支架蛋白

zhī jià dàn bái
  • scaffolding protein;scaffold protein
支架蛋白支架蛋白
  1. Ras激酶抑制基因(KSR)是该通路中的一个重要组分,其功能主要是作为一个支架蛋白协调装配包含有丝分裂原活化蛋白激酶(MAPK)及其上游调控子的多蛋白复合体。

    A new component of this pathway which is termed kinase suppressor of Ras ( KSR ) was found in 1995 . KSR is as a scaffolding protein that coordinates the assembly of a multiprotein complex containing mitogen-activated protein kinase ( MAPK ) and its upstream regulators .

  2. Axin是一个多结构域支架蛋白,对Wnt,JNK等信号途径起重要的调控作用,并且还参与了p53的活化。

    Axin , a multi-domain scaffold protein , plays an important role in Wnt and JNK signal pathway and p53 activation .

  3. 不锈钢血管支架蛋白涂层和携带质粒DNA的研究

    Methodological Studies of Protein Coating and Plasmid DNA Delivery Based on Stainless Steel Coronary Stents

  4. 含有铁硫簇的支架蛋白可以把自身的铁硫簇传递给apo形式的铁硫蛋白。

    Iron sulfur clusters could be transfer from pre-assembled scaffold proteins to apo-form iron sulfur proteins .

  5. 背景与目的已有的实验证据表明,Ras激酶抑制剂(kinasesuppressorofRas,KSR)的功能主要是作为一个支架蛋白组装MAPK及其上游调控子形成多蛋白的复合体。

    Background and objective The present experimental data have showed that the function of kinase suppressor of Ras ( KSR ) is mainly as a scaffold protein that coordinates the assembly of a multiprotein complex containing MAPK and its upstream regulators .

  6. 金属支架蛋白涂层介导的血管内局部转基因

    Intravascular Local Gene Transfer Mediated by Protein coated Metallic Stent

  7. 支架蛋白对丝裂原活化蛋白激酶信号途径中震荡的抑制

    Scaffold eliminate the oscillation in the mitogen-activated protein kinase cascades

  8. 猪冠状动脉内金属支架蛋白涂层的生物相容性研究

    The Biocompatibility of Protein Coating Applied to Metallic Stent

  9. 支架蛋白&信号转导系统中的分子胶水

    Scaffold Protein : the Molecular Glue in Signal Transduction

  10. 结论膀胱逼尿肌中网状蛋白、支架蛋白及TGF-β1表达改变均与逼尿肌的功能状态密切相关。

    Conclusions The expression of detrusor vimentin 、 desmin and TGF - β 1 is correlated with bladder detrusor function following BOO .

  11. 在外膜的表面有一层膜支架蛋白,其主要成分为收缩蛋白及肌动蛋白。

    The surface of outer film has egg white of bracket of a film , its bases is contractive albumen and actin .

  12. 它的主要结构包括恒定的展示支架蛋白及通过两端限制性插入的高变肽环。

    Peptide aptamers ( pepaptamers ) are combinatorial recognition molecules that consist of a constant scaffold protein displaying a doubly constrained variable peptide loop .

  13. 现在,精密的实验可以检测到精子中遗传物质和支架蛋白的损伤,提供了一种新的可供选择的诊断方法。

    But now , sophisticated tests can detect damage to sperm 's genetic material and the protein scaffolding that supports it , offering an alternative , helpful set of diagnostic tools .

  14. 目前比较流行的突触发育的模式是一群主要的支架蛋白通过提供多个锚定位点和与肌动蛋白细胞骨架连接位点,将大分子复合物装配在突触后膜。

    A current prevalent model regarding postsynaptic development is that a group of key scaffolding proteins orchestrate the assembly of macromolecular complex at the postsynaptic membrane by providing multiple protein docking sites as well as connections to the actin cytoskeleton .

  15. 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 .

  16. 结论低渗和除垢剂二步法脱细胞是AECM制备的有效方法。脱细胞过程中去除了细胞成分,保留了天然的胶原纤维分布及ECM主要支架成分蛋白多糖、FN和LN。

    Conclusion This method for preparation of bone acellular extra cell matrix is effective , and it can keep natural structure of collagen fibers and maintain components of ECM , such as proteoglycan , FN and LN .

  17. 目的:利用软骨微粒脱细胞基质这种新型支架材料及纤维蛋白胶,体外构建可塑形及具有良好生物相容性的组织工程化软骨。

    AIM : To establish engineered cartilage with good biocompatibility and plasticity in vitro with fibrin glue and a new material of stent made by cartilage microparticle acellular tissue matrix ( CMACTM ) .

  18. 目的:探讨在老年急性心肌梗塞(AMI)急诊经皮冠状动脉介入治疗(PCI)中植入雷帕霉素药物洗脱支架(CypherTM)及普通裸支架对C反应蛋白(CRP)及预后的影响。

    Objective To investigate the effects of rapamycin eluting stent ( Cypher ~ ( TM )) and metal bare stent on the prognosis and C-reactive protein ( CRP ) in elderly patients with acute myocardial infarction ( AMI ) .