方案摘要
方案下载| 应用领域 | 生物产业 |
| 检测样本 | 其他 |
| 检测项目 | |
| 参考标准 | 新陈代谢 |
Simultaneous measurements of the rates of heat production and oxygen utilization by living tissues provides a direct quantitative means of detecting subtle changes in metabolic state in the face of altered physiological and environmental conditions. The ratio of calorimetrically measured heat flux to the respirometrically measured oxygen flux is often called the “calorimetric-respirometric ratio” or CR ratio. This can be used to partition total metabolic energy flux into its aerobic and anaerobic components by comparison of the experimental CR ratio with the theoretical “oxycaloric equivalent” for fully aerobic respiration. Such information is most important when evaluating the physiological effect of environmental stress.
Simultaneous measurements of the rates of heat production and oxygen utilization by living tissues provides a direct quantitative means of detecting subtle changes in metabolic state in the face of altered physiological and environmental conditions. The ratio of calorimetrically measured heat flux to the respirometrically measured oxygen flux is often called the “calorimetric-respirometric ratio” or CR ratio. This can be used to partition total metabolic energy flux into its aerobic and anaerobic components by comparison of the experimental CR ratio with the theoretical “oxycaloric equivalent” for fully aerobic respiration. Such information is most important when evaluating the physiological effect of environmental stress.
利用微量热技术研究病毒结构与宿主细胞受体结合反应
等温量热法研究水泥水化
等温微量热法研究生物制品长时间稳定性评价
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