目的观察高渗盐液对烧伤后大鼠心脏功能的影响。
Objective to observe the effect of hypertonic saline solution perfusion on the function of isolated hearts of burned rats.
结论高渗盐复合液可有效复苏冷冻性脑损伤合并失血性休克,降低颅内压,减轻神经细胞凋亡。
Conclusion HSH could resuscitate Cryogenic brain injury complicated shock effectively, at the same time decrease ICP and relieve the apoptosis of nerve cell.
目的探讨高渗盐液预处理对大鼠肾缺血再灌注损伤后肾组织细胞间黏附分子- 1的表达的影响。
Objective to explore the effects of hypertonic saline preconditioning on the expression of intercellular adhesion molecules-1 (ICAM1) after renal ischemia-reperfusion injury in rats.
这些膜在反渗透中提供了高渗透通量和优秀的盐选择能力,并且易于生产。
These membranes provide high permeate flux and good salt rejection in reverse osmosis, and are easy to manufacture.
为了在基因表达水平上研究其耐盐机制,本实验室制作了盐藻在高渗震荡下的表达谱基因芯片,从中筛选到了一系列高渗震荡下差异表达的序列。
In order to study the salt tolerance mechanism at the expression level, our laboratory made the expression gene chips of Dunalliena salina after high salt shock.
数据库分析结果显示OSR家族基因的表达总体较弱,其中OSR2、OSR3和OSR4的表达受高渗和高盐处理诱导,而OSR9的表达受高渗和高盐处理抑制。
The expression of 3 OSR genes, including OSR2, OSR3 and OSR4, was enhanced, while that of another gene OSR9 was inhibited by osmotic stress and high salinity treatments.
高盐会破坏植物的离子平衡并引起高渗胁迫。
High salinity causes ion imbalance and hyperosmotic stress in plants.
在高糖和高盐培养基上,低抗菌株比敏感菌株对高渗透压更为敏感。
In the high sugar and high salt medium, Low-resistant strains were more sensitive than the sensitive-strains to the 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.
本实验为解释盐生杜氏藻在面临高渗胁迫下快速合成甘油的机制提供了帮助。
This experiment may be helpful for the explanation of the rapid glycerol synthesis in D. salina under hyperosmola…
本实验为解释盐生杜氏藻在面临高渗胁迫下快速合成甘油的机制提供了帮助。
This experiment may be helpful for the explanation of the rapid glycerol synthesis in D. salina under hyperosmola…
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