从海水样品中分离到耐盐株黄腐粘球菌HW-1(ATCCBAA-855)。
The halotolerant strain Myxococcus fulvus HW-1 (ATCC BAA-855) was isolated from a seawater sample.
从富含蛋白质的泥土样中筛选到耐盐和耐碱蛋白酶产生菌各一株。
One salt-enduring strain and one alkaline proteinase strain were isolated from rich-protein containing soil samples.
通过实验,筛选出10株降胆固醇能力较强的菌种,并测定其生长曲线、产酸能力及耐盐性实验。
Then screen out 10 lactic bacteria which could reduce cholesterol strongly, and determine its growth curve, produce the sour ability and bear the salt.
本文从四川自贡盐厂卤水污泥中,分离出一株中度嗜盐硫酸盐还原菌。
A moderate halophilic sulfate-reducing bacterium was isolated from the bittern of Zigong Salt Factory, Zigong, Sichuan.
该菌株耐盐和耐胆酸盐能力分别达到6 0%和1.5%,同化胆固醇达80%,证明是一株性能优良的益生菌株。
The ability of salt-tolerance, bile-tolerance and rate of assimilating cholesterol were 6. 0%, 1. 5%, about 80% respectively, which proved the strain was good.
为进一步提高处理效率,试验运用微生物方法分离并筛选出一株能够有效降解高含盐垃圾渗滤液的专性耐盐菌。
To improve the treatment efficiency, a microbiological method was reviewed by isolating and screening a specific strain of halotolerant bacteria.
用固体亚硝基胍诱变该菌株,在选择培养基上筛选到盐敏感突变株和盐依赖突变株。 并初步研究了这些突变菌株的生长特性。
Salt tolerant mutant and salt dependent mutants were screened on selective medium by using solid NTG to mutagenize B5. Some characteristics of these mutants have been studied.
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.
本发明公开了一株可降解多环芳烃的盐单胞菌及其应用。
The invention discloses halomonas capable of degrading polyaromatic hydrocarbon and application thereof.
本发明公开了具有耐胆盐与耐胃酸特性且同时具有降低与同化胆固醇能力的新颖乳杆菌分离株。
The invention opened a new Lactobacillus which can resist the cholate, the gastric acid and assimilate the cholesterol.
另一方面,在拟南芥突变体及利用酵母盐敏感突变株功能互补筛选得到一些编码信号传递蛋白的基因,这些都有助于阐明 植物盐 胁迫应答的分子机制。
On the other hand, about the molecular mechanism in signal transduction, the research of Arabidopsis mutations and yeast functional complementation provided helpful traces but not full pathway.
结果表明,3株融合子均具有耐高温、耐盐及净化养殖水体氨氮与亚硝基氮的功能。
The results showed that three fusants all had some characteristics of high temperature-resistant, salt-resistant , degrading NH3—N and NO2—N.
结果表明,3株融合子均具有耐高温、耐盐及净化养殖水体氨氮与亚硝基氮的功能。
The results showed that three fusants all had some characteristics of high temperature-resistant, salt-resistant , degrading NH3—N and NO2—N.
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