osmosensitive cells
渗透敏感细胞
osmosensitive mechanism
渗透敏感机制
osmosensitive response
渗透敏感反应
osmosensitive channel
渗透敏感通道
osmosensitive receptors
渗透敏感受体
osmosensitive protein
渗透敏感蛋白
osmosensitive membrane
渗透敏感膜
osmosensitive pathway
渗透敏感通路
osmosensitive bacteria
渗透敏感细菌
osmosensitive system
渗透敏感系统
osmosensitive cells in the kidney help regulate body fluid balance through precise ion transport mechanisms.
肾脏中的渗透敏感细胞通过精确的离子转运机制帮助调节体液平衡。
researchers discovered that osmosensitive receptors in the hypothalamus detect changes in blood osmolarity and trigger thirst responses.
研究人员发现下丘脑中的渗透敏感受体能够检测血液渗透压变化并触发口渴反应。
the osmosensitive channel trpv4 plays a crucial role in maintaining cellular volume homeostasis under hypertonic conditions.
渗透敏感通道trpv4在维持细胞体积稳态方面起着至关重要的作用,尤其是在高渗条件下。
fish possess highly developed osmosensitive systems that allow them to adapt rapidly when migrating between fresh and saltwater environments.
鱼类拥有高度发达的渗透敏感系统,使它们能够在淡水和海水环境之间快速适应。
osmosensitive ion channels in plant root cells detect soil salinity levels and initiate protective stress responses.
植物根细胞中的渗透敏感离子通道能够检测土壤盐分水平并启动保护性胁迫响应。
the marine worm's osmosensitive mechanism enables it to survive dramatic changes in external osmolarity during tidal cycles.
海洋蠕虫的渗透敏感机制使其能够在潮汐周期中外部渗透压发生剧烈变化时存活。
scientists are studying osmosensitive proteins to develop better treatments for dehydration-related medical conditions.
科学家正在研究渗透敏感蛋白质,以开发更好的脱水相关疾病治疗方法。
osmosensitive regulation of cell volume is essential for proper neurological function in mammalian brain tissues.
细胞体积的渗透敏感调节对于哺乳动物脑组织的正常神经功能至关重要。
the osmosensitive pathway activates gene expression programs that help organisms cope with osmotic stress challenges.
渗透敏感途径激活基因表达程序,帮助生物体应对渗透胁迫挑战。
bacteria employ osmosensitive transcription factors to adjust their metabolic activities according to environmental solute concentrations.
细菌利用渗透敏感转录因子根据环境溶质浓度调整其代谢活动。
the osmosensitive response in coral reefs involves complex signaling networks that help these organisms handle salinity fluctuations.
珊瑚礁中的渗透敏感反应涉及复杂的信号网络,帮助这些生物处理盐度波动。
understanding osmosensitive membrane dynamics could lead to breakthroughs in treating kidney disease and hypertension.
理解渗透敏感膜动力学可能带来治疗肾脏疾病和高血压的突破。
osmosensitive cells
渗透敏感细胞
osmosensitive mechanism
渗透敏感机制
osmosensitive response
渗透敏感反应
osmosensitive channel
渗透敏感通道
osmosensitive receptors
渗透敏感受体
osmosensitive protein
渗透敏感蛋白
osmosensitive membrane
渗透敏感膜
osmosensitive pathway
渗透敏感通路
osmosensitive bacteria
渗透敏感细菌
osmosensitive system
渗透敏感系统
osmosensitive cells in the kidney help regulate body fluid balance through precise ion transport mechanisms.
肾脏中的渗透敏感细胞通过精确的离子转运机制帮助调节体液平衡。
researchers discovered that osmosensitive receptors in the hypothalamus detect changes in blood osmolarity and trigger thirst responses.
研究人员发现下丘脑中的渗透敏感受体能够检测血液渗透压变化并触发口渴反应。
the osmosensitive channel trpv4 plays a crucial role in maintaining cellular volume homeostasis under hypertonic conditions.
渗透敏感通道trpv4在维持细胞体积稳态方面起着至关重要的作用,尤其是在高渗条件下。
fish possess highly developed osmosensitive systems that allow them to adapt rapidly when migrating between fresh and saltwater environments.
鱼类拥有高度发达的渗透敏感系统,使它们能够在淡水和海水环境之间快速适应。
osmosensitive ion channels in plant root cells detect soil salinity levels and initiate protective stress responses.
植物根细胞中的渗透敏感离子通道能够检测土壤盐分水平并启动保护性胁迫响应。
the marine worm's osmosensitive mechanism enables it to survive dramatic changes in external osmolarity during tidal cycles.
海洋蠕虫的渗透敏感机制使其能够在潮汐周期中外部渗透压发生剧烈变化时存活。
scientists are studying osmosensitive proteins to develop better treatments for dehydration-related medical conditions.
科学家正在研究渗透敏感蛋白质,以开发更好的脱水相关疾病治疗方法。
osmosensitive regulation of cell volume is essential for proper neurological function in mammalian brain tissues.
细胞体积的渗透敏感调节对于哺乳动物脑组织的正常神经功能至关重要。
the osmosensitive pathway activates gene expression programs that help organisms cope with osmotic stress challenges.
渗透敏感途径激活基因表达程序,帮助生物体应对渗透胁迫挑战。
bacteria employ osmosensitive transcription factors to adjust their metabolic activities according to environmental solute concentrations.
细菌利用渗透敏感转录因子根据环境溶质浓度调整其代谢活动。
the osmosensitive response in coral reefs involves complex signaling networks that help these organisms handle salinity fluctuations.
珊瑚礁中的渗透敏感反应涉及复杂的信号网络,帮助这些生物处理盐度波动。
understanding osmosensitive membrane dynamics could lead to breakthroughs in treating kidney disease and hypertension.
理解渗透敏感膜动力学可能带来治疗肾脏疾病和高血压的突破。
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