引用本文:
谭安民, 刘义, 谢昌礼, 屈松生, 顾贫, 邓凤姣. 线粒体热化学研究Ⅳ.鱼类肝脏线粒体代谢的微量热学研究[J]. 应用化学,
1996, 13(4): 107-109.
Citation: Tan Anmin, Liu Yi, Xie Changli, Qu Songsheng, Ku Ping, Deng Fengjiao. Thermochemical Studies of Mitochondria Ⅳ. Microcalorimetric Studies of the Metabolism of Mitochondria Isolated from Fish Liver Tissue[J]. Chinese Journal of Applied Chemistry, 1996, 13(4): 107-109.
Citation: Tan Anmin, Liu Yi, Xie Changli, Qu Songsheng, Ku Ping, Deng Fengjiao. Thermochemical Studies of Mitochondria Ⅳ. Microcalorimetric Studies of the Metabolism of Mitochondria Isolated from Fish Liver Tissue[J]. Chinese Journal of Applied Chemistry, 1996, 13(4): 107-109.
线粒体热化学研究Ⅳ.鱼类肝脏线粒体代谢的微量热学研究
English
Thermochemical Studies of Mitochondria Ⅳ. Microcalorimetric Studies of the Metabolism of Mitochondria Isolated from Fish Liver Tissue
Abstract:
The thermogenesis curves of mitochondria isolated from fish liver tissue were determined by using an LKB-2277 bioactivity monitor. After isolation from fish liver,mitochondria still has activity and can live for a long time by utilyzing the stored nutrients. We calculated the recovery rate constants of mitochondria and found that the thermogenesis curves of mitochondria are similar to those obtained from procaryotic cells. It was found by studying the thermogenesis curves that if a fish is superior in breed or grow faster than another, the stagnant period of mitochondria metabolism will be shorter and the recovery rate constant will be bigger.
-
Key words:
- fish liver
- / mitochondria
- / microcalorimetry
- / thermochemistry
-
-
扫一扫看文章
计量
- PDF下载量: 0
- 文章访问数: 0
- HTML全文浏览量: 0
下载:
