1) Na~+-K~+-ATP
Na~+-K~+-ATP酶
1.
Objective In this study,we observe the expression of GLUT4 and PKB、GLUT4mRNA、the changes of the activity of Na~+-K~+-ATPase、Ca~(++)-Mg~(++)- ATPase in the experimental rat hearts and the prevention effects of probucol,the possible mechanism was explored also.
目的 观察2型糖尿病大鼠心肌组织中GLUT4、PKB蛋白的表达,GLUT4mRNA的表达,Na~+-K~+-ATP酶、Ca~(++)-Mg~(++)-ATP酶活性的变化及普罗布考的干预作用,探讨普罗布考对2型糖尿病大鼠心肌病变的保护机制。
2) Na +-K +-ATPase
Na+-K+-ATP酶
3) Na+-K+-ATpase
Na+-K+-ATP酶
1.
Effects of Mingzhi Capsule on the behavior and activities of AchE、Na+-K+-ATPase in Alzheimer Disease Model Rats;
明志胶囊对老年痴呆性模型大鼠学习记忆及脑组织AchE和Na+-K+-ATP酶活性的影响
2.
Objective To determine the effect of ETB receptor on Na+-K+-ATPase activity in renal proximal tubule cells and its mechanisms.
目的探讨内皮素B(ETB)受体对肾脏近曲小管(RPT)上皮细胞Na+-K+-ATP酶活性的影响和机制。
3.
Objective: To study the protective effect of hypercapnia(HPC) on the activity of Na+-K+-ATPase in rat acute lung injury(ALI) induced by hydrogen chloride(HCL).
目的:研究高碳酸血症(HPC)对急性肺损伤(ALI)时肺泡Na+-K+-ATP酶活性的影响。
4) Na~+-K~+ATPase
Na~+-K~ +ATP酶
5) Na~+-K~+ATPase
Na~+-K~+ATP酶
1.
Investigation of Na~+-K~+ATPase activity in steroid-induced cataract;
大鼠激素性白内障中Na~+-K~+ATP酶活性的变化
6) Na-K-ATPase
Na-K-ATP酶
1.
Effects of high concentration of glucose on Na-K-ATPase expression of human retinal pigment epithelium cell;
高糖对人视网膜色素上皮细胞Na-K-ATP酶表达的影响
2.
Sensitivity of Nerve Na-K-ATPase,Ca-ATPase and Ca-Mg-ATPase in Resistant Strains of Spodoptera exigua to lambda-Cyhalothrin;
抗性甜菜夜蛾Na-K-ATP酶、Ca-ATP酶和Ca-Mg-ATP酶对高效氯氟氰菊酯的敏感性
参考词条
Na+K+ATP酶
Na+/K+ ATP酶
Na+、K+-ATP酶
Na+_K+_ATP酶
Na+K+-ATP酶
Na~+K~+ATP酶
Na/K-ATP酶
Na+/K+-ATP酶
Na~+–K~+–ATP酶
Na~+、K~+-ATP酶
Na~+/K~+-ATP酶
Na~+-K~+ ATP酶
Na-K~+ATP酶
Na_-~+K_-~+ATP 酶
Na+/K+ATP酶
Na~+K~+-ATP酶
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补充资料:ATP酶
分子式:
CAS号:
性质:简称ATP酶。是催化ATP合成的一种酶。研究较多的有:细菌膜、线粒体或叶绿体结合的ATP酶,红细胞膜ATP酶以及动物细胞的钠汞和钙泵ATP酶。细菌膜结合的ATP酶分子量约为240000~390000。在主动转运中还能催化ATP水解并释放能量,细菌中的ATP酶还能与转氢作用。红细胞膜结合的ATP酶在Na+、K+或Ca2+、Mg2+激活下还参与Ca2+和Na+的主动转运。
CAS号:
性质:简称ATP酶。是催化ATP合成的一种酶。研究较多的有:细菌膜、线粒体或叶绿体结合的ATP酶,红细胞膜ATP酶以及动物细胞的钠汞和钙泵ATP酶。细菌膜结合的ATP酶分子量约为240000~390000。在主动转运中还能催化ATP水解并释放能量,细菌中的ATP酶还能与转氢作用。红细胞膜结合的ATP酶在Na+、K+或Ca2+、Mg2+激活下还参与Ca2+和Na+的主动转运。
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