负相互作用

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  • negative interaction
负相互作用负相互作用
  1. H2O与NO,CN,OH自由基及负离子相互作用的CP研究

    Study of Intermolecular Interaction between H_2O and NO , CN , OH Radicals and Anions

  2. 提出了将微分方程线性化的方法,同时设计了UPFC内部控制器并进行了仿真分析,结果表明UPFC不同控制器间存在负的相互作用。

    Designed the controller within UPFC and carried on simulation analysis at the same time , the result indicated that there is negative interaction among UPFC different controllers .

  3. 宇宙的形成及演变是正、负能量相互作用的结果。

    The formation and evolution of the universe is the result of the interaction of the positive energy and the negative energy .

  4. 论自由载流子&负U中心相互作用模型作为高Tc氧化物超导体的可能机制

    Free carrier & negative u centre interacting model acts as a possible mechanism of the high t_c oxide superconductor

  5. 本文探讨了自由载流子与负U中心相互作用机制作为高温氧化物超导体的一种近似模写。

    It is argued that the free carrier-negative U center interacting mechanism acts as an approximate description of the high Tc oxide superconductor .

  6. 正离子Gemini表面活性剂/负离子聚电解质相互作用的研究

    Study on the Interaction between Cationic Gemini Surfactant and Anionic Polyelectrolyte

  7. PD-L1能与其负性受体PD-1相互作用抑制T细胞的增殖和活化,尤其能显著降低IL-1、IFN-γ和IL-10等细胞因子的分泌。血糖升高所致的氧化应激使血管脂质沉积,引起血管内皮细胞功能障碍。

    The interaction between PD-1 and PD-L1 suppress the proliferation and activation of autoreactive T cells , which could significantly inhibit the secretion of IL-1 , IFN - γ and IL-10.The oxidative stress caused by hyperglycemia induces the dysfunction of endothelial cells , causing the deposition of lipid in blood-vessel .

  8. P53-Mdm2负反馈回路在DNA损伤的细胞响应方面起重要作用,用一个简单的模型研究了P53-Mdm2负反馈回路相互作用的动力学行为。

    Emphasis is placed on track structure and its relation to the cell end-point , and a simple model proposed to study the dynamical behavior of P53-Mdm2 interaction which plays pivotal role in cellular response to DNA damage .