20摄氏度下林蛙和非洲爪蟾单根肌纤维的耗氧量。
Oxygen consumption of single muscle fibres of Rana temporaria and Xenopus laevis at 20 degrees C.
作者信息
Elzinga G, van der Laarse W J
机构信息
Laboratory for Physiology, Free University, Amsterdam, The Netherlands.
出版信息
J Physiol. 1988 May;399:405-18. doi: 10.1113/jphysiol.1988.sp017088.
Abstract
- Oxygen consumption of contracting single muscle fibres of Rana temporaria and Xenopus laevis was investigated at 20 degrees C. 2. Single fibres of the tibialis anterior muscle of Rana and the iliofibularis muscle of Xenopus were mounted in a chamber containing Ringer solution. The solution was stirred and its partial pressure of oxygen (PO2) was continuously measured polarographically. 3. Steady-state rates of oxygen consumption (VO2) of single fibres were determined as a function of twitch frequency (0.2-12 stimuli s-1, depending on the type of fibre). VO2 increased with twitch frequency until a plateau value (VO2,max) was reached. VO2,max of different fibres ranged from 0.042 to 0.169 nmol O2 s-1 mg-1 dry weight in Rana and from 0.045 to 0.412 nmol O2 s-1 mg-1 dry weight in Xenopus. Under VO2,max conditions oxygen availability was not the limiting factor. 4. VO2 after injection of the uncoupler carbonyl cyanide m-chlorophenylhydrazone (CCCP) into the chamber correlated with VO2,max, suggesting that VO2,max is determined by mitochondrial density. This suggestion was confirmed by the observation that a close relationship exists between VO2,max and succinate dehydrogenase activity in three different fibre types of Xenopus. 5. At VO2,max a considerable amount of oxygen was taken up after the twitch train by most fibres, indicating that the oxidative ATP synthesis cannot match ATP hydrolysis. Xenopus muscle fibres with high oxidative capacity did not show this phenomenon. 6. The results are discussed in relation to the occurrence of anoxic cores in muscle fibres and the maximum steady-state contractile activity attainable by the fibres.
摘要
- 在20摄氏度下研究了林蛙和非洲爪蟾收缩单根肌纤维的耗氧量。2. 将林蛙的胫前肌单根纤维和非洲爪蟾的髂腓肌单根纤维置于含有任氏液的小室中。溶液被搅拌,其氧分压(PO2)通过极谱法连续测量。3. 确定单根纤维的稳态耗氧率(VO2)作为抽搐频率(0.2 - 12次刺激每秒,取决于纤维类型)的函数。VO2随着抽搐频率增加,直至达到一个平台值(VO2,max)。林蛙不同纤维的VO2,max范围为0.042至0.169 nmol O2 s-1 mg-1干重,非洲爪蟾为0.045至0.412 nmol O2 s-1 mg-1干重。在VO2,max条件下,氧的可利用性不是限制因素。4. 向小室中注射解偶联剂间氯苯腙羰基氰化物(CCCP)后,VO2与VO2,max相关,表明VO2,max由线粒体密度决定。这一推测通过观察非洲爪蟾三种不同纤维类型中VO2,max与琥珀酸脱氢酶活性之间存在密切关系得到证实。5. 在VO2,max时,大多数纤维在一串抽搐后摄取了大量氧气,表明氧化ATP合成无法与ATP水解相匹配。具有高氧化能力的非洲爪蟾肌纤维未表现出这种现象。6. 结合肌纤维中缺氧核心的出现以及纤维可达到的最大稳态收缩活动对结果进行了讨论。
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