细胞信号转导

xì bāo xìn hào zhuǎn dǎo
  • cell-cell signaling
细胞信号转导细胞信号转导
  1. K离子通道在剪切力诱导血管内皮细胞信号转导中的作用

    Effects of potassium channel on shear stress-induced signal transduction in vascular endothelial cells

  2. G蛋白和H2O2在保卫细胞信号转导中的关系

    The Relationship of G Protein and H_2O_2 in Guard Cell Signal Transduction

  3. Scaffold蛋白介导细胞信号转导专一性的定量分析

    The quantitative analysis of specificity in scaffold - mediated cell signaling

  4. G蛋白偶联信号转导系统是一类重要的细胞信号转导途径,参与许多重要生命活动的调节。

    G protein coupled signaling is an important signal pathway , and is involved in regulating many activities in plant cells .

  5. PI3K在CD3mAb活化T细胞信号转导中的作用

    Role of PI3K in the signal transduction pathway of T cells activated by CD_3mAb

  6. G蛋白和CaM是植物细胞信号转导中的两个重要的信号组分,它们参与细胞的多种反应,具有重要的生理功能。

    G protein and calmodulin are two important signal molecules , they implicated in many cellular processes and have essential physiological functions in plant .

  7. 近年来,植物G蛋白(包括异三聚体G蛋白和小G蛋白)的存在及其信号调控途径已经成为人们研究细胞信号转导过程的热点问题。

    The presence of plant G proteins and their signaling have become a hot topic regarding the research on cell signaling in plants In recent years .

  8. 细胞信号转导分子在TNF-α诱导c-jun基因表达中的作用

    Signal Transduction in TNF - α induced c-jun Gene Expression

  9. 丝裂原活化蛋白激酶(mitogen-activatedproteinKinase)作为重要的细胞信号转导分子广泛参与生理过程的调控。

    MAPK ( mitogen-activated protein kinase pathways ) play an important role in regulation of physiological process as signal transduction molecules .

  10. 蛋白酪氨酸激酶(proteintyrosinekinases,PTK)是细胞信号转导过程中极为重要的物质,具有多种细胞功能。

    Protein tyrosine kinases with a variety of cell functions are extremely important materials in signal transduction .

  11. Ca2+,cAMP和cGMP细胞信号转导是其抑制LEC增殖的重要分子机制;

    Signal transductions of I , cAMP , cGMP may be the important molecular mechanism .

  12. 结论:针刺能刺激大鼠胃黏膜细胞信号转导通路中蛋白激酶C的活化,并且存在经脉-脏腑的特异性联系。

    CONCLUSION : The acupuncture can stimulate the activation of PKC in gastric mucous cell signal conductive pathway of rats , and there is a special correlation between meridian and internal organs .

  13. 从植物细胞信号转导、发育和基因表达等3个方面讨论了CaM激酶在植物体内的生理功能。

    It is suggested that in plants , CaM kinase may play an important role in plant signal transduction , growth and development and gene expressions .

  14. 目的:探讨脾虚证MAPK细胞信号转导的规律。

    Objective : To investigate the changes of MAPK signal transduction in the syndrome of spleen-Qi deficiency .

  15. HCC发生的分子机制一直不很清楚,目前对HCC的研究主要集中在肿瘤相关基因的克隆、细胞信号转导通路和细胞周期调控等三个方面。

    Currently , the research of HCC is concentrated on related gene cloning , cellular signal transformation pathway and regulation of cell cycle .

  16. 结论:脾阳虚证状态下,机体各脏器组织MAPK参与的细胞信号转导发生不同的改变。

    Conclusion : The changes of the MAPK signal transduction in the syndrome of spleen-Yang deficiency are different among different tissues .

  17. 目的观察结核杆菌抗原(MtbAg)活化的γδT细胞信号转导分子ZAP70酪氨酸磷酸化的特点。

    Objective To observe the dynamics of phosphorylation of ZAP-70 in γδ T cells activated by Mycobacterium tuberculosis antigen ( Mtb-Ag ) .

  18. 高表达基因编码蛋白质参与细胞信号转导、前mRNA加工和细胞骨架组装,低表达基因编码蛋白质与机体T淋巴细胞介导的免疫反应有关。

    The protein coded by highly expressed gene may take part in regulation in signal transduction , pre-mRNA processing and cytoskeleton assembly , and the other one involved in CD8 + - T-Cell-Mediated immune response .

  19. 沉默DNA-PKcs对细胞信号转导相关基因转录的影响

    Silencing of DNA-PKcs Alters the Transcriptional Profile of Signal Transduction Associated Genes in HeLa Cells

  20. 配体-受体结合(ligand-receptorbinding,LRB)是细胞信号转导的初始步骤。

    Ligand-receptor binding ( LRB ) is the initial step of signal transduction in cells .

  21. PTEN蛋白参与多种细胞信号转导通路的调节,与细胞的生长、分化和肿瘤的发生密切相关。

    PTEN protein participates in adjusting many kinds of cell signal - transduction pathway and is closely related to cellular growth , differentiation , and carcinogenesis .

  22. 蛋白激酶C(proteinkinasec,PKC)是参与细胞信号转导的重要因子之一,与细胞生长、增殖、分化、凋亡、基因表达、离子通道调节等一系列生理反应相关。

    Protein kinase c ( PKC ) family transduce the myriad of signals mediated by phospholipids and play important roles in a variety of cellular functions including cell growth , proliferation , differentiation , apoptosis and gene expression .

  23. 细胞信号转导是胞膜窖/窖蛋白(caveolae/caveolin-1)最重要的生理功能之一。

    It is one of the most important physiology functions of caveolae / caveolin-1 that the cell signal transduction .

  24. 目的:研究低氧诱导因子-1Α(HIF-1Α)在低氧预处理(HPC)诱导心肌血管生成中的作用,并探讨其细胞信号转导的机制。

    AIM : To investigate the relationship between the expression of hypoxia - inducible factor-1 α ( HIF-1 α) and myocardial angiogenesis induced by hypoxic preconditioning ( HPC ) .

  25. P2X7受体参与细胞信号转导,具有多种生理功能。

    P2X_7 takes part in cell signaling and has multiple physiological functions .

  26. 此外PSA对于细胞信号转导、蛋白质转运、主要组织相容性复合物I(MHCI)的处理、细胞周期调节、胚胎发育都有重要作用。

    Furthermore , PSA played an important role in embryogenesis and reproduction , cellular signaling , protein transportation , regulation of major histocompatibility complex ⅰ ( MHC I ) and cell cycle .

  27. 皮肤光老化的分子机制之一,是UVA和UVB通过激活细胞信号转导通路诱导表皮角质形成细胞和真皮成纤维细胞MMPs的基因转录。

    One molecular mechanism of skin photoaging is that UVA and UVB induce MMPs gene transcription of epidermal keratinocytes and dermal fibroblasts through activating cellular signal transduction pathways .

  28. PIP2是细胞信号转导通路中的关键调节因子,经磷脂酶C(PLC)水解后可生成DAG及IP3,二者可作为第二信使,分别激活PKC与促使细胞内钙库释钙。

    PIP_2 is a pivotal regulator in cell signaling pathway . DAG and IP_3 , which are generated from PIP_2 hydrolysis by PLC , act as second messengers to activate PKC and induce intracellular Ca release , respectively .

  29. SH2(srchomology2)结构域是细胞信号转导中重要的元件之一,人SH2结构域共有约120种,对其进行研究将深刻揭示细胞信号转导的规律。

    SH2 ( Src homology 2 ) domain was an important element in signal transduction and there were about 120 SH2 domains in human cells .

  30. 最后,本文所建立的相关动力学模型可以被进一步推广到CREB依赖的更广泛的细胞信号转导网络的研究中。

    It is important to note here that the above-proposed models in this dissertation can be further extended to more extensive studies of CREB-dependent signal transduction networks .