结论:外源质粒dna可影响肌质网钙转运功能。
Conclusion: Plasmid DNA could influence SR Ca 2 + transport.
为了解克山病的发病机理,本文研究了低硒对心肌细胞钙转运的影响。
In order to investigate the mechanism of Keshan Disease (KD) formation the present study of effects of Se-deficiency on the calcium transport in myocardial Cells was carried out.
结论:心内直视手术后危重病儿存在严重的细胞钙转运异常,与器官功能衰竭及死亡有关。
Conclusion: Critically ill children after open heart surgery exist serious abnormality of cellular calcium transport, which is related to organ dysfunction and death.
探讨线粒体钙单向转运体是否参予远距预处理的心肌保护作用。
Investigate whether mitochondrial calcium uniporter participates in the cardioprotection of remote preconditioning.
本文讨论了在中枢神经系统中的钙离子转运的可能途径。
The paper has discussed the possible transport pathway of calcium ions in CNS.
这与碳酸钙晶须的针状晶型有关,当体系流动时,碳酸钙晶须既有平移运动,也有旋转运动。
This and calcium carbonate whisker needle crystal shape relevant, when the system flow, calcium carbonate whisker both translational motion, also have the rotary motion.
因为钙随钠转运,有人推测细胞内钙的蓄积(不是钠本身)敏感性的增加负有责任。
Because ca follows Na, it is postulated that the accumulation of intracellular ca (and not Na per se) is responsible for the increased sensitivity.
本研究结果为我们今后进一步探讨成牙本质细胞钙离子转运机制,深人了解牙本质矿化及信号转导提供了理论依据。
The results of this study have provided theoretic basis for further investigation on the mechanism of the calcium transportation, dentin mineralization and signal transduction hi odontoblast cells.
有许多的因素影响钙的吸收和转运,如维生素d、蛋白质、甲状旁腺素相关蛋白、钙磷比例等。
A lot of factors affect calcium absorption and transport, such as Vitamin d, fat, Parathyroid hormone related peptide, ratio of calcium and phosphorus and so on.
型钙离子通道在成牙本质细胞的钙离子转运过程中起重要作用,参与了牙本质矿化过程。
L-type calcium channel played a very important role in intracellular calcium transportation of odontoblast cells and involved in the process of the dentin mineralization.
目的:探讨线粒体钙单向转运体是否参予远距预处理的心肌保护作用。
Aim:To investigate whether mitochondrial calcium uniporter participates in the cardioprotection of remote preconditioning in rat hearts subjected to ischemia and reperfusionin vivo.
现代医学研究表明钙离子在细胞内代谢中有重要作用,它与细胞递质释放、细胞分泌、增值、物质转运等有关。
Modern medical research shows that calcium in the cells play an important role in metabolism, and cells to release neurotransmitters, cell secretion, value-added, transit and other relevant material.
现代医学研究表明钙离子在细胞内代谢中有重要作用,它与细胞递质释放、细胞分泌、增值、物质转运等有关。
Modern medical research shows that calcium in the cells play an important role in metabolism, and cells to release neurotransmitters, cell secretion, value-added, transit and other relevant material.
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