进食大鼠体内肌肉和肝脏蛋白质合成的昼夜反应。
The diurnal response of muscle and liver protein synthesis in vivo in meal-fed rats.
作者信息
Garlick P J, Millward D J, James W P
出版信息
Biochem J. 1973 Dec;136(4):935-45. doi: 10.1042/bj1360935.
Abstract
- The rate of protein synthesis in rat tissues was measured by constant intravenous infusion of [(14)C]tyrosine. A modification has been developed for the method of calculating the rate of protein synthesis in individual tissues from the specific radioactivity of the free and protein-bound amino acid in tissue at the end of the infusion. This technique gives greater accuracy and allows a greater choice of labelled amino acids. The specific radioactivity of free tyrosine in plasma was used to calculate the plasma tyrosine flux, an index of the rate of protein synthesis in the whole body. 2. Young male Wistar rats were allowed access to food for only 4h in every 24h. The tyrosine flux and the rate of protein synthesis in liver and muscle at different periods of time after a single feed were estimated. 3. The tyrosine flux did not alter after feeding nor even after starvation for 48h. 4. The average fractional rate of protein synthesis in muscle was 7.2%/day, i.e. the proportion of the protein mass which is replaced each day. The rate rose after eating and declined during starvation for 48h. In addition the rate of muscle protein synthesis correlated with the growth rate of the rat. 5. In liver the average fractional rate of protein synthesis was 50%/day. There was no change in the rate after eating nor after starvation for 48h. In contrast with muscle this suggests that the changes in protein mass were accompanied by changes in the rate of protein breakdown rather than synthesis.
摘要
- 通过持续静脉输注[(14)C]酪氨酸来测定大鼠组织中的蛋白质合成速率。已对该方法进行了改进,可根据输注结束时组织中游离和蛋白质结合氨基酸的比放射性来计算各个组织中的蛋白质合成速率。该技术具有更高的准确性,并允许更多地选择标记氨基酸。利用血浆中游离酪氨酸的比放射性来计算血浆酪氨酸通量,这是全身蛋白质合成速率的一个指标。2. 让年轻雄性Wistar大鼠每24小时仅进食4小时。估计单次进食后不同时间段肝脏和肌肉中的酪氨酸通量及蛋白质合成速率。3. 进食后酪氨酸通量没有改变,即使饥饿48小时后也未改变。4. 肌肉中蛋白质合成的平均分数速率为7.2%/天,即每天被替换的蛋白质质量的比例。进食后该速率上升,饥饿48小时期间下降。此外,肌肉蛋白质合成速率与大鼠的生长速率相关。5. 肝脏中蛋白质合成的平均分数速率为50%/天。进食后或饥饿48小时后该速率均无变化。与肌肉相反,这表明蛋白质质量的变化伴随着蛋白质分解速率而非合成速率的变化。
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