糖胺聚糖

tánɡ àn jù tánɡ
  • glycosaminoglycan;mucopolysaccharide
糖胺聚糖糖胺聚糖
  1. 各实验组和干预组糖胺聚糖含量均低于对照组(P<0.05或P<0.01),但干预组糖胺聚糖含量高于C组(P<0.05)。

    Collagen , elastin and glycosaminoglycan ( GAG ) were significantly lower in group C than in intervention group ( P < 0.05 ) .

  2. 栉孔扇贝裙边糖胺聚糖对血管平滑肌增殖及TNFαmRNA表达的影响

    Effects of scallop skirt glycosaminoglycan on proliferation of vascular smooth muscle cells and the expression of TNF - α mRNA

  3. 壳聚糖(chitosan)与糖胺聚糖分子结构相似,是惟一带正电荷的碱性多糖,其结构类似于糖胺聚糖,而糖胺聚糖和Ⅱ型胶原是髓核细胞外基质中的主要有形成分。

    Chitosan is the only positively charged basic polysaccharide and the molecular structure is similar to glycosaminoglycans .

  4. 软骨细胞外基质(ECM)富含蛋白聚糖、糖胺聚糖、Ⅱ型胶原蛋白及其它成分。

    Cartilage matrix is rich in proteoglycan , glycosaminoglycan , type - ⅱ collagen and other components .

  5. 原发性肝癌组织中糖胺聚糖组成与结构的变化不同云芝菌株菌丝体多糖的单糖组分HPLC分析

    The Composition and Structure Alterations of Glycosaminoglycan in Primary Hepatic Carcinoma ; HPLC analysis of monosaccharide compositions of mycelial polysaccharides from different Trametes versicolor strains

  6. 目的研究由玉足海参提取的糖胺聚糖(GAG)抗血栓形成作用的机制。

    Objective To study the mechanism of antithrombotic effects of holothuria glycosaminoglycan ( GAG ) .

  7. 玻璃酸(HyaluronicAcid,HA)是广泛存在于动物细胞间质中的一种高分子线性糖胺聚糖,由N-乙酰氨基葡糖和葡糖醛酸为双糖单位重复交替连接而成。

    Hyaluronic acid ( HA ) is a linear glycosaminoglycan composed of alternating disaccharide unit containing N-acetylglucosamine and glucuronic acid , found in extracellular matrix of most animals .

  8. 硫酸软骨素(ChondroitinSulfate,CS)为高分子糖胺聚糖的一种,因其较高的生物活性现已应用于临床和医药。

    Chondroitin Sulfate ( CS ), a kind of glycosaminoglycans , has been used in clinical and medicine because of the high biological activities .

  9. 目的探讨胰腺癌糖胺聚糖(GAG)含量及组成成分含量变化的临床意义。

    Objective To investigate the clinical significance of the change in content of glycosaminoglycan and its composition in pancreatic carcinoma .

  10. 结论:牡蛎糖胺聚糖对氧化损伤的血管内皮细胞具有保护作用,其作用机制可能与增加细胞NO含量、减少MDA生成和LDH释放有关。

    Conclusion : O-GAG can protect the VECs from H_2O_2-induced injury . The mechanism may be related with the increase of NO levels and decrease of MDA generation and LDH release .

  11. 目的研究扇贝裙边提取物糖胺聚糖(SSGAG)对血管内皮细胞的保护作用,进而探讨其抗动脉粥样硬化(AS)作用机制。

    Aim To study on the protective effects on vein endothelial cell of scallop skite-glycosaminoglycan ( SS-GAG ) and the mechanism of anti-atherosclerosis action of SS-GAG .

  12. 目的:糖胺聚糖(Glycosaminoglycans,GAGs)是肾小球基底膜的主要组成成分,在维持肾小球滤过屏障正常通透性中起重要作用。

    Objective : Glycosaminoglycans ( GAGs ) are the major component of the glomerular basement membrane .

  13. 用天青A法检测关节软骨中糖胺聚糖(GAG)总量,用放射免疫法测定其中玻璃酸(HA)的含量。

    The contents of glycosaminoglycan ( GAG ) in articular cartilage , were determined by azure A colorimetry method . The contents of hyaluronic acid ( HA ) were measured by radioimmunoassay .

  14. 实验结果表明:采用双酶水解法粗品得率为1.26%,总糖含量为41.4%,糖胺聚糖(GAG)含量为26.9%。

    Results showed that the yield of crude product reached 1.26 % , and the content of total sugar and GAG were 41.4 % and 26.9 % , respectively .

  15. 研究人员发现,当细胞在含有一定木糖化合物的环境生长时,就会产生一种叫做糖胺聚糖(GAG)的长链碳水化合物。

    The researchers have found that when the cells are grown together with certain xylose-containing compounds , they begin to produce long carbohydrate chains called glycosaminoglycans ( GAG ) .

  16. 目的检测先天性肌性斜颈(CongenitalMuscularTorticollis,CMT)胸锁乳突肌细胞外基质胶原及糖胺聚糖(glycosaminoglyc-ans,GAG)的含量变化,探讨其与发病机制的关系。

    Objective To investigate the changes of extracellular matrix , including collagen and glycosaminoglycans , of the sternocleidomastoid muscle in CMT in quantity , and the relationship with the etiological mechanism .

  17. 目的:观察马氏珠母贝(Pinctadamartensis)全肉提取物糖胺聚糖精提物(glycosaminoglycan,GAG)或粗提物(coarseglycosaminoglycan,CGAG)对几种肿瘤的作用。

    AIM : To study the antitumor effect of the crude or the refined extract of glycosaminoglycan ( CGAG or GAG ) from whole viscera of pinctada martensis .

  18. 以马氏珠母贝(Pinctadamartensis(Dunder))全脏器为原料,经丙酮脱脂、酶解、脱色、醇沉、干燥后,得糖胺聚糖粗制品。

    Crude glycosaminoglycans was extracted by acetone defat , enzyme hydrolization , decoloration , ethyl alcohol precipitation and drying with the materials of the whole viscera of Pinctada Martensis .

  19. 分别比较两组患者组内和组间治疗前后临床活动度积分(CAS)、病情严重程度、眼外肌厚度及24h尿中糖胺聚糖(GAG),分析临床疗效。

    The duration of treatment for both groups was approximately 10 months . The parameters including clinical activity score ( CAS )、 thickness of extra-ocular muscle as well as 24 h urinary GAG were used to evaluate the efficacy of treatment in both groups .

  20. 结果:糖胺聚糖粗、精提取物分别对体内S180肉瘤和艾氏腹水癌(EAC)有显著增敏5FU或替加氟的抑瘤作用,抑瘤率分别达61.96%或46.30%;

    RESULTS : GAG reinforced the antitumor effect of 5 FU or Tegafur in S180 or EAC mice , and the inhibitory rates of tumor growth were 61.96 % ( S180 ) and 46.30 % ( EAC ) .

  21. 尿大分子抑制物,特别是糖胺聚糖(Glycosaminoglycans,GAGs),在抑制尿路结石的形成中发挥着重要的作用,GAGs及其类似物在临床上潜在的应用前景受到了人们广泛的关注。

    Urinary macromolecules , especially glycosaminoglycans ( GAGs ) play important roles as inhibitors of urinary stone formation . GAGs and their analogues have attracted considerable interest as potential and promising drug candidates for the prevention and treatment of urolithiasis .

  22. 胰腺癌及其正常组织中糖胺聚糖的对比分析

    The comparative analysis of glycosaminoglycans in normal and carcinomas pancreatic tissues

  23. 糖胺聚糖和Ⅱ型胶原的分泌也随传代次数增加而减少。

    Glycosaminoglycans ( GAG ) and collagen type ⅱ secreted less .

  24. 糖胺聚糖的提取、分离方法

    A review of the methods of extraction and isolation for glycosaminoglycans

  25. 胰腺癌糖胺聚糖及其组成成分测定的意义

    Significance of determination of glycosaminoglycan and its complements in pancreatic carcinoma

  26. Ⅰ型胶原-糖胺聚糖模板的制备与检测

    Preparation and test of type ⅰ collagen-glycosaminoglycan ( GAG ) template

  27. 海参糖胺聚糖抑制血小板&内皮细胞粘附及调节血小板粘附分子表达

    Effect of GAG on Platelet-Endothelial Cell Adhesion and Expression of Adhesion Molecules

  28. 胰岛素对实验性动脉粥样硬化家兔主动脉壁酸性糖胺聚糖含量的影响

    Effects of Insulin on Acidic Glycosaminoglycans Level in Atheromatous Aorta of Rabbits

  29. 聚乙烯醇&胶原复合糖胺聚糖组织工程支架的研究

    Polyvinyl Alcohol-Collagen Composite with Glycosaminoglycan as Scaffolds for Tissue Engineering

  30. 扇贝裙边糖胺聚糖对泡沫细胞抑制作用的研究

    Inhibitory Effects of Glycosaminoglycan from Scallop Skirt on Foam Cell