acquired resistance

美 [əˈkwaɪərd rɪˈzɪstəns]英 [əˈkwaɪəd rɪˈzɪstəns]
  • 获得(后天)抗病性
acquired resistanceacquired resistance
  1. Plant Systemic Acquired Resistance and Chemical Inducer for Plant Disease Resistance

    植物系统获得抗病性与化学诱导抗病剂

  2. Different inducer , inducing method and inducing concentration have great effect to plant acquired resistance .

    不同的诱导物、诱导方法、诱导浓度对植物获得抗病性有很大影响。

  3. Recent Advance in Plant Disease Resistance and Acquired Resistance System

    植物抗病反应及系统获得抗性研究进展

  4. Study advance in active oxygen species and plant systemic acquired resistance signal transduction

    活性氧与植物系统获得抗性建立的信号传导的研究进展

  5. Research Advances in Salicylic Acid Signaling Mechanisms of Plant Systematic Acquired Resistance

    植物系统获得抗病性的水杨酸信号传递机制研究进展

  6. Ethylene Signal Transduction in Plant Systematic Acquired Resistance and Induced Systemic Resistance

    植物SAR和ISR中的乙烯信号转导网络

  7. Systemic acquired resistance ( SAR ) had been studied in many plant species .

    植物的系统诱导抗病性SAR已进行了大量的研究。

  8. Acquired resistance rate were 76.8 % , 67.5 % , 70.8 % and 77.2 % .

    复治耐药率分别为76.8%、67.5%、70.8%、77.2%。

  9. Systemic acquired resistance in plants and its induction by chemicals

    植物系统获得性抗病及其化学诱导

  10. The Role of Salicylic Acid in Systemic Acquired Resistance Signaling Pathways

    水杨酸在诱导系统获得抗性中的信号传导作用

  11. Celecoxib prevents the acquired resistance of human breast cancer cell line MCF-7

    塞来昔布预防MCF-7细胞获得性耐药发生

  12. Systemic Acquired Resistance and Signal Transduction in Plant

    植物系统性获得抗性及其信号转导途径

  13. Mechanisms and pathways of plant systemic acquired resistance

    植物系统性获得抗病性的产生机理和途径

  14. Signals for systemic acquired resistance in plants

    植物系统获得抗性中的信号

  15. Systemic acquired resistance induced by a new kind of 90 kD extracellular elicitor protein

    一种新的90kD胞外蛋白激发子诱导烟草系统获得抗性研究

  16. Inducing the Systemic Acquired Resistance ( SAR ) has already been available to control the disease .

    诱导抗性是一种控制植物病害的有效方法。

  17. Proteins and Genes Expression Difference of Induced Systemic Acquired Resistance in Wheat Against Powdery Mildew

    小麦对白粉病诱导抗性体系中蛋白质与基因的表达差异研究

  18. Acquired resistance rate was 72.62 % . The rate of acquired resistance to all the four drugs was 30.95 % .

    获得性耐药率72.62%,4药全部耐药者占30.95%。

  19. Proteomics of the systemic acquired resistance of soybean induced by Phytophthora sojae

    大豆疫霉菌诱导的大豆系统获得抗性的蛋白质组学研究

  20. Proteasome inhibitor MG-132 reverses acquired resistance to TRAIL in human colon cancer cells

    蛋白酶体抑制剂MG-132逆转人结肠癌细胞获得性TRAIL耐药

  21. Plant systemic acquired resistance to insect and a cross-talk between pathogen and insect resistance signal molecules

    植物对虫害的系统获得性抗性及抗虫与抗病信号途径间的相互作用

  22. Systemic acquired resistance ( SAR ) mediated by SA can be induced by activator protein .

    激活蛋白诱导水稻启动了水杨酸介导的系统获得抗性(SystemicAcquiredResistance,SAR)反应。

  23. Systemic Acquired Resistance and Hypersensitive Response Induced by 90 kD Elicitor Protein from Phytophthora

    疫霉90kD蛋白激发子诱导过敏反应和系统获得抗性分子机制研究

  24. Pseudomonas aeruginosa is an opportunistic pathogen which has both intrinsic resistance and acquired resistance .

    铜绿假单胞菌作为一种常见的条件致病菌,本身具有内在耐药性和获得性耐药性。

  25. To study the different gene expression profile of K562 cells resistance to STI571 and to investigate the potential mechanism of acquired resistance .

    目的研究STI571诱导K562细胞耐药前后基因差异表达情况,探讨其耐药机制。

  26. The acquired resistance to Balofloxacin may mainly relate to the shift of biosynthesis of amino acids and proteins .

    细菌对巴洛沙星耐药性的获得可能更主要的是与蛋白质的生物合成的改变有关。

  27. Benzothiadiazole-induced Systemic Acquired Resistance in Rice Against Xanthomonas oryzae pv . oryzae

    苯并噻二唑诱发水稻对白叶枯病的系统获得抗性

  28. There are two types of mechanism of plant disease resistance , hypersensitive response ( HR ) and systemic acquired resistance ( SAR ) .

    植物中普遍存在的抗病机制有两种,即过敏反应(HR)和系统获得性抗性(SAR)。

  29. Hypersensitive response ( HR ) and systemic acquired resistance ( SAR ) are the typical representation of plant defense reactions .

    植物在同病原物竞争进化过程中,已形成一系列防御机制,过敏反应(HR)和系统获得抗性(SAR)就是这种防御机制的典型表现。

  30. Whether Beijing genotype strain has a selective advantage over other genotypes in acquired resistance and higher pathogenicity remain to be answered .

    北京基因型菌株与其他基因型相比是否在获得性耐药和高致病性基因上有选择性优势有待回答。