蛋白吸附

  • 网络protein adsorption
蛋白吸附蛋白吸附
  1. 不同PEG含量对mPEG-PLGA-mPEG纳米粒血浆蛋白吸附和体外细胞摄取的影响

    Influence of different PEG contents on the phagocytic uptake and plasma protein adsorption of mPEG-PLGA-mPEG nanoparticles

  2. CM,ACM的蛋白吸附性能受蛋白溶液浓度及吸附时间的影响,随着蛋白溶液浓度的增大微球的吸附量增加。

    The protein adsorption of CM , ACM is affected by protein solution concentration and adsorption time , an accelerated mass adsorption is observed with the protein solution concentration increased for two particles .

  3. 重组Hu蛋白吸附后的抗Hu抗体阳性患者血清。

    Antibodyabsorbed sera from Hu-IgG patients with Hu recombinant protein .

  4. 空气/水界面上大豆11S球蛋白吸附膜的膨胀特性

    Dilatational Properties of Soy 11S Globulin Adsorption Films on Air-Water Interface

  5. 不同流体界面上大豆11S球蛋白吸附膜膨胀黏弹性的比较研究

    Comparison of dilatational elasticity and viscosity of soy 11S globulin adsorbed films at different fluid interfaces

  6. 另外在Ti-O膜表面直接固定吸附白蛋白与肝素,通过AFM,血小板粘附实验、纤维蛋白吸附实验、接触角测试来分析其表面特征。

    In addition , the experiments of albumin directly immobilizing on the surface of Ti-O film were also performed .

  7. 我们将带有聚乙二醇侧基的降冰片烯衍生物单体进行表面聚合,在硅片上得到了聚乙二醇(PEG)接枝的新型梳型聚合物功能薄膜,并考察了该材料的抗蛋白吸附性能。

    Norbornene derivative monomers with polyethylene glycol ( PEG ) modified side chains were polymerized from silicon surface . The protein resistance of the PNb-PEG surface was studied .

  8. 表面等离激元共振(SPR)生物传感器对聚氨酯材料血浆蛋白吸附的实时原位动态研究

    Use of surface plasmon resonace ( spr ) sensor for real time in situ study of adsorption of proteins onto surface of polyurethane

  9. 本文主要研究结论如下:1.利用紫外光照技术和自组装单分子膜技术,直接对PET基材表面进行聚乙二醇官能化改性,图案化后进行蛋白吸附。

    The main research contents are listed as follows : 1 . Protein micropattern was fabricated on the patterned PET surfaces modified with PEG , which was realized by VUV technique and self-assembled monolayer .

  10. 方法制备聚乙二醇(PEG)/蒙脱石(MMT)纳米复合材料,采用X-射线衍射分析PEG/MMT插层复合物的结构;应用合成的纳米复合材料做血脂和血清蛋白吸附实验。

    Methods The structure of PEG / MMT nanocomposite was analyzed by means of X ray diffraction and its effect of blood lipid and albumin adsorption was evaluated in comparison with Na-MMT .

  11. 进而,从纤维的形貌、表面粗糙度、孔隙率、蛋白吸附、酶降解和拉伸性能方面评价了这种PLLA纤维。

    The PLLA fibers are first of all evaluated in terms of fiber morphology , surface roughness , porosity , protein adsorption , enzymatic degradation and tensile properties .

  12. 涂层能够在安全浓度范围内缓慢、持续的释放出Zn离子,并且具有蛋白吸附的双亲性,紫外照射可以进一步提高涂层的蛋白吸附能力。

    Zinc release ability of the coating is slow and sustained in the safe concentration range . Protein adsorption profile showed the coating is amphiphilic , moreover , its adsorption ability could be improved though a simple UV irradiation . 4 .

  13. 复合支架的蛋白吸附量远高于CPC支架,其体外降解速率也远高于CPC支架。复合支架释放出大量的硅、钙、磷离子。

    The protein absorption capability of composite scaffolds was much higher than that of CPC . Faster degradation rate was observed in composite scaffolds , which also released larger amounts of silicon , calcium and phosphate ions .

  14. 结论两种修饰材料具有良好的细胞相容性,其中CGG在细胞体外增殖作用和蛋白吸附作用方面要优于单纯壳聚糖和ZC。

    Conclusion The modified chitosan scaffolds have satisfactory cytocompatibility , the CGG is superior to pure chitosan and ZC in the effects of cellular proliferation and adsorption in vitro .

  15. 金片表面本身可与疏水标记进行相互作用,同时,MPEG(750)-SH可以排斥非特异性蛋白吸附,对目标蛋白酶活性的保持也可以起到一定的作用。

    Gold film surface itself can interact with the hydrophobic markers ; meanwhile , MPEG ( 750 ) - SH can not only resist non-specific protein adsorption , but also play a role in maintaining activity of the target protease .

  16. 蛋白质静态吸附研究:白蛋白一元蛋白吸附实验表明,PEU/LCP复合材料在三种材料中白蛋白的吸附量最多,其次为功能化PVC材料,基材PEU。

    Study on protein adsorption under static condition : In unitary BSA adsorption experiment , it is demonstrated that the amount of the adsorbed BSA on PEU / LCP surface is more than that of PVC and PEU .

  17. 蛋白吸附和体外成骨细胞培养表明改性后的HPPA能促进成骨细胞的生长和提高碱性磷酸酶的活性。

    The method of protein absorption and osteoblast culture in vitro shows : modified HPPA can promote osteoblast growing and increase the activity of AKP .

  18. 本课题选择了生物可降解的聚(丙交酯-乙交酯)共聚物(PLGA)作为共聚物的疏水段,选择可以避免蛋白吸附的,并被FDA批准可用于临床研究的聚乙二醇(PEG)作为亲水段。

    This topic have chosen biodegradable poly ( lactic-co-glycolic acid )( PLGA ) as the hydrophobic segment of copolymer , and polyethylene glycol ( PEG ) as hydrophilic segment , which can avoid protein adsorption and approved by the FDA for clinical application .

  19. 在DLC的5种碳相成分中,类金刚石碳相具有增进Alb吸附、抑制Fg、IgG吸附的双重功效,其对DLC蛋白吸附的影响远大于其它碳相成分;

    In five kinds of carbon phase component , diamond like carbon phase has both effects of enhancing adsorption for Alb and weakening adsorption for Fg and IgG , thus its influence on the adsorption protein for DLC is much more important than that of other phase components ;

  20. 方法用低温等离子体表面改性HPPA,研究材料结构的变化和最佳工艺参数,并用蛋白吸附和体外成骨细胞培养评价其生物活性。

    Method Surface modification of HPPA was done with cold plasma technology , structure change and the best technological parameters of HPPA were analysed and its bioactivity was determined by protein absorption and osteoblast culture in vitro .

  21. 医用高分子材料表面血浆蛋白吸附对血小板粘附的影响

    Effect of Plasma Protein Adsorption on Platelet Adhesion on Polymer Surfaces

  22. 多壁碳纳米管细胞黏附性和蛋白吸附性的初探

    A Study of Cell Adhesion and Protein Adsorptions on Multi-wall Carbon Nanotube

  23. 用戊二醛处理硝酸纤维素膜可以增强蛋白吸附。

    Glutaraldehyde can strengthen the conjugation of NCF with protein .

  24. 护发用品添加剂阳离子蛋白吸附性的初步研究

    Study on the Adsorption of Cationic Protein as a Hair Care Additives

  25. 类金刚石薄膜血液相容性与蛋白吸附的关系研究

    Study on Relationship between Hemocompatibility and Protein Adsorption for DLC

  26. 蛋白吸附再循环系统治疗重型肝炎疗效观察

    Clinical Study of Patients with Severe Hepatitis Treated with Protein Adsorbent Recirculating System

  27. 抗非特异性蛋白吸附两性离子聚合物表面的制备、优化及应用

    Preparation , Optimization and Application of Nonfouling Zwitterionic Surfaces

  28. 树脂填充聚醚砜纤维吸附剂对牛血清蛋白吸附性能的研究

    Studies of adsorption of bovine serum albumin on resin mixed PES fibrous adsorbents

  29. 含碳酸盐氟羟磷灰石与羟基磷灰石对牛血清蛋白吸附特性的研究

    The adsorption characteristics of hydroxyapatite and fluoridated carbonate-containing hydroxyapatite for bovine albumin serum

  30. 微通道较大程度地保持着亲水性和抗蛋白吸附性。

    The microchannel becomes hydrophilic and resists protein adsorption to a high extent .