内糖

内糖内糖
  1. 母亲孕期AR与鼻内糖皮质激素治疗使儿童AR的风险分别增加70%和45%。

    Maternal AR and intranasal corticosteroid use during pregnancy increased the risk of childhood AR by70 % and45 % .

  2. 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 .

  3. MDA的增加表明活性氧增多,活性氧通过使酶失活和膜伤害抑制细胞生长,使细胞内糖利用减少,可溶性糖含量增加,进而反馈性地抑制光合作用。

    Enzyme 's inactive and membrane damage caused by active oxygen inhibit cell growth , as a result soluble carbohydrate 's consumption decreased and its content increased , the soluble carbohydrate inhibit the photosynthesis through feedback inhibition .

  4. 枯草芽孢杆菌在葡萄糖丰富的环境中,胞内糖分解代谢物浓度的提高将引起碳分解代谢物阻遏效应(CCR)及糖吸收的抑制,对核黄素等发酵过程产生不利影响。

    In Bacillus subtilis , raising the amount of carbon catabolite in vivo would lead to carbon catabolite repression ( CCR ) and restrain the absorption of glucose .

  5. 目的:为了解上腹部手术后红细胞内糖酵解通路是否全面受到抑制,观察红细胞内己糖激酶(HK)和磷酸果糖激酶(PFK)活性的变化。

    Objective : In order to investigate whether the glycolysis pathway in RBC is totally inhibited . The perioperative changs of erythrocyte hexokinase ( HK ) and phosphofructokinase ( PFK ) activities were observed .

  6. 不溶质、软溶质和硬溶质的糖酸组分含量没有明显差异,即果实内糖酸含量与果实的质地无关。

    Flesh texture did not affect sugar and acid contents .

  7. 开花前后山茱萸枝条内糖的变化

    Changes of Sugar Content in Common Macrocarpium ( Macrocarpium officinalis ) During Flowering

  8. 中药小檗碱、薯芋皂苷对滋养细胞内糖代谢分子表达的调控

    Regulation of berberine and dioscin in expression of glucose metabolism molecular in trophoblast cells

  9. 人体内糖与运动能力

    Sugar in human body and sport ability

  10. 单糖转运蛋白调节一系列单糖的跨膜运输,这对于整个植株内糖的分布有重要作用。

    Monosaccharide transporters mediate the membrane transport of a variable range of monosaccharides , which plays a crucial role in sugar distribution throughout the plant .

  11. 令人恐慌的新闻使人体内糖皮质激素(皮质醇)呈级联式分泌,导致免疫系统紊乱,抑制生长荷尔蒙分泌。

    Panicky stories spur the release of cascades of glucocorticoid ( cortisol ) . This deregulates your immune system and inhibits the release of growth hormones .

  12. 结论:糖脂平对糖尿病大鼠晶体病变有一定防治效果,作用途径与其降血糖以及改善晶体组织内糖醇代谢有关。

    Conclusions : TZP can protect diabetic rats from lens lesion to a certain degree , which is relative to its hypoglycemic effect and improvement metabolism of sugar alcohols in lens tissue .

  13. 通过对磷酸盐、细胞内糖的变化及有机物厌氧吸收效果的分析,确定内糖(糖原)为该工艺厌氧吸收有机物的主要能量来源。

    On the basis of measuring and analyzing the variation of COD , phosphate and intracellular carbohydrate , it was verified that in both carbohydrate and non-carbohydrate substrate conditions , intracellular carbohydrate ( glycogen ) was used as the main energy source of organics anaerobic absorption and intracellular polymers storage .

  14. 膨大期,叶鞘内总糖的含量显著大于叶片中总糖的含量,增加达18.1%(P<0.05);

    During inflation stage , total-sugar content of sheathes was higher ( above 18.1 % ) than that of leaves ( P < 0.05 ) .

  15. 建立了百合花瓣的总RNA提取和纯化方法,解决了百合花瓣组织器官内多糖、多酚类物质的干扰问题。

    The method for extraction and purification of total RNA from petals of lily flower was developed .

  16. 以上述培养基配方和培养条件进行摇瓶发酵,得到发酵过程中菌丝体生物量、pH值、胞外多糖及胞内多糖含量的变化曲线。

    Under the optimal fermentation condition we got the variation curves of mycelia biomass , pH value , extracellular polysaccharide and endocellular polysaccharide content .

  17. 这时,环境中CO2浓度较高,湿度较大,温度适宜。同时,叶片内可溶性糖含量也较低。

    This changes may be related to higher CO2 concentration , appropriate temperature , greater humility and lower soluble sugar content in leaves during this period .

  18. 西府海棠幼苗根内可溶性糖含量对VA菌根侵染的影响

    Effect of soluble sugar content in

  19. 极大螺旋藻胞内多糖IPSⅡA逆转化疗模型小鼠免疫功能的研究

    Chemo - protective effects of intracellular polysaccharide of Spirulina maxima on immune system of mice

  20. 灵芝胞内多糖高产菌株G7深层发酵工艺的研究

    Investigation of Submerged Fermentation Parameters of Ganoderma Strain G7 of High Yield Intracellular Polysaccharide

  21. 实验结果表明,在相同的THz频段内二糖有着比己糖更多的特征共振吸收峰。

    The experimental results show that the spectra of disaccharide have more characteristic resonances in the same THz region .

  22. 随着果实着色程度增加,果实内可溶性糖、蔗糖、果糖和可滴定酸含量增加,而葡萄糖和Vc含量降低。

    With the increasement of fruit coloration the content of sucrose , fructose , the soluble total sugar and titratable acid increased and that of glucose and vitamin C decreased .

  23. 在果实生长期间,果实内可溶性糖和有机酸含量逐渐增加,单宁含量逐渐下降,Vc含量先增高后下降;

    With the development of fruit , the content of soluble sugar and organic acid increased gradually , the content of tannin decreased gradually , the content of Vc increased firstly then decreased .

  24. 裂褶菌孢内多糖(SPG1)和孢外多糖(SPG2)是分别从发酵培养的裂褶菌菌丝体和发酵液中提取的多糖。

    SPG_1 and SPG_2 are polysaccharides extracted respectively from fermented cultural mycelium and fermentation fluid of Schizophyllum commune .

  25. 胞内多糖经SephadexG-200柱层析后得到两种多糖组分,经测定此两种多糖组分的相对分子质量分别为91000和40500。

    Two kinds of polysaccharides are obtained by Sephadex G-200 column chromatography with molecular weight 91000 and 40500 , respectively .

  26. 应用半固体琼脂培养法和MTT法研究了极大螺旋藻胞内多糖对人血癌细胞U937和HL-60的影响。

    The effects of polysaccharides from Spirulina maxima on the growth of human leukemia cells were studied by semi-solid agar culture and MTT staining .

  27. 至果实采收时,果实内总糖含量不同:以SH(38)、SH5为中间砧的均高于以M(26)、B9为中间砧的。

    At harvest , but varied in amount , the total sugar content of ' Red Fuji ' apple on interstocks SH. 5 , SH. 38 was higher than that of M.26 and B.9 .

  28. 研究了极大螺旋藻(Spirulinamaxima)胞内多糖IPSⅡA对化疗模型小鼠免疫功能的影响。

    The effect of intracellular polysaccharide of Spirulina maxima ( IPS ⅱ A ) on immune system of mice treated by injection of cyclophosphamide ( CTX ) was observed .

  29. 结论:多烯磷脂酰胆碱干预可显著增加NAFLD大鼠脂肪组织TNF-α基因的表达而不利于实验大鼠肝内的糖代谢过程。

    Conclusion : Polyene phosphatidylcholine can significantly increase the expression of TNF - α gene in adipose tissue of NAFLD rats undermining glucose metabolism in liver .

  30. 背景与目的:观察桑黄胞内多糖(PLIP)对体外培养的人白血病细胞K562的增殖抑制作用,并初步探讨其作用机制。

    BACKGROUND & AIM : To examine the inhibitory effects of Phellinus linteus intracellular polysaccharide ( PLIP ) on proliferation of leukemic cell line K562 , and to explore its preliminary mechanisms .