原创《大负荷运动对大鼠骨骼肌线粒体融合和分裂蛋白影响》:这是一篇与线粒体论文范文相关的免费优秀学术论文范文资料,为你的论文写作提供参考。
摘 要:观察大负荷运动后不同时间点骨骼肌线粒体融合和分裂蛋白的变化,分析和探究线粒体融合和分裂之间的关系及其生理意义.方法:56只SD大鼠经适应后分安静对照组(8只)和运动组(48只),运动模型为一次中大强度离心跑台运动,-16°,20 m/min,90 min.运动大鼠分别在运动后即刻、6 h、12 h、24 h、48 h和72 h(各时间点8只)取比目鱼肌.Western blotting方法分析骨骼肌Mfn1、Mfn2、Opa1、Fis1和Drp1的蛋白表达.结果:Mfn1蛋白在运动后即刻表达升高,而后降低,72 h为最低点;Mfn2蛋白在运动后呈先降后升的变化趋势;Opa1蛋白在运动后表达先降低后升高,24 h为最高点,而后逐渐降低;Drp1蛋白在运动后表达升高,6 h出现高峰,而后逐渐降低;Fis1蛋白在运动后表达升高,12 h为最高点,而后在48 h和72 h表达降低.结论:一次大负荷运动后大鼠骨骼肌线粒体融合、分裂失衡,主要表现为线粒体分裂增强、线粒体融合抑制;而在运动恢复期,骨骼肌线粒体融合、分裂之间重塑平衡状态.
关键词: 大负荷运动;骨骼肌;线粒体;动力学;融合;分裂
中图分类号: G 804文章编号:1009783X(2016)02016705文献标志码: A
Abstract:The purpose of this study was to investigate the changes of mitochondrial fusion and fission in skeletal muscle induced by highload exercise,and to analyze the relations of mitochondrial fusion and fission.Methods:56 SD rats were divided into two groups:control group (8) and exercise group (48).The rats should run on the treadmill,16 °,20m / min,90 minutes.The soleus were taken after exercise immediately,6 hours,12 hours,24 hours,48 hours and 72hours from the rats in exercise groups.WB was used to detect the protein expressions of Mfn1,Mfn2,Opa1,Fis1 and Drp1.Results:The expression of Mfn1 protein increased after the exercise,and then decreased gradually.And the lowest appeared at 72hour after the exercise.There were not remarkable changes of the expression of Mfn2 protein.The expression of Opa1 protein decreased after the exercise,and then increased gradually.And the highest appeared at 24hour after the exercise.The expression of Fis1 protein increased after the exercise,and the peak was at 12hour.But the expressions decreased at 48hour and 72hour after the exercise.Conclusion:A bout of highload exercise leads to imbalanced mitochondrial fission and fusion in skeletal muscle,shown by the enhanced mitochondrial fission and the declined mitochondrial fusion.And the balance of mitochondrial fusion and fission rebuilds after the exercise.
Keywords:highload exercise;skeletal muscle;mitochondria;dynamics;fusion;fission
生物体的很多生命活动,例如细胞能量代谢、发育和凋亡等,都和线粒体繁复的网络结构有着密切的关系.线粒体是一种高度动态的细胞器,其形态时刻都处于变化中.它通过不断的融合分裂,使其形态、分布、数量等都发生着改变,进而通过其氧化磷酸化产生ATP以适应运动过程能量需求的变化[1].线粒体融合和分裂的动态过程通常被称为线粒体动力学(mitochondrial dynamics),它对细胞能量代谢和收缩功能的维持起着至关重要的作用[2].
现已发现一些线粒体动力学相关蛋白参和线粒体融合、分裂的精细调控.参和线粒体融合的蛋白主要包括线粒体融合蛋白1/2(Mfn1/2,mitofusin1/2)和视神经萎缩相关蛋白1(optic atrophy1,Opa1).Mfn1和Mfn2位于线粒体外膜,主要调节线粒体外膜的融合;Opa1 主要调节线粒体内膜的融合.线粒体分裂相关蛋白则包括动力相关蛋白1(dynaminrelated protein 1,Drp1)和分裂蛋白1(fission protein1,Fis1).两者共同参和线粒体外膜的分裂程序.
线粒体论文参考资料:
结论:大负荷运动对大鼠骨骼肌线粒体融合和分裂蛋白影响为关于线粒体方面的论文题目、论文提纲、线粒体病有康复的人吗论文开题报告、文献综述、参考文献的相关大学硕士和本科毕业论文。
