用荧光模拟细胞化学方法研究盘形骨菌中肌球蛋白II的体内动态。

Q Chu, Y Fukui
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引用次数: 11

摘要

本研究采用荧光模拟细胞化学方法研究了盘状盘基骨菌体内肌球蛋白II的动态变化。我们用生物素或四甲基罗丹明碘乙酰胺(IATR)标记肌球蛋白。标记的肌球蛋白表现出正常的可逆丝组装和Ca2+和肌动蛋白活化的Mg(2+)- atp酶的活性。我们使用生物素-肌球蛋白作为探针,研究了显微注射对变形虫的影响以及与内源性肌动蛋白细胞骨架的关联能力。生物素-肌凝蛋白结合到某些肌动蛋白群中,并定位于皮层,在极化变形虫的后端积累最多。用tr -肌球蛋白检测活变形虫体内的动态。我们对动态进行了长时间的监测,以确定相应的特定细胞行为的动态重组。tr -肌凝蛋白聚集成位于后端(“肌凝蛋白组织中心”)的离散的肌动蛋白和肌凝蛋白丰富的结构。杆状tr -肌凝蛋白呈线性有序排列,从组织中心发出,约占细胞长度的三分之二。当变形虫移动时,肌凝蛋白阵列表现出动态重组。为了检验观察到的肌球蛋白动力学是否与丝状(F-)肌动蛋白有关,我们用细胞松弛素d破坏了F-肌动蛋白。tr -肌球蛋白(与fitc -葡聚糖)的比值图像表明,肌球蛋白在这些细胞中积聚在皮层,但不形成组织中心。总之,结果表明丝状肌凝蛋白在活细胞质中有序排列,并通过f -肌动蛋白索进行易位,向组织中心聚集。
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In vivo dynamics of myosin II in Dictyostelium by fluorescent analogue cytochemistry.

We used fluorescent analogue cytochemistry to study in vivo dynamics of myosin II in Dictyostelium discoideum. We labeled myosin with biotin or tetramethyl-rhodamine iodoacetamide (IATR). The labeled myosin shows normal activities as reversible filament assembly and Ca2+ and actin-activatable Mg(2+)-ATPase. We used the biotin-myosin as a probe examining the effects of microinjection on the amoebae and the ability to associate with endogenous actin cytoskeleton. The biotin-myosin incorporates into certain actin populations and localizes to the cortex with the highest accumulation in the posterior end of polarized amoebae. The dynamics in live amoebae were probed by TR-myosin. We monitored the dynamics for a long period to determined the dynamic reorganization corresponding specific cellular behaviors. The TR-myosin converges into a discrete actin- and myosin-rich structure located at the posterior end ("myosin-organizing center"). The rod-shaped TR-myosin exhibits linear orderly arrays emanating from the organizing center which extend about two-thirds of the cell length. The myosin arrays show a dynamic reorganization when the amoebae move. To examine if the observed myosin dynamics are related to filamentous (F-) actin, we disrupted the F-actin by cytochalasin D. The ratioed image of TR-myosin (vs. FITC-dextran) demonstrates that myosin in these cells accumulates in the cortex but does not form the organizing center. Overall, the results suggest that the filamentous myosin organizes into orderly arrays in the live cytoplasm and its translocation occurs by means of F-actin cables, converging into the organizing center.

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