Borejdo J, Oplatka A
Biochim Biophys Acta. 1976 Jul 9;440(1):241-58. doi: 10.1016/0005-2728(76)90127-4.
Single glycerinated rabbit psoas muscle fibers were skinned by splitting them lengthwise. The fiber segments thus obtained were more easily accessible to solutes in the surrounding medium than the intact fibers. Using such segments, active tension could be fully abolished by adding N-ethylmaleimide under conditions which lead to inhibition of actin activation of the ATPase activity of myosin. Such muscles could, however, develop tension after irrigation with myosin or with the water-soluble active myosin fragments heavy meromyosin (HMM) or its subfragment 1 (HMM-S1). The induced tensions increased with increasing protein concentration in the irrigating solution. At any given protein concentration, the tension generated by myosin was larger than that produced by HMM which was, in turn, greater than that induced by HMM-S1 e.g. at 15 mg/ml protein the tensions produced by these three myosin moieties were 44.0, 14.0 and 2.8 g/cm2, respectively. The tension was found to be intimately associated with ATP splitting; thus, HMM and HMM-S1 which have been treated with reagents abolishing actin-activated ATPase failed to induce tension development. A contractile force may thus be generated through the interaction with actin of the water-soluble, enzymatically active, myosin subfragments involving the splitting of ATP.
将甘油处理过的单个兔腰大肌纤维沿长度方向劈开进行脱膜处理。这样得到的纤维片段比完整纤维更容易与周围介质中的溶质接触。使用这些片段,在导致肌动蛋白对肌球蛋白ATP酶活性激活受到抑制的条件下,通过添加N - 乙基马来酰亚胺可完全消除主动张力。然而,在用肌球蛋白或水溶性活性肌球蛋白片段重酶解肌球蛋白(HMM)或其亚片段1(HMM - S1)冲洗后,这样的肌肉能够产生张力。诱导的张力随着冲洗溶液中蛋白质浓度的增加而增加。在任何给定的蛋白质浓度下,肌球蛋白产生的张力大于HMM产生的张力,而HMM产生的张力又大于HMM - S1诱导的张力,例如在蛋白质浓度为15 mg/ml时,这三种肌球蛋白部分产生的张力分别为44.0、14.0和2.8 g/cm²。发现张力与ATP水解密切相关;因此,用消除肌动蛋白激活的ATP酶的试剂处理过的HMM和HMM - S1不能诱导张力产生。因此,通过涉及ATP水解的水溶性、具有酶活性的肌球蛋白亚片段与肌动蛋白的相互作用可能产生收缩力。
