皮肤单个肌纤维的缩短速度。细丝晶格间距的影响。
Shortening velocity in skinned single muscle fibers. Influence of filament lattice spacing.
作者信息
Metzger J M, Moss R L
出版信息
Biophys J. 1987 Jul;52(1):127-31. doi: 10.1016/S0006-3495(87)83197-1.
In this study maximum shortening velocity (Vmax) and isometric tension (P0) in skinned single fibers from rat slow soleus (SOL) and fast superficial vastus lateralis (SVL) muscles were examined after varying degrees of filament lattice compression with dextran. In both fiber types Vmax was greatest in the absence of dextran and decreased as the concentration of dextran was increased between 2.5 and 10 g/100 ml. At 10% dextran, which compressed fiber width by 31-38%, Vmax relative to the initial 0% dextran value was 0.28 +/- 0.03 (mean +/- SE) and 0.26 +/- 0.02 in SVL and SOL fibers, respectively. The effect of compression to depress Vmax was reversed completely by returning the fiber to 0% dextran. The force-generating capability of skinned fibers was not as sensitive to variations in cell width. In both the SOL and SVL fibers P0 increased by 3-7% when the concentration of dextran was increased from 0 to 5%. Further compression of lattice volume with 10% dextran resulted in a 8-13% decline in P0 relative to the initial value. While the precise mechanism by which filament lattice spacing modulates contractile function is not known, our results suggest that the major effect is upon the rate constant for cross-bridge detachment.
在本研究中,在用葡聚糖对大鼠慢比目鱼肌(SOL)和快外侧股直肌(SVL)的去皮单纤维进行不同程度的细丝晶格压缩后,检测了其最大缩短速度(Vmax)和等长张力(P0)。在两种纤维类型中,Vmax在无葡聚糖时最大,并随着葡聚糖浓度在2.5至10 g/100 ml之间增加而降低。在10%葡聚糖时,纤维宽度压缩了31 - 38%,相对于初始0%葡聚糖值,SVL和SOL纤维中的Vmax分别为0.28±0.03(平均值±标准误)和0.26±0.02。将纤维恢复到0%葡聚糖时,压缩降低Vmax的作用完全逆转。去皮纤维产生力的能力对细胞宽度变化不那么敏感。当葡聚糖浓度从0增加到5%时,SOL和SVL纤维中的P0均增加3 - 7%。用10%葡聚糖进一步压缩晶格体积导致P0相对于初始值下降8 - 13%。虽然细丝晶格间距调节收缩功能的确切机制尚不清楚,但我们的结果表明主要作用在于横桥解离的速率常数。
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