酵解

jiào jiě
  • glycolysis
酵解酵解
酵解[jiào jiě]
  1. 甘油酸激酶的作用可能是参与糖酵解过程中古菌特有的非磷酸化的ED途径。

    The role of glycerate kinase is probably involved in the glycolysis pathway . 2 .

  2. AA鸡腿肌肉的糖原酵解速率比林甸鸡快。

    Glycogen glycolysis rate of the leg muscle in AA was faster than that in CLNC .

  3. 测定并比较在蔗糖、木糖醇和赤藓糖醇条件下,体外菌斑糖酵解模型产酸液的pH值。

    The pH value of plaque glycolysis model in vitro was measured respectively under the condition of sucrose , xylitol and erythritol . Result : 1 .

  4. 提示CO改变心肌能量代谢途径,增强无氧糖酵解以代偿CO所致的心肌缺氧。

    These results suggest that CO can change the way of cardiac energy metabolism and increase anaerobic glycolysis to compensate for cardiac hypoxia induced by CO.

  5. HIF-1与肌肉糖酵解酶

    HIF-1 and Anaerobic Glycolytic Enzymes of Skeletal Muscles

  6. 猪肌肉组织中糖原酵解酶活性和PSE肉的相关性

    Pig muscle enzyme activities of glycolysis in relation to PSE meat

  7. AKT激活后可通过促进糖酵解和氧化磷酸化提高细胞内ATP水平。

    The activation of AKT can increase total cellular ATP content by induced glycolysis and oxidative phosphorylation .

  8. 葡萄糖糖酵解酶、热休克蛋白(HSP)、磷酶甘油还原酶B(PGMB)及基因疗法可提高机体对缺氧的耐受性和适应性。

    Glucose glycolysis enzyme , HSP , PGM B and gene treatment may increase the tolerance and adaptability of mitochondria to anoxia .

  9. ATP在糖酵解的收获阶段经过两个反应生成,由磷酸甘油酸激酶和丙酮酸激酶催化。

    ATP is formed in the payoff phase of glycolysis by two reactions , promoted by phosphoglycerate kinase and pyruvate kinase .

  10. 低氧高强度训练下大鼠骨骼肌糖酵解酶活性和HIF-1α表达的变化

    Effect of Intense Hypoxia Training on Glycolysis Enzymes Activity and HIF-1 α Expression in Rat Skeletal Muscles

  11. 研究结果显示:长拳自选套路供能特点是由CP、糖酵解和有氧代谢三种供能形式供能;

    The results indicated that the characteristic of energy supply in practice chang-quan is made up of CP ? glycolysis and aerobic metabolism .

  12. 顺式二氢茉莉酮酸甲酯的合成技术改进磷酸烯醇式丙酮酸(PEP)是糖酵解中合成ATP的两种磷酸基的供体之一。

    Phosphoenolpyruvate ( PEP ) is one of the two phosphoryl group donors in the synthesis of ATP during glycolysis .

  13. d.提高组织中丙酮酸激酶活性及降低1,6-二磷酸酶活性,加强细胞内糖酵解和减少糖异生,促进糖原的生成。

    D. improve the activity of PK and lower the activity of fructose-1,6-bisphosphatase from liver , enhance glycolysis and decline glyconeogenesis , promote glycogenesis .

  14. 结果惰性分离胶管法24h以上酵解明显比速效剂法少,差异有显著性;

    Results The glycolysis in inert gel tube at > 24 h was significantly less than that in quick anticoagulant method .

  15. 结论新生儿窒息时糖酵解增加,大量乳酸堆积,导致高AG状态的代酸是窒息酸碱紊乱的最根本原因。

    Conclusion The primary causes of the acid-base imbalance in neonatal asphyxia are the increased glycolysis , large amount of lactic acid accumulation and high AG acidosis .

  16. 鉴定出来的其他蛋白质还参与了基础代谢、防御胁迫、DNA代谢、细胞循环、转录、蛋白质合成、氧化代谢、糖酵解等代谢过程。

    Other proteins took part in the metabolic processes of basal metabolism , defense and stress , DNA metabolism , the cell cycle , transformation , Protein Synthesis , oxidation , glycolysis , and so on .

  17. 异源表达NADH选择性氧化酶提高光滑球拟酵母酵解速率及丙酮酸生产强度

    Significantly increase of glycolytic flux and pyruvate productivity in Torulopsis glabrata by heterologous expression of NADH alternative oxidase

  18. 脓毒症中骨骼肌有氧糖酵解增强与细胞Na~+、K~+、ATP酶活性改变间的关系

    Experimental study on the enhancement of aerobic glycolysis of muscles in sepsis and its relationship with the activity of the intracellular Na + , K + , ATPase

  19. 谷氨酰溶肉瘤素及石蒜碱对小鼠Ehrlich腹水癌细胞的呼吸和酵解的影响

    Effect of n-phthalyl-glutamyl-sarcolysin and lycorine on the respiration and glycolysis of the Ehrlich ascites tumour cells of mouse

  20. 探讨CD147分子参与糖酵解的机制。

    To investigate the mechanism of CD 147 involving in glycolysis . 3 .

  21. NSE是糖酵解途径中重要的酶,它与脑中能量的供应密切相关。

    NSE is proved to be an important enzyme involved in the glycolytic pathway and is closely related to the energy supply for brain .

  22. 目的:探讨不同浓度抗性淀粉(RS),特别在高蛋白饲养模式下,对实验大鼠肠道功能、肠内短链脂肪酸和有害及酵解产物等健康指标的影响。

    AIM : To evaluate the effects of resistant starch ( RS ) fermentation on colon health-related indexes , including bowel functions , luminal short-chain fatty acid production and toxic compounds excretion .

  23. 目的:急性高强度运动中糖酵解反应速度的提高表现为丙酮酸的增加,由于线粒体不能处理高负荷的丙酮酸而产生更多的乳酸,导致体液pH值下降。

    Purpose of study : Acute high-intensity campaign , pyruvate would increase in blood as glycolytic flux , because mitochondria can not handle the high loads pyruvate resulting more lactic acid , resulting in body fluids pH values decline .

  24. 目的克隆恶性疟原虫海南株(FCC1/HN)株糖酵解醛缩酶(ALD)编码区基因。

    Objective To clone , sequence , and express the aldolase ( ALD ) encoding gene of Plasmodium falciparum FCC1 / HN strain .

  25. 而LDH-A是有氧糖酵解中的关键酶。

    LDH-A is the important enzyme in the aerobic glycolysis process .

  26. 1,6-二磷酸果糖(FDP)在体内既是糖酵解代谢中间产物,又是糖代谢的调节物质,改善细胞机能水平和提高机体应激能力。

    FDP is not only the intermediate of the glycolysis , but also the adjustment of the carbohydrate metabolism , which can improve the cell 's function .

  27. 建立湖北籍正常人之红细胞糖无氧酵解途径(EMP)中8种关键酶的正常参考值并应用于临床。

    To establish the normal activity values of eight important red cell enzymes in the Embden-Meyerhof Pathway ( EMP ) in Hubei Province and to apply them for clinic .

  28. 结论:Art引起血吸虫PPa活力的增加,使虫的糖原分解,并抑制LDH使虫糖酵解的终产物乳酸明显减少。

    CONCLUSION : In schistosomes , the increase in the activity of AMP-independent PPa induced by Art may enhance the decomposition of glycogen and the inhibition of LDH by Art could reduce the formalin of lactate .

  29. 青蒿酵解液能抑制MCF-7细胞增殖,最高抑制率达其抑制率最高可达86.7%,最低为10%。

    Artemisia annua glycolysis fluid can inhibit the proliferation of MCF-7 cells , the maximum inhibition rate was the highest inhibition rate of 86.7 % and the lowest was 10 % .

  30. 而HIF-1不仅可调控VEGF的表达、还可调节EPO基因、血红素氧化合成酶1、基因内皮素1基因、糖酵解酶基因等,这些基因是诱导新生血管形成及细胞缺氧反应的重要调控因子。

    HIF-1 can regulate the expression of VEGF and the gene of EPO 、 Endothelin-1 、 oxygen regulated proteins and so on . HIF-1 is an important regulated factor to angiogenesis and cellular hypoxia reaction .