Crow M T, Kushmerick M J
J Gen Physiol. 1983 Nov;82(5):703-20. doi: 10.1085/jgp.82.5.703.
Isometric tetani of slow-twitch soleus and fast-twitch extensor digitorum longus (EDL) muscles of the mouse were studied at 20 degrees C. The total energy cost for 3- and 9-s isometric tetani was measured as a function of length above L0 and partitioned into a filament overlap-dependent fraction and a smaller filament overlap-independent fraction. In both muscles, the rate of filament overlap-independent energy cost did not change with tetanic duration. In the EDL, but not in the soleus, the rate of filament overlap-dependent energy utilization was greater in a 3-s tetanus than in a 9-s tetanus. The force-velocity relationships were studied after 3 and 9 s of isometric tetanus. In the soleus, Vmax was 2 fiber lengths/s and was not dependent on the duration of isometric tetanus. In contrast, in the EDL, Vmas decreased from 5.9 fiber lengths/s at 3 s to 3.9 fiber lengths/s at 9 s. The velocity of unloaded shortening (Vus) was examined by the slack test method as a function of the duration of isometric tetanus duration over the range of 1-15 s. In the soleus, Vus did not change, whereas in the EDL, Vus declined progressively from 6.4 to 3.2 fiber lengths/s after an isometric tetanus of increasing duration from 1 to 15 s. These results cannot exclude the hypothesis that in a maintained tetanus there is a decrease in the intrinsic cross-bridge turnover rate in the fast-twitch EDL, but not in the slow-twitch soleus muscle.
在20摄氏度下研究了小鼠慢肌比目鱼肌和快肌趾长伸肌(EDL)的等长强直收缩。测量了3秒和9秒等长强直收缩的总能量消耗,作为超过L0长度的函数,并将其分为细丝重叠依赖部分和较小的细丝重叠独立部分。在这两种肌肉中,细丝重叠独立能量消耗率不随强直收缩持续时间而变化。在EDL中,而不是在比目鱼肌中,3秒强直收缩时细丝重叠依赖能量利用率高于9秒强直收缩时。在等长强直收缩3秒和9秒后研究了力-速度关系。在比目鱼肌中,Vmax为2纤维长度/秒,且不依赖于等长强直收缩的持续时间。相比之下,在EDL中,Vmas从3秒时的5.9纤维长度/秒降至9秒时的3.9纤维长度/秒。通过松弛测试方法检查了1至15秒范围内等长强直收缩持续时间的函数的无负荷缩短速度(Vus)。在比目鱼肌中,Vus没有变化,而在EDL中,从1到15秒等长强直收缩持续时间增加后,Vus从6.4纤维长度/秒逐渐下降至3.2纤维长度/秒。这些结果不能排除这样的假设,即在持续的强直收缩中,快肌EDL中固有横桥周转率降低,而慢肌比目鱼肌中则没有。