它的作用机理独特,通过诱导和促进微管蛋白聚合形成稳定结构,从而抑制微管解聚。
It possesses a unique mechanism of action as promoters of tubulin aseembly and inhibitors of microtubule disassembly.
在变圆过程中微管及肌原纤维解聚,自发性收缩停止。
During the rounding process spontaneous contractions stopped and microtubules and myofibrils depolymerized.
结果5f能抑制反应体系吸光值升高,提示它对微管蛋白聚合具有抑制作用并能抑制其解聚。
Results 5f decreased the Absorption values of the reaction system. and markedly inhibited not only tubulin polymerization but also tubulin depolymerization.
微管的动态变化包括解聚成微管蛋白及重组成扁平形微管网。
The dynamic changes, of MT included: MT disaggregated into tubulin, and a flat-shaped microtubules-network was reorganized.
体外兔脑微管蛋白聚合-解聚分析表明,药根碱和小檗碱均能抑制微管蛋白的聚合,且药根碱作用强于小檗碱。
Rabbit brain in vitro tubulin polymerization-depolymerization showed that jatrorrhizine and berberine can inhibit tubulin polymerization, and jatrorrhizine are stronger than that of berberine.
提取兔脑微管蛋白采用比浊发检测功劳木活性成分对微管蛋白聚合-解聚的影响。
We extracted rabbit brain tubulin, and then detected by turbidimetric credit made the active ingredient of mahonia the impact of polymerization - depolymerization of tubulin.
提取兔脑微管蛋白采用比浊发检测功劳木活性成分对微管蛋白聚合-解聚的影响。
We extracted rabbit brain tubulin, and then detected by turbidimetric credit made the active ingredient of mahonia the impact of polymerization - depolymerization of tubulin.
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