肌糖原

jī tánɡ yuán
  • muscle glycogen
肌糖原肌糖原
  1. 肌糖原磷酸化酶a、b亚基的杂交

    Hybridization of the Subunits of Muscle Glycogen Phosphorylase A and B

  2. 运动前肌糖原含量可调控运动诱导的IL-6基因转录。

    Muscle glycogen content before exercise possibly modulated exercise-induced IL-6 gene expression .

  3. 近冰点下牛骨骼肌糖原、pH值、失水率变化及相关性研究

    Correlation study on the Glycogen , pH , and water loss rate of longissimus dorsi muscles of cattle at a temperature close to cryoscopic point

  4. 训练和补剂因素对运动后恢复期大鼠骨骼肌糖原合成酶(GS)活性的影响

    Effects of Exercise Training and Nutritional Supplements on Muscle Glycogen Synthase Activity in Rats

  5. 悬吊组股直肌ⅡB型纤维脂类含量增加(P<0.05),肌糖原、SDH和ALP无明显变化(P>0.05)。

    Lipid in type ⅱ B fibers was al-so increased ( P < 0.05 ) in suspended group .

  6. 探讨格列美脲(GM)在促进正常大鼠骨骼肌糖原合成中对钙调素(CaM)信号的作用。

    To investigate the effect of calmodulin ( CaM ) signal system on the glycogen synthesis in skeletal muscle cells from glimepiride ( GM ) - treated normal rats .

  7. 肌糖原含量影响其自身GTR和GS活性,GTR受TG影响,GS活性比主要受MG影响。

    The content of muscle glycogen influenced the activity of GTR and GS . The TG influenced GTR , while the MG influenced the activity of GS .

  8. 至24d测定肝糖原和肌糖原含量。

    24 days later , liver and muscle glycogen were assayed .

  9. 目的:探讨不同运动训练方式和补剂对骨骼肌糖原合成酶(GS)活性的影响。

    Objective The purpose of this study was to evaluate the effects of different exercise training models and nutritional supplements on the activity of muscle glycogen synthase ( GS ) .

  10. 5h缺血骨胳肌糖原颗粒减少,线粒体肿胀、基质减少,嵴断裂,肌浆网扩张。

    Skeletal muscle of 5 h ischemia showed diminished glycogen granules , swelling of mitochondria , clearing of mitochondrial matrix , breakage of mitochondrial crista and dilatation of sarcoplasmic reticulum .

  11. 方法:采用游泳训练疲劳法制作运动疲劳模型,观察灌胃养肝柔筋方对大鼠肝、肌糖原、血糖、骨骼肌和血液LA、BUN、LDH含量的影响,并与传统糖原填充法对比。

    Methods : The influence of rat 's hepatic and muscle glycogen , blood sugar , LA , BUN , LDH in muscle and blood were observed with sport fatigue model induced by over swimming training , after given filling method .

  12. 结论:运动条件下,增加BCAA的氧化,使心肌中的一些重要的氨基酸含量增加;促进了糖原异生或节约了肌糖原,可能有利于脂肪的氧化。

    Conclusion : The data suggested that enhanced BCAA availability increased some important amino acid contents in myocardium , stimulated glycogenesis or spared glycogen , and fat oxidation could be facilitated .

  13. FLF可以提高游泳恢复24小时后小鼠的肌糖原和肝糖原的含量;降低血乳酸和血清尿素氮的水平;

    FLF can enhance mice liver glycogen and muscle glycogen content , reduce serum urea nitrogen and blood lactic acid content after mice swimed and rest for 24 hours .

  14. 目的研究天津地区中老年人群中肌糖原合酶基因(GYS1)内含子14第377bp多态性与2型糖尿病(2型DM)及其合并高血压的关系。

    Objective To study the association of the polymorphism of the 377 base pair of muscle glycogen synthase gene ( GYS1 ) intron 14 with type 2 diabetes mellitus and complicated with hypertension in the middle-aged and elderly people of Tianjin .

  15. 通过测定小鼠的肌糖原和肝糖原、采用抗肿瘤药物体外筛选试验、小鼠腹腔巨噬细胞吞噬试验,分别研究了灵芝水溶性小分子化合物(WSLMFGL,M<10000Da)的抗疲劳、抗肿瘤和免疫调节活性。

    By means of determining the mouse hepatin in muscle and liver , the in-vitro test of anti-tumor medicine and the phagocytosis test of mouse macrophage , the anti-fatigue , anti-tumor and immunomodulating effects of water-soluble lower molecular fraction of Ganoderma lucidum ( WSLMFGL ) were studied respectively .

  16. 测定了血清睾酮、肌糖原及肝糖原。

    Testosterone of serum , muscle and liver glycogen are measured .

  17. 芦丁对运动条件下小鼠肝糖原和肌糖原含量的影响

    Rutin Effect for Liver Glycogen and Muscle Glycogen of ICR Mice

  18. 低氧和/或运动对肌糖原合成的影响及其机制探究

    Effects of Hypoxia and Exercise on Muscle Glycogen Synthesis and Its Regulating Mechanism

  19. 运动对肌糖原储备不同大鼠血激素的影响

    Effect of Exercise on Blood Hormone in Rats of Different Muscle Glycogen Store

  20. 黄芪水提取液对运动后小鼠肌糖原和血清中肌酐含量的影响

    Effects of the Huangqi extract on the content of muscle glycogen and serum creatinine in postexercise mice

  21. 刺五加皂甙和水飞蓟素提高小鼠运动后即刻肌糖原含量

    Effects of acanthopanax senticosus and silymarin in increasing the content of muscle glycogen in mice immediately after exercise

  22. 方法:进行柳黄酮对小鼠游泳时间、小鼠爬杆时间、血乳酸、血中尿素氮、肝糖原含量和肌糖原含量等的影响实验。

    Methods : the effects of Salix Anthoxanthin on both swimming time and climbing pole on time of the mice were observed .

  23. 结果表明刺五加等中药制剂具有增强运动能力,增加机体对运动的适应能力,并能增加肝糖原和肌糖原的贮备。

    The results indicated that radix acanthopanacis may enhance exercise performance 、 enhance the adaptability of exercise and increase the muscular and hepatic glycogen reserve .

  24. 训练促使斑马鱼肌糖原含量显著增加,加强了运动持久能力,乳酸耐受能力增强,同时加强了无氧代谢能力。

    Training causes the increase of glycogen in muscle and enhances the exercise endurance and the ability of bearing lactate . And also the anaerobic metabolism is enhanced .

  25. 观察塔米尔散对小鼠负重游泳时间、耐常压缺氧时间、耐热时间和血乳酸含量,肝糖原和肌糖原含量等的影响。

    And then the time of forced swimming , hypoxia survival , heat resisting survival , contents of the blood Lactic Acid and glycogen in mice were observed respectively .

  26. 结论:糖尿病动物模型出现糖原代谢异常,表现为肝糖原和肌糖原减少,提示糖原代谢在糖尿病发病过程中起着重要的作用。

    CONCLUSION : Diabetic subjects show impaired glycogen metabolism with the diminished liver glycogen and muscle glycogen contents , which indicates the key role of glycogen metabolism in the pathogenesis of diabetes .

  27. 肌酸补充后骨骼肌糖代谢能力增强,主要表现为血糖降低、骨骼肌糖原合成增强、骨骼肌葡萄糖转运蛋白4的表达上调,以及柠檬酸合酶活性升高。

    The improvement of glucose metabolism after creatine supplement is associated with lower level of blood glucose , glycogen synthesis improvement , up-regulation of glucose transporter 4 and increased citrate synthase activity .

  28. 与阴性对照组比较,蔗糖与配伍组可明显增加运动前(P<0.01,P<0.05)、运动后的肌糖原含量(P<0.05)。

    Compared with control , sucrose and combination sucrose with american ginseng could increase muscle glycogen before or instant after exercise ( P < 0.01 , P < 0.05 ; P < 0.05 ) respectively .

  29. 结果表明,羊肚菌发酵液能明显提高机体糖原储备(肌糖原和肝糖原),使小鼠血红蛋白含量升高,血乳酸含量降低,小鼠运动能力和耐疲劳能力显著加强。

    The results show : fermented morel liquid can remarkably promote the reserve of glycogen in muscle and liver , raise the hemoglobin concentration , reduce the content of blood lactic acid , and greatly enhance the sporting endurance .

  30. 模拟晕船刺激后大鼠血糖显著升高,肝糖原和肌糖原含量显著下降,血清和大脑乳酸浓度显著升高,肌肉乳酸含量下降(P<0.05,P<0.01)。

    In experimental seasickness rats , the levels of blood glucose , serum and cerebral lactate were significantly increased while the contents of muscle lactate , liver and muscle glycogen were significantly decreased ( P < 0.05 , P < 0.01 ) .