科学家推断说,任何生存在火星上的微生物必须与地球上的嗜盐生物有某些类似之处,才能够从容应对那颗行星的高盐度。
Scientists have theorised that any microbes living on Mars would have to be something like terrestrial halophiles in order to cope with the planet's high salinity.
它的八个盐水湖为“嗜盐”的微生物提供了一个理想的栖息地,而火烈鸟则“嗜食”这些微生物。
Its eight saline lagoons provide an ideal habitat for the salt-loving micro organisms on which the flamingos feed.
但是,随着自制食物、在家吃饭的次数逐渐减少,我们在不知不觉中变成嗜盐者。
But as the number of made-from-scratch, at-home meals we consume has dwindled, we've all unwittingly become sodium junkies.
本文对细菌分类学、嗜盐古菌的研究和BR蛋白结构、功能和应用进行了概述。
In this dissertation, we reviewed the development of bacterial taxonomy, the study on halophilic archaea. and the structure, function and application of BR protein.
介绍了嗜热酶、嗜碱酶、嗜盐酶、耐有机溶剂酶的稳定性机理和研究现状及其在废水处理中的应用情况。
The stability mechanisms of thermophilic, alkalophilic, halophilic and organic solvent tolerant enzymes, their research status quo and application in wastewater treatment are introduced.
嗜盐菌和耐盐酵母菌在处理高含盐废水方面有广阔的应用前景。
Halophile and salt-tolerant yeast have wide perspective and practicability on the treatment of wastewater with high salinity.
采用MRS培养基,对嗜酸乳杆菌LAJ90菌株的耐酸、耐胆汁盐及耐药性等部分生物学特性进行了研究。
Some biological characteristics such as the tolerance to acidity, bile salt and antibiotic of Lacto-bacillus acidophilus LAJ90 was studied by using MRS medium.
DNA杂交也表明这些P CR产物具有嗜盐菌的同源性。
The hybridization results also show that these PCR products have DNA homology with halobacteria.
嗜盐古菌是一类生活在高盐环境中的古细菌。
Halophilic archaea had been isolated from various hypersaline environments.
就嗜盐菌种和普通菌种测定高盐度废水BOD进行实验分析,实验结果表明采用驯化嗜盐菌种测定的BOD值能够更客观反映高盐度废水的有机污染程度。
The experimentation shows that it can more externally reflect organic load of high-salinity wastewater through determining BOD by acclimatized halophile bacteria than by common bacteria.
结果表明,嗜盐微生物可作为发现新颖生物活性物质的潜在资源。
Our results suggest that the halophiles may be developed as promising sources for the discovery of novel bioactive substances.
X5两株嗜碱芽孢杆菌均表现出较强的耐盐耐高渗透压的能力。
Two alkalophilic Bacillus strains X1 and X5 performed stronger resistant capabilities of salt and high osmotic pressure.
X5两株嗜碱芽孢杆菌均表现出较强的耐盐耐高渗透压的能力。
Two alkalophilic Bacillus strains X1 and X5 performed stronger resistant capabilities of salt and high osmotic pressure.
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