α螺旋存在于肌肉蛋白和角蛋白中。
通过 caspase-3 剪切的Actin可能加速蛋白酶体依赖的肌肉蛋白水解。
Actin cleavage by caspase-3 may accelerate proteosome dependent muscle proteolysis.
二是大强度运动后肌肉蛋白更新。
Refreshment of muscle protein after heavy intensity exercise.
举个例子,某种形状的肌肉蛋白连接起来形成肌纤维。
For example, muscle proteins of a certain shape connect to form a muscle fiber.
为了让肌肉蛋白合成作用更强,你需要供给更多氨基酸给细胞。
So, to have protein synthesis within the muscles, your cells must have sufficient amounts of various amino acids.
结论:感染后肌肉蛋白分解增加,并且此时蛋白合成明显受抑制。
Conclusions: Skeletal muscle protein degradation is increased and protein synthesis is inhibited in sepsis.
其中用肌酐动力学公式计算瘦体重是反映肌肉蛋白质贮存的有效方法。
LBM calculated from creatinine kinetics is a valid measure reflecting muscle protein status.
因为新增的细胞核不会死,它们便随时可以再造肌肉蛋白,使肌肉有了一种类似记忆的功能。
Since the extra nuclei don't die, they could be poised to make muscle proteins again, providing a type of muscle memory, he says.
这些实际上表明肌肉过度退化是由于组成肌肉蛋白和急性蛋白的氨基酸功能不同。
It has actually been suggested that excessive muscle degradation is due to the differences in amino acid profile between muscle protein and acute phase proteins.
在应激病人中,糖皮质激素和各种前炎症因子是肌肉蛋白质水解的重要调节因素。
Glucocorticoids and various proinflammatory cytokines are important regulators of muscle proteolysis in stressed patients.
除了燃烧脂肪,节食还使身体将一部分蛋白质转化成能量,这可能导致肌肉蛋白的显著减少。
In addition to burning body fat, dieting also causes the body to use some of its protein for energy, which can result in a sizable breakdown of muscle protein.
通过caspase-3剪切的Actin可能加速泛素/蛋白酶体依赖的肌肉蛋白水解(6)。
Actin cleavage by caspase-3 may accelerate ubiquitin/proteosome dependent muscle proteolysis (6).
我们确信让肌肉生长就是刺激你的肌肉组织从而产生新的肌肉蛋白,这个内在生理进程会在一段时间后产生大块肌肉。
We're convinced that growing muscle means stimulating your muscle to make new muscle proteins, a process in the body that over time accumulates into bigger muscles.
新近研究提示,在基础和应激条件下,生长激素胰岛素样生长因子胰岛素样生长因子结合蛋白(GH IGF IGFBP)轴对调节肌肉蛋白质代谢起着核心作用。
Recent researches indicate that the GH IGF IGFBP axis plays a crucial part in regulating the metabolism of muscle protein on both basal and stress condition.
新近研究提示,在基础和应激条件下,生长激素胰岛素样生长因子胰岛素样生长因子结合蛋白(GH IGF IGFBP)轴对调节肌肉蛋白质代谢起着核心作用。
Recent researches indicate that the GH IGF IGFBP axis plays a crucial part in regulating the metabolism of muscle protein on both basal and stress condit...
新近研究提示,在基础和应激条件下,生长激素胰岛素样生长因子胰岛素样生长因子结合蛋白(GH IGF IGFBP)轴对调节肌肉蛋白质代谢起着核心作用。
Recent researches indicate that the GH IGF IGFBP axis plays a crucial part in regulating the metabolism of muscle protein on both basal and stress condit...
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