生物产碱性蛋白酶菌株的筛选及发酵条件研究

Isolation of a deep-sea strain that produces alkaline protease and studies on its fermentation condition

初步建立了泥火山极端微生物分类体系，丰富了我国的极端微生物资源。

Establish classification extremophiles system in mud volcano and enrich extreme microbial resources in China .

极端微生物在生态系统中发挥着重要作用，为人类提供了丰富的微生物资源。

Extremophiles play important roles in the ecosystem and provide rich microbial resources for human beings .

极端微生物活性物质的研究进展

The Active Substances Produced by Extremophiles

耐有机溶剂极端微生物的耐受机制及应用油溶性硫锑极压抗磨剂

Mechanisms for Solvent Tolerance and Application of Extremophile with Organic Solvent Tolerance oil-soluble sulfur-antimony extreme pressure and antiwear additive

为了寻找极端微生物资源，将来自油田环境的微生物作为研究对象，分离得到两株硫酸盐还原菌。

Two strains of spore-forming , thermophilic , sulfate-reducing bacteria were isolated from oil field in order to obtain extreme microorganisms .

生活在这些环境下的极端微生物必然有特殊的生理代谢途径来适应极端环境。

It is certain that the extremophiles living under these conditions should have special metabolic pathways to adapt the extreme environments .

极端微生物具有自身独特的特点和代谢产物，在食品工业、化工、药用工业和环境生物技术领域都有潜在的应用。

Extremophiles have potential applications in food , chemical , pharmaceutical industries and environmental biotechnology fields owing to their unique properties and biocatalysts .

科学家们希望通过研究地球上的极端微生物，找到太阳系其他地方的生命的方式。

Scientists hope that by studying extremophiles here on Earth , we might get a glimpse at how life looks elsewhere in the solar system .

极端微生物是一个巨大的潜在的优势基因资源库，未培养微生物研究是极端微生物研究的一个重要组成部分。

The extremophiles belong to a huge and potential superiority gene resource library and the research of uncultured microorganisms has been very important in the extremophiles research .

作者预测未来将会在生物标志化合物研究、同位素地球化学分析和分子生物学综合研究的基础上协同推进极端微生物地球化学学科的发展。

The authors anticipate that future advance in biomarker study , isotope geochemistry , and molecular biology will facilitate and improve our knowledge basis in the biogeochemistry of extremophiles .

极端微生物是生物对极端环境适应的特殊种类，研究极端微生物的特性对探索生命的起源、微生物的育种及开发利用等具有重要意义。

Extremophilic microorganisms ( EM ) are special kinds of beings adapted to extreme environment . Study the characteristics of EM has important significance to for exploring the origin of life , breeding of microorganisms , and their development and utilization .

极端环境微生物是当今生命科学领域的研究热点。

Nowadays extremophilic microbes are the hotspot in life science study .

新疆吐鲁番盆地极端环境微生物资源研究

Studies on the Micro-Organisms Resources in Special Ecological Environment in Xinjiang Turpan Basin

嗜酸菌是极端环境微生物的重要类群，在人们生活生产中发挥着巨大的作用。

As an important member of the extremophilic family , acidophile plays a great role in peoples life and production .

各极端酿酒微生物及其代谢产生的酶系在发酵过程产生了茅台酒独特的酒体成分，赋予了茅台酒独特的风格和完美的品质。

These extreme microbes coupled with their metabolic enzymes could produce the special liquor body compositions in Maotai liquor during the fermentation , which gave Maotai liquor unique liquor style and perfect liquor quality .

对极端环境微生物生存与适应机制的研究将加深我们对深海微生物乃至深海生物圈对全球气候影响的理解，也将促进我们对深海微生物资源和深海矿产资源的开发。

The research about the adaptation mechanism of extremophiles will promote the understanding of deep sea biosphere and the global climate as well as the exploitation of the deep sea microbes and minerals resources .

极端嗜热微生物分子伴侣蛋白研究与嗜热功能蛋白质的规模化制备技术研究

Molecular Chaperones in Hyperthermophiles and Techniques Involved in the Large-scale Production Process of Recombinant Proteins

深入对极端嗜热微生物胞外多糖的研究，将开发出更为可观的潜在应用价值。

Further study on extreme thermophiles extracellular polysaccharide will develop more considerable potential application value in the near future .

极端嗜热微生物作为微生物中较为特殊的一类菌属，产生的胞外多糖因其新颖的结构特征和化学性质而受到了广泛的关注，并在众多食品，医药领域都有重要的应用。

Extreme thermophiles , as one special species of bacteria could also produce extracellular polysaccharides , and aroused wide interest in many food , medicine field because of its novel structure characteristics and chemical properties .

在综合以往对各种极端环境下微生物研究的基础上对深海微生物的生存及适应机制进行了分析与阐释，为深海微生物的研究提供参考。

The review analyzed and elucidated the survival and adaptation mechanisms on the base of the former extremophiles research , which will offer some references for the study of deep sea microbes in the future .

这是国际上首次发现细菌的渗透压胁迫感受器，以及该感受器调控的抗逆分子机理，为解释生活在极端环境的微生物抗逆的分子机理提出了重要的理论依据。

This is the first time to find the osmotic stress receptors in bacteria , and the resilience of the molecular mechanism of receptor regulation . This article offers important theoretical basis which interpret the stress resistance molecular mechanisms of micro-organisms who living in extreme environmental .